Your search keyword '"Inouye JM"' showing total 9 results

1. Three-dimensional finite element analysis on stress distribution after different palatoplasty and levator veli palatini muscle reconstruction.

Author

Ma J, Zhang M, Yang D, Zhai K, Yu L, Hu C, Dong W, and Huang Y

Subjects

Humans, Finite Element Analysis, Palatal Muscles surgery, Palate, Soft surgery, Palate, Hard, Cleft Palate surgery, Cleft Palate complications, Velopharyngeal Insufficiency complications, Velopharyngeal Insufficiency surgery

Abstract

Objectives: To establish a three-dimensional finite element model of the upper palate, pharyngeal cavity, and levator veli palatini muscle in patients with unilateral complete cleft palate, simulate two surgical procedures that the two-flap method and Furlow reverse double Z method, observe the stress distribution of the upper palate soft tissue and changes in pharyngeal cavity area after different surgical methods, and verify the accuracy of the model by reconstructing and measuring the levator veli palatini muscle., Materials and Methods: Mimics, Geomagic, Ansys, and Hypermesh were applied to establish three-dimensional finite element models of the pharyngeal cavity, upper palate, and levator veli palatini muscle in patients with unilateral complete cleft palate. The parameters including length, angle, and cross-sectional area of the levator veli palatini muscle etc. were measured in Mimics, and two surgical procedures that two-flap method and Furlow reverse double Z method were simulated in Ansys, and the area of pharyngeal cavity was measured by hypermesh., Results: A three-dimensional finite element model of the upper palate, pharyngeal cavity, and bilateral levator veli palatini muscle was established in patients with unilateral complete cleft palate ; The concept of horizontal projection characteristics of the palatal dome was applied to the finite element simulation of cleft palate surgery, vividly simulating the displacement and elastic stretching of the two flap method and Furlow reverse double Z method during the surgical process; The areas with the highest stress in the two-flap method and Furlow reverse double Z method both occur in the hard soft palate junction area; In resting state, as measured, the two flap method can narrow the pharyngeal cavity area by 50.9%, while the Furlow reverse double Z method can narrow the pharyngeal cavity area by 65.4%; The measurement results of the levator veli palatini muscle showed no significant difference compared to previous studies, confirming the accuracy of the model., Conclusions: The finite element method was used to establish a model to simulate the surgical procedure, which is effective and reliable. The area with the highest postoperative stress for both methods is the hard soft palate junction area, and the stress of the Furlow reverse double Z method is lower than that of the two-flap method. The anatomical conditions of pharyngeal cavity of Furlow reverse double Z method are better than that of two-flap method in the resting state., Clinical Relevance: This article uses three-dimensional finite element method to simulate the commonly used two-flap method and Furlow reverse double Z method in clinical cleft palate surgery, and analyzes the stress distribution characteristics and changes in pharyngeal cavity area of the two surgical methods, in order to provide a theoretical basis for the surgeon to choose the surgical method and reduce the occurrence of complications., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

2. Incorporating Velopharyngeal MRI into the Clinical Decision-Making Process for a Patient Presenting with Velopharyngeal Dysfunction Following a Failed Palatoplasty.

Author

Mason, Kazlin N. and Black, Jonathan

Subjects

SPEECH evaluation, MEDICAL protocols, HUMAN services programs, VOICE disorders, MAGNETIC resonance imaging, DECISION making in clinical medicine, TREATMENT effectiveness, SURGICAL complications, TREATMENT failure, SPEECH disorders, VELOPHARYNGEAL insufficiency, CLEFT palate, HEALTH care teams, DISEASE complications

Abstract

This clinical report describes the implementation of magnetic resonance imaging (MRI) to evaluate a patient with long-standing velopharyngeal dysfunction. She was referred to the craniofacial clinic at age 10 with no prior surgical history and subsequently completed a Furlow palatoplasty due to a suspected submucous cleft palate. However, results were unfavorable with minimal improvement in speech or resonance. The clinical presentation, treatment, outcomes, and contributions from MRI for secondary surgical planning are described. Addition of MRI into the clinical workflow provided insights into the anatomy and physiology of the velopharyngeal mechanism that were unable to be obtained from nasendoscopy and speech evaluation alone. [ABSTRACT FROM AUTHOR]

