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1. Exploring Reliable Photogrammetry Techniques for 3D Modeling in Anatomical Research and Education

Author

Nicolas Van Vlasselaer, Benyameen Keelson, Aldo Scafoglieri, and Erik Cattrysse

Abstract

In anatomical research and education, three-dimensional visualization of anatomical structures is crucial for understanding spatial relationships in diagnostics, surgical planning, and teaching. While computed tomography (CT) and magnetic resonance imaging (MRI) offer valuable insights, they are often expensive and require specialized resources. This study explores photogrammetry as an affordable and accessible approach for 3D modeling in anatomical contexts. Two photogrammetry methods were compared: conventional open-source software (Colmap) and Apple's RealityKit Object Capture. Human C3 vertebrae were imaged with a 24 MP camera, with and without a cross-polarization filter. Reconstruction times, vertex distances, surface area, and volume measurements were compared to CT scans. Results revealed that the Object Capture method surpassed the conventional approach in reconstruction speed and user-friendliness. Both methods exhibited similar vertex distance from reference mesh and volume measurements, although the conventional approach produced larger surface areas compared to CT-based models. Cross-polarization filters eliminated the need for pre-processing and improved outcomes in challenging lighting conditions. This study demonstrates that photogrammetry, especially Object Capture, as a reliable and time-efficient tool for 3D modeling in anatomical research and education. It offers accessible alternatives to traditional techniques with advantages in texture mapping. While further validation of various anatomical structures is required, the accessibility and cost-effectiveness of photogrammetry make it a valuable asset for the field. In summary, photogrammetry would have the potential to revolutionize anatomical research and education by providing cost-effective, accessible, and accurate 3D modeling. The study underscores the promise of advancing anatomical research and education through the integration of photogrammetry with ongoing improvements in user-friendliness and accessibility.

Published
2024
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3. The Impact of Palmaris Longus Muscle on Function in Sports: An Explorative Study in Elite Tennis Players and Recreational Athletes

Author

Aldo Scafoglieri, Julie Vercruyssen, Erik Cattrysse, Faculty of Physical Education and Physical Therapy, Supporting clinical sciences, Physiotherapy, Human Physiology and Anatomy, and Arthro-kinematics

Subjects
0301 basic medicine, medicine.medical_specialty, Histology, joint position sense, proprioception, Physical Therapy, Sports Therapy and Rehabilitation, fatigue resistance, 03 medical and health sciences, Fatigue resistance, Grip strength, 0302 clinical medicine, Physical medicine and rehabilitation, Rheumatology, medicine, Orthopedics and Sports Medicine, Proprioception, biology, business.industry, Athletes, Significant difference, Joint position sense, biology.organism_classification, Palmaris longus muscle, grip strength, Elite, Physical therapy, joint motion sense, 030101 anatomy & morphology, Anatomy, business, human activities, kinesthesia, 030217 neurology & neurosurgery
Abstract

The Palmaris longus muscle can be absent unilateral or bilateral in about 22.4% of human beings. The aim of this study is to investigate whether the presence of the Palmaris longus muscle is associated with an advantage to handgrip in elite tennis players compared to recreational athletes. Sixty people participated in this study, thirty elite tennis players and thirty recreational athletes. The presence of the Palmaris longus muscle was first assessed using different tests. Grip strength and fatigue resistance were measured by an electronic hand dynamometer. Proprioception was registered by the Flock of Birds electromagnetic tracking system. Three tests were set up for measuring proprioception: joint position sense, kinesthesia, and joint motion sense. Several hand movements were conducted with the aim to correctly reposition the joint angle. Results demonstrate a higher presence of the Palmaris longus muscle in elite tennis players, but this was not significant. Maximal grip strength was correlated with gender and only on the dominant side, it was also correlated with age. Fatigue resistance showed only on the non-dominant side, a significant difference in elite and recreational athletes. In proprioception there was no correlation with elite and recreational athletes or the presence of the Palmaris longus muscle.

Published
2016

4. Body mass prediction from femoral volume and sixteen other femoral variables in the elderly: BMI and adipose tissue effects

Author

Jan Pieter Clarys, Erik Cattrysse, Jean-Pol Beauthier, Philippe Lefèvre, Stéphane Louryan, Tony Chevalier, Physiotherapy, Human Physiology and Anatomy, Arthro-kinematics, Histoire naturelle de l'Homme préhistorique (HNHP), Centre National de la Recherche Scientifique (CNRS)-Muséum national d'Histoire naturelle (MNHN), Université de Brussels, Université libre de Bruxelles (ULB), Anthropological Forensic Unit Laboratory of Anatomy, Biomechanics and Organogenesis (LABO), and Laboratoie d'Anatomie et Embryologie, Faculté de Médecine

Subjects
Male, 0301 basic medicine, medicine.medical_specialty, Fémurs, Abnormal BMI, [SHS.ANTHRO-BIO]Humanities and Social Sciences/Biological anthropology, Adipose tissue, elderly, Anthropology, Physical, Body Mass Index, [SHS]Humanities and Social Sciences, 03 medical and health sciences, body weight, poids corporel, Internal medicine, medicine, Humans, 0601 history and archaeology, âge avancé, Composition corporelle, Aged, Aged, 80 and over, 2. Zero hunger, 060101 anthropology, business.industry, Organ Size, 06 humanities and the arts, Middle Aged, Skeleton (computer programming), 030104 developmental biology, Standard error, Adipose Tissue, Volume (thermodynamics), Anthropology, Lean body mass, Cardiology, Body Composition, Female, femur, Anatomy, business, Body mass index, Bone mass
Abstract

Objectives: The frequently used prediction equations of body mass do not seem appropriate for elderly individuals. Here, we establish the relationship between femoral dimensions and known body mass in elderly individuals in order to develop prediction formulas and identify the factors affecting their accuracy. Materials and Methods: The body mass linear least-squares regression is based on 17 femoral dimensions, including femoral volume, and 66 individuals. Body proportion and composition effects on accuracy are analyzed by means of the body mass index (BMI) and on a subset sample (n525), by means of the masses of adipose, bone and muscle tissues. Results: Most variables significantly reflect body mass. Among them, six dimensions (e.g., biepicon- dylar breadth, femoral volume, and head femoral diameter) present percent standard errors of estimate ranging from 9.5 to 11% (r50.72–0.81) in normal BMI samples. Correlations are clearly lower in samples with normal and abnormal BMI [r50.38–0.58; % of standard error of estimate (SEE)517.3–19.6%] and not significantly correlated in females (femoral volume) who present high proportions of abnormal BMI and adipose tissue. In the subset, femoral volume is well correlated with bone mass (r50.88; %SEE57.9%) and lean body mass (r50.67; %SEE517.2%). Discussion: Our body mass estimation equations for elderly individuals are relevant since relatively low correlations are recurrent in studies using younger individuals of known body mass. However, age, sex, lifestyle, and skeleton considerations of studied populations can provide information about the relevance of the body mass estimation, which is dependent on the BMI classification and the proportion of adipose tissue. Our general considerations can be used for studies of younger individuals.

