Your search keyword '"William Anderst"' showing total 130 results

1. Within-subject effects of standardized prosthetic socket modifications on physical function and patient-reported outcomes

Author

William Anderst, Goeran Fiedler, Kentaro Onishi, Gina McKernan, Tom Gale, and Paige Paulus

Subjects

Limb prosthetics, Motion analysis, Dynamic radiography, Randomized controlled trial, Medicine (General), R5-920

Abstract

Abstract Background Among the challenges of living with lower limb loss is the increased risk of long-term health problems that can be either attributed directly to the amputation surgery and/or prosthetic rehabilitation or indirectly to a disability-induced sedentary lifestyle. These problems are exacerbated by poorly fit prosthetic sockets. There is a knowledge gap regarding how the socket design affects in-socket mechanics and how in-socket mechanics affect patient-reported comfort and function. The objectives of this study are (1) to gain a better understanding of how in-socket mechanics of the residual limb in transfemoral amputees are related to patient-reported comfort and function, (2) to identify clinical tests that can streamline the socket design process, and (3) to evaluate the efficacy and cost of a novel, quantitatively informed socket optimization process. Methods Users of transfemoral prostheses will be asked to walk on a treadmill wearing their current socket plus 8 different check sockets with designed changes in different structural measurements that are likely to induce changes in residual limb motion, skin strain, and pressure distribution within the socket. Dynamic biplane radiography and pressure sensors will be used to measure in-socket residual limb mechanics. Patient-reported outcomes will also be collected after wearing each socket. The effects of in-socket mechanics on both physical function and patient-reported outcomes (aim 1) will be assessed using a generalized linear model. Partial correlation analysis will be used to examine the association between research-grade measurements and readily available clinical measurements (aim 2). In order to compare the new quantitative design method to the standard of care, patient-reported outcomes and cost will be compared between the two methods, utilizing the Wilcoxon-Mann-Whitney non-parametric test (aim 3). Discussion Knowledge on how prosthetic socket modifications affect residual bone and skin biomechanics itself can be applied to devise future socket designs, and the methodology can be used to investigate and improve such designs, past and present. Apart from saving time and costs, this may result in better prosthetic socket fit for a large patient population, thus increasing their mobility, participation, and overall health-related quality of life. Trial registration ClinicalTrials.gov NCT05041998 . Date of registration: Sept 13, 2021.

Published

2022

2. Manual and Visual Clinical Assessment of Foot Type and Posture Correlate Poorly with Radiographic Assessment

Author

Steve Bayer, Clarissa LeVasseur, Maria Munsch MD, Stephen Chen MD, Christopher D. Murawski MD, Conor I. Murphy MD, Dukens LaBaze MD, Alexandra Gabrielli MD, MS, Gillian Kane, William Anderst PhD, and MaCalus V. Hogan MD, MBA, FAAOS, FAOA

Subjects

Orthopedic surgery, RD701-811

Abstract

Category: Midfoot/Forefoot; Hindfoot Introduction/Purpose: Accurate characterization of foot type can facilitate identification of patients at risk for different foot disorders and direct operative treatment. Foot type can be determined qualitatively with visual assessment and quantitatively using arch index (AI), calcaneal pitch (CP), Meary's angle (MA), and foot posture index (FPI). Agreement between various foot typing measures is unclear. The purpose of this study was to assess the agreement between different measurements of foot type. We hypothesized that quantitative measures would have better interrater reliability than qualitative measures, and that visual assessment of foot type would be strongly correlated with radiographic assessment. Methods: Bilateral foot photographs were acquired from 92 asymptomatic participants (50 men, 42 women, mean age of 43.3+- 18.6 years) to assess photographic arch type (PAT) and photographic foot posture (PFP). Hindfoot alignment and lateral radiographs were acquired of each foot to assess calcaneal pitch (CP), Meary's angle (MA), x-ray foot posture (XFP), and x-ray arch type (XAT). Photographs and radiographs were assessed by five reviewers in random order. Foot Posture Index (FPI) was determined through manual exam. Arch Index (AI) was measured on lightbox images. Interrater reliability was assessed using Intraclass Correlation Coefficient (ICC) for continuous variables and Kendall's W for categorical variables. Correlations between measures and sensitivity/specificity were assessed using calcaneal pitch as the reference standard with cavus feet >= 26 degrees and planus feet measuring

Published

2022

3. An In Vivo Biomechanical Analysis of Syndesmotic Surgical Repair in Elite Athletes: Screw versus Suture Button Fixation

Author

Stephen P. Canton, Tom Gale PhD, Dukens LaBaze BS, William Anderst PhD, and MaCalus V. Hogan MD

Subjects

Orthopedic surgery, RD701-811

Abstract

Category: Trauma; Basic Sciences/Biologics Introduction/Purpose: Syndesmotic injuries account for 1-11% of all ankle sprains and are the most predictive factor of chronic ankle dysfunction 6 months after injury. Common surgical techniques include screw fixation (the ‘gold standard’) and dynamic fixation with a suture button device, which may lead to better clinical outcomes than rigid screw. To date, there are no studies comparing the in vivo biomechanics of suture button and rigid screw syndesmotic fixation, and no report of the correlations between biomechanics and patient outcomes. The goal of this study is to characterize the biomechanics of the native ankle syndesmosis, rigid screw fixation, suture button fixation, along with associated patient-reported outcomes. This study will elucidate mechanisms for improved patient-reported outcomes based on the fixation method. Methods: 6 patients (average age:23.6, 4M/1F, 2 suture button, 2 screw fixation and 1 hybrid) consented to participate in this IRB-approved study. After being medically cleared to return to full athletic participation, each participant performed seven movements (two single leg hops (straight and lateral), two alternating single-leg push-offs (front-to-back and side-to-side), vertical jumping, running, and walking within a biplane radiographic system (Figure 1). A validated volumetric model-based tracking system matched patient-specific 3D bone models (obtained from CT) to the synchronized biplane radiographs (Figure 1). Six degree of freedom ankle kinematics were determined for each movement and for the repaired and contralateral ankle of each participant. Patient reported outcomes were also measured using the Foot and Ankle Ability Measure (FAAM) and a Visual Analogue Scale (VAS). Results: The results show that the screw fixation (-0.99 mm) has greater tibiotalar lateral-medial translation of the injured side relative contralateral healthy side compared to the tightrope fixation (-0.73 mm) and hybrid (.05 mm). For the syndesmosis translation, the screw fixation (2.00 mm) also exhibits greater total magnitude of translation compared to the tightrope ((-0.44 mm) and hybrid fixation (1.02 mm). Conclusion: This study shows that the screw fixation exhibits greater translation of the syndemosis and lateral/medial translation of the Talus. This may suggest that this method is inferior to the tight-rope and hybrtid. Future studies will include all the motions and more subjects.

Published

2020

4. A Comparison of Arch Index, Foot Posture Index and Surgeon Observation for Foot Type Classification

Author

Dukens LaBaze BS, Alexandra Gabrielli MD, MS, William Anderst PhD, and MaCalus V. Hogan MD

Subjects

Orthopedic surgery, RD701-811

Abstract

Category: Basic Sciences/Biologics Introduction/Purpose: Foot morphology is a key aspect of patient evaluation. Individuals with Pes planus usually have medial foot pain; those with Pes Cavus commonly have pain over lateral foot. Foot Posture Index (FPI) is a qualitative measure that uses six specific physical exam parameters. Arch index (AI) is a quantitative measure in which the footprint is photographed and measured. Radiographs allow for visualization of the bone and used to directly measure parameters of foot morphology such as calcaneal pitch (CP). The purpose of this study was to determine the sensitivity and specificity of surgeon observation, FPI, and AI in determining foot type, with CP serving as the reference standard. Our hypothesis is that surgeon observation will be more sensitive and specific than FPI and AI for identifying foot type. Methods: Following institutional review board approval and informed consent, we examined 41 adults (82 Feet) (average age 37.8+-17.6 yrs.; range: 20 to 68 years old; 20F/21M) without history of prior foot or ankle injury. Subject evaluation included bilateral FPI exam, lateral and hindfoot standing radiographs, pedographs, and weightbearing photographs. Three authors were trained to perform standardized FPI assessments. The radiographs and photographs were presented in a randomized order to a board-certified foot and ankle orthopaedic surgeon to classify a foot as either planus, cavus or normal (Figure 1). Calcaneal pitch was measured for each foot by finding the angle between the inferior surface of the calcaneus and the supporting surface, with normal classified as 18°-32°, planus 32°[2,3]. Arch index was calculated for each foot from pedograph, with normal classified as 0.21 to 0.28, planus < 0.21 and cavus >0.28. Results: The gold standard calcaneal pitch measurements identified 12 planus, 57 normal, and 13 cavus feet. Surgeon observation was the most sensitive for identifying planus feet and most specific for identifying cavus feet (Table 1). Arch index was the most sensitive for identifying cavus feet and most specific for identifying both planus and normal feet. FPI was most sensitive for identifying normal feet. The correlation between raw scores on the FPI and AI to CP were weak to moderate, -0.387 and -0.526, respectively (p

Published

2020

5. Foot Loading Symmetry is Improved after Unicompartmental Knee Arthroplasty

Author

Dukens LaBaze BS, Milad Zarei MS, Ken Urish MD, PhD, William Anderst PhD, and MaCalus V. Hogan MD

Subjects

Orthopedic surgery, RD701-811

Abstract

Category: Basic Sciences/Biologics; Midfoot/Forefoot Introduction/Purpose: Unicompartmental Knee Arthroplasty (UKA) is a surgical option for osteoarthritis in a single compartment of the knee. Compared to Total Knee Arthroplasty (TKA), UKA is less expensive, retains the cruciate ligaments and results in lower post-operative morbidity.[1] It has been reported that about 10 percent of UKAs require revision to TKA for multiple reasons. In TKA, ankle alignment has demonstrated a significant effect on outcomes and function. [2] Plantar pressure, a measure of foot and ankle loading, changes after TKAs but has yet to be evaluated in UKAs. The purpose of this study is to evaluate the effects of medial UKA on plantar pressure which may be a variable that contributes to revisions in these patients. Methods: Following IRB approval and informed consent, we evaluated 7 adults (14 Feet) (average age 62; range: 54 to 68 years old; 4F/ 3M). All participants walked at a self-selected speed pre surgery and 7 months post-surgery. The Pedar insole pressure system (Novel), with 99 sensors per insole, was used to collect bilateral plantar pressure during gait at 100 Hz. All participants wore the same type of shoes (Nike Zoom) for the test. The insole was divided into 9 regions for analysis2 (Figure 1). The maximum pressure (MP) within each foot region was calculated for each step and averaged over all steps. Paired and unpaired t- tests were performed to identify differences in the MP from pre to post-op and between operated and contralateral sides, respectively. Results: An average of 24 steps were recorded from each patient pre and post operatively. MP became more symmetrical between feet post-operatively, with significant improvements in bilateral symmetry observed in the medial heel, medial and lateral forefoot regions (all p

Published

2020

6. Bilateral Symmetry, Sex Differences, and Primary Shape Factors in Ankle and Hindfoot Bone Morphology

Author

Alexandra S. Gabrielli MD, Tom Gale MS, MaCalus Hogan MD, and William Anderst PhD

Subjects

Orthopedic surgery, RD701-811

Abstract

Background: Ankle injuries and joint degeneration may be related to ankle bone morphology. Little data exist to characterize healthy hindfoot bone morphology. The purpose of this study was to characterize side-to-side symmetry and sex differences in ankle and hindfoot bone morphology, and to identify the primary shape factors that differentiate ankle and hindfoot bone morphology among individuals. Methods: Computed tomography was used to create 3D surface models of the distal tibia, talus, and calcaneus for 40 ankle and hindfoot bones from 20 healthy individuals. Morphologic differences between left and right bones of the same individual and between males and females were determined. Statistical shape modeling was performed to identify primary shape variations among individuals. Results: Side-to-side differences in bone morphology averaged 0.79 mm or less. The average distal tibia in males was larger overall than in females. No significant sex difference was noted in the tali. The average female calcaneus was longer and thinner than the average male calcaneus. Variability in ankle and hindfoot bone morphology is primarily associated with articulating surface shape, overall length and width, and tendon/ligament attachment points. Conclusion: In general, the contralateral ankle can serve as an accurate guide for operative restoration of native ankle morphology; however, specific regions demonstrate higher asymmetry. Clinical Relevance: Knowledge of regions of high and low bilateral symmetry can improve hindfoot and ankle reconstruction. Design of ankle prostheses can be improved by accounting for differences in bone morphology associated with sex and shape differences among individuals.

Published

2020

7. Bilateral Symmetry and Sex Differences in Ankle Kinematics During the Stance Phase of Gait

Author

Alexandra S. Gabrielli MD, Alexandra Maxim, Tom Gale, Clarissa LeVasseur, MaCalus Hogan MD, and William Anderst PhD

Subjects

Orthopedic surgery, RD701-811

Abstract

Category: Ankle, Hindfoot Introduction/Purpose: Restoration of bilateral symmetry is used clinically to evaluate surgical and conservative treatment outcomes. However, the degree of symmetry and differences between sexes in ankle kinematics in healthy individuals remain unknown. Because relative motion between the tibia, talus and calcaneus cannot be accurately measured using conventional skin- mounted motion capture systems, biplane radiography is emerging as the preferred technique to measure in vivo ankle kinematics during functional activities. Therefore, the aims of the present study were to use biplane radiography to determine the degree of bilateral symmetry in ankle kinematics in healthy individuals and to identify sex-dependent differences in kinematics during the support phase of gait. It was hypothesized that rotational ankle range of motion (ROM) during gait is not different between males and females. Methods: Twenty healthy individuals (10 male, 10 female, age 30.7 ± 6.3years) with no history of ankle injury provided consent to participate in this IRB-approved study. Each participant walked through a biplane radiography system 6 times at a self-selected pace (1.3±0.2 m/s). Synchronized radiographs of the ankle were collected at 100 images/second for 3 trials of each ankle (90 kV, 125 mA, 1 ms exposure/image). Motion of the tibia, talus and calcaneus was tracked using a validated model-based tracking process that matches 3D bone models to the radiographs. Anatomic coordinate systems were created and used to calculate ankle kinematics. All kinematics were converted to percent stance phase and averaged over all trials for each ankle. Bilateral symmetry was determined by calculating the average absolute difference between right and left ankle joint kinematics over the full support phase of gait. Differences between male and female rotational ROM were identified using unpaired t-tests. Results: The average absolute side-to-side difference in tibio-talar joint rotations was 3.3° or less, while the average absolute side-to-side difference in subtalar joint rotations was 3.0° or less (Table 1A). For males and females, at the tibio-talar joint, the largest ROM was plantar-dorsiflexion, followed by internal/external rotation and then inversion/eversion (Table 1B). At the subalar joint, the largest ROM was inversion/eversion, with similar amounts of dorsiflexion/plantarflexion and internal/external rotation, on the order of 2° to 3°. Males demonstrated significantly less ROM in subtalar dorsiflexion/plantarflexion and tibio-talar internal/external rotation (Table 1B). Conclusion: The average side-to-side differences in healthy ankle ROM during gait are small, suggesting that the contralateral ankle may serve as a reference standard to assess kinematic outcomes after conservative or surgical treatments. The difference between male and female subtalar ROM (0.6°) may be too small to be functionally significant, however, sex differences in tibio- talar ROM appear large enough to merit consideration when assessing functional outcomes and designing ankle joint replacements. The results are limited to over-ground gait performed by relatively young and healthy adults and may not be applicable to other activities or older adults.

