Clinical Trials Logo

Clinical Trial Summary

When the prosthetic socket of a Veteran with a lower limb amputation no longer fits or is damaged beyond repair, a new prosthetic socket is warranted. The provision of a new socket requires multiple clinical visits which can place a high travel burden and potential pandemic exposure stress on Veterans who live in rural communities far from VA Medical Centers or alternative prosthetic clinics. This research seeks to determine if one of the in-person visits traditionally needed to obtain a well-fitting prosthesis can be performed remotely with the assistance of a helper. The investigators seek to discover if an untrained individual (a helper) can wield inexpensive, easy to use, digital technology to capture the shape of a residual limb to see if it can be used to fabricate a prosthetic socket that fits at least as well as one fabricated by a prosthetist using traditional, hand casting methods in the clinic. The expected result of this research is an evidence-based prosthetic fabrication process that reduces Veteran travel burden while providing a prosthesis that fits at least as well as the current standard-of-care. The upshot is a clear improvement in prosthetic provision for Veterans, particularly for those who live in rural communities. To make this determination, the investigators will perform a between-subject experiment with two specific aims. To determine differences in goodness of fit between the two study sockets, the investigators will use both patient reported outcomes, and measurements of the pressure applied to the distal end of the residual limb. Specific Aim 1: Determine if patient reported outcomes, by subjects wearing a prosthetic socket whose shape was captured with study helper assistance, are at least as good as those reported by subjects wearing a socket whose shape was captured by a prosthetist. The investigators propose to recruit Veterans with a below knee amputation and their study helpers to participate in a human subject experiment. Participants will be randomly assigned and fit with either a prosthesis made with study helper assistance and digital methods, or one made wholly by a prosthetist using traditional methods. Patient reported outcome metrics will be collected while the subject is still wearing their as-prescribed socket at the beginning of the study (baseline), and again after wearing the study prosthesis for two weeks. Specific Aim 2: Determine if distal end residual limb pressure, measured from a group of individuals fit with a prosthetic socket whose shape was captured with study helper assistance using digital methods, are no worse than those measured from a group of individuals fit with a prosthetic socket whose shape was captured by a prosthetist using traditional methods. Concurrent with the human subject procedures briefly described above, the investigators propose to fabricate duplicates (copies) of the two prosthetic sockets used by each subject in Specific Aim 1. A novel sensor will be embedded in these duplicate sockets which can measure the pressure applied to the distal end of the residual limb. Measurements of distal end residual limb pressure while standing and walking for both the as-prescribed and study sockets will be collected at the beginning of the study (baseline), and again after two weeks. The data from the investigators' experiments will be used to determine if residual limb shape capture by a helper using digital technologies can be used to make prosthetic sockets that fit at least as well as those made by a prosthetist using traditional, hand casting techniques. One third of all Veterans live in rural communities far from VA Medical Centers. When Veterans with a lower limb amputation need a new prosthetic socket, attending in-person clinical visits can be a challenge. If the hypotheses are supported, this research will provide evidence to support the use of digital technology as part of clinical practice, enabling a remote, study helper enabled alternative to one of the in-person clinical visits needed to fabricate a well-fitting prosthesis.