Published
2018

5. MR imaging-anatomical correlation of the metatarsophalangeal joint of the hallux: Ligaments, tendons, and muscles

Author

Nicolas Moyson, Leon Lenchik, Aldo Scafoglieri, Maryam Shahabpour, Michel De Maeseneer, Ruben Roose, Erik Cattrysse, Supporting clinical sciences, Radiology, Physiotherapy, Human Physiology and Anatomy, Anatomical Research and Clinical Studies, Body Composition and Morphology, Frailty in Ageing, Faculty of Physical Education and Physical Therapy, Faculty of Medicine and Pharmacy, Arthro-kinematics, and Medical Imaging

Subjects
Metatarsophalangeal Joint, Fresh Specimen, Turf toe, 030218 nuclear medicine & medical imaging, Tendons, 03 medical and health sciences, 0302 clinical medicine, Cadaver, Medicine, medicine.bone, Humans, Radiology, Nuclear Medicine and imaging, Plantar plate, Foot MR imaging, Muscle, Skeletal, Abductor hallucis tendon, business.industry, 030229 sport sciences, General Medicine, Anatomy, musculoskeletal system, Mr imaging, Magnetic Resonance Imaging, Hallux anatomy, Tendon, medicine.anatomical_structure, Flexor hallucis longus, Radiology Nuclear Medicine and imaging, Ligaments, Articular, Sesamoid bone, Hallux, business, Foot anatomy
Abstract

Objective To perform an MR imaging-anatomical correlation to elucidate the anatomy of muscles, tendons, and ligaments about the hallux as seen on MR imaging. Materials and methods Four fresh and 4 embalmed cadaver specimens were used for this study. The embalmed specimens and one fresh specimen were dissected by three investigators. The fresh specimens were preserved deep frozen. They were thawed and imaged with a 3 T MR system. Proton density weighted images were obtained. The specimens were refrozen and sectioned with a band saw into 3 mm thick slices. Results Musculotendinous structures were equally well seen in the fresh and embalmed specimens. The capsular ligaments could best be studied in the fresh specimens. Proximal to the sesamoids the following muscle and tendon anatomy was delineated: the abductor hallucis tendon inserted on the medial sesamoid bone together with the medial belly of the flexor digitorum brevis; the adductor hallucis (transverse and oblique heads) inserted on the lateral sesamoid together with the lateral head of the flexor hallucis brevis. At the level of the sesamoid bones and distally, the ligaments making up the plantar plate were delineated, including the presesamoid band, the flexor hallucis longus pulley, the sesamometatarsal ligaments, the sesamophalangeal ligaments, and the capsular ligaments. Conclusion MRI allows for accurate assessment of the complex anatomy of the hallux. At the level proximal to the sesamoids the muscle and tendon insertions are well demonstrated. At the level of the sesamoids and distally, the ligaments making up ‘the plantar plate’ are well demonstrated.

Published
2018

6. Segond fracture: involvement of the iliotibial band, anterolateral ligament, and anterior arm of the biceps femoris in knee trauma

Author

Michel De Maeseneer, Johan De Mey, Cedric Boulet, Erik Cattrysse, Inneke Willekens, Leon Lenchik, Maryam Shahabpour, Experimental Anatomy, Supporting clinical sciences, Physiotherapy, Human Physiology and Anatomy, Radiology, Medical Imaging, Translational Imaging Research Alliance, Body Composition and Morphology, and Arthro-kinematics

Subjects
Adult, Male, Anterolateral ligament, Soft Tissue Injuries, Adolescent, Anterior cruciate ligament, Iliotibial Band Syndrome, Segond fracture, Sensitivity and Specificity, Biceps, Young Adult, Tendon Injuries, Cadaver, medicine, Humans, Knee, Radiology, Nuclear Medicine and imaging, Tibia, Medial collateral ligament, business.industry, Reproducibility of Results, ACL tear, Collateral Ligaments, Anatomy, Middle Aged, musculoskeletal system, medicine.disease, Magnetic Resonance Imaging, medicine.anatomical_structure, Female, Cadaveric spasm, business, Medial meniscus, MRI
Abstract

OBJECTIVE: To evaluate the involvement of the iliotibial band (ITB), the anterolateral ligament (ALL), and the anterior arm of the biceps femoris in MRI-diagnosed Segond fracture and to evaluate other associated findings of Segond fracture. MATERIALS AND METHODS: We retrospectively reviewed the MRI of 13 cases of Segond fracture. The studies included proton density-weighted, T2-weighted, and proton density-weighted with fat saturation images in the three planes. We studied 2 cadaveric specimens with emphasis on the ALL. One cadaveric specimen was dissected while the other was sectioned in the sagittal plane. RESULTS: The mean age of the patients was 36 years (range, 17-52). There were 7 men and 6 women. The mean size of the Segond bone fragment was 8?×?10?×?2 mm. The distance from the tibia varied from 2 to 6 mm. Associated findings included anterior cruciate ligament (ACL) tear (n?=?13), medial collateral ligament (MCL) tear (n?=?8), meniscocapsular tear of the posterior horn of the medial meniscus(n?=?5), and posterolateral corner involvement (n?=?4). Bone marrow edema involved the mid-lateral femoral condyle and the posterior tibial plateau on both the medial and the lateral side. Edema at the Segond area was seen, but was limited. Fibular head edema was also seen. The ITB (11 out of 13) and ALL (10 out of 13) inserted on the Segond bone fragment. The anterior arm of the biceps tendon did not insert on the Segond fracture. CONCLUSION: Associated findings of Segond fracture include ACL tear, MCL tear, medial meniscus tear, and posterolateral corner injury. Both the ITB and the ALL may be involved in the Segond avulsion. The anterior arm of the biceps femoris tendon is not involved.