Published

2019

8. A Comparison of the In Vivo Contact Pressure at the Tibiotalar Joint During Walking and Running

Author

Bradley Campbell PhD, Steven Abramowitch PhD, and William Anderst PhD

Subjects

Orthopedic surgery, RD701-811

Abstract

Category: Ankle Introduction/Purpose: Knowledge of cartilage pressure distribution in healthy ankle joints during gait is important for understanding the loading environment of articular cartilage and for providing a basis for comparison to evaluate how ankle pathology and surgical procedures affect cartilage loading. Finite element models of the ankle have been developed to examine in vitro loads at the tibiotalar joint during simulated standing in healthy and injured ankle joints [1, 2]. However, there are currently no in vivo studies of tibiotalar cartilage pressure during dynamic loading activities. The goal of this study was to develop a subject-specific finite element model of the tibiotalar joint to estimate contact pressure during walking and running. Methods: Informed consent was obtained from one healthy male, age 23 yrs., BMI 27 kg/m2). Synchronized biplane radiographs of the ankle were acquired at 100 and 150 frames per second during the support phase of overground walking and running, respectively, at a self-selected pace (1.5 m/s and 3.0 m/s, respectively). CT-based bone models of the tibia and talus were matched to the stereoradiographic images to precisely track the three-dimensional bone movement [3]. Six degrees-of-freedom joint kinematics were calculated for each bone model, and used to position bone models in the finite element analysis. Cartilage volumes for the distal tibia and proximal talus were created in Geomagic software by extruding the articulating bone surface. Bones were modeled as rigid bodies and cartilage was modeled as deformable bodies with uniform thickness of 1.3 mm [4-7]. Simulations were performed using FEBio software. The primary outcome parameter was peak cartilage pressure in the tibiotalar joint. Results: On average, peak tibiotalar cartilage pressure was approximately 25% greater during the midstance phase of running in comparison to walking (Figure 1). During walking, peak contact pressure occurred on the lateral-central region of the tibiotalar cartilage throughout the entire stance phase. During the early support phase of running, the location of peak contact pressure was also on the lateral-central region of the tibiotalar cartilage. During running push-off, pressure increased in the medial-central cartilage region and the overall peak cartilage pressure increased. Conclusion: A novel finding of this study is that the peak pressure in tibiotalar cartilage moves from the lateral to medial side of the joint during running, but remains on the lateral side throughout the support phase of walking. This suggests that the location and magnitude of the loads seen by tibiotalar joint cartilage are activity dependent, even in the healthy ankle joint. Future work will investigate cartilage loading in pathologic ankles before and after surgical intervention, as well as during other common athletic activities.

Published

2018

9. Posterior tibial slope and meniscal slope correlate with in vivo tibial internal rotation during running and drop jump

Author

Toshikazu Tanaka, Tom Gale, Kyohei Nishida, Caiqi Xu, Freddie Fu, and William Anderst

Subjects

Orthopedics and Sports Medicine, Surgery

Abstract

The relationship between tibial bony and meniscus anatomy and knee kinematics during in vivo, high-impact activities remains unclear. This study aimed to determine if the posterior tibial slope (PTS) and meniscal slope (MS) are associated with in vivo anterior-posterior translation and internal tibia rotation during running and double-leg drop jumps in healthy knees.Nineteen collegiate athletes performed fast running at 5.0 m/s on an instrumented treadmill and double-leg drop jump from a 60 cm platform while biplane radiographs of the knee were acquired at 150 Hz. Tibiofemoral kinematics were determined using a validated model-based tracking process. Medial and lateral PTS and MS were measured using magnetic resonance imaging (MRI).In fast running, more internal tibia rotation was associated with greater PTS (ρ = 0.336, P = 0.039) and MS (ρ = 0.405, P = 0.012) in the medial knee compartment. In the double-leg drop jump, more internal tibia rotation was associated with greater PTS (ρ = 0.431, P = 0.007) and MS (ρ = 0.323, P = 0.005) in the medial knee compartment, as well as a greater PTS in the lateral knee compartment (ρ = 0.445, P = 0.005).These findings suggest that the medial and lateral PTS and medial MS are associated with the amount of knee rotation during high-impact activities. These in vivo findings improve our understanding of ACL injury risk by linking bone and meniscus morphology to dynamic kinematics.

Published

2022

10. Using Simultaneous Confidence Bands to Calculate the Margin of Error in Estimating Typical Biomechanical Waveforms

Author

William, Anderst, Shaquille, Charles, Milad, Zarei, Ashika, Mani, Naomi, Frankston, Elliott, Hammersley, Gehui, Zhang, MaCalus, Hogan, and Robert T, Krafty

Subjects

Movement, Rehabilitation, Biophysics, Humans, Reproducibility of Results, Orthopedics and Sports Medicine, Walking, Biomechanical Phenomena

Abstract

Studies of human movement usually collect data from multiple repetitions of a task and use the average of all movement trials to approximate the typical kinematics or kinetics pattern for each individual. Few studies report the expected accuracy of these estimated mean kinematics or kinetics waveforms for each individual. The purpose of this study is to demonstrate how simultaneous confidence bands, which is an approach to quantify uncertainty across an entire waveform based on limited data, can be used to calculate margin of error (MOE) for waveforms. Bilateral plantar pressure data were collected from 70 participants as they walked over 4 surfaces for an average of at least 300 steps per surface. The relationship between MOE and the number of steps included in the analysis was calculated using simultaneous confidence bands, and 3 methods commonly used for pointwise estimates: intraclass correlation, sequential averaging, and T-based MOE. The conventional pointwise approaches underestimated the number of trials required to estimate biomechanical waveforms within a desired MOE. Simultaneous confidence bands are an objective approach to more accurately estimate the relationship between the number of trials collected and the MOE in estimating typical biomechanical waveforms.

Published

2022

11. Improved Outcomes Following Arthroscopic Superior Capsular Reconstruction May Not Be Associated With Changes in Shoulder Kinematics: An In Vivo Study

Author

Clarissa M. LeVasseur, William Anderst, Jonathan D. Hughes, Alexandra S. Gabrielli, Gillian Kane, Albert Lin, and Adam Popchak

Subjects

Shoulder, Shoulder Joint, business.industry, Radiography, Kinematics, Biplane, Biomechanical Phenomena, Rotator Cuff Injuries, medicine.anatomical_structure, In vivo, Humeral Head, medicine, Humans, Tears, Orthopedics and Sports Medicine, Rotator cuff, Range of Motion, Articular, business, Range of motion, Nuclear medicine, Shoulder kinematics

Abstract

To determine the in vivo effects of superior capsule reconstruction (SCR) on glenohumeral kinematics during abduction and to compare those kinematics results with patient-reported outcomes, range of motion, and strength.Dynamic biplane radiography was used to image 10 patients with irreparable rotator cuff tears while performing scapular plane abduction pre- and 1-year post-surgery. Shoulder kinematics were determined by matching subject-specific computed tomography-based bone models to the radiographs using a validated tracking technique.No change was detected in static acromiohumeral distance (-0.7 ± 2.1 mm; P = .35); however, average dynamic acromiohumeral distance decreased (2.7 ± 1.2 mm to 2.3 ± 1.0 mm; P = .035) from pre- to 1-year post-surgery, respectively. The humeral head position was 0.5 ± 0.5 mm more superior 1-year post-surgery compared with pre-surgery (P = .01). Glenohumeral abduction increased from pre-surgery (150 ± 20°) to 1-year post-surgery (165 ± 10°) (P = .04) and all patient-reported outcomes improved from pre-surgery to 1-year post-surgery (all P.002). A more posterior shift in humeral head position was associated with improved American Shoulder and Elbow Surgeons Shoulder Score from pre-surgery to 1-year post-surgery (r = 0.71, P = .02).These data suggest that SCR may not depress the humeral head during functional abduction, as previously postulated, and postoperative improvements in subjective and clinical outcomes may be affected by mechanisms other than changes in shoulder kinematics.In vivo kinematics changes after SCR are small and do not correspond to previously postulated changes.

Published

2022

12. Toward the Identification of Distinct Phenotypes: Research Protocol for the Low Back Pain Biological, Biomechanical, and Behavioral (LB3P) Cohort Study and the BACPAC Mechanistic Research Center at the University of Pittsburgh

Author

Nam V Vo, Sara R Piva, Charity G Patterson, Gina P McKernan, Leming Zhou, Kevin M Bell, William Anderst, Carol M Greco, Michael J Schneider, Anthony Delitto, Brad E Dicianno, Jessa Darwin, and Gwendolyn A Sowa

Subjects

Anesthesiology and Pain Medicine, Neurology (clinical), General Medicine

Abstract

As a member of the Back Pain Consortium (BACPAC), the University of Pittsburgh Mechanistic Research Center's research goal is to phenotype chronic low back pain using biological, biomechanical, and behavioral domains using a prospective, observational cohort study. Data will be collected from 1,000 participants with chronic low back pain according to BACPAC-wide harmonized and study-specific protocols. Participation lasts 12 months with one required in person baseline visit, an optional second in person visit for advanced biomechanical assessment, and electronic follow ups at months 1, 2, 3, 4, 5, 6, 9, and 12 to assess low back pain status and response to prescribed treatments. Behavioral data analysis includes a battery of patient-reported outcomes, social determinants of health, quantitative sensory testing, and physical activity. Biological data analysis includes omics generated from blood, saliva, and spine tissue. Biomechanical data analysis includes a physical examination, lumbopelvic kinematics, and intervertebral kinematics. The statistical analysis includes traditional unsupervised machine learning approaches to categorize participants into groups and determine the variables that differentiate patients. Additional analysis includes the creation of a series of decision rules based on baseline measures and treatment pathways as inputs to predict clinical outcomes. The characteristics identified will contribute to future studies to assist clinicians in designing a personalized, optimal treatment approach for each patient.

Published

2023

13. Symmetry and sex differences in knee kinematics and ACL elongation in healthy collegiate athletes during high‐impact activities revealed through dynamic biplane radiography

Author

Tom Gale, William Anderst, Kyohei Nishida, Caiqi Xu, and Freddie H. Fu

Subjects

Male, medicine.medical_specialty, Knee Joint, Radiography, medicine.medical_treatment, Kinematics, Biplane, Running, Physical medicine and rehabilitation, medicine, Humans, Orthopedics and Sports Medicine, Anterior Cruciate Ligament, Sex Characteristics, Rehabilitation, biology, business.industry, Athletes, Anterior Cruciate Ligament Injuries, Biomechanics, musculoskeletal system, medicine.disease, biology.organism_classification, ACL injury, Biomechanical Phenomena, surgical procedures, operative, Female, Elongation, business, human activities

Abstract

The objectives of this study were to determine symmetry and sex differences in knee kinematics and ACL elongation waveforms in healthy athletes without history of knee injury during fast running, drop jump, and 180° internal/external rotation hops. It was hypothesized that knee abduction angle and ACL relative elongation would be greater in women than in men during all activities. Bilateral knee kinematics and ACL relative elongation were determined in 19 collegiate athletes using dynamic biplane radiography. Sex differences in kinematics and ACL relative elongation waveforms were identified using statistical parametric mapping. Average absolute side-to-side differences (SSDA ) in kinematics and ACL relative elongation waveforms were determined for each activity. Women had up to 2.3° (all p < 0.05) less knee adduction angle and had greater ACL relative elongation (max. 4.8% to 9.2%; all p

Published

2021

14. Graft healing does not influence subjective outcomes and shoulder kinematics after superior capsule reconstruction: a prospective in vivo kinematic study

Author

Gillian Kane, Alexandra S. Gabrielli, Clarissa M. LeVasseur, Albert Lin, Jonathan D. Hughes, Adam Popchak, and William Anderst

Subjects

Male, musculoskeletal diseases, Shoulder, medicine.medical_specialty, Radiography, Elbow, Isometric exercise, Rotator Cuff Injuries, Arthroscopy, Humans, Medicine, Orthopedics and Sports Medicine, Rotator cuff, Humerus, Prospective Studies, Range of Motion, Articular, Prospective cohort study, Ontario, medicine.diagnostic_test, Shoulder Joint, business.industry, Magnetic resonance imaging, General Medicine, Middle Aged, musculoskeletal system, Biomechanical Phenomena, Surgery, Treatment Outcome, medicine.anatomical_structure, Female, business, Range of motion

Abstract

Background A viable treatment option for young patients with massive, irreparable rotator cuff tears is arthroscopic superior capsule reconstruction (SCR). SCR theoretically improves shoulder stability and function and decreases pain. However, no prospective studies to date have correlated magnetic resonance imaging (MRI) healing with in vivo kinematic data. The purpose of this study was to evaluate the association between graft healing and in vivo kinematics, range of motion (ROM), strength, and patient-reported outcomes (PROs). Methods Ten patients (8 men and 2 women; mean age, 63 ± 7 years) with irreparable rotator cuff tears underwent arthroscopic SCR with dermal allograft. Strength was measured with isometric internal rotation and external rotation (ER) at 0° of abduction, ER at 90° of abduction, and scapular-plane abduction, whereas ROM was measured during shoulder flexion, abduction, and ER and internal rotation at 90° of abduction both before and 1 year after SCR. PROs included American Shoulder and Elbow Surgeons, Western Ontario Rotator Cuff Index, and Disabilities of the Arm, Shoulder and Hand surveys that were collected before and 1 year after SCR. Synchronized biplane radiographs were collected at 50 images/s before and 1 year after SCR while patients performed 3 trials of scapular-plane abduction. A validated volumetric tracking technique with submillimeter accuracy determined 6-df glenohumeral and scapular kinematics. The acromiohumeral distance (AHD), humeral head translation, and scapulohumeral rhythm (SHR) were calculated from the in vivo kinematics. Healing at 5 locations was evaluated on 1-year postoperative MRI scans: anterior and posterior glenoid, anterior and posterior humerus, and posteriorly along the infraspinatus. Each subject was given a score from 0 to 5 based on number of sites healed. Results Of the 10 patients, 9 (90%) had complete (n = 4) or partial (n = 5) healing of the graft whereas 1 (10%) had complete failure at the glenoid. No correlation existed between MRI healing and the AHD, SHR, strength, ROM, or PROs. American Shoulder and Elbow Surgeons, Western Ontario Rotator Cuff Index, and Disabilities of the Arm, Shoulder and Hand scores all significantly improved from before to 1 year after SCR regardless of graft healing. Conclusions The rate of complete or partial graft healing on MRI mimics findings of prior reports in the literature. MRI healing was correlated with humeral head anterior-posterior translation but not with the static and dynamic AHDs, SHR, humeral head superior-inferior translation, ROM, strength, or PROs 1 year after SCR. All PROs improved significantly from before to 1 year after SCR regardless of graft status on MRI. In vivo kinematic changes were small after SCR and not clinically significant, and the data suggest that improvements in clinical and functional outcomes may occur in the absence of full graft healing.

