Your search keyword '"Ngan, CC"' showing total 5 results

1. Preliminary characterization of rectification for transradial prosthetic sockets.

Author

Ngan CC, Pendse V, Sivasambu H, Ouellette E, Ready N, and Andrysek J

Subjects

Prosthesis Design, Prosthesis Implantation, Lower Extremity, Upper Extremity, Artificial Limbs

Abstract

Achieving proper socket fit is crucial for the effective use of a prosthesis. However, digital socket design lacks standardization and presents a steep learning curve for prosthetists. While research has focused on digital socket design for the lower-limb population, there is a research gap in upper-limb socket design. This study aimed to characterize the design (rectification) process for the transradial socket, specifically the three-quarter Northwestern-style design, towards the development of a more systematic, data-driven socket design approach. Fourteen (n = 14) pairs of unrectified and rectified plaster models were compared. Six common rectification zones were identified through shape analysis, with zones of plaster addition being the most prominent in terms of volume and surface area. A novel 3D vector mapping technique was employed, which revealed that most of the shape changes occurred in the anterior-posterior and proximal-distal directions. Overall, the interquartile range of each rectification zone demonstrated reasonable consistency in terms of volume, surface deviation, and 3D vector representation. The initial findings from this study support the potential for quantitively modelling the transradial socket design process. This opens the door for developing tools for categorizing and predicting socket designs across diverse populations through the application of techniques such as machine learning., (© 2024. The Author(s).)

Published

2024

2. Low-dose AAV-CRISPR-mediated liver-specific knock-in restored hemostasis in neonatal hemophilia B mice with subtle antibody response.

Author

He X, Zhang Z, Xue J, Wang Y, Zhang S, Wei J, Zhang C, Wang J, Urip BA, Ngan CC, Sun J, Li Y, Lu Z, Zhao H, Pei D, Li CK, and Feng B

Subjects

Mice, Animals, Humans, Gene Editing, CRISPR-Cas Systems genetics, Antibody Formation, Genetic Vectors genetics, Hemostasis, Liver, Hemophilia B genetics, Hemophilia B therapy

Abstract

AAV-delivered CRISPR/Cas9 (AAV-CRISPR) has shown promising potentials in preclinical models to efficiently insert therapeutic gene sequences in somatic tissues. However, the AAV input doses required were prohibitively high and posed serious risk of toxicity. Here, we performed AAV-CRISPR mediated homology-independent knock-in at a new target site in mAlb 3'UTR and demonstrated that single dose of AAVs enabled long-term integration and expression of hF9 transgene in both adult and neonatal hemophilia B mice (mF9 -/-), yielding high levels of circulating human Factor IX (hFIX) and stable hemostasis restoration during entire 48-week observation period. Furthermore, we achieved hemostasis correction with a significantly lower AAV dose (2 × 10 9 vg/neonate and 1 × 10 10 vg/adult mouse) through liver-specific gene knock-in using hyperactive hF9 R338L variant. The plasma antibodies against Cas9 and AAV in the neonatal mice receiving low-dose AAV-CRISPR were negligible, which lent support to the development of AAV-CRISPR mediated somatic knock-in for treating inherited diseases., (© 2022. The Author(s).)

Published

2022

3. Evaluating the Reliability of a Shape Capturing Process for Transradial Residual Limb Using a Non-Contact Scanner.

Author

Ngan CC, Sivasambu H, Ramdial S, and Andrysek J

Subjects

Extremities, Humans, Prosthesis Design, Reproducibility of Results, Amputees, Artificial Limbs

Abstract

Advancements in digital imaging technologies hold the potential to transform prosthetic and orthotic practices. Non-contact optical scanners can capture the shape of the residual limb quickly, accurately, and reliably. However, their suitability in clinical practice, particularly for the transradial (below-elbow) residual limb, is unknown. This project aimed to evaluate the reliability of an optical scanner-based shape capture process for transradial residual limbs related to volumetric measurements and shape assessment in a clinical setting. A dedicated setup for digitally shape capturing transradial residual limbs was developed, addressing challenges with scanning of small residual limb size and aspects such as positioning and patient movement. Two observers performed three measurements each on 15 participants with transradial-level limb absence. Overall, the developed shape capture process was found to be highly repeatable, with excellent intra- and inter-rater reliability that was comparable to the scanning of residual limb cast models. Future work in this area should compare the differences between residual limb shapes captured through digital and manual methods.

Published

2022

4. Understanding the adoption of digital workflows in orthotic & prosthetic practice from practitioner perspectives: a qualitative descriptive study.

Author

Ngan CC, Sivasambu H, Kelland K, Ramdial S, and Andrysek J

Subjects

Humans, Qualitative Research, Workflow

Abstract

Background: The implementation of digital technology (DT) in orthotics and prosthetics (O&P) has been slow despite recent research suggesting that the use of DT will continue to grow and become more prevalent within the industry. There is a need to further investigate DT in O&P practice and the current state of its use in the field., Objective: This study aimed to explore the views and experiences of practitioners using DT workflows in their O&P practice., Methods: In this qualitative descriptive study, 10 in-depth, semistructured interviews with O&P practitioners were conducted. A content analysis was performed to analyze the transcripts and identify key themes from the data., Results: The study examined the experiences of practitioners using or trying to use DT in their practices, and three key themes were identified on the implementation of digital practice: 1) technological advancement and scientific evidence; 2) marketplace, economic, and operational factors; and 3) industry mindset shift in embracing DT practice., Conclusion: A collaborative effort involving academia, healthcare institutions, vendors, and individual practitioners will be required to facilitate the widespread adoption of DT in O&P. More work is required to overcome challenges from the technical, logistical, and cultural aspects., (Copyright © 2022 International Society for Prosthetics and Orthotics.)

Published

2022

5. Biomechanical factors affecting individuals with lower limb amputations running using running-specific prostheses: A systematic review.

Author

Hadj-Moussa F, Ngan CC, and Andrysek J

Subjects

Amputation, Surgical, Biomechanical Phenomena, Child, Humans, Leg, Lower Extremity, Artificial Limbs

Abstract

Background: Running-specific prostheses (RSPs) are biomechanically designed to enable individuals with lower limb amputations to engage in high level sports., Research Question: What is the influence of RSP use on the running biomechanics of individuals with lower limb amputations?, Methods: An article search was conducted in six databases since their inception to July 2021. Two independent reviewers assessed the title, abstract and full texts in the review process. The quality of the papers was appraised. The review included a total of 35 articles., Results: Main findings indicate force production is a limitation of RSPs. Individuals with lower limb absence employ a variety of compensatory strategies such as adjusting their step frequency, contact length and joint kinetics to improve their running performance. Leg stiffness modulation and external factors relating to the RSP design and fitting play important roles in RSP biomechanics. For individuals with unilateral amputations, the increased loading of the intact limb could increase the risk of acute injury or chronic joint degradation., Significance: To improve their running performance, runners with lower limb amputations employ various compensatory strategies, such as altering the spatiotemporal and kinetic parameters. Factors relating to RSP height, stiffness, shape, and alignment also play an important role in terms of running biomechanics and should be considered in RSP design and fitting. Future studies should focus on the use of RSPs for recreation, in pediatric populations, with certain amputation levels, as well as the impact of training and running techniques., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2022