Published
2014

7. Morphological Asymmetry of the Superior Cervical Facets from C3 through C7 due to Degeneration

Author

Nicolas Van Vlasselaer, Peter Van Roy, Erik Cattrysse, Physiotherapy, Human Physiology and Anatomy, Faculty of Physical Education and Physical Therapy, and Arthro-kinematics

Subjects
musculoskeletal diseases, medicine.medical_specialty, Article Subject, Zygapophyseal Joint, lcsh:Medicine, Biology, General Biochemistry, Genetics and Molecular Biology, Facet joint, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Statistical analysis, Upper joint, Aged, Aged, 80 and over, 030222 orthopedics, Models, Statistical, General Immunology and Microbiology, Anthropometry, lcsh:R, Joint surface, General Medicine, Anatomy, Hyperostosis, Middle Aged, musculoskeletal system, Cervical spine, humanities, Surgery, medicine.anatomical_structure, Morphological asymmetry, Cervical Vertebrae, 030217 neurology & neurosurgery, Cervical vertebrae, Research Article
Abstract

Introduction. Knowledge about facet morphology has already been discussed extensively in literature but is limited regarding asymmetry and its relation to facet degeneration. Method. Facet dimensions, surface area, curvature, and degeneration of the superior facets were measured in 85 dried human vertebrae from the anatomical collection of the Vrije Universiteit Brussel. The vertebrae were analysed using the Microscribe G2X digitizer (Immersion Co., San Jose, CA) and a grading system for the evaluation of cervical facet degeneration. Coordinates were processed mathematically to evaluate articular tropism. The statistical analysis includes the paired t-test and the Pearson correlation. Results. On average, no systematic differences between the left and right facets were found concerning morphology and degeneration. However, there were significant differences regardless of the side-occurrence. There was a significant correlation between the dimensions of the total facet surface and the degree of degeneration but not for the recognizable joint surface. Conclusions. Facet tropism of the upper joint facets occurred often in the cervical spine but without side preference. A bigger difference in degeneration asymmetry was associated with a bigger difference in facet joint dimension asymmetry.

Published
2017

8. Variability of Upper Cervical Anatomy: A Reflection on Its Clinical Relevance

Author

Steven Provyn, Luca Buzzatti, Pierre Van Roy, Erik Cattrysse, Marco Barbero, Arthro-kinematics, Faculty of Physical Education and Physical Therapy, Physiotherapy, Human Physiology and Anatomy, Experimental Anatomy, Basic (bio-) Medical Sciences, Body Composition and Morphology, Vrije Universiteit Brussel, Anatomical Research and Clinical Studies, Spine Research Group, and Vriendenkring VUB

Subjects
Histology, anatomy, Morphological variation, atlanto-axial, Physical Therapy, Sports Therapy and Rehabilitation, Functional impact, Biology, 03 medical and health sciences, 0302 clinical medicine, Rheumatology, Joint capsule, morphology, medicine, Processus styloideus, Orthopedics and Sports Medicine, Atlanto-occipital joint, Clinical significance, facet joints, Joint (geology), 030222 orthopedics, Anatomy, upper-cervical, body regions, ligaments, medicine.anatomical_structure, atlanto-occipital, 030217 neurology & neurosurgery
Abstract

The upper cervical complex is a distinctive spinal area with a great need for mobility as well as stability. The specific anatomical morphology of the atlanto-occipital and of the atlanto-axial joints seems to support these complex functional demands. The present study reports on some systematic and non-systematic observations of specific morphological variations and variants of the upper cervical joint anatomy. They are reported with respect to morphological features of the transverse atlantal and alar ligaments, morphological features of the lateral atlanto-axial and atlanto-occipital joints, additional joint configurations of the atlanto-occipital junction, muscular attachments to the joint capsule of the lateral atlanto occipital joint, and the Processus styloideus in its relationship with movements of the upper cervical joints. The observations mainly confirm general anatomical descriptions from textbooks, although some confront with these basic anatomical configurations mainly due to large morphological variation. Additionally, specific anatomical variants may raise questions on the generally accepted functional anatomical features. Some of these specific morphological configurations may have major implications for the kinematics of the occipito-atlanto-axial complex. This paper intends to reflect on the functional impact of the observed upper cervical morphological variability.

Published
2016
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9. Cross-sectional content analysis of clinically applied circumferences

Author

Jonathan Tresignie, Jan Pieter Clarys, Aldo Scafoglieri, and Erik Cattrysse

Subjects
Waist, business.industry, Clinical Biochemistry, Adipose tissue, General Medicine, Anatomy, Anthropometry, Circumference, Muscle mass, Biochemistry, Trunk, medicine.anatomical_structure, Cadaver, Medicine, Upper limb, business
Abstract

Eur J Clin Invest 2012; 42 (9): 961–966 Abstract Background The contours of a human body are determined by the volumes of the underlying tissues [adipose tissue (AT), muscle, bone and viscera]. Conceptually, they are assumed to be used as a concentric set of cylinders. Determination of these clinically applied circumferences in terms of relative tissue proportions has led to conflicting results. As it remains unclear what a circumference really measures or represents and how it relates to body composition (BC), the aim of this study was to determine the content of the circumferences and whether these perimeters can be used to assess segmental or whole body tissue components. Design Subsequent to an anthropometric protocol, the five white Caucasian cadavers were fractionated into slices of 3 cm and segmental and whole BC was determined at the anatomical tissue-system level by direct dissection. Results Only two circumferences correlated significantly with their dominating component [upper arm circumference (r = 0·98; P

Published
2012

10. Manual fixation versus locking during upper cervical segmental mobilization

Author

P. Van Roy, Jean-Pierre Baeyens, Erik Cattrysse, and J. P. Clarys

Subjects
Orthodontics, medicine.medical_specialty, Mobilization, Atlanto-axial joint, business.industry, medicine.medical_treatment, Flexion extension, Physical Therapy, Sports Therapy and Rehabilitation, Kinematics, General Medicine, Axial rotation, Anatomy, Rotation, Surgery, Lateral bending, body regions, Fixation (surgical), medicine.anatomical_structure, Cadaver, Medicine, Atlanto-occipital joint, business, Range of motion, Joint (geology), Reduction (orthopedic surgery)
Abstract