Published

2021

15. Loaded forced-marching shifts mechanical contributions proximally and disrupts stride-to-stride joint work modulation in recruit aged women

Author

Dennis E. Dever, William Anderst, Shawn D. Flanagan, Kellen T. Krajewski, Qi Mi, Camille C. Johnson, Ian T. Allen, Nizam Uddin Ahamed, and Chris Connaboy

Subjects

medicine.medical_specialty, Knee Joint, Biophysics, STRIDE, Walking, 03 medical and health sciences, 0302 clinical medicine, Gait (human), Physical medicine and rehabilitation, Modulation (music), Humans, Medicine, Orthopedics and Sports Medicine, Gait, Joint (geology), business.industry, Rehabilitation, Work (physics), Motor control, 030229 sport sciences, Biomechanical Phenomena, Power (physics), Detrended fluctuation analysis, Female, Hip Joint, business, Ankle Joint, 030217 neurology & neurosurgery

Abstract

Military personnel in combat roles often perform gait tasks with additional load, which can affect the contributions of joint mechanical work (positive and negative). Furthermore, different locomotion patterns can also affect joint specific work contributions. While mean behavior of joint work is important to understanding gait, changes in joint kinetic modulation, or the regulation/control of stride-to-stride joint work variability is necessary to elucidate locomotor system function. Suboptimal modulation exhibited as a stochastic time-series (large fluctuation followed by an opposite smaller fluctuation) could potentially affect locomotion efficiency and portend injury risk. It remains unclear how the locomotor system responds to a combination of load perturbations and varying locomotion patterns.What are the interactive effects of load magnitude and locomotion pattern on joint positive/negative work and joint work modulation in healthy, active, recruit-aged women?Eleven healthy, active, recruit-aged (18-33 years) women ran and forced-marched (walking at a velocity an individual would typically jog) in bodyweight (BW), an additional 25 % of BW (+25 %BW) and an additional 45 % of BW (+45 %BW) conditions at a velocity above their gait transition velocity. Joint work was calculated as the time integral of joint power. Joint work modulation was assessed with detrended fluctuation analysis (DFA) on consecutive joint work time-series.Joint work contributions shifted proximally for forced-marching demonstrated by lesser (p .001) positive/negative ankle work but greater (p = .001) positive hip work contributions compared to running. Running exhibited optimal positive ankle work modulation compared to forced-marching (p = .040). Knee and ankle negative joint work modulation was adversely impacted compared to the hip during forced-marching (p .001).Employing forced-marching gait while under loads of 25 and 45 % of BW reduces the ability of the plantar-flexors and knee extensors to optimally contribute to energy absorption and propulsion in recruit-aged women, potentially reducing metabolic efficiency and increasing injury risk.

Published

2021

16. Magnetic resonance imaging of the lumbar spine-recommendations for acquisition and image evaluation from the BACPAC Spine Imaging Working Group

Author

Nico Sollmann, Aaron J Fields, Conor O’Neill, Lorenzo Nardo, Sharmila Majumdar, Cynthia T Chin, Duygu Tosun, Misung Han, An T Vu, Eugene Ozhinsky, Lubdha M Shah, Richard E Harris, Remy Lobo, William Anderst, Richard Herzog, Matthew A Psioda, Christopher J Standaert, River T Price, Jeffrey C Lotz, Thomas M Link, and Roland Krug

Subjects

Anesthesiology and Pain Medicine, Neurology (clinical), General Medicine

Abstract

Management of patients suffering from low back pain (LBP) is challenging and requires development of diagnostic techniques to identify specific patient subgroups and phenotypes in order to customize treatment and predict clinical outcome. The Back Pain Consortium (BACPAC) Spine Imaging Working Group has developed standard operating procedures (SOPs) for spinal imaging protocols to be used in all BACPAC studies. These SOPs include procedures to conduct spinal imaging assessments with guidelines for standardizing the collection, reading/grading (using structured reporting with semi-quantitative evaluation using ordinal rating scales), and storage of images. This article presents the approach to image acquisition and evaluation recommended by the BACPAC Spine Imaging Working Group. While the approach is specific to BACPAC studies, it is general enough to be applied at other centers performing MRI acquisitions in patients with LBP. The herein presented SOPs are meant to improve understanding of pain mechanisms and facilitate patient phenotyping by codifying MRI-based methods that provide standardized, non-invasive assessments of spinal pathologies. Finally, these recommended procedures may facilitate the integration of better harmonized MRI data of the lumbar spine across studies and sites within and outside of BACPAC studies.

Published

2022

17. Surgery-related Factors Do Not Affect Short-term Adjacent Segment Kinematics After Anterior Cervical Arthrodesis

Author

Jeremy D. Shaw, William Anderst, William F. Donaldson, Joon Y. Lee, David O. Okonkwo, Samuel Pitcairn, Adam S. Kanter, Clarissa M. LeVasseur, and Stephen R. Chen

Subjects

Orthodontics, business.industry, Radiography, Kyphosis, Anterior cervical discectomy and fusion, Kinematics, medicine.disease, Biplane, Article, Biomechanical Phenomena, Spinal Fusion, Cervical arthrodesis, Cervical Vertebrae, medicine, Cervical spondylosis, Humans, Orthopedics and Sports Medicine, Prospective Studies, Neurology (clinical), Range of Motion, Articular, business, Range of motion, Diskectomy

Abstract

STUDY DESIGN Prospective cohort study. OBJECTIVE The aim of this study was to identify surgical factors that affect adjacent segment kinematics after anterior cervical discectomy and fusion (ACDF) as measured by biplane radiography. SUMMARY OF BACKGROUND DATA Previous studies investigated the effect of surgical factors on spine kinematics as a potential etiology for adjacent segment disease (ASD). Those studies used static flexion-extension radiographs to evaluate range of motion. However, measurements from static radiographs are known to be unreliable. Furthermore, those studies were unable to evaluate the effect of ACDF on adjacent segment axial rotation. METHODS Patients had continuous cervical spine flexion/exten- sion and axial rotation movements captured at 30 images per second in a dynamic biplane radiography system preoperatively and 1 year after ACDF. Digitally reconstructed radiographs generated from subject-specific CT scans were matched to biplane radiographs using a previously validated tracking process. Dynamic kinematics, postoperative segmental kyphosis, and disc distraction were calculated from this tracking process. Plate-to-disc distance was measured on postoperative radiographs. Graft type was collected from the medical record. Multivariate linear regression was performed to identify surgical factors associated with 1-year post-surgery changes in adjacent segment kinematics. A secondary analysis was also performed to compare adjacent segment kinematics between each of the surgical factors and previously defined thresholds believed to be associated with adjacent segment degeneration. RESULTS Fifty-nine patients completed preoperative and postoperative testing. No association was found between any of the surgical factors and change in adjacent segment flexion/exten- sion or axial rotation range of motion (all P > 0.09). The secondary analysis also did not identify differences between adjacent segment kinematics and surgical factors (all P > 0.07). CONCLUSION Following ACDF for cervical spondylosis, factors related to surgical technique were not associated with short-term changes in adjacent segment kinematics that reflect the hypermobility hypothesized to lead to the development of ASD.Level of Evidence: 2.

Published

2021

18. Anterior cruciate ligament reconstruction with lateral extraarticular tenodesis better restores native knee kinematics in combined ACL and meniscal injury

Author

Volker Musahl, Jonathan D. Hughes, William Anderst, Daisuke Chiba, Adam Popchak, Bryson P. Lesniak, and Christopher M. Gibbs

Subjects

030222 orthopedics, medicine.medical_specialty, Anterior cruciate ligament reconstruction, business.industry, medicine.medical_treatment, Anterior cruciate ligament, Knee kinematics, 030229 sport sciences, Meniscus (anatomy), Surgery, 03 medical and health sciences, 0302 clinical medicine, Meniscal injury, medicine.anatomical_structure, Orthopedic surgery, medicine, Orthopedics and Sports Medicine, business, Heel strike, Knee instability

Abstract

To determine if anterior cruciate ligament (ACL) reconstruction (ACLR) with lateral extraarticular tenodesis (LET) is beneficial for restoring knee kinematics with concomitant meniscal pathology causing rotatory knee instability. Twenty patients with an ACL tear were randomized to either isolated ACLR or ACLR with LET. Patients were divided into four groups based on the surgery performed and the presence of meniscal tear (MT): ACLR without MT, ACLR with MT, ACLR with LET without MT, and ACLR with LET with MT. Kinematic data normalized to the contralateral, healthy knee were collected using dynamic biplanar radiography superimposed with high-resolution computed tomography scans of patients’ knees during downhill running. Anterior tibial translation (ATT) and tibial rotation (TR) as well as patient-reported outcome measures (PROMs) were analyzed at 6- and 12-months postoperatively. At 6 months, ACLR with LET resulted in significantly decreased ATT at heel strike compared to ACLR (ACLR without MT: 0.3 ± 0.8 mm and ACLR with MT: 1.4 ± 3.1 mm vs. ACLR with LET without MT: − 2.5 ± 3.4 mm and ACLR with LET with MT: − 1.5 ± 1.2 mm ATT, p = 0.02). At 6 months, at toe off ACLR with LET better restored ATT to that of the contralateral, healthy knee in patients with meniscal pathology, while in patients without meniscal pathology, ACLR with LET resulted in significantly decreased ATT (1.0 ± 2.6 mm ATT vs. − 2.6 ± 1.7 mm ATT, p = 0.04). There were no significant differences in kinematics or PROMs between groups at 12 months. For combined ACL and meniscus injury, ACLR with LET restores native knee kinematics at toe off but excessively decreases ATT at heel strike in the early post-operative period (6 months) without altering knee kinematics in the long term. Future large-scale clinical studies are needed to better understand the function of LET and ultimately improve patient outcomes. III.

Published

2021

19. Residual Motion and Graft Type Do Not Influence Patient-reported Outcomes Following One- or Two-level Anterior Cervical Discectomy and Fusion

Author

Joon Y. Lee, Brandon K. Couch, Samuel Pitcairn, William Anderst, William F. Donaldson, Jeremy D. Shaw, Clarissa M. LeVasseur, and Richard A Wawrose

Subjects

medicine.medical_specialty, business.industry, Radiography, Arthrodesis, medicine.medical_treatment, Transplants, Anterior cervical discectomy and fusion, Residual, medicine.disease, Motion (physics), Surgery, Pseudarthrosis, Spinal Fusion, Cervical Vertebrae, medicine, Humans, Orthopedics and Sports Medicine, Patient Reported Outcome Measures, Prospective Studies, Neurology (clinical), Prospective cohort study, business, Graft Type, Diskectomy

Abstract

Study design Prospective cohort. Objective The aim of this study was to determine the effect of graft type on residual motion and the relationship among residual motion, smoking, and patient-reported outcome (PRO) scores following anterior cervical discectomy and fusion (ACDF). Summary of background data Although most patients develop solid fusion based on static imaging following ACDF, dynamic imaging has revealed that many patients continue to have residual motion at the arthrodesis. Methods Forty-eight participants performed dynamic neck flexion/extension and axial rotation within a biplane radiography system 1 year following ACDF (21 one-level, 27 two-level). PRO scores included the Short Form-36, Neck Disability Index, and Cervical Spine Outcomes Questionnaire. An automated model-based tracking process matched subject-specific bone models to the biplane radiographs with sub-millimeter accuracy. Residual motion was measured across the entire arthrodesis site for both one- and two-level fusions in patients who received either allograft or autograft. Patients were divided into "pseudarthrosis" (>3° of flexion/extension residual motion) and "solid fusion" groups. Residual motion and PROs were compared between groups using Student t tests. Results Patients who received allograft showed more total flexion/extension residual motion (4.1° vs. 2.8°, P = 0.12), although this failed to reach significance. No differences were noted in PROs based on graft type (all P > 0.08) or the presence of pseudarthrosis (all P > 0.13). No differences were noted in residual motion between smokers and nonsmokers (all P > 0.15); however, smokers who received allograft reported worse outcomes than nonsmokers who received allograft and smokers who received autograft. Conclusion Allograft may result in slightly more residual motion at the arthrodesis site 1 year after ACDF. However, there is minimal evidence that PROs are adversely affected by slightly increased residual motion, suggesting that the current definition of pseudarthrosis correlates poorly with clinically significant findings. Additionally, autograft appears to result in superior outcomes in patients who smoke.Level of Evidence: 2.

Published

2020

20. Tibiofemoral helical axis of motion during the full gait cycle measured using biplane radiography

Author

William Anderst and Tom Gale

Subjects

Adult, Knee Joint, Radiography, 0206 medical engineering, Biomedical Engineering, Biophysics, 02 engineering and technology, Kinematics, Biplane, Article, 03 medical and health sciences, 0302 clinical medicine, Gait (human), Intersection, Screw axis, medicine, Humans, Femur, Range of Motion, Articular, Gait, Mathematics, Orthodontics, business.industry, 020601 biomedical engineering, Sagittal plane, Biomechanical Phenomena, medicine.anatomical_structure, business, 030217 neurology & neurosurgery

Abstract

The helical axis of motion (HAM), which describes the simultaneous multiplanar translations and rotations that occur within a joint, has been proposed as a single measure to characterize dynamic joint function. The objective of this study was to determine the tibiofemoral HAM during 5 discrete phases of gait. Thirty-nine knees from 20 healthy adults were imaged using high-speed biplane radiography during treadmill walking. The primary outcome measures were the intersection of the HAM with the sagittal plane of the femur, and the direction of the HAM. The intersection point translated an average of 12.7 ± 5.5% of femur condyle depth in the anterior-posterior direction and 28.6 ± 13.3% of femur condyle height in the proximal-distal direction during gait. The anterior/posterior and proximal/distal components of the HAM vector were greater during stance (5.6°±3.8° and 11.1°±5.0°, respectively) than during swing (2.0°±1.1° and 6.4°±3.8°, respectively) (p0.001) reflecting greater coupled rotations during stance. No significant side-to-side differences in intersection point location or HAM orientation were found during any of the 5 phases of gait (max difference 4.1 ± 3.4% of femur condyle depth and 13.1 ± 16.7% of femur condyle height; 12.7°±12.3° proximal/distal and 4.2°±4.5° anterior/posterior direction). Loading significantly affected HAM location and orientation (p0.001). Knowledge of healthy knee HAM and typical side-to-side differences during gait can serve as a baseline for evaluating knee motion after clinical interventions.