Published

2024

3. Biometric analysis hand parameters in young adults for prosthetic hand and ergonomic product applications.

Author

Chatzıoglou, Gkionoul Ntelı, Pınar, Yelda, and Govsa, Figen

Subjects

ARTIFICIAL hands, YOUNG adults, THUMB, PROSTHETICS, JOINTS (Anatomy), PEARSON correlation (Statistics), ABDUCTION (Kinesiology), FINGER joint

Abstract

This study aimed to evaluate the superficial anatomy, kinesiology, and functions of the hand to reveal its morphometry and apply the findings in various fields such as prosthetic hand and protective hand support product design. We examined 51 young adults (32 females, 19 males) aged between 18–30. Hand photographs were taken, and measurements were conducted using ImageJ software. Pearson correlation analysis was performed to determine the relationship between personal information and the parameters. The results of the measurements showed the average lengths of finger segments: thumb (49.5±5.5 mm), index finger (63.9±4.1 mm), middle finger (70.7±5.2 mm), ring finger (65.5±4.8 mm), and little finger (53.3±4.3 mm). Both females and males, the left index finger was measured longer than the right index finger. The right ring finger was found to be longer than the left in both sexes. Additionally, length differences between fingers in extended and maximally adducted positions were determined: thumb-index finger (56.1±6.2 mm), index-middle finger (10.7±4.1 mm), middle-ring finger (10.8±1.4 mm), and ring-little finger (25.6±2.7 mm). Other findings included the average radial natural angle (56.4°±10.5°), ulnar natural angle (23.4°±7.1°), radial deviation angle (65.2°±8.2°), ulnar deviation angle (51.2°±9.6°), and grasping/gripping angle (49.1°±5.8°). The average angles between fingers in maximum abduction positions were also measured: thumb-index finger (53.4°±6.5°), index-middle finger (17.2°±2.6°), middle-ring finger (14.3°±2.3°), and ring-little finger (32.1°±7.0°). The study examined the variability in the positioning of proximal interphalangeal joints during maximum metacarpophalangeal and proximal interphalangeal flexion, coinciding with maximum distal interphalangeal extension movements. The focal points of our observations were the asymmetrical and symmetrical arches formed by these joints. This study provides valuable hand parameters in young adults, which can be utilized in various applications such as prosthetic design, ergonomic product development, and hand-related research. The results highlight the significance of considering individual factors when assessing hand morphology and function. [ABSTRACT FROM AUTHOR]

Published

2024

4. A spring-based rigid-soft robotic gripper for conformal grasping and object recognition.

Author

Li, Zhuowei, Yin, Meng, Huang, Binhua, Cai, Zijian, Yi, Zhengkun, and Wu, Xinyu

Published

2024

5. Modified Furlow Palatoplasty Using Small Double-Opposing Z-Plasty: Long-Term Outcome and Comparison with 2-Flap Palatoplasty.

Author

Hattori Y, Pai BC, Saito T, Tu JC, Chou PY, and Lo LJ

Subjects

Humans, Retrospective Studies, Female, Male, Child, Preschool, Treatment Outcome, Infant, Child, Follow-Up Studies, Postoperative Complications etiology, Postoperative Complications epidemiology, Surgical Flaps transplantation, Palate, Soft surgery, Velopharyngeal Insufficiency surgery, Velopharyngeal Insufficiency etiology, Plastic Surgery Procedures methods, Plastic Surgery Procedures adverse effects, Cleft Palate surgery

Abstract

Background: Postpalatoplasty velopharyngeal function needs to be evaluated through long-term follow-up, but such reports are limited in the literature, and there has been no consensus as to which surgical technique yields optimal velopharyngeal function with minimum complication rate. This study aimed to evaluate the long-term outcome of the modified Furlow palatoplasty using small double-opposing Z-plasty (small-DOZ)., Methods: A retrospective review was conducted of consecutive patients who underwent palatoplasty performed by the senior author (L.J.L.) between January of 2000 and March of 2014. Nonsyndromic patients who underwent palatoplasty before the age of 18 months and followed up until at least 9 years of age were included. Comparisons between the small-DOZ and 2-flap methods for soft palate repair were made., Results: A total of 196 small-DOZ and 167 2-flap palatoplasty patients were eligible in the study. Among the small-DOZ palatoplasty patients, 1 patient (0.5%) developed oronasal fistula and 18 patients (9.2%) developed velopharyngeal insufficiency (VPI) surgery (10 patients at preschool age, and 8 at 9 years of age). Compared with the small-DOZ palatoplasty, the oronasal fistula rate, VPI surgery rate, and the need for myringotomy tube insertion were significantly higher in the 2-flap group (P = 0.01, P < 0.01, and P < 0.01, respectively). Patients who developed oronasal fistula had significantly higher likelihood of having VPI (P < 0.01)., Conclusions: The small-DOZ provided successful palatal repair with low rates of oronasal fistula and VPI in the long term. Wound closure under minimal tension facilitated avoiding oronasal fistula. Reconstruction of the functional muscle sling enabled the authors to achieve normal velopharyngeal function with favorable speech outcome and middle ear function., Clinical Question/level of Evidence: Therapeutic, III., (Copyright © 2023 by the American Society of Plastic Surgeons.)