Background Three-dimensional kinematic aspects of coupled motion during manual cervical mobilization have not previously been studied. Using an in vitro 3D-motion analysis method, the kinematic effects of two different segmental techniques for axial rotation and lateral bending mobilization of the upper cervical spine were investigated as a second part of the study (in part one, kinematic effects of flexion-extension mobilization have been investigated). Methods Axial rotation and lateral bending mobilization of the atlanto-occipital and atlanto-axial segments were analysed in vitro using an electromagnetic tracking device. Local reference frames were defined based on bony reference points that were registered using a 3D-digitizing stylus. Five embalmed and one fresh specimen were analysed. Segmental motion was registered simultaneously in the atlanto-occipital and the atlanto-axial joints during manual mobilization through the full range of axial rotation and lateral bending mobility. The 3D-kinematic aspects during regional mobilization were compared with those during segmental mobilization with manual fixation and during segmental mobilization using a locking technique. Results During both segmental axial rotation techniques of the atlanto-axial joint, a significant reduction of the coupled lateral bending and flexion-extension motion was observed. The locking technique also induced an increase in the main axial rotation component. During lateral bending mobilization of the atlanto-axial joint, the manual fixation technique reduced the effect on the coupled flexion-extension component significantly. Interpretations These results suggest that for manual segmental axial rotation and lateral bending mobilization of the upper cervical spine segmental manual fixation or locking may be preferred in different situations depending on the desired effects. This study brings additional information to the data provided by part 1 of this study on the 3D-arthrokinematic effects of flexion-extension mobilization.

Published
2007

11. Intended and non-intended kinematic effects of atlanto-axial rotational high-velocity, low-amplitude techniques

Author

Erik Cattrysse, Steven Provyn, Peter Van Roy, Silvia Gianola, Arthro-kinematics, Experimental Anatomy, Cattrysse, E, Gianola, S, Provyn, S, and Van Roy, P

Subjects
Male, Motion analysis, kinematic, Vertebral artery, atlanto-axial, Biophysics, Thrust, Kinematics, Rotation, rotation, Motion (physics), Neck Injuries, Cadaver, medicine.artery, medicine, Journal Article, Humans, risk factors, Orthopedics and Sports Medicine, Neck Injurie, manipulation, spinal, Cervical Atlas, Range of Motion, Articular, Axis, Cervical Vertebra, Aged, Orthodontics, Risk Factor, Medicine (all), Anatomy, motion analysi, Middle Aged, Biomechanical Phenomena, Biophysic, Cervical Atla, HVLA, Female, aged, 80 and over, Geology, Human, Reference frame
Abstract

Introduction The study of neck kinematics during high-velocity, low-amplitude manipulations of the atlanto-axial segment is essential to understanding cervical motion mechanisms and their impact and possible risk for soft-tissue injuries during treatment of spine disorders. Methods Twenty fresh-frozen specimens were tested during manual application of an axial rotation technique. Findings The kinematics indicate the thrust induced motion components of approximately 1° at the treated segment around all three axes of the local embedded reference frame. Moreover, an equal amount of axial rotation motion took place at the adjacent atlanto-occipital joint. Interpretation Overall atlanto-axial motion remained below the level of slow regional mobilization of the cervical spine. These findings can be correlated to literature data concerning the limited increase in vertebral artery strain during high-velocity, low-amplitude manipulation.

Published
2014

12. Intra-articular kinematics of the upper limb joints: a six degrees of freedom study of coupled motions

Author

Jean-Pierre Baeyens, Tom Roosens, Peter Van Roy, Erik Cattrysse, Olivier Van de Wiele, J. P. Clarys, Experimental Anatomy, and Vrije Universiteit Brussel

Subjects
musculoskeletal diseases, Engineering, Movement, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Kinematics, Rotation, arthrokinematics, Upper Extremity, Screw axis, Cadaver, medicine, Humans, Six degrees of freedom, Acromioclavicular joint, Range of Motion, Articular, Joint (geology), three-dimensional analysis, Orthodontics, business.industry, Anatomy, musculoskeletal system, manual therapy, body regions, medicine.anatomical_structure, Upper limb, Joints, Range of motion, business
Abstract

In sport, leisure and certain occupational activities, joint lesions of the upper limb are very common. To understand their aetiology in order to prevent and treat these pathologies on a scientific basis, a comprehensive knowledge of the involved stress and kinematics is imperative. For many years intraarticular joint kinematics have been described hypothetically in terms of the convex-concave principle. This principle, however, has not been validated. The in vitro research on the acromioclavicular, glenohumeral and elbow joints was performed using an electromagnetic tracking device ( Flock of Birds). By recalculating the positions of the trackers to an embedded coordinate system on the joint surface, the intra-articular joint movements can be analysed. Therefore, the bony configurations and articular surface features were registered with a 3D drawing stylus (Microscribe). Thirteen acromioclavicular joints, six glenohumeral joints and seven elbows were studied. The coupled intra-articular movements were analysed using the Euler angles and finite helical axis approaches. The results of the acromioclavicular joint analysis indicate that during movements in the scapular plane a superior rotation of the clavicle was coupled with an inferior translation and vice versa, whilst during movements in the plane perpendicular to the scapular plane the anterior rotation was coupled with an anterior translation and vice versa. In the glenohumeral joint, the abduction-elevation was coupled with an external rotation. In the humero-ulnar joint, the extension was coupled with an external rotation and varus movement. This intra-articular behaviour was in contradiction to currently accepted convex concave concepts in arthrokinematics and manual therapy. The results may have major implications for manual therapy and orthopaedic medical practice.