Published

2020

21. Medial Unicompartmental Knee Arthroplasty Restores Native Knee Kinematics During Activities of Daily Living: A Pilot Study

Author

Venkata K. Byrapogu, Tom Gale, Brian Hamlin, Kenneth L. Urish, and William Anderst

Subjects

Biomedical Engineering

Abstract

The ability of unicompartmental knee arthroplasty (UKA) to restore native knee kinematics during activities of daily living remains unclear. The objectives of this prospective study were to identify changes in knee kinematics after medial UKA (mUKA) and to determine if mUKA restores native knee kinematics during activities of daily living. We hypothesized that kinematics are different between the mUKA knee and contralateral knee before surgery, that mUKA restores native knee kinematics, and that mUKA does not affect lateral compartment dynamic joint space. Nine participants performed walking, chair rise, stair ascent and stair descent within a biplane radiography system before and after mUKA. Bilateral knee kinematics were determined for each activity using a validated tracking process that matched subject-specific bones and implants to the biplane radiographs. Compared to contralateral knee, the pre-UKA knee was more adducted (p ≤ 0.019), and more laterally translated (p ≤ 0.008) during all four activities. Additionally, compared to contralateral knee, pre-UKA knee was less internally rotated (p ≤ 0.044) during chair rise and stair ascent. Lateral compartment dynamic joint space did not change during any activity from pre to post mUKA. Our results indicate that mUKA generally restores native kinematics during activities of daily living without altering lateral compartment dynamic joint space.

Published

2022

22. How well does intra-operative contact path predict post-operative contact path during activities of daily living after medial unicompartmental knee arthroplasty?

Author

Venkata Byrapogu, Tom Gale, Dukens Labaze, Brian Hamlin, Kenneth L. Urish, and William Anderst

Subjects

Biomedical Engineering, Biophysics

Published

2023

23. Within-subjects Effects of Standardized Prosthetic Socket Modifications on Physical Function and Patient-Reported Outcomes

Author

William Anderst, Goeran Fiedler, Kentaro Onishi, Gina McKernan, Tom Gale, and Paige Paulus

Subjects

body regions, equipment and supplies

Abstract

• Background: Among the challenges of living with lower limb loss is the increased risk of long-term health problems that can be either attributed directly to the amputation surgery and/or prosthetic rehabilitation or indirectly to a disability-induced sedentary lifestyle. These problems are exacerbated by poorly fit prosthetic sockets. There is a knowledge gap regarding how the socket design affects in-socket mechanics, and how in-socket mechanics affect patient-reported comfort and function. The objectives of this study are: 1) to gain a better understanding of how in-socket mechanics of the residual limb in transfemoral amputees are related to patient-reported comfort and function, 2) to identify clinical tests that can streamline the socket design process, and 3) to evaluate the efficacy and cost of a novel, quantitatively informed socket optimization process.• Methods: Users of transfemoral prostheses will be asked to walk on a treadmill wearing their current socket plus 8 different check sockets with designed changes in different structural measurements that are likely to induce changes in residual limb motion, skin strain, and pressure distribution within the socket. Dynamic biplane radiography and pressure sensors will be used to measure in-socket residual limb mechanics. Patient-reported outcomes will also be collected after wearing each socket. The effects of in-socket mechanics on both physical function and patient-reported outcomes (aim 1) will be assessed using a generalized linear model. Partial correlation analysis will be used to examine the association between research grade measurements and readily available clinical measurements (aim 2). In order to compare the new quantitative design method to the Standard of Care, patient reported outcomes and cost will be compared between the two methods, utilizing the Wilcoxon Mann-Whitney non-parametric test (aim 3).• Discussion: Knowledge on how prosthetic socket modifications affect residual bone and skin biomechanics itself can be applied to devise future socket designs, and the methodology can be used to investigate and improve such designs, past and present. Apart from saving time and costs, this may result in better prosthetic socket fit for a large patient population, thus increasing their mobility, participation, and overall health-related quality of life. • Trial registration: clinicaltrials.gov: NCT05041998

Published

2021

24. Reduced Movement Variability and Kinematics Changes During a Hand to Head Movement are Associated with Improved Outcome Following Superior Capsular Reconstruction (232)

Author

William Anderst, Gillian Kane, Jonathan D. Hughes, Albert Lin, Clarissa M. LeVasseur, James J. Irrgang, and Adam Popchak

Subjects

medicine.medical_specialty, Head (linguistics), business.industry, Movement (music), Kinematics, Combing, Article, medicine.anatomical_structure, Physical medicine and rehabilitation, medicine, Tears, Orthopedics and Sports Medicine, Rotator cuff, business

Abstract

Objectives: Patients with irreparable rotator cuff tears (RCT) exhibit functional limitations including limited ability to perform functional tasks such as combing their hair. One viable treatment is superior capsular reconstruction (SCR). SCR has been shown to restore stability of the glenohumeral (GH) joint in cadavers1, but its effect on in vivo scapular and humeral motion is unknown. The aims of this study were to determine the effect of SCR on in vivo scapular and humeral kinematics during a functional hand to head motion and to identify associations between shoulder kinematics and patient-reported outcomes (PROs). We hypothesized that moving the hand to the back of the head would be accomplished by using more GH based movement including rotation and abduction, and less scapular motion after SCR, and there would be a positive correlation between kinematics changes and improved PROs. Methods: Ten patients (8M, 2F, age 63 ± 7 years) with irreparable RCT provided informed consent to participate in this prospective IRB-approved study. American Shoulder and Elbow Surgeon (ASES), Disability of the Arm Shoulder and Hand (DASH), and Western Ontario Rotator Cuff Index (WORC) surveys were completed before (PRE) and 1-year (1YR-POST) after SCR. Participants were seated and instructed to move their hand from their lap to the back of their head while synchronized biplane radiographs of the shoulder were collected PRE and 1YR-POST at 50 images/s for 3 separate trials. Six degree of freedom GH and scapular kinematics were determined with sub-millimeter accuracy by matching subject-specific CT-based bone models of the humerus and scapula to the synchronized radiographs using a validated volumetric tracking technique3. The contributions of humeral abduction, plane of elevation and internal/external (I/E) rotation relative to the scapula, as well as scapular upward rotation, protraction, and tilt, were calculated for each subject before and after SCR. Differences in rotational contributions from PRE to POST were evaluated using a paired t-test. Variability in rotational contributions was characterized by the inter-subject standard deviation in rotational component contributions to the movement. Correlations among changes in the contribution of each rotation component and between the contribution of each rotation component and PROs were evaluated with Pearson’s correlation coefficients. Significance was set at p < 0.05 for all tests. Results: No differences in contribution to motion were identified in any of the rotational components from PRE to POST (all p > 0.15, Figure 1). Inter-subject variability in rotational contributions to the movement decreased in 5 of the 6 rotational components from PRE to 1YR-POST (Table 1; Figure 1). The PRE to 1YR POST change in contribution from GH abduction was positively correlated to the change in contribution from GH I/E rotation (Figure 2, R = 0.8, p = 0.001) and negatively correlated to the change in contribution from scapular protraction (Figure 2, R = -0.94, p = 0.001). ASES scores were negatively correlated with abduction contribution PRE (R = -0.65, p = 0.043), and positively correlated with plane of elevation PRE (R = 0.685, p = 0.03). Changes in the plane of elevation contribution were also positively correlated with changes in ASES scores (R = 0.635, p = 0.048). Conclusions: This is the first study to report GH and scapular kinematics when performing the functional task of placing the hand to the back of the head. Changes in contributions to the motion were inconsistent across subjects, making it difficult to find differences from PRE to POST. However, inter-subject variation was reduced following surgery, suggesting the participants’ movement strategy converged toward a more similar and possibly more efficient movement pattern following SCR. Increased contributions of glenohumeral rotation and abduction were offset by decreased scapular protraction and indicates SCR affects the contributions from these three rotations, partially supporting our first hypothesis. In addition, increased GH plane of elevation contribution following surgery was associated with improved ASES scores supporting our second hypothesis. This may be consistent with improved glenohumeral kinematics and efficiency of movement during a functional task following SCR. Future work will investigate GH and scapular kinematics in healthy individuals performing the hand to head movement to determine if movement strategy is closer to healthy after SCR.

Published

2021

25. In-vivo Measurement of 3D Skeletal Kinematics from Sequences of Biplane Radiographs: Application to Knee Kinematics.

Author

Byoung-moon You, Pepe Siy, William Anderst, and Scott Tashman

Published

2001

26. In search of a gold standard for objective clinical outcome: using dynamic biplane radiography to measure knee kinematics

Author

Volker Musahl, Freddie H. Fu, Jay J. Irrgang, Jon Karlsson, Scott Tashman, and William Anderst

Subjects

Orthodontics, medicine.medical_specialty, Sports medicine, Knee Joint, business.industry, Radiography, Measure (physics), Knee kinematics, Gold standard (test), Biplane, Outcome (game theory), Biomechanical Phenomena, Lower Extremity, Orthopedic surgery, medicine, Humans, Orthopedics and Sports Medicine, Surgery, business

Published

2021

27. Dynamic functional nucleus is a potential biomarker for structural degeneration in cervical spine discs

Author

Samuel Pitcairn, William Anderst, Clarissa M. LeVasseur, William F. Donaldson, Richard A Wawrose, and Joon Y. Lee

Subjects

Adult, Male, Radiography, Dynamic imaging, 0206 medical engineering, Intervertebral Disc Degeneration, 02 engineering and technology, Degeneration (medical), Asymptomatic, Weight-Bearing, Young Adult, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Orthopedics and Sports Medicine, Functional movement, Retrospective Studies, 030203 arthritis & rheumatology, business.industry, Intervertebral disc, Anatomy, Middle Aged, Compression (physics), 020601 biomedical engineering, medicine.anatomical_structure, Cervical Vertebrae, Female, medicine.symptom, business, Nucleus, Biomarkers

Abstract

If intervertebral disc degeneration can be identified early, preventative treatments may be initiated before symptoms become disabling and costly. Changes in disc mechanics, such as the decrease in the compressive modulus of the nucleus, are some of the earliest signs of degeneration. Therefore, in vivo changes in the disc response to compressive load may serve as a biomarker for pending or early disc degeneration. The aim of this study was to assess the potential for using in vivo dynamic disc deformation to identify pathologic structural degeneration of the intervertebral disc. A validated model-based tracking technique determined vertebral motion from biplane radiographs collected during dynamic flexion/extension and axial rotation of the cervical spine. A computational model of the subaxial intervertebral discs was developed to identify the dynamic functional nucleus of each disc, that is, the disc region that underwent little to no additional compression during dynamic movements. The size and location of the dynamic functional nucleus was determined for 10 C5/C6 spondylosis patients, 10 C5/C6/C7 spondylosis patients, and 10 asymptomatic controls. The dynamic functional nucleus size was sensitive (significantly smaller than controls in 5 of 6 measurements at the diseased disc) and specific (no difference from controls in 9 of 10 measurements at non-diseased discs) to pathologic disc degeneration. These results provide evidence to suggest that structural disc degeneration, manifested by changes in the disc response to functional loading, may be identified in vivo from dynamic imaging collected during functional movements. © 2019 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 9999:1-7, 2019.

Published

2019

28. Syndesmosis Repair Affects in Vivo Distal Interosseous Tibiofibular Ligament Elongation Under Static Loads and During Dynamic Activities

Author

Chukwudi Onyeukwu, Tom Gale, William Anderst, MaCalus V. Hogan, and Stephen P. Canton

Subjects

Joint Instability, Male, Syndesmosis, Population, Anterior tibiofibular ligament, Weight-Bearing, 03 medical and health sciences, Young Adult, 0302 clinical medicine, medicine.ligament, Activities of Daily Living, medicine, Humans, Orthopedics and Sports Medicine, Ankle Injuries, Range of Motion, Articular, education, Fixation (histology), Orthodontics, 030222 orthopedics, education.field_of_study, business.industry, Biomechanics, 030229 sport sciences, General Medicine, Biomechanical Phenomena, medicine.anatomical_structure, Ligament, Surgery, Ankle, Cadaveric spasm, business, Lateral Ligament, Ankle, Ankle Joint

Abstract

BACKGROUND Ligamentous ankle injuries are the most common injuries sustained by athletes and by the general population, with an incidence of approximately 2 million per year in the U.S. Injuries to the ankle syndesmosis (i.e., "high ankle sprains") are generally treated operatively. Although cadaveric studies can evaluate syndesmosis fixation strength, they cannot predict how healing, neuromuscular adaptation, or dynamic loading will affect in vivo biomechanics. Using dynamic biplane radiography (DBR), we tested the hypothesis that syndesmosis repair would restore ankle kinematics and ligament elongation during static and dynamic loading. METHODS A convenience sample of 6 male patients who had undergone fixation (2 screw, 3 suspensory, 1 hybrid) of syndesmosis injury were assessed with use of DBR during forward running, backpedaling, a 45° angled single-leg hop, and 1 static standing trial at 2 to 4.5 years postoperatively. Three-dimensional ankle kinematics and elongation of the distal interosseous ligament, anterior inferior tibiofibular ligament, and the posterior inferior tibiofibular ligament were measured bilaterally. Comparisons were made between the operative and uninjured sides. Clinical outcomes were evaluated with use of the Foot and Ankle Ability Measure. RESULTS Static load increased the lengths of the distal interosseous ligament (p = 0.02 to 0.05) and middle segment of the anterior inferior tibiofibular ligament (p = 0.02) in the operative ankle. The distal syndesmosis length was greater on the operative side during the static unloaded and loaded conditions (p = 0.02). Length of the distal syndesmosis on the operative side was greater than the corresponding healthy syndesmosis length during all 3 dynamic activities. On average, the operative ankle was in less dorsiflexion over the support phase of the angled hop (p = 0.05) and running (p < 0.01). The average Foot and Ankle Ability Measure Activities of Daily Living and Sports subscale scores were 95 and 88, respectively. CONCLUSIONS This study provides the first in vivo evidence of post-fixation changes in biomechanics after syndesmosis repair. Syndesmosis repair fails to restore healthy static and dynamic distal tibiofibular anatomy, even in patients who report good to excellent clinical outcomes. LEVEL OF EVIDENCE Therapeutic Level IV. See Instructions for Authors for a complete description of levels of evidence.