Clinical Trial Description

The objective of this research is to determine if advances in technology, namely digital methods to capture residual limb shape, can meet the well-fitting prosthetic socket standard-of-care with the added benefits of improved access and service delivery. The current standard of care for prosthetic provision requires multiple, in-person clinical visits between the Veteran and their prosthetist. Separate visits for residual limb shape capture, check socket fitting, and definitive socket delivery are required every time a new socket is needed. For Veterans who live in rural communities far from VA facilities, the challenges associated with attending these clinical visits can be a significant burden. This research seeks to determine if the residual limb shape capture visit can be performed remotely with the assistance of a study helper using digital methods. Of paramount concern when providing a prosthesis to a Veteran with a lower limb amputation is obtaining a good fit. Prosthetic sockets that fit poorly are either worn sparingly or not at all. Obtaining a good fit is a process. Veterans know it when they wear a well-fitting prosthesis and prosthetists know it when they see it (lack of reactive hyperemia). Patient reported outcomes play an important role whereby the prosthetist solicits feedback from the patient about how the check socket feels and the location of any perceived discomfort. This informal approach is infrequently supplemented with qualitative survey instruments. Reducing or eliminating excessive distal end pressure is also essential as the distal end tissues of the residual limb can rarely support body weight loads without discomfort or injury. However, no instrument to directly measure distal end residual limb pressures is commercially available. The investigators propose to determine if a prosthetic socket, whose shape is captured remotely by a study helper using a digital scanner, fits at least as well as a prosthetic socket whose shape is captured in-person by a prosthetist using traditional hand casting methods. If it does, then rural Veterans with a helper could forgo a clinical visit. To make this determination, the investigators propose to perform a between-subject experiment with two specific aims. Specific Aim 1: Determine if patient reported outcomes, reported by a group of individuals fit with a prosthetic socket whose shape was captured with study helper assistance using digital methods, are at least as good as those reported by a different group of individuals fit with a prosthetic socket whose shape was captured by a prosthetist using traditional methods. The investigators propose to recruit ambulatory Veterans with unilateral transtibial amputation (n=20) and their study helpers (n=20) to participate in a between-subject experiment. Participants will be randomly assigned and fit with either a prosthesis made with study helper assistance and digital methods, or one made wholly by a prosthetist using traditional methods. Patient reported outcome metrics will be collected while the subject is still wearing their as-prescribed socket (baseline) at the beginning of the study, and again after wearing the study prosthesis for two weeks. Specific Aim 2: Determine if distal end residual limb pressure, measured from a group of individuals fit with a prosthetic socket whose shape was captured with study helper assistance using digital methods, are no worse than those measured from a group of individuals fit with a prosthetic socket whose shape was captured by a prosthetist using traditional methods. In addition to the human subject procedures of Specific Aim 1, the investigators further propose to fabricate two duplicate prosthetic sockets for each subject: one duplicate of the subject's as-prescribed socket and one duplicate of the study socket randomly assigned to the subject in Specific Aim 1. Embedded in the distal end of these duplicate sockets will be a novel pressure sensor. Distal end residual limb pressure while standing and walking will be measured while the subject is still wearing their as-prescribed socket (baseline), and again after wearing the study prosthesis for two weeks. The proposed research will discover if it is possible to forgo one of the clinical visits needed to fabricate a well-fitting prosthesis. It is the investigators' hope that this research will advance the use of technology in the provisioning of prostheses, particularly to Veterans who live in rural communities far from VA Medical Centers or alternative service providers. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05884203
Study type Interventional
Source VA Office of Research and Development
Contact Glenn K Klute, PhD
Phone (206) 764-2991
Email Glenn.Klute@va.gov
Status Recruiting
Phase N/A
Start date July 1, 2023
Completion date September 30, 2026

See also
  Status Clinical Trial Phase
Completed NCT04017221 - Safety of Sodium-glucose Cotransporter 2 (SGLT2) Inhibitors Among Patients With Type 2 Diabetes
Completed NCT03592316 - Impact of a Lower Extremity Amputation Pathway Protocol in Dysvascular Patients N/A
Recruiting NCT05989113 - Psychometric Qualities IPAQ-SF
Completed NCT02440295 - Pilot Study to Assess the Use of Spy Elite for Assessment of Amputation Healing
Enrolling by invitation NCT06371209 - Kinematics of Ewing Amputees
Completed NCT03703232 - Community Walking Trials: Comparing Prosthetic Feet N/A
Recruiting NCT04934839 - Instrumental Analysis of Walking in People With Osseointegrated Prostheses for Lower Extremity Amputation: Comparative Evaluation With Traditional Socket Prostheses N/A
Completed NCT02440282 - Comparison of Anesthetic Modalities on Hemodynamic Stability and Postoperative Pain in Diabetic Foot Patients Undergoing Minor Lower Extremity Amputation N/A
Completed NCT02085785 - Weight Loss Intervention for Individuals With Lower Extremity Amputation N/A
Active, not recruiting NCT03900845 - Adherence and Perspiration While Wearing Lower Limb Prostheses N/A
Recruiting NCT03532100 - Pivot-Flex Foot: Optimal Coupling Ratio Between Transverse and Sagittal-plane Motions Using a Torsionally Adaptive Prosthesis for Individuals With Lower Limb Amputation N/A