Published
2005

13. Observational Study on the Occurrence of Muscle Spindles in Human Digastric and Mylohyoideus Muscles

Author

Daniele Saverino, Stefano Cervioni, Rita Simone, Marco Testa, Amleto De Santanna, Erik Cattrysse, Experimental Anatomy, and Arthro-kinematics

Subjects
Male, Article Subject, lcsh:Medicine, Electromyography, General Biochemistry, Genetics and Molecular Biology, Masseter muscle, Cadaver, Medicine, Humans, Control sample, Muscle Spindles, Aged, Aged, 80 and over, General Immunology and Microbiology, Absolute number, Proprioception, medicine.diagnostic_test, business.industry, Masseter Muscle, Mylohyoideus Muscles, lcsh:R, Significant difference, General Medicine, Anatomy, Middle Aged, Female, business, Research Article
Abstract

Although the occurrence of muscle spindles (MS) is quite high in most skeletal muscles of humans, few MS, or even absence, have been reported in digastric and mylohyoideus muscles. Even if this condition is generally accepted and quoted in many papers and books, observational studies are scarce and based on histological sections of a low number of specimens. The aim of the present study is to confirm previous data, assessing MS number in a sample of digastric and mylohyoideus muscles. We investigated 11 digastric and 6 mylohyoideus muscles from 13 donors. Muscle samples were embedded in paraffin wax, cross-sectioned in a rostrocaudal direction, and stained using haematoxylin-eosin. A mean of 5.1 ± 1.1 (range 3–7) MS was found in digastric muscles and mean of 0.5 ± 0.8 (range 0–2) in mylohyoideus muscles. A significant difference (P<0.001) was found with the control sample, confirming the correctness of the histological procedure. Our results support general belief that the absolute number of spindles is sparse in digastric and mylohyoideus muscles. External forces, such as food resistance during chewing or gravity, do not counteract jaw-opening muscles. It is conceivable that this condition gives them a limited proprioceptive importance and a reduced need for having specific receptors as MS.

Published
2014

14. Distal insertions of the semimembranosus tendon: MR imaging with anatomic correlation

Author

Michel De Maeseneer, Erik Cattrysse, Johan De Mey, Annemieke Milants, Leon Lenchik, Maryam Shahabpour, Filip De Ridder, Experimental Anatomy, Medical Imaging and Physical Sciences, Medical Imaging, and Faculty of Medicine and Pharmacy

Subjects
Male, Models, Anatomic, Knee Joint, knee, anatomy, Semimembranosus tendon, Tendons, Cadaver, Semimembranosus muscle, Knee, posteromedial corner, medicine, Humans, Radiology, Nuclear Medicine and imaging, Aponeurosis, Knee, Aged, Aged, 80 and over, Oblique popliteal ligament, Tibia, business.industry, Anatomy, musculoskeletal system, Magnetic Resonance Imaging, Sagittal plane, Tendon, medicine.anatomical_structure, Coronal plane, Ligament, Female, Anatomic Landmarks, business, MR imaging
Abstract

OBJECTIVE: The purpose of this study is to investigate the distal insertions of the semimembranosus tendon with MR imaging, correlated with findings in cadavers. MATERIALS AND METHODS: Four fresh cadaveric specimens were studied with 3-T MR imaging. Sequences included proton density (PD) sequences (TE, 13; TR, 4957; FOV, 170 × 170; matrix, 424 × 413; NA, 2; slice thickness, 2.5 mm) in the axial, coronal, and sagittal planes and 3D fast field echo (FFE) sequences (TR 9.4; TE 6.9; FOV, 159 × 105; matrix, 200 × 211; NA, 2; slice thickness, 0.57 mm). One specimen was dissected and three specimens were sectioned with a bandsaw in the axial, coronal, and sagittal plane. The sections were photographed and correlated with MR images. To standardize the analysis, the semimembranosus muscle and tendon were assessed at seven levels for the axial sections, and at three levels for the coronal and sagittal sections. RESULTS: Anatomic dissection revealed six insertions of the distal semimembranosus tendon:direct arm, anterior arm, posterior oblique ligament extension, oblique popliteal ligament extension, distal tibial expansion (popliteus aponeurosis), and meniscal arm. Axial MR images showed five of six insertions: direct arm, anterior arm, oblique popliteal ligament extension, posterior oblique ligament extension, and distal tibial expansion. Sagittal MR images showed four of six insertions: direct arm, anterior arm, oblique popliteal ligament arm, and distal tibial expansion. Sagittal MR images were ideal for showing the direct arm insertion, but were less optimal than the axial images for showing the other insertions. The anterior arm was seen but volume averaging was present with the gracilis tendon. Coronal MR images optimally revealed the anterior arm, although magic angle artifact was present at its posterior aspect. The common semimembranosus tendon and meniscal arm were also well depicted. The division in anterior arm, direct arm, and oblique popliteal ligament arm was poorly seen on coronal imagesdue to volume averaging. CONCLUSIONS: Although the anatomy of the distal semimembranosus tendon is complex, six different semimembranosus insertions can be identified on routine proton density and FFE sequences at 3 T. Analysis of images at defined levels in the three imaging planes simplifies MR interpretation of the anatomy of the distal semimembranosus tendon.

Published
2014

15. Ultrasound of the elbow: A systematic approach using bony landmarks

Author

Kristof De Smet, Maryam Shahabpour, Erik Cattrysse, Stefaan Marcelis, Michel De Maeseneer, Johan De Mey, Anatomy, Experimental Anatomy, Medical Imaging and Physical Sciences, Medical Imaging, and Faculty of Medicine and Pharmacy

Subjects
Models, Anatomic, musculoskeletal diseases, endocrine system, Tendon flexor, Elbow, Ulna, Fiducial Markers, Ultrasound, medicine, Humans, Radiology, Nuclear Medicine and imaging, Olecranon fossa, Ulnar nerve, Ultrasonography, Ultrasound study, Common extensor tendon, business.industry, General Medicine, Anatomy, Humerus, musculoskeletal system, body regions, medicine.anatomical_structure, Ligament, business, psychological phenomena and processes
Abstract

The use of bony landmarks can be helpful in performing an ultrasound study of the elbow. We discuss bony landmarks that can be used for evaluation of the common extensor tendon, ulnar collateral ligament and common flexor tendon, coronoid and olecranon fossa, ulnar nerve, and biceps tendon. We discuss bony landmarks for each of these structures.