Published

2021

29. Does Femoral Head Translation Vary by Sex and Side in Asymptomatic Hips During a Weightbearing Apprehension Test?

Author

Ethan Ruh, Camille Johnson, Naomi Frankston, Shaquille Charles, William Anderst, and Michael McClincy

Subjects

Adult, Male, Hip, Pain, Acetabulum, Femur Head, General Medicine, Weight-Bearing, Young Adult, Clinical Research, Humans, Orthopedics and Sports Medicine, Surgery, Female, Hip Joint

Abstract

BACKGROUND: Hip microinstability is an increasingly recognized source of pain and dysfunction but has no agreed upon diagnostic criteria and the pathophysiology remains unclear. It has been suggested that pain associated with microinstability is caused by excess translation of the femoral head. Recent research indicates that single-plane femoral head translation can be reliably measured using dynamic ultrasonography during a supine clinical examination; however, the overall accuracy of that technique has not been established, and the range of femoral head translation values that are found in individuals with no history of surgery or symptomatic pathology is unknown. QUESTIONS/PURPOSES: (1) How much femoral head translation is present in native, uninjured hips during a weightbearing apprehension position for females and males? (2) How large is the side-to-side difference in hip translation and rotation within the same individual in females and males with no history of surgery or pain during the weightbearing apprehension position? (3) What differences exist in femoral head translation and rotation when comparing females to males? METHODS: Twenty-two young adults (11 males, 11 females; mean age 22 ± 2 years; BMI 22 ± 5 kg/m(2)) with no history of hip pain, no known hip injury, and who never had hip surgery participated in this study. High-resolution CT images of the femur and pelvis were acquired for each participant, and the bone tissue was segmented from the CT volume. Synchronized biplane radiographs were collected during a neutral standing trial and during a static weightbearing apprehension position in which the participant extended, externally rotated, and abducted at their back hip while standing with their feet split in the AP direction. A validated volumetric model-based tracking technique was used to match the patient-specific bone models to the biplane radiographs with an accuracy of 0.3 mm for translation and 0.8° for rotation. Translation of the center of the femoral head relative to the center of the acetabulum and rotation of the femur relative to the pelvis from neutral to the weightbearing apprehension position were calculated. Sex-based differences in hip kinematics were assessed by bivariate linear regression. RESULTS: The median (range) translation during the weightbearing apprehension position in females was 0.9 mm (0.2 to 2.7 mm), which was less than in the 1.3 mm (0.2 to 2.6 mm) translation found in males (median difference of 0.5 mm; p = 0.04). The median absolute side-to-side difference in translation during the pivot was 1.4 mm (0.1 to 3.8 mm) in females and 1.3 mm (0.1 to 4.4 mm) in males. CONCLUSION: These findings demonstrate that the femoral head translates the same under bodyweight loading as previously observed during supine exam, showing the inherent stability of the hip with no history of surgery or symptomatic pathology. This study also provides normal values for comparison with individuals who have suspected microinstability. Future directions for research include directly comparing biplane radiography to alternative imaging techniques, such as dynamic ultrasound, for identifying hip microinstability and identifying threshold values for symptomatic hip microinstability. LEVEL OF EVIDENCE: Level III, prognostic study.

Published

2021

30. Lateral Extra-articular Tenodesis Contributes Little to Change In Vivo Kinematics After Anterior Cruciate Ligament Reconstruction: A Randomized Controlled Trial

Author

Daisuke Chiba, Felipe Suntaxi, William Anderst, Volker Musahl, Kyohei Nishida, Freddie H. Fu, Tom Gale, and Bryson P. Lesniak

Subjects

Joint Instability, Anterior cruciate ligament reconstruction, Knee Joint, Anterior cruciate ligament, medicine.medical_treatment, Pivot shift, Tenodesis, Physical Therapy, Sports Therapy and Rehabilitation, law.invention, 03 medical and health sciences, 0302 clinical medicine, Randomized controlled trial, law, medicine, Humans, Orthopedics and Sports Medicine, Range of Motion, Articular, Orthodontics, 030222 orthopedics, Anterior Cruciate Ligament Reconstruction, business.industry, Anterior Cruciate Ligament Injuries, 030229 sport sciences, In vivo kinematics, Biomechanical Phenomena, medicine.anatomical_structure, business, Knee instability

Abstract

Background: Lateral extra-articular tenodesis (LET) in combination with anterior cruciate ligament (ACL) reconstruction (ACLR) has been proposed to improve residual rotatory knee instability in patients having ACL deficiency. Purpose/Hypothesis: The purpose was to compare the effects of isolated ACLR (iACLR) versus LET in combination with ACLR (ACLR+LET) on in vivo kinematics during downhill running. It was hypothesized that ACLR+LET would reduce the internal rotation of the reconstructed knee in comparison with iACLR. Study Design: Controlled laboratory study. Methods: A total of 18 patients with ACL deficiency were included. All participants were randomly assigned to receive ACLR+ LET or iACLR during surgery. Six months and 12 months after surgery, knee joint motion during downhill running was measured using dynamic biplane radiography and a validated registration process that matched patient-specific 3-dimensional bone models to synchronized biplane radiographs. Anterior tibial translation (ATT; positive value means “anterior translation”) and tibial rotation (TR) relative to the femur were calculated for both knees. The side-to-side differences (SSDs) in kinematics were also calculated (operated knee–contralateral healthy knee). The SSD value was compared between ACLR+LET and iACLR groups using a Mann-Whitney U test. Results: At 6 months after surgery, the SSD of ATT in patients who had undergone ACLR+LET (–1.9 ± 2.0 mm) was significantly greater than that in patients who had undergone iACLR (0.9 ± 2.3 mm) at 0% of the gait cycle (foot strike) ( P = .031). There was no difference in ATT 12 months after surgery. Regarding TR, there were no differences between ACLR+LET and iACLR at either 6 months ( P value range, .161-.605) or 12 months ( P value range, .083-.279) after surgery. Conclusion: LET in combination with ACLR significantly reduced ATT at the instant of foot strike during downhill running at 6 months after surgery. However, this effect was not significant at 12 months after surgery. The addition of LET to ACLR had no effect on TR at both 6 and 12 months after surgery. Clinical Relevance: LET in combination with ACLR may stabilize sagittal knee motion during downhill running in the early postoperation phase, but according to this study, it has no effect on 12-month in vivo kinematics. Registration: NCT02913404 ( ClinicalTrials.gov identifier)

Published

2021

31. Predictions of Anterior Cruciate Ligament Dynamics From Subject-Specific Musculoskeletal Models and Dynamic Biplane Radiography

Author

James P. Charles, William Anderst, and Freddie H. Fu

Subjects

Orthodontics, 0303 health sciences, business.industry, Radiography, Anterior cruciate ligament, 0206 medical engineering, Biomedical Engineering, Context (language use), 02 engineering and technology, Kinematics, Knee Joint, 020601 biomedical engineering, Biplane, Research Papers, 03 medical and health sciences, medicine.anatomical_structure, Physiology (medical), Ligament, medicine, Anterior Cruciate Ligament, Muscle architecture, business, human activities, 030304 developmental biology

Abstract

In vivo knee ligament forces are important to consider for informing rehabilitation or clinical interventions. However, they are difficult to directly measure during functional activities. Musculoskeletal models and simulations have become the primary methods by which to estimate in vivo ligament loading. Previous estimates of anterior cruciate ligament (ACL) forces range widely, suggesting that individualized anatomy may have an impact on these predictions. Using ten subject-specific (SS) lower limb musculoskeletal models, which include individualized musculoskeletal geometry, muscle architecture, and six degree-of-freedom knee joint kinematics from dynamic biplane radiography (DBR), this study provides SS estimates of ACL force (anteromedial-aACL; and posterolateral-pACL bundles) during the full gait cycle of treadmill walking. These forces are compared to estimates from scaled-generic (SG) musculoskeletal models to assess the effect of musculoskeletal knee joint anatomy on predicted forces and the benefit of SS modeling in this context. On average, the SS models demonstrated a double force peak during stance (0.39–0.43 xBW per bundle), while only a single force peak during stance was observed in the SG aACL. No significant differences were observed between continuous SG and SS ACL forces; however, root mean-squared differences between SS and SG predictions ranged from 0.08 xBW to 0.27 xBW, suggesting SG models do not reliably reflect forces predicted by SS models. Force predictions were also found to be highly sensitive to ligament resting length, with ±10% variations resulting in force differences of up to 84%. Overall, this study demonstrates the sensitivity of ACL force predictions to SS anatomy, specifically musculoskeletal joint geometry and ligament resting lengths, as well as the feasibility for generating SS musculoskeletal models for a group of subjects to predict in vivo tissue loading during functional activities.

Published

2021

32. Residual limb shear strain during gait is correlated with patient reported outcomes for persons with transfemoral amputation

Author

Goeran Fiedler, Tom Gale, Shumeng Yang, Richard L. McGough, and William Anderst

Subjects

Orthodontics, business.industry, Radiography, Rehabilitation, Biomedical Engineering, Biophysics, Strain (injury), Artificial Limbs, Walking, Strain rate, medicine.disease, Prosthesis Design, Gait, Amputation, Surgical, Health problems, Amputees, Shear stress, Medicine, Humans, Orthopedics and Sports Medicine, Patient Reported Outcome Measures, business, Residual limb, Transfemoral amputation

Abstract

The purpose of this study was to measure residual limb skin strain and strain rate within the socket during gait in individuals with a transfemoral amputation and to determine if skin strain during gait is related to patient-reported comfort and function. It was hypothesized that greater skin strain and skin strain rate would correlate to worse patient-reported outcomes. It was also hypothesized that skin strain would progressively increase from the distal to the proximal end of the residuum and maximum strain would occur shortly after heel strike. Dynamic biplane radiography (DBR), combined with conventional motion capture, was used to measure skin deformation within the socket during treadmill walking for 10 persons with unilateral transfemoral amputation. The questionnaire for persons with a transfemoral amputation (Q-TFA) was administered to assess prosthetic use, mobility, health problems, and global health. Q-TFA Prosthetic Use score and Problem score were negatively correlated with the peak shear strains in the proximal and distal regions of the residuum, respectively. Maximum shear strain increased progressively from proximal to distal regions of the residual limb. Within-subject variability in shear strain waveforms during gait was 0.7% or less, but between-subject variability was 3.3% to 5.0% shear. This study demonstrates that skin shear within the socket of persons with transfemoral amputation can be measured during gait using DBR and the results suggest that greater skin shear in the proximal region of the socket is related to decreased prosthetic use.

Published

2021

33. Implant characteristics affect in vivo shoulder kinematics during multiplanar functional motions after reverse shoulder arthroplasty

Author

Christopher Como, Clarissa LeVasseur, Gillian Kane, Ajinkya Rai, Maria Munsch, Alexandra Gabrielli, Jonathan Hughes, William Anderst, and Albert Lin

Subjects

Upper Extremity, Shoulder, Arthroplasty, Replacement, Shoulder, Shoulder Joint, Rehabilitation, Biomedical Engineering, Biophysics, Humans, Orthopedics and Sports Medicine, Range of Motion, Articular, Prosthesis Design, Article, Biomechanical Phenomena

Abstract

The purpose of this study was to determine how implant characteristics affect in vivo shoulder kinematics after reverse shoulder arthroplasty (RSA). Kinematics of the affected upper limb were measured in 32 participants during five motions (scapular plane abduction, hand-to-head, hand-to-back, internal/external rotation at 90° abduction, and circumduction) using optical motion capture. Shoulder abduction, plane of elevation, and internal/external rotation range of motion (ROM), peak angles, and continuous kinematics waveforms were calculated for each motion. Multiple regression was used to identify associations between kinematics and implant characteristics of lateralization, humeral retroversion, glenosphere size, glenosphere tilt, glenoid eccentricity, and implant neck-shaft angle (135° or 145°). Less humeral retroversion was associated with greater shoulder rotation ROM (p = 0.036) and greater plane of elevation ROM (p = 0.024) during circumduction, while less eccentricity was associated with more posterior plane of elevation during hand-to-back (p = 0.021). The 145° implant was associated with greater internal/external shoulder rotation ROM (p 0.001), greater internal shoulder rotation (p = 0.002), and greater plane of elevation ROM (p = 001) during the hand-to-back. The 145° implant was also associated with more internal/external rotation ROM (p = 0.043) during shoulder rotation and more abduction ROM during circumduction (p = 0.043). During the hand-to-back motion, individuals having 135° neck-shaft angle implants were more abducted from 21 to 51% of the motion and were less internally rotated from 70 to 100% of the motion, while more lateralization was associated with less internal rotation from 90 to 100% of the motion. Retroversion and implant neck-shaft angle are the primary implant characteristics associated with in vivo shoulder kinematics during complex motions after RSA.

Published

2022

34. The effect of lateral extra-articular tenodesis on in vivo cartilage contact in combined anterior cruciate ligament reconstruction

Author

Daisuke Chiba, Freddie H. Fu, Volker Musahl, William Anderst, Felipe Suntaxi, Kyohei Nishida, Tom Gale, and Bryson P. Lesniak

Subjects

Joint Instability, medicine.medical_specialty, Anterior cruciate ligament reconstruction, Knee Joint, Anterior cruciate ligament, Radiography, medicine.medical_treatment, Tenodesis, 03 medical and health sciences, 0302 clinical medicine, Medicine, Humans, Orthopedics and Sports Medicine, Tibia, Orthodontics, 030222 orthopedics, Anterior Cruciate Ligament Reconstruction, business.industry, Compartment (ship), Cartilage, Anterior Cruciate Ligament Injuries, 030229 sport sciences, Biomechanical Phenomena, medicine.anatomical_structure, Orthopedic surgery, Surgery, business, Contact area

Abstract

Lateral extra-articular tenodesis (LET) may confer improved rotational stability after anterior cruciate ligament reconstruction (ACLR). Little is known about how LET affects in vivo cartilage contact after ACLR. The aim of this study was to investigate the effect of LET in combination with ACLR (ACLR + LET) on in vivo cartilage contact kinematics compared to isolated ACLR (ACLR) during downhill running. It was hypothesised that cartilage contact area in the lateral compartment would be larger in ACLR + LET compared with ACLR, and that the anterior-posterior (A-P) position of the contact center on the lateral tibia would be more anterior after ACLR + LET than after ACLR.Twenty patients were randomly assigned into ACLR + LET or ACLR during surgery (ClinicalTrials.gov:NCT02913404). At 6 months and 12 months after surgery, participants were imaged during downhill running using biplane radiography. Tibiofemoral motion was tracked using a validated registration process. Patient-specific cartilage models, obtained from 3 T MRI, were registered to track bone models and used to calculate the dynamic cartilage contact area and center of cartilage contact in both the medial and lateral tibiofemoral compartments, respectively. The side-to-side differences (SSD) were compared between groups using a Mann-Whitney U test.At 6 months after surgery, the SSD in A-P cartilage contact center in ACLR + LET (3.9 ± 2.6 mm, 4.4 ± 3.1 mm) was larger than in ACLR (1.2 ± 1.6 mm, 1.5 ± 2.0 mm) at 10% and 20% of the gait cycle, respectively (p 0.01, p 0.05). There was no difference in the SSD in cartilage contact center at 12 months after surgery. There was no difference in SSD of cartilage contact area in the medial and lateral compartments at both 6 and 12 months after surgery. There were no adverse events during the trial.LET in combination with ACLR may affect the cartilage contact center during downhill running in the early post-operation phase, but this effect is lost in the longer term. This suggests that healing and neuromuscular adaptation occur over time and may also indicate a dampening of the effect of LET over time. (337 /350 words) LEVEL OF EVIDENCE: Level II.