Published

2024

6. A new look at an old problem: 3D modeling of accommodation reveals how age-related biomechanical changes contribute to dysfunction in presbyopia.

Author

Knaus, Katherine R., Hipsley, AnnMarie, and Blemker, Silvia S.

Subjects

SCLERA, PRESBYOPIA, FINITE element method, MUSCLE contraction, EYE muscles

Abstract

Presbyopia is an age-related ocular disorder where accommodative ability declines so that an individual's focusing range is insufficient to provide visual clarity for near and distance vision tasks without corrective measures. With age, the eye exhibits changes in biomechanical properties of many components involved in accommodation, including the lens, sclera, and ciliary muscle. Changes occur at different rates, affecting accommodative biomechanics differently, but individual contributions to presbyopia are unknown. We used a finite element model (FEM) of the accommodative mechanism to simulate age-related changes in lens stiffness, scleral stiffness, and ciliary contraction to predict differences in accommodative function. The FEM predicts how ciliary muscle action leads to lens displacement by initializing a tensioned unaccommodated lens (Phase 0) then simulating ciliary muscle contraction in accommodation (Phase 1). Model inputs were calibrated to replicate experimentally measured lens and ciliary muscle in 30-year-old eyes. Predictions of accommodative lens deformation were verified with additional imaging studies. Model variations were created with altered lens component stiffnesses, scleral stiffness, or ciliary muscle section activations, representing fifteen-year incremental age-related changes. Model variations predict significant changes in accommodative function with age-related biomechanical property changes. Lens changes only significantly altered lens thickening with advanced age (46% decrease at 75 years old) while sclera changes produced progressive dysfunction with increasing age (23%, 36%, 49% decrease at 45, 60, and 75 years old). Ciliary muscle changes effected lens position modulation. Model predictions identified potential mechanisms of presbyopia that likely work in combination to reduce accommodative function and could indicate effectiveness of treatment strategies and their dependency on patient age or relative ocular mechanical properties. [ABSTRACT FROM AUTHOR]

Published

2024

7. Simulation of Velopharyngeal Biomechanics Identifies Differences in Sphincter Pharyngoplasty Outcomes: A Matched Case–Control Study.

Author

Tran, Thanh, Perry, Jamie, Blemker, Silvia, and Mason, Kazlin

Subjects

PHARYNX physiology, COMPUTER simulation, PHARYNX, PHARYNGEAL muscles, THREE-dimensional imaging, HEALTH outcome assessment, CASE-control method, MATHEMATICS, RESEARCH funding, BIOMECHANICS, SPEECH

Abstract

The purpose of this study was to develop a framework for 3D subject-specific computational models capable of simulating velopharyngeal biomechanics for anatomic changes that occur following pharyngoplasty and to gain insight into biomechanical factors that may lead to different speech/surgical outcomes. Patient-specific models for two, matched participants with differing speech/surgical outcomes were developed: one with a successful pharyngoplasty outcome and one with a failed pharyngoplasty outcome. Surgical scenarios were simulated to model pharyngoplasty location, identify LVP muscle biomechanics, and identify an optimal pharyngoplasty location for each participant. These simulations illustrate the potential for optimizing pharyngoplasties based on patient-specific geometry. [ABSTRACT FROM AUTHOR]

Published

2024

8. Progression of partial to complete ruptures of the Achilles tendon during rehabilitation: A study using a finite element model.