Published
2012

16. Changed cervical kinematics after fusion surgery

Author

Maarten Moens, Erik Cattrysse, Eli Schaillée, Jean D'Haens, P. Van Roy, Arthro-kinematics, Spine Research Group, Surgery Specializations, Anatomy, Experimental Anatomy, Neuroprotection & Neuromodulation, and Supporting clinical sciences

Subjects
Adult, Male, Rotation, Movement, medicine.medical_treatment, Kinematics, Humans, Medicine, Orthopedics and Sports Medicine, Range of Motion, Articular, Aged, Aged, 80 and over, Orthodontics, Fusion surgery, business.industry, Biomechanics, Anatomy, Middle Aged, Control subjects, Biomechanical Phenomena, Spinal Fusion, medicine.anatomical_structure, Case-Control Studies, Spinal fusion, cervical kinematics, Cervical Vertebrae, Magnets, Original Article, Female, Surgery, Trabecular metal, business, Range of motion, fusion surgery, Cervical vertebrae
Abstract

Analyzing and comparing the range of motion and movement pattern of subjects who underwent an anterior cervical fusion using trabecular metal with control subjects.Three-dimensional kinematics of planar active axial rotation and active lateral bending of 50 experimental and 41 control subjects were registered by means of an electromagnetic tracking system.Comparing the experimental group with the control group reveals that the range of the main motion component differs significantly (p0.01) during the active axial rotation and lateral bending movement. During active axial rotation, the coupled lateral bending motion component also differs between both groups. The root mean square value of the jerkiness (derivative of the acceleration) and de deviation from the 6-polynomial smoothed function of the main as well as the coupled motion component express the qualitative aspects of kinematics and are significantly different between the experimental and the control group for both movements (p0.05).Subjects who have an anterior cervical fusion with trabecular metal show significant quantitative as well as qualitative differences in cervical kinematics during active axial rotation and lateral bending compared to control subjects.

Published
2012

17. Morphology and kinematics of the atlanto-axial joints and their interaction during manual cervical rotation mobilization

Author

Erik Cattrysse, Steven Provyn, J. P. Clarys, P. Van Roy, P. Kool, Anatomy, Experimental Anatomy, Vriendenkring VUB, Arthro-kinematics, Spine Research Group, Medicine and Pharmacy academic/administration, and Applied Mechanics

Subjects
Male, anatomy, Spinal kinematics, atlanto-axial, Axial joints, Physical Therapy, Sports Therapy and Rehabilitation, Kinematics, Axial rotation, Rotation, Medicine, Humans, Range of Motion, Articular, Joint (geology), Aged, Ultrasonography, Aged, 80 and over, business.industry, axial rotation, General Medicine, Anatomy, Motion tracking system, Spine, Biomechanical Phenomena, body regions, Atlanto-Axial Joint, kinematics, Cervical Vertebrae, Female, business, Range of motion
Abstract

Background data At present little data are available on the relationship between spinal anatomy and kinematics. No studies have verified the relationship between atlanto-axial kinematics during manual mobilization and the spatial features of the atlanto-axial ligaments and the lateral joints. Materials and methods Twenty un-embalmed cervical spine specimens (9 male and 11 female; 80 ± 11 years) were studied. Atlanto-axial kinematics were registered during manual axial rotation mobilization using an ultrasound-based motion tracking system. Anatomical landmarks were digitized and spatial features of the lateral atlanto-axial joint surfaces and alar ligaments were extracted. The relationship between the anatomical features and the spinal kinematics was analyzed using statistical regression analysis. Results Only the range of motion of the coupled flexion–extension motion component, the ratio and the time shift between main axial rotation and coupled lateral bending motion components could be predicted for about 52%, 49% and 73%, respectively, by a selected set of anatomical features. Conclusion Supposed relationships between anatomical features and joint kinematics are only partially confirmed. The results indicate that the kinematics of the atlanto-axial joint during manual regional axial mobilization are not completely predetermined by the specimens’ specific anatomy.

Published
2011

18. Direct measurement of tibial cortical bone surface area

Author

Olivia Louis, Erik Cattrysse, J. De Mey, J. P. Clarys, Aldo Scafoglieri, Experimental Anatomy, Anatomy, Radiology, Vrije Universiteit Brussel, Frailty in Ageing, Medical Imaging and Physical Sciences, and Supporting clinical sciences

Subjects
Histology, Surface Properties, cortical bone, Spearman's rank correlation coefficient, medicine, Image Processing, Computer-Assisted, Humans, Tibia, repeatability, Observer Variation, Reproducibility, Anatomy, Cross-Sectional, business.industry, Intraobserver reliability, Reproducibility of Results, in vitro, direct estimation, General Medicine, Repeatability, Gold standard (test), Anatomy, surface area, Middle Aged, medicine.anatomical_structure, Cortical bone, Nuclear medicine, business, Cancellous bone
Abstract

Cortical bone surface area estimation is generally performed by analysis of medical images but its accuracy has not yet been verified by direct bone measurements. This study was performed to evaluate the reproducibility of direct ex vivo estimations of cross sectional tibial cortical bone surface area. Ten tibiae were evaluated by two observers using direct 3D-digitization at 38 and 66% of total tibial length using a ‘critical’ and a ‘general’ criterion for differentiation between cortical and cancellous bone. The results of the analysis using the more severe ‘critical’ differentiation criterion yielded high intra and interobserver agreement. Mean intraobserver reliability was demonstrated by R = 0.98 (Spearman rank correlation between 0.98 and 0.97; P < 0.01) and inter observer reliability by R = 0.91 (Spearman rank correlation between 0.95 and 0.88; P < 0.01). When using strict criteria to differentiate between cortical and cancellous bone, intra and interobserver reliability of the presented method of direct cortical bone surface area estimation is very high. The results indicate that cross-sectional cortical bone surface estimation by direct 3D-digitization can serve as a gold standard for validation of other estimations methods. Clin. Anat. 23:720–725, 2010. © 2010 Wiley-Liss, Inc.