Published

2020

35. Increases in Load Carriage Magnitude and Forced Marching Change Lower-Extremity Coordination in Physically Active, Recruit-Aged Women

Author

Mita Lovalekar, Qi Mi, William Anderst, Chris Connaboy, Dennis E. Dever, Kellen T. Krajewski, Katelyn F. Allison, Camille C. Johnson, Nizam Uddin Ahamed, and Shawn D. Flanagan

Subjects

medicine.medical_specialty, Knee Joint, Biophysics, STRIDE, Magnitude (mathematics), Walking, Body weight, Weight-Bearing, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Humans, Orthopedics and Sports Medicine, Heel strike, Gait, Mathematics, Aged, Load carriage, Rehabilitation, Motor control, 030229 sport sciences, Sagittal plane, Biomechanical Phenomena, medicine.anatomical_structure, Lower Extremity, Female, 030217 neurology & neurosurgery

Abstract

The objective was to examine the interactive effects of load magnitude and locomotion pattern on lower-extremity joint angles and intralimb coordination in recruit-aged women. Twelve women walked, ran, and forced marched at body weight and with loads of +25%, and +45% of body weight on an instrumented treadmill with infrared cameras. Joint angles were assessed in the sagittal plane. Intralimb coordination of the thigh–shank and shank–foot couple was assessed with continuous relative phase. Mean absolute relative phase (entire stride) and deviation phase (stance phase) were calculated from continuous relative phase. At heel strike, forced marching exhibited greater (P P = .007) and ankle dorsiflexion (P = .04) increased with increased load magnitude for all locomotion patterns. Forced marching (P = .009) demonstrated a “stiff-legged” locomotion pattern compared with running, evidenced by the more in-phase mean absolute relative phase values. Running (P = .03) and walking (P = .003) had greater deviation phase than forced marching. Deviation phase increased for running (P = .03) and walking (P 25% of body weight, forced marching may increase risk of injury due to inhibited energy attenuation up the kinetic chain and lack of variability to disperse force across different supportive structures.

Published

2020

36. Foot Loading Symmetry is Improved after Unicompartmental Knee Arthroplasty

Author

Milad Zarei, William Anderst, MaCalus V. Hogan, Ken Urish, and Dukens LaBaze

Subjects

Orthodontics, musculoskeletal diseases, business.industry, Single compartment, medicine.medical_treatment, Biomechanics, Osteoarthritis, medicine.disease, Article, Foot loading, body regions, lcsh:RD701-811, lcsh:Orthopedic surgery, Medicine, Symmetry (geometry), Biomechanics of the Foot and Ankle, business, Unicompartmental knee arthroplasty, Midfoot

Abstract

Category: Basic Sciences/Biologics; Midfoot/Forefoot Introduction/Purpose: Unicompartmental Knee Arthroplasty (UKA) is a surgical option for osteoarthritis in a single compartment of the knee. Compared to Total Knee Arthroplasty (TKA), UKA is less expensive, retains the cruciate ligaments and results in lower post-operative morbidity.[1] It has been reported that about 10 percent of UKAs require revision to TKA for multiple reasons. In TKA, ankle alignment has demonstrated a significant effect on outcomes and function. [2] Plantar pressure, a measure of foot and ankle loading, changes after TKAs but has yet to be evaluated in UKAs. The purpose of this study is to evaluate the effects of medial UKA on plantar pressure which may be a variable that contributes to revisions in these patients. Methods: Following IRB approval and informed consent, we evaluated 7 adults (14 Feet) (average age 62; range: 54 to 68 years old; 4F/ 3M). All participants walked at a self-selected speed pre surgery and 7 months post-surgery. The Pedar insole pressure system (Novel), with 99 sensors per insole, was used to collect bilateral plantar pressure during gait at 100 Hz. All participants wore the same type of shoes (Nike Zoom) for the test. The insole was divided into 9 regions for analysis2 (Figure 1). The maximum pressure (MP) within each foot region was calculated for each step and averaged over all steps. Paired and unpaired t- tests were performed to identify differences in the MP from pre to post-op and between operated and contralateral sides, respectively. Results: An average of 24 steps were recorded from each patient pre and post operatively. MP became more symmetrical between feet post-operatively, with significant improvements in bilateral symmetry observed in the medial heel, medial and lateral forefoot regions (all pConclusion: Our results indicate that foot loading, as assessed through plantar pressure, becomes more symmetrical after unilateral UKA and may also affect non-operative foot loading. Although our sample size is small, our data is comparable with a similar study done in TKA patients which reported changes forefoot and lateral midfoot loading. [Table: see text]

Published

2020

37. Load Magnitude and Locomotion Pattern Alter Locomotor System Function in Healthy Young Adult Women

Author

Qi Mi, Richard J. Simpson, Scott M. Graham, Camille C. Johnson, Shawn D. Flanagan, William Anderst, Chris Connaboy, Gavin L. Moir, Nizam Uddin Ahamed, Kellen T. Krajewski, and Dennis E. Dever

Subjects

0301 basic medicine, medicine.medical_specialty, Histology, lcsh:Biotechnology, Anatomical structures, Biomedical Engineering, STRIDE, Bioengineering, 02 engineering and technology, Biology, gait, biomechanics, 03 medical and health sciences, Physical medicine and rehabilitation, lcsh:TP248.13-248.65, medicine, motor control, Young adult, motor variability, Neurologically impaired, Original Research, Load carriage, Biomechanics, load carriage, Motor control, Bioengineering and Biotechnology, regulation, 021001 nanoscience & nanotechnology, 030104 developmental biology, Detrended fluctuation analysis, 0210 nano-technology, complexity, human activities, complexity, motor variability, load carriage, motor control, regulation, biomechanics, gait, Biotechnology

Abstract

Introduction: During cyclical steady state ambulation, such as walking, variability in stride intervals can indicate the state of the system. In order to define locomotor system function, observed variability in motor patterns, stride regulation and gait complexity must be assessed in the presence of a perturbation. Common perturbations, especially for military populations, are load carriage and an imposed locomotion pattern known as forced marching (FM). We examined the interactive effects of load magnitude and locomotion pattern on motor variability, stride regulation and gait complexity during bipedal ambulation in recruit-aged females. Methods: Eleven healthy physically active females (18–30 years) completed 1-min trials of running and FM at three load conditions: no additional weight/bodyweight (BW), an additional 25% of BW (BW + 25%), and an additional 45% of BW (BW + 45%). A goal equivalent manifold (GEM) approach was used to assess motor variability yielding relative variability (RV; ratio of “good” to “bad” variability) and detrended fluctuation analysis (DFA) to determine gait complexity on stride length (SL) and stride time (ST) parameters. DFA was also used on GEM outcomes to calculate stride regulation. Results: There was a main effect of load (p = 0.01) on RV; as load increased, RV decreased. There was a main effect of locomotion (p = 0.01), with FM exhibiting greater RV than running. Strides were regulated more tightly and corrected quicker at BW + 45% compared (p < 0.05) to BW. Stride regulation was greater for FM compared to running. There was a main effect of load for gait complexity (p = 0.002); as load increased gait complexity decreased, likewise FM had less (p = 0.02) gait complexity than running. Discussion: This study is the first to employ a GEM approach and a complexity analysis to gait tasks under load carriage. Reduction in “good” variability as load increases potentially exposes anatomical structures to repetitive site-specific loading. Furthermore, load carriage magnitudes of BW + 45% potentially destabilize the system making individuals less adaptable to additional perturbations. This is further evidenced by the decrease in gait complexity, which all participants demonstrated values similarly observed in neurologically impaired populations during the BW + 45% load condition.

Published

2020

38. Changes in In Vivo Glenohumeral Joint Contact Patterns After Arthroscopic Superior Capsule Reconstruction

Author

William Anderst, Alexandra S. Gabrielli, Clarissa M. LeVasseur, Adam Popchak, Gillian Kane, Albert Lin, and James J. Irrgang

Subjects

medicine.medical_specialty, medicine.anatomical_structure, business.industry, In vivo, medicine, Tears, Capsule, Orthopedics and Sports Medicine, Rotator cuff, business, Joint contact, Article, Surgery

Abstract

Objectives: Patients with irreparable rotator cuff tears (RCT) exhibit functional limitations believed to be caused by superior migration of the humerus1,2. One viable treatment is superior capsule reconstruction (SCR). SCR has been shown to restore stability of the glenohumeral (GH) joint in cadavers1, but its effectiveness at controlling in vivo humeral motion is unknown. Outcomes are typically evaluated through standard clinical radiographs to assess acromial-humeral distance (AHD), and patient-reported outcomes (PROs) such as ASES and Visual Analog Scale3. Reported changes in AHD are inconsistent, with some studies reporting an increase in AHD of 2.6 to 3.2 mm4,7, while other studies reported no significant change5,6 in AHD after SCR. Scapulohumeral rhythm (SHR), a measure of shoulder motion fluidity, has been reported at 2:1 (glenohumeral to scapulothoracic motion) in healthy individuals9, but the effects of SCR on SHR are unknown. The aim of this study was to determine the effect of SCR on static and dynamic AHD, shoulder function, and patient-reported outcomes. We hypothesized that after SCR, static and dynamic AHD would increase, SHR would approximate that of a healthy shoulder, maximum GH abduction would increase, and PROs would improve. Methods: Ten patients with irreparable RCT provided informed consent prior to receiving human dermal allograft SCR. To date, seven (6M, 1F, age 60 ± 8 years) have returned for 1 year post-operative testing. ASES, DASH, and WORC surveys were completed before (PRE), 6 months (6MO-POST), and 1-year after SCR (1YR-POST). Synchronized biplane radiographs of the shoulder were collected PRE and 1YR-POST at 50 images/s while patients performed 3 trials of scapular plane arm abduction. Six degree of freedom GH and scapular kinematics were determined with sub-millimeter accuracy by matching subject-specific CT-based bone models of the humerus and scapula to radiographs using a validated volumetric tracking technique8. AHD was calculated as the minimum distance between the acromion and the humerus at 5° increments of GH abduction. Scapulohumeral rhythm (SHR) was calculated by finding the average change in glenohumeral abduction per degree of scapular upward rotation during scapular abduction.Differences between PRE and 1YR-POST SHR and static AHD distance were evaluated using a paired t-test with significance set at p < 0.05. Changes in PROs were compared to the minimum clinically important difference (MCID). Results: There was a trend toward decreasing static AHD from PRE to 1YR-POST (average decrease: 1.5±1.6mm (p=0.06), however, dynamic AHD did not change from PRE to 1 YR-POST between 45° and 95° of glenohumeral abduction (all p > 0.11) (Figure 1). There was a trend toward increased SHR from 1.1 ± 0.5 PRE to 1.5 ± 0.3 1YR-POST (p = 0.08) (Figure 2), while the increase in maximum GH abduction during scapular abduction from PRE (76.7°±24.5°) to 1YR-POST (91.8°±14.9°) was not statistically significant (p = 0.14) (Figure 2). ASES, WORC, and DASH scores improved beyond the minimum clinically important difference from PRE to 1YR-POST (Table 1) for all patients. Conclusion: In general, SHR tended to more closely resemble that of a healthy shoulder following SCR. Althoughaverage maximum GH abduction was higher postoperatively than preoperatively, that increase was not statistically significant and may reflect that most patients in our cohort had reasonable preoperative abduction. In contrast to those quantitative measures of shoulder function, patient-reported qualitative outcomes all improved significantly. Conflicting results between static and dynamic AHD during higher glenohumeral abduction angles suggest SCR does not appear to affect AHD in higher abduction angles, though the static AHD suggests there may be a difference at lower abduction angles. Dynamic measurements of AHD at lower abduction angles will be necessary to fully characterize the dynamic changes of AHD following SCR. Figure 1. Patient-reported outcomes. Bolded scores represent changes greater than the minimum clinically important different (MCID) compared to PRE and average contact center locations ± 1 standard deviation throughout scapular plane abdjuction. Black + indicates the glenoid center with anterior (A) and posterior (P) directions indicated on the glenoid.

Published

2020

39. Assessing the Biofidelity of In Vitro Biomechanical Testing of the Human Cervical Spine

Author

Clair N. Smith, Charity G. Patterson, Clarissa M. LeVasseur, Forbes E. Howington, William Anderst, Joon Y. Lee, Richard A Wawrose, William F. Donaldson, Kevin M. Bell, Brandon K. Couch, and Jeremy D. Shaw

Subjects

Adult, Male, Rotation, business.industry, Biomechanics, Kinematics, Middle Aged, Biplane, Article, Biomechanical Phenomena, Couple, In vivo, Cervical Vertebrae, Medicine, Humans, Orthopedics and Sports Medicine, Female, Range of Motion, Articular, business, Range of motion, Cadaveric spasm, Intervertebral Disc, Instant centre of rotation, Biomedical engineering

Abstract

In vitro biomechanical studies of the osteoligamentous spine are widely used to characterize normal biomechanics, identify injury mechanisms, and assess the effects of degeneration and surgical instrumentation on spine mechanics. The objective of this study was to determine how well four standards in vitro loading paradigms replicate in vivo kinematics with regards to the instantaneous center of rotation and arthrokinematics in relation to disc deformation. In vivo data were previously collected from 20 asymptomatic participants (45.5 ± 5.8 years) who performed full range of motion neck flexion-extension (FE) within a biplane x-ray system. Intervertebral kinematics were determined with sub-millimeter precision using a validated model-based tracking process. Ten cadaveric spines (51.8 ± 7.3 years) were tested in FE within a robotic testing system. Each specimen was tested under four loading conditions: pure moment, axial loading, follower loading, and combined loading. The in vivo and in vitro bone motion data were directly compared. The average in vitro instant center of rotation was significantly more anterior in all four loading paradigms for all levels. In general, the anterior and posterior disc heights were larger in the in vitro models than in vivo. However, after adjusting for gender, the observed differences in disc height were not statistically significant. This data suggests that in vitro biomechanical testing alone may fail to replicate in vivo conditions, with significant implications for novel motion preservation devices such as cervical disc arthroplasty implants.