Author

Diniz P, Quental C, Pereira H, Lopes R, Kerkhoffs GMMJ, Ferreira FC, and Folgado J

Subjects

Humans, Rupture rehabilitation, Tendon Injuries rehabilitation, Tendon Injuries physiopathology, Computer Simulation, Disease Progression, Achilles Tendon injuries, Achilles Tendon physiopathology, Finite Element Analysis

Abstract

Substantial research on complete Achilles tendon ruptures is available, but guidance on partial ruptures is comparatively sparse. Conservative management is considered acceptable in partial tendon ruptures affecting less than 50% of the tendon's width, but supporting experimental evidence is currently lacking. Using a previously validated finite element model of the Achilles tendon, this study aimed to assess whether loading conditions simulating an early functional rehabilitation protocol could elicit progression to a complete rupture in partial ruptures of varying severity. In silico tendon rupture simulations were performed to locate the most likely rupture site for least, moderate, and extreme subtendon twist configurations. These three models were split at the corresponding rupture site and two sets of partial ruptures were created for each, starting from the medial and lateral sides, and ranging from 10% to 50% loss of continuity. Simulations were conducted with material parameters from healthy and tendinopathic tendons. Partial ruptures were considered to progress if the volume of elements showing a maximum principal strain above 10% exceeded 3 mm 3 . To assess whether the tendinopathic tendons typical geometric characteristics could compensate for the inferior material properties found in tendinopathy, an additional model with increased cross-sectional area in the free tendon region was developed. Progression to complete ruptures occurred even with less than a 50% loss of continuity, regardless of subtendon twisting, and material parameters. The tendinopathic tendon model with increased cross-sectional area showed similar results. These findings suggest the current criteria for surgical treatment of partial ruptures should be reconsidered. Statement of clinical significance: The clinical significance and most appropriate treatment of partial ruptures of the Achilles tendon is unclear. Despite the widespread use of the "50% rule" in treatment decisions of partial tendon ruptures, experimental evidence supporting it is missing. The present study provides new data, from a validated aponeurotic and free Achilles tendon finite element model, showing that partial ruptures may progress to complete ruptures under loading conditions elicited from functional rehabilitation protocols, even for partial ruptures affecting less than 50% of the tendon's width. Under these novel findings, the current criteria for surgical treatment of partial ruptures should be reconsidered., (© 2024 The Authors. Journal of Orthopaedic Research® published by Wiley Periodicals LLC on behalf of Orthopaedic Research Society.)

Published

2024

9. Determining a musculoskeletal system's pre-stretched state using continuum-mechanical forward modelling and joint range optimization.

Author

Avci O and Röhrle O

Subjects

Humans, Biomechanical Phenomena, Muscle, Skeletal physiology, Musculoskeletal System anatomy & histology, Computer Simulation, Muscle Contraction physiology, Male, Range of Motion, Articular physiology, Models, Biological, Joints physiology

Abstract

The subject-specific range of motion (RoM) of a musculoskeletal joint system is balanced by pre-tension levels of individual muscles, which affects their contraction capability. Such an inherent pre-tension or pre-stretch of muscles is not measureable with in vivo experiments. Using a 3D continuum mechanical forward simulation approach for motion analysis of the musculoskeletal system of the forearm with 3 flexor and 2 extensor muscles, we developed an optimization process to determine the muscle fibre pre-stretches for an initial arm position, which is given human dataset. We used RoM values of a healthy person to balance the motion in extension and flexion. The performed sensitivity study shows that the fibre pre-stretches of the m. brachialis, m. biceps brachii and m. triceps brachii with 91 % dominate the objective flexion ratio, while m. brachiradialis and m. anconeus amount 7.8 % and 1.2 % . Within the multi-dimensional space of the surrogate model, 3D sub-spaces of primary variables, namely the dominant muscles and the global objective, flexion ratio, exhibit a path of optimal solutions. Within this optimal path, the muscle fibre pre-stretch of two flexors demonstrate a negative correlation, while, in contrast, the primary extensor, m. triceps brachii correlates positively to each of the flexors. Comparing the global optimum with four other designs along the optimal path, we saw large deviations, e.g., up to 15 ∘ in motion and up to 40% in muscle force. This underlines the importance of accurate determination of fibre pre-stretch in muscles, especially, their role in pathological muscular disorders and surgical applications such as free muscle or tendon transfer., (© 2024. The Author(s).)

Published

2024