Published
2010

19. In vitro characterization of the anterior to posterior curvature of the superior articular facets of the atlas as a function of age

Author

Jesse M. Zrull, Richard C. Hallgren, Erik Cattrysse, Anatomy, and Experimental Anatomy

Subjects
musculoskeletal diseases, Joint Instability, Population, Curvature, Condyle, Perimeter, Atlas (anatomy), Cadaver, medicine, Humans, Orthopedics and Sports Medicine, Atlanto-occipital joint, Cervical Atlas, Range of Motion, Articular, education, Child, Aged, Retrospective Studies, Aged, 80 and over, education.field_of_study, atlantar articulations, business.industry, Biomechanics, Age Factors, Infant, Anatomy, Middle Aged, musculoskeletal system, articular facets, medicine.anatomical_structure, Atlanto-Occipital Joint, Atlanto-Axial Joint, Child, Preschool, Surgery, Neurology (clinical), business
Abstract

Background context Reference is made in the literature to the inherent instability of the atlantooccipital joint in infants and young children because of pliant ligaments, undeveloped musculature, smaller condyles, and the relative lack of anteroposterior curvature of the superior articular facet surfaces of the atlas. The combination of these morphologic factors is purported to make this population particularly vulnerable to whiplash-type injuries. Although a significant difference in the magnitude of the anteroposterior curvature of the superior articular facet surfaces of the atlas between young children and adults has been observed, quantitative analysis of the curvature of these surfaces has not been documented. Purpose To quantify the anterior to posterior curvature of the superior articular facet surfaces of the atlas as a function of age. Study design This study is a retrospective analysis of the anterior to posterior curvature of the superior articular facet surfaces of the atlas as a function of age in 15 pediatric cadaver specimens from the Hamann-Todd Osteology Collection in Cleveland, Ohio, and 18 adult cadaver specimens from the Department of Experimental Anatomy in Brussels, Belgium. Methods A stylus, connected to a three-dimensional digitizer, was used to manually define a series of points on the perimeter of the superior articular facet surfaces of the atlas of each specimen. The digitized data points were then used to generate two planes that approximated the anterior and posterior aspects of the articular surfaces in three-dimensional space. A line through a point on each plane and perpendicular to that plane was defined for each of the two planes. The angle between the two perpendicular lines was calculated and used to quantify the curvature of the facet surface. Results The anteroposterior curvature of the superior articular facet surfaces of the atlas increases from an average angle of 11.5 (±4.7) degrees at 1 year of age and asymptotically approaches an average angle of 43.5 (±13.4) degrees at 80 years of age. There is a direct relationship between age and the anterior to posterior curvature of the superior articular surfaces of the atlas that can be approximated (r 2 =0.94) with a sigmoid function. Ninety percent of the final curvature is achieved at approximately 8 years of age.

Published
2010

20. Functional Role of the Superior Articular Facets of the Atlas in the Enhancement of Craniovertebral Junction Stability

Author

Richard C. Hallgren, Jesse M. Zrull, and Erik Cattrysse

Subjects
musculoskeletal diseases, Functional role, Shoulders, business.industry, Occiput, Anatomy, musculoskeletal system, medicine.disease, Cervical spine, Sagittal plane, Transverse plane, medicine.anatomical_structure, Atlas (anatomy), medicine, Whiplash, business
Abstract

Whiplash distortions of the cervical spine, occurring during the retraction phase of a rear end automobile accident, are known to cause posterior translation of the head relative to the chest and shoulders [1,2]. This anteroposterior shear produces sagittal plane rotation of the cervical spine which results in relative flexion between the occiput and the atlas (Fig. 1). This study demonstrates that there is a significant difference between the average angles of the anterior aspects and the posterior aspects of the superior facets of the atlas with respect to a horizontal (transverse) plane at P

Published
2010

21. In vitro three dimensional morphometry of the lateral atlantoaxial articular surfaces

Author

Erik Cattrysse, Olivier Gagey, Peter Van Roy, Jan Pieter Clarys, Steven Provyn, P. Kool, Applied Mechanics, and Experimental Anatomy

Subjects
musculoskeletal diseases, Male, Facet (geometry), Kinematics, Curvature, Atlas (anatomy), axis, Orientation (geometry), Medicine, Humans, atlas, Orthopedics and Sports Medicine, Cervical Atlas, Range of Motion, Articular, facet joints, Joint (geology), Axis, Cervical Vertebra, Aged, Aged, 80 and over, business.industry, Morphometry, 3-dimensional, Anatomy, Middle Aged, Sagittal plane, Biomechanical Phenomena, medicine.anatomical_structure, Atlanto-Axial Joint, Coronal plane, Female, Neurology (clinical), business
Abstract

Study Design. The present study verifies the 3-dimensional anatomic features of the lateral atlantoaxial joints with reference to a local reference frame using a direct in vitro approach. Objective. To study the concordance between the axial and atlantal articular surfaces. Summary of Background Data. Detailed information of joint-configurations is imperative for understanding the complex kinematics of the upper cervical joint. Data on the quantitative morphology of the human spinal facet joints has been published, but did not include the atlanto-occipital and atlantoaxial joints. Methods. In 20 fresh spine specimens, metal markers were implanted on the cranium, the atlas, and the axis. After registration of the intact specimens, the bony segments were separated and markers and anatomic landmarks were digitized. The size, shape, and orientation relative to the local reference frame of the axis were derived from the relative position data of the joint surface landmarks. Results. The diameters and surface areas of the inferior articular surfaces of the atlas are slightly smaller than the corresponding surfaces on the superior aspects of the axis (17.7 mm and 235 mm(2) vs. 17.0 and 212 mm(2)). In this sample of older-aged specimens, the curvature of the articulating surfaces is nearly flat. The absolute angle between the left and right surface areas is about 130 and corresponds well between axis and atlas. The orientation of the joint surfaces of axis and atlas with respect to the sagittal plane of the axis indicates a good congruency. Conclusion. There seems to be a strong relationship between the anatomic features of the lateral articulating surfaces of atlas and axis. Differences in the orientation of joint surfaces to the frontal plane may be related to deviations from the neutral position. This issue raises the problem of the definition of three-dimensional-neutral joint positions.