Published

2020

40. The Effects of Age, Pathology, and Fusion on Cervical Neural Foramen Area

Author

William Anderst, Clarissa M. LeVasseur, William F. Donaldson, Jeremy D. Shaw, Samuel Pitcairn, and Joon Y. Lee

Subjects

Adult, Male, Pathology, medicine.medical_specialty, Aging, Nerve root, Radiography, Arthrodesis, medicine.medical_treatment, 0206 medical engineering, Anterior cervical discectomy and fusion, 02 engineering and technology, Neurological disorder, Article, 03 medical and health sciences, Young Adult, 0302 clinical medicine, medicine, Humans, Orthopedics and Sports Medicine, Young adult, Intervertebral foramen, Retrospective Studies, 030203 arthritis & rheumatology, business.industry, Middle Aged, medicine.disease, 020601 biomedical engineering, medicine.anatomical_structure, Spinal Fusion, Cervical arthrodesis, Cervical Vertebrae, Female, Spondylosis, business, Tomography, X-Ray Computed, Spinal Canal, Diskectomy

Abstract

Cervical radiculopathy is a relatively common neurological disorder, often resulting from mechanical compression of the nerve root within the neural foramen. Anterior cervical discectomy and fusion (ACDF) is a common treatment for radicular symptoms that do not resolve after conservative treatment. One mechanism by which ACDF is believed to resolve symptoms is by replacing degenerated disc tissue with bone graft to increase the neural foramen area, however in vivo evidence demonstrating this is lacking. The aim of this study was to evaluate the effects of age, pathology, and fusion on bony neural foramen area. Participants included 30 young adult controls (

Published

2020

41. Unloader knee brace increases medial compartment joint space during gait in knee osteoarthritis patients

Author

William Anderst, Kanto Nagai, Freddie H. Fu, and Shumeng Yang

Subjects

Adult, Male, musculoskeletal diseases, medicine.medical_specialty, Continuous measurement, Knee Joint, Pain, Walking, Osteoarthritis, Biplane, Article, 03 medical and health sciences, Physical medicine and rehabilitation, 0302 clinical medicine, Gait (human), Surveys and Questionnaires, medicine, Humans, Orthopedics and Sports Medicine, Ground reaction force, Gait, Orthodontics, 030222 orthopedics, Braces, business.industry, Compartment (ship), Outcome measures, 030229 sport sciences, Middle Aged, Osteoarthritis, Knee, Varus knee, equipment and supplies, musculoskeletal system, medicine.disease, Brace, Biomechanical Phenomena, Radiography, Orthopedic surgery, Female, Heel, Surgery, business, human activities

Abstract

Objectives: Clinical outcome measures suggest the unloader brace provides small-to-moderate improvements in pain and function in varus knee osteoarthritis (OA) patients. However, controversy still exists as to whether the brace has the real effect of increasing tibiofemoral joint space in the medial compartment during functional activity. As a limitation, the previous studies did not report ground reaction forces (GRF) with and without the brace, which could be a confounding factor affecting joint space. Therefore, the purpose of the present study was to investigate the effect of an unloader brace on dynamic joint space in medial compartment in OA patients while simultaneously recording GRF during gait. The hypotheses were (1) dynamic joint space in the medial compartment would be greater with the unloader brace than without the brace during gait, and (2) GRF during gait would be smaller with the brace than without the brace. Methods: Ten varus knee OA patients were enrolled (Age: 52±8 years). After minimum 2-week daily use of the unloader brace, subjects walked (1.0 m/s) on an instrumented treadmill while biplane radiographs of the OA knees were acquired at 100 Hz. Tibiofemoral motion was determined from the biplane radiographs from initial contact to terminal stance phase (gait cycle: 0-40%) using a previously validated model-based tracking process. Dynamic joint space measurement in the medial compartment was performed using previously reported method. Briefly, the medial tibial plateau was divided into 9 sub-regions (Figure 1A) and the average minimum distance between femur and tibia subchondral bone was calculated in each region. The region with the smallest joint space over the three walking trials was selected for the analysis. GRF during gait were collected at 1000 Hz and normalized by each subject’s body weight. Output parameters were averaged over 10% intervals of the gait cycle. Two-way repeated measures ANOVA (gait cycle x brace condition) was used to explore differences in medial compartment dynamic joint space and GRF between the 2 conditions (unbraced and braced). Post-hoc paired t-tests identified the differences between the 2 conditions during the same gait cycle period. Significance level was set as P < 0.05. A subjective questionnaire for the brace usage was collected at the time of the test. Results: The dynamic joint space in the medial compartment was significantly greater with the unloader brace than without the brace during gait (P = 0.004) (Table 1, Figure 1B). The average difference between the 2 conditions was 0.27 mm (95% confidential interval: 0.12-0.43). No significant difference was observed in terms of GRF between unbraced and braced conditions. The questionnaire showed participants felt reduced pain (4.1±0.7 out of 5 scale) and were comfortable (3.8±0.8 out of 5) when wearing the brace. Conclusion: The unloader knee brace induced a small but significant increase in medial dynamic joint space during gait. Furthermore, no differences in GRF during gait were found between unbraced and braced conditions, indicating that the increase of medial joint space with bracing was not due to decreased limb-loading during gait, but instead due to the brace use itself. These results suggest that the OA unloader brace may reduce medial compartment joint loading during dynamic loading activities. Figure 1. (A) Medial compartment regions used to calculate dynamic joint space. The medial tibial plateau was divided into 9 sub-regions, and the average joint space in each region was obtained over every 10% of gait cycle. The regions with the smallest joint space (region 5 in 9/10 subjects) was selected for the analysis. (B) The instantaneous dynamic joint space during gait at 15% of the gait cycle for one subject, demonstrating increased medial compartment joint space in the braced condition. Table 1. Results of medial compartment dynamic joint space and ground reaction forces during gait. *Statistically significant difference (vs unbraced condition) Gait cycle Medial compartment dynamic Joint space (mm) Ground reaction forces / Body weight Unbraced Braced P-value Unbraced Braced P-value 0-10% 2.8 ± 0.9 3.2 ± 1.0* 0.007 0.55 ± 0.11* 0.56 ± 0.12* N/A 10-20% 2.4 ± 0.8 2.6 ±0.8* 0.001 0.94± 0.11* 0.94 ± 0.08* 20-30% 2.4 ± 0.8 2.6 ±0.7* 0.028 0.87 ± 0.09* 0.92 ± 0.08* 30-40% 2.3± 0.7 2.6 ±0.6* 0.017 0.90 ± 0.08* 0.91 ± 0.09* Overall 2.5 ± 0.8 2.8 ±0.7* 0.004 0.81 ± 0.04* 0.83 ± 0.04* 0.15

Published

2018

42. ISSLS PRIZE IN BIOENGINEERING SCIENCE 2018: dynamic imaging of degenerative spondylolisthesis reveals mid-range dynamic lumbar instability not evident on static clinical radiographs

Author

Zach Adgate, Malcolm E. Dombrowski, Ameet Aiyangar, William F. Donaldson, Bryan Rynearson, Joon Y. Lee, Clarissa M. LeVasseur, and William Anderst

Subjects

Joint Instability, Male, medicine.medical_treatment, Radiography, Dynamic imaging, Awards and Prizes, Article, 03 medical and health sciences, Imaging, Three-Dimensional, 0302 clinical medicine, Lumbar, medicine, Humans, Orthopedics and Sports Medicine, 030212 general & internal medicine, Range of Motion, Articular, Aged, Lumbar Vertebrae, business.industry, Laminectomy, Lumbar spinal stenosis, Middle Aged, medicine.disease, Sagittal plane, Biomechanical Phenomena, Vertebra, medicine.anatomical_structure, Spinal fusion, Female, Surgery, Spondylolisthesis, Tomography, X-Ray Computed, business, Nuclear medicine, 030217 neurology & neurosurgery

Abstract

Degenerative spondylolisthesis (DS) in the setting of symptomatic lumbar spinal stenosis is commonly treated with spinal fusion in addition to decompression with laminectomy. However, recent studies have shown similar clinical outcomes after decompression alone, suggesting that a subset of DS patients may not require spinal fusion. Identification of dynamic instability could prove useful for predicting which patients are at higher risk of post-laminectomy destabilization necessitating fusion. The goal of this study was to determine if static clinical radiographs adequately characterize dynamic instability in patients with lumbar degenerative spondylolisthesis (DS) and to compare the rotational and translational kinematics in vivo during continuous dynamic flexion activity in DS versus asymptomatic age-matched controls. Seven patients with symptomatic single level lumbar DS (6 M, 1 F; 66 ± 5.0 years) and seven age-matched asymptomatic controls (5 M, 2 F age 63.9 ± 6.4 years) underwent biplane radiographic imaging during continuous torso flexion. A volumetric model-based tracking system was used to track each vertebra in the radiographic images using subject-specific 3D bone models from high-resolution computed tomography (CT). In vivo continuous dynamic sagittal rotation (flexion/extension) and AP translation (slip) were calculated and compared to clinical measures of intervertebral flexion/extension and AP translation obtained from standard lateral flexion/extension radiographs. Static clinical radiographs underestimate the degree of AP translation seen on dynamic in vivo imaging (1.0 vs 3.1 mm; p = 0.03). DS patients demonstrated three primary motion patterns compared to a single kinematic pattern in asymptomatic controls when analyzing continuous dynamic in vivo imaging. 3/7 (42%) of patients with DS demonstrated aberrant mid-range motion. Continuous in vivo dynamic imaging in DS reveals a spectrum of aberrant motion with significantly greater kinematic heterogeneity than previously realized that is not readily seen on current clinical imaging. Level V data These slides can be retrieved under Electronic Supplementary Material.

Published

2018

43. Patient-reported outcome measures following anterior cruciate ligament reconstruction are not related to dynamic knee extension angle

Author

Elmar Herbst, William Anderst, Kanto Nagai, Tom Gale, Yasutaka Tashiro, Freddie H. Fu, and James J. Irrgang

Subjects

musculoskeletal diseases, Foot strike, Orthodontics, 030222 orthopedics, Anterior cruciate ligament reconstruction, business.industry, medicine.medical_treatment, Radiography, 030229 sport sciences, Osteoarthritis, Knee extension, musculoskeletal system, medicine.disease, 03 medical and health sciences, 0302 clinical medicine, medicine, Orthopedics and Sports Medicine, Surgery, Patient-reported outcome, Level iii, Treadmill, business, human activities

Abstract

Objectives Controversy still exists on whether knee hyperextension affects the outcome following anterior cruciate ligament reconstruction (ACL-R). Therefore, the purpose of the present study was to determine if maximum knee extension angle of ACL-R knees and contralateral uninjured knees during walking is related to the clinical outcome following ACL-R. It was hypothesised that maximum knee extension angle would not be significantly correlated with patient-reported outcome measures (PROMs) following ACL-R. Methods Forty-two patients (age at surgery: 23±9 years, 23 male and 19 female) underwent unilateral ACL-R. Twenty-four months after surgery, subjects performed level walking on a treadmill while biplane radiographs were acquired at 100 Hz. Three-dimensional tibiofemoral motion was determined using a validated model-based tracking process. Tibiofemoral rotations were calculated from foot strike through early stance. The primary kinematic outcome measure was maximum knee extension angle of ACL-R and contralateral uninjured knees during walking, with positive values indicating hyperextension. The side-to-side difference (SSD) in maximum knee extension angle was calculated by subtracting the angle of the contralateral uninjured knee from that of the ACL reconstructed knee. PROMs (International Knee Documentation Committee Subjective Knee Form, Knee Injury and Osteoarthritis Score and Marx Activity Rating Scale) were obtained at 24 months after surgery. Correlations between PROMs and maximum dynamic knee extension angle in ACL-R and contralateral knee were evaluated (P Results Maximum knee extension angle during walking was 2.3±4.5° in ACL-R knees and 4.3±4.2° in contralateral uninjured knees at 24 months after surgery, indicating hyperextension during walking on average. SSD in maximum knee extension angle was −2.0±3.7°. No significant correlation was observed between maximum knee extension angle and the PROMs. Conclusion Maximum knee extension angle during walking was not significantly correlated with PROMs, suggesting that clinically, physiologic knee hyperextension can be restored after ACL-R and not adversely affect PROMs. Level of evidence Level III.

Published

2018

44. Motion, and Patient-Reported Outcomes

Author

Gillian Kane, James J. Irrgang, Adam Popchak, William Anderst, Clarissa M. LeVasseur, Albert Lin, and Jonathan D. Hughes

Subjects

medicine.medical_specialty, business.industry, Capsule, Article, Surgery, law.invention, medicine.anatomical_structure, Randomized controlled trial, law, medicine, Tears, Orthopedics and Sports Medicine, Rotator cuff, business

Abstract

Objectives: Patients with irreparable rotator cuff tears (RCT) exhibit functional limitations believed to be caused by superior migration of the humerus1,2. One viable treatment is superior capsule reconstruction (SCR). SCR has been shown to restore stability of the glenohumeral (GH) joint in cadavers1, but its effectiveness at controlling in vivo humeral motion is unknown. Outcomes are typically evaluated through standard clinical radiographs to assess acromial-humeral distance (AHD), and patient-reported outcomes (PROs) such as ASES and Visual Analog Scale3. Reported changes in AHD are inconsistent, with some studies reporting an increase in AHD of 2.6 to 3.2 mm4,5, while other studies reported no significant change in AHD after SCR6,7. Additionally, AHD does not account for anterior-posterior translations of the humeral head and clinical radiographs cannot assess dynamic translation of the humerus during arm abduction. The aim of this study was to determine the in vivo effect of SCR on in vivo glenohumeral arthrokinematics during scapular abduction, and to compare these results to PROs. We hypothesized that static and dynamic AHD would increase, humeral head location on the glenoid would be more inferior at corresponding abduction angles after SCR, and changes in humeral head translation or AHD would correlate with increased GH abduction range of motion and improved PROs. Methods: Ten patients (8M, 2F, age 63 ± 7 years) with irreparable RCT provided informed consent to participate in this prospective IRB-approved study. ASES, DASH, and WORC surveys were completed before (PRE) and 1-year (1YR-POST) after SCR. Synchronized biplane radiographs of the shoulder were collected PRE and 1YR-POST at 50 images/s while patients performed 3 trials of scapular plane arm abduction. Biplane radiographs were also collected during a static neutral trial where the participants placed their hand on their lap. Six degree of freedom GH and scapular kinematics were determined with sub-millimeter accuracy by matching subject-specific CT-based bone models of the humerus and scapula to radiographs using a validated volumetric tracking technique8. AHD was calculated as the minimum distance between the acromion and the humerus at 10° increments of GH abduction and averaged throughout the motion. Humeral head translation, defined as the relative translation of the center of the humeral head compared to the center of the glenoid, was calculated at 10° increments of GH abduction and expressed as averages in the superior/inferior (SI) and anterior/posterior (AP) directions. Differences between PRE and 1YR-POST static AHD, average dynamic humeral head location, PROs, and maximum GH abduction were evaluated using a paired t-test. A Pearson correlation was used to determine associations between static AHD and average humeral head location, and both PROs and maximum GH abduction. Significance was set at p < 0.05 for all tests. Results: There was no difference in static AHD from PRE (5.3±1.6mm) to 1YR-POST (4.6±1.6mm) while the average dynamic AHD during GH abduction decreased from 2.7±1.2mm PRE to 2.3±1.0mm 1YR-POST (Figure 1). Static AHD was larger than the average dynamic AHD both PRE and 1YR-POST (Figure 1). The average position of the humeral head during abduction moved 1.5% of the glenoid height superior from PRE to 1YR-POST and 1.7% of the glenoid width anterior from PRE to 1YR-POST (Figure 2). ASES, WORC, and DASH scores significantly improved from PRE to 1YR-POST and maximum GH abduction significantly increased from PRE (78.1±23.1°) to 1YR-POST (93.9±12.3°) (Table 1). Interestingly, there was a positive correlation between the AP humeral head location and DASH score PRE such that a higher DASH score was associated with the humeral head being more anterior (R = 0.767). No other associations were found between either average humeral head locations or AHD and either PROs or maximum GH abduction at both time points as well as the changes in those measures between time points (all R < 0.67). Conclusions: Static AHD, as measured clinically, may not be a good representation of dynamic AHD during scapular abduction given the differences between the static and dynamic AHD measurements at similar abduction angles. Additionally, our in vivo kinematics findings are not consistent with prior results of a cadaver-based biomechanical study of SCR as we found were minute changes in the SI humeral head position, with a 0.4mm more superior humeral head position following SCR. Regardless, patient-reported qualitative outcomes and maximum GH abduction all improved significantly. This suggests clinical outcomes after SCR may be influenced by mechanisms other than restoration of humeral head translation. Future in vivo studies are needed to evaluate the kinematic mechanisms behind improved PROs after SCR. [Table: see text]