Published
2008

22. 3D morphometry of the transverse and alar ligaments in the occipito-atlanto-axial complex: an in vitro analysis

Author

P. Van Roy, J. P. Clarys, Marco Barbero, Olivier Gagey, Erik Cattrysse, and P. Kool

Subjects
Male, endocrine system, Histology, Transverse ligament, Axial rotation, In vitro analysis, Imaging, Three-Dimensional, Atlas (anatomy), Medicine, Humans, Cervical Atlas, Axis, Cervical Vertebra, Aged, Aged, 80 and over, business.industry, General Medicine, Anatomy, Middle Aged, Sagittal plane, Lateral bending, Transverse plane, medicine.anatomical_structure, Atlanto-Occipital Joint, Atlanto-Axial Joint, Ligaments, Articular, Female, business, Reference frame
Abstract

This study verifies the three-dimensional anatomical features of the transverse and alar ligaments with reference to the axis using a direct in vitro approach. In 20 fresh spine specimens, metal markers were inserted on the cranium, atlas, and axis. After registration of the intact specimen, the bony segments were separated, and markers and anatomical landmarks were digitized. The length and the orientation of the ligaments with reference to the axis were derived from the relative position data. The transverse ligaments of the atlas have a mean estimated length of 21 mm and an absolute angle (i.e., independent of any reference frame) of 119 degrees +/- 17 degrees . The alar ligaments have a mean length of 9 +/- 2.5 mm, and the mean absolute angle between the ligaments is 117 degrees +/- 31 degrees . The plane of the alar ligaments shows a mean backward inclination of -10 degrees +/- 52 degrees . This plane has a mean inclination of 6 degrees +/- 4 degrees with reference to the sagittal plane indicating left-right symmetries. The transverse ligament arches around the dens and demonstrating its function as a stabilizer for the dens as well as guidance for axial rotation movements. A posterior inclination of the alar ligaments may induce a coupled extension in combination with a lateral bending during axial rotation. These detailed aspects of motion steering may be important to consider when attempting to reduce or restore movement.

Published
2007

23. Anthropometric fractionation of body mass: Matiegka revisited

Author

William Duquet, Erik Cattrysse, Evert Zinzen, P. Van Roy, J. P. Clarys, and Dirck Caboor

Subjects
Adult, Male, Anthropometry, Body Weight, Reproducibility of Results, Physical Therapy, Sports Therapy and Rehabilitation, Total body, Anatomy, Body weight, Muscle mass, Sensitivity and Specificity, Body Mass Index, Belgium, Evaluation Studies as Topic, Statistics, Body Composition, Humans, Orthopedics and Sports Medicine, Female, Body mass index, Mathematics
Abstract

In a group of 699 Belgian nursing professionals, we estimated body composition using the four-component anthropometric model, relying on the equations originally formulated by Matiegka in 1921 and later revised by Drinkwater and colleagues. We estimated muscle mass using the more recent formula proposed by Martin and co-workers. A discrepancy was noted between estimated total body mass and 'assessed' mass, suggesting erroneous estimations of the components.

Published
2002

25. Ultrasound of the knee with emphasis on the detailed anatomy of anterior, medial, and lateral structures

Author

Erik Cattrysse, Maryam Shahabpour, Michel De Maeseneer, Stefaan Marcelis, Cedric Boulet, Mimoun Kichouh, Johan De Mey, Supporting clinical sciences, Medical Imaging and Physical Sciences, Medical Imaging, Vriendenkring VUB, and Anatomy

Subjects
Medial collateral ligament, Knee Joint, business.industry, Fibular collateral ligament, Ultrasound, Collateral Ligaments, Fascia, Anatomy, Medial patellofemoral ligament, musculoskeletal system, Tendons, Retinaculum, medicine.anatomical_structure, Ligaments, Articular, medicine, Ligament, Humans, Radiology, Nuclear Medicine and imaging, Quadriceps tendon, business, Ultrasonography
Abstract

OBJECTIVE: To describe the detailed ultrasound anatomy of the anterior, medial, and lateral aspects of the knee and present the ultrasound examination technique used. MATERIALS AND METHODS: We present ultrasound using images of patients, volunteer subjects, and cadaveric specimens. We correlate ultrasound images with images of anatomical sections and dissections. RESULTS: The distal quadriceps tendon is made up of different laminas that can be seen with ultrasound. One to five laminas may be observed. The medial retinaculum is made up of three anatomical layers: the fascia, an intermediate layer, and the capsular layer. At the level of the medial patellofemoral ligament (MPFL) one to three layers may be observed with ultrasound. The medial supporting structures are made up of the medial collateral ligament and posterior oblique ligament. At the level of the medial collateral ligament (MCL), the superficial band, as well as the deeper meniscofemoral and meniscotibial bands can be discerned with ultrasound. The posterior part, corresponding to the posterior oblique ligament (POL), also can be visualized. Along the posteromedial aspect of the knee the semimembranosus tendon has several insertions including an anterior arm, direct arm, and oblique popliteal arm. These arms can be differentiated with ultrasound. Along the lateral aspect of the knee the iliotibial band and adjacent joint recesses can be assessed. The fibular collateral ligament is encircled by the anterior arms of the distal biceps tendon. Along the posterolateral corner, the fabellofibular, popliteofibular, and arcuate ligaments can be visualized. CONCLUSION: The anatomy of the anterior, medial, and lateral supporting structures of the knee is more complex than is usually thought. Ultrasound, with its exquisite resolution, allows an accurate assessment of anatomical detail. Knowledge of detailed anatomy and a systematic technique are prerequisites for a successful ultrasound examination of the knee.

26. Bony palmar ridges of the phalanges of the human fingers

Author

Michel De Maeseneer, Inneke Willekens, Jie Meng, Toon Van Cauteren, Evie Vereecke, Caroline Geers, Erik Cattrysse, Johan De Mey, Arthro-kinematics, Medical Imaging and Physical Sciences, Laboratory of Molecular and Medical Oncology, Experimental Anatomy, Medical Imaging, and Vriendenkring VUB

Subjects
Adult, Male, medicine.medical_specialty, Proximal phalanx, Radiography, Palmar Plate, Pathology and Forensic Medicine, Fingers, Finger Phalanges, Cadaver, Medicine, Humans, Radiology, Nuclear Medicine and imaging, Retrospective Studies, Observer Variation, business.industry, Age Factors, Anatomy, Phalanx, Middle Aged, musculoskeletal system, phalanges, Tendon, body regions, medicine.anatomical_structure, Middle phalanx, Orthopedic surgery, Fibrocartilage, Surgery, Female, business, Cadaveric spasm
Abstract

PURPOSE: On imaging studies, bony ridges can be seen at the palmar aspect of the phalanges of the fingers. Our purpose was to address the following: (1) which structures insert on to the ridges and what is the histological appearance? (2) Is there a difference between the different fingers? (3) Is there a correlation between the ridges and age? MATERIALS AND METHODS: Two observers retrospectively evaluated 270 radiographs (135 men; 135 women; mean age 44 years), and 33 CT scans (22 men; 11 women; mean age 46 years). Three cadaveric hands were also studied. The ridges were graded using a 4-point scale. A Chi-square test was used to compare the different fingers (p

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