Published

2021

45. Kinematics and arthrokinematics in the chronic ACL-deficient knee are altered even in the absence of instability symptoms

Author

Yasutaka Tashiro, Andrew D. Lynch, Freddie H. Fu, William Anderst, and Chen Yang

Subjects

Adult, Male, musculoskeletal diseases, medicine.medical_specialty, Knee Joint, Rotation, Anterior cruciate ligament, Radiography, Walking, Kinematics, Biplane, Article, Running, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Orthopedics and Sports Medicine, Femur, Range of Motion, Articular, Orthodontics, 030222 orthopedics, business.industry, Anterior Cruciate Ligament Injuries, Repeated measures design, 030229 sport sciences, Anatomy, Middle Aged, musculoskeletal system, Biomechanical Phenomena, medicine.anatomical_structure, Case-Control Studies, Orthopedic surgery, Female, Surgery, business, human activities

Abstract

PURPOSE: To analyze the in vivo kinematics and arthrokinematics of chronic ACL-deficient (ACL-D) and unaffected contralateral knees during level walking and downhill running using dynamic biplane radiography. It was hypothesized that ACL-D knees would demonstrate increased anterior translation and internal rotation, and that ACL-deficiency would alter the tibiofemoral contact paths in comparison to the unaffected contralateral side. METHODS: Eight participants with unilateral chronic ACL-D without instability symptoms were recruited. The contralateral unaffected knee was considered as control. Kellgren-Lawrence (K-L) grades were determined from ACL-D and unaffected knees. Dynamic knee motion was determined from footstrike through the early stance phase (20%–25% of gait cycle) using a validated volumetric model-based tracking process that matched subject-specific CT bone models to dynamic biplane radiographs. Participants performed level walking at 1.2 m/s and downhill running at 2.5 m/s while biplane radiographs were collected at 100 and 150 images per second, respectively. Tibiofemoral kinematics and arthrokinematics (the path of the closest contact point between articulating subchondral bone surfaces) were determined and compared between ACL-D and unaffected knees. A two-way repeated measures analysis of variance was used to identify differences between ACL-D and unaffected knees at 5% increments of the gait cycle. RESULTS: Anterior-posterior translations were significantly larger in ACL-D than unaffected knees during level walking (all p < 0.001) and downhill running (all p ≤ 0.022). Internal rotation showed no significant difference between ACL-D and unaffected knees during level walking and downhill running. Closest contact points on the femur in ACL-D knees were consistently more anterior in the lateral compartment during downhill running (significant from 10% to 20% of the gait cycle, all p ≤ 0.044), but not during level walking. No differences in medial compartment contact paths were identified. Half of the participants had asymmetric KL grades, with all having worse knee OA in the involved knee. Only 2 relatively young individuals had not progressed beyond stage 1 in either knee. CONCLUSION: The results suggest that anterior translation and knee joint contact paths are altered in ACL-D knees even in the absence of instability symptoms. The clinical relevance is that ACL-D patients who do not report symptoms of instability likely still demonstrate altered knee kinematics and arthrokinematics compared to their uninvolved limb.

Published

2017

46. Integrating Multi-Modality Imaging and Biodynamic Measurements for Studying Neck Biomechanics During Sustained-Till-Exhaustion Neck Exertions

Author

Tom Gale, William Anderst, Yu Zhou, Suman Kanti Chowdhury, Liying Zheng, Ryan M. Byrne, and Xudong Zhang

Subjects

Medical Terminology, 030222 orthopedics, 03 medical and health sciences, medicine.medical_specialty, 0302 clinical medicine, Physical medicine and rehabilitation, business.industry, medicine, Biomechanics, 030229 sport sciences, business, Multi modality, Medical Assisting and Transcription

Abstract

Neck musculoskeletal disorders have been associated with various occupational tasks, in particular tasks that require non-neutral sustained exertions. To gain a clear understanding of the neck biomechanics during such exertions, we have recently initiated an unprecedented integration of multi-modality state-of-the-art measurement procedures including dynamic radiographic imaging, surface-based motion capture, electromyography, computed tomography and magnetic resonance imaging. This paper describes an overview of our systematic, integrative efforts of in vivo biodynamic measurements during sustained-till- exhaustion neck exertions and multi-modality imaging data, and how such an integrated database can be used to construct subject-specific neck musculoskeletal models. A complete dataset of one participant is presented to illustrate the acquired data. In the next phase, subject-specific ‘what-if’ computer simulations will be implemented to understand the mechano-physiological effects of sustained-till-exhaustion neck exertions for different work scenarios and worker characteristics in order to derive effective injury prevention and intervention strategies.

Published

2017

47. Knee hyperextension does not adversely affect dynamic in vivo kinematics after anterior cruciate ligament reconstruction

Author

James J. Irrgang, Freddie H. Fu, Scott Tashman, Kanto Nagai, Tom Gale, William Anderst, Yasutaka Tashiro, and Elmar Herbst

Subjects

Adult, Male, musculoskeletal diseases, medicine.medical_specialty, Adolescent, Knee Joint, Rotation, Anterior cruciate ligament reconstruction, medicine.medical_treatment, Radiography, Hyperextension, Walking, Kinematics, Running, Young Adult, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Orthopedics and Sports Medicine, Femur, Range of Motion, Articular, Treadmill, Gait, Functional movement, Orthodontics, 030222 orthopedics, Anterior Cruciate Ligament Reconstruction, Tibia, business.industry, Anterior Cruciate Ligament Injuries, 030229 sport sciences, musculoskeletal system, Biomechanical Phenomena, Orthopedic surgery, Exercise Test, Female, Surgery, Range of motion, business, human activities

Abstract

To evaluate the effect of knee hyperextension on dynamic in vivo kinematics after anterior cruciate ligament reconstruction (ACL-R). Forty-two patients underwent unilateral ACL-R. Twenty-four months after surgery, subjects performed level walking and downhill running on a treadmill while dynamic stereo radiographs were acquired at 100 (walking) and 150 Hz (running). Tibiofemoral motion was determined using a validated model-based tracking process, and tibiofemoral translations/rotations were calculated. The range of tibiofemoral motions from 0 to 10% of the gait cycle (heel strike to early stance phase) and side-to-side difference (SSD) were calculated. Maximum knee extension angle of ACL-reconstructed knees during walking was defined as active knee extension angle in each subject. Correlations between maximum knee extension angle and tibiofemoral kinematics data were evaluated using Spearman’s rho (P

Published

2017

48. In Vivo Analysis of Dynamic Graft Bending Angle in Anterior Cruciate Ligament–Reconstructed Knees During Downward Running and Level Walking: Comparison of Flexible and Rigid Drills for Transportal Technique

Author

Scott Tashman, Vani Sundaram, James J. Irrgang, Tom Gale, William Anderst, Freddie H. Fu, Yasutaka Tashiro, and Eric Thorhauer

Subjects

Male, medicine.medical_specialty, Knee Joint, Anterior cruciate ligament reconstruction, medicine.medical_treatment, Anterior cruciate ligament, Walking, Bending, Quadriceps Muscle, Running, Young Adult, 03 medical and health sciences, Imaging, Three-Dimensional, 0302 clinical medicine, medicine, Humans, Orthopedics and Sports Medicine, Femur, Anterior Cruciate Ligament, Retrospective Studies, Orthodontics, 030222 orthopedics, Anterior Cruciate Ligament Reconstruction, business.industry, In vivo analysis, 030229 sport sciences, medicine.disease, ACL injury, Surgery, medicine.anatomical_structure, Bone tunnel, Female, Tomography, X-Ray Computed, business

Abstract

To determine the in vivo dynamic graft bending angle (GBA) in anterior cruciate ligament (ACL)-reconstructed knees, correlate the angle to tunnel positions and tunnel widening, and evaluate the effects of 2 femoral tunnel drilling techniques on GBA.Patients with an isolated ACL injury undergoing reconstruction from 2011 to 2012 were included. Transportal techniques were used to create femoral tunnels. Tunnel locations were determined by 3-dimensional computed tomography. Tibiofemoral kinematics during treadmill walking and running were assessed by dynamic stereo x-ray analysis 6 months and 2 years postoperatively. The GBA was calculated from the 3-dimensional angle between the graft and femoral tunnel vectors on each motion frame. The cross-sectional areas of femoral tunnels were measured at 6 months and compared with the initial size to assess tunnel widening.A total of 54 patients were included. Use of flexible drills resulted in significantly higher GBAs during walking (80.6° ± 7.8°, P.001) and running (80.5° ± 9.0°, P = .025) than rigid drills (walking, 67.5° ± 9.3°; running, 74.1° ± 9.6°). Their use led to greater tunnel widening of 113.9% ± 17.6%, as compared with 97.7% ± 17.5% for rigid drills (P = .003). The femoral and tibial apertures were located in similar anatomic positions in both groups, but the femoral tunnel exits were located more anteriorly (P.001) in the flexible drill group. A higher GBA was highly correlated with anterior location of femoral exits (r = 0.63, P.001) and moderately correlated with greater tunnel widening (r = 0.48, P.001).High GBAs were identified during dynamic activities after anatomic ACL reconstruction with a transportal femoral tunnel drilling technique. The GBA was greater when flexible drills were used. The high bending angle resulted from the more anterior location of the femoral tunnel exits, and it correlated with early bone tunnel widening at 6 months. These results suggest that a high GBA may increase stress at the bone-graft interface and contribute to greater tunnel widening after anatomic ACL reconstruction, although the clinical impact should be further investigated.Level III, retrospective comparative study.

Published

2017

49. Dynamic in vivo 3D atlantoaxial spine kinematics during upright rotation

Author

William Anderst, Joon S. Lee, William F. Donaldson, Bryan Rynearson, and Tyler West

Subjects

Adult, Male, Rotation, Radiography, Biomedical Engineering, Biophysics, Kinematics, Translation (geometry), Biplane, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Medical imaging, Whiplash, medicine, Humans, Orthopedics and Sports Medicine, 030212 general & internal medicine, Range of Motion, Articular, Physics, business.industry, Rehabilitation, Anatomy, medicine.disease, Biomechanical Phenomena, Atlanto-Axial Joint, Cervical Vertebrae, Female, business, Range of motion, 030217 neurology & neurosurgery

Abstract

Diagnosing dysfunctional atlantoaxial motion is challenging given limitations of current diagnostic imaging techniques. Three-dimensional imaging during upright functional motion may be useful in identifying dynamic instability not apparent on static imaging. Abnormal atlantoaxial motion has been linked to numerous pathologies including whiplash, cervicogenic headaches, C2 fractures, and rheumatoid arthritis. However, normal C1/C2 rotational kinematics under dynamic physiologic loading have not been previously reported owing to imaging difficulties. The objective of this study was to determine dynamic three-dimensional in vivo C1/C2 kinematics during upright axial rotation. Twenty young healthy adults performed full head rotation while seated within a biplane X-ray system while radiographs were collected at 30 images per second. Six degree-of-freedom kinematics were determined for C1 and C2 via a validated volumetric model-based tracking process. The maximum global head rotation (to one side) was 73.6±8.3°, whereas maximum C1 rotation relative to C2 was 36.8±6.7°. The relationship between C1/C2 rotation and head rotation was linear through midrange motion (±20° head rotation from neutral) in a nearly 1:1 ratio. Coupled rotation between C1 and C2 included 4.5±3.1° of flexion and 6.4±8.2° of extension, and 9.8±3.8° of contralateral bending. Translational motion of C1 relative to C2 was 7.8±1.5mm ipsilaterally, 2.2±1.2mm inferiorly, and 3.3±1.0mm posteriorly. We believe this is the first study describing 3D dynamic atlantoaxial kinematics under true physiologic conditions in healthy subjects. C1/C2 rotation accounts for approximately half of total head axial rotation. Additionally, C1 undergoes coupled flexion/extension and contralateral bending, in addition to inferior, lateral and posterior translation.

Published

2017

50. Cervical spine bone density in young healthy adults as a function of sex, vertebral level and anatomic location

Author

William F. Donaldson, Joon Y. Lee, William Anderst, and Tyler West

Subjects

Adult, Male, musculoskeletal diseases, medicine.medical_specialty, Medical device, Bone density, Vertebral level, 030218 nuclear medicine & medical imaging, Young Adult, 03 medical and health sciences, Sex Factors, 0302 clinical medicine, Bone Density, Humans, Medicine, Orthopedics and Sports Medicine, Quantitative computed tomography, Anatomic Location, Bone mineral, Orthodontics, medicine.diagnostic_test, business.industry, musculoskeletal system, Cervical spine, Cervical Vertebrae, Female, Surgery, Radiology, Tomography, X-Ray Computed, business, 030217 neurology & neurosurgery

Abstract

Bone mineral density (BMD) measured using quantitative computed tomography (QCT) has been shown to correlate with bone mechanical properties. Knowledge of BMD within specific anatomic regions of the spine is valuable to surgeons who must secure instrumentation to the vertebrae, to medical device developers who design screws and disc replacements, and to researchers who assign mechanical properties to computational models. The objective of this study was to comprehensively characterize BMD in the cervical spine of young healthy adults.QCT was used to determine BMD in the cervical spines of 31 healthy adults (age 20-35). Subject-specific 3D models of each vertebra were created from CT scans, and anatomic regions of interest were identified in each bone (C1: 3 regions; C2: 9 regions, C3-C7: 13 regions). Statistical tests were performed to identify differences in BMD according to vertebral level, anatomic regions within vertebrae, and sex.BMD varied significantly among vertebral levels and among anatomic regions within each vertebra. Females had higher BMD than males (p = .041) primarily due to higher BMD in the posterior regions of each vertebra.These data can serve as a baseline to identify BMD changes in older and symptomatic patients. This data set is also the first report of volumetric bone density within different anatomic regions of the atlas and axis of the cervical spine. The finding of higher BMD in females is in agreement with the previous QCT results but contradicts DEXA results that are known to be dependent upon bone size.

Published

2017