Clinical Trials Logo

Clinical Trial Details — Status: Withdrawn

Administrative data

NCT number NCT04600102
Other study ID # 201907735
Secondary ID
Status Withdrawn
Phase
First received
Last updated
Start date October 27, 2020
Est. completion date May 2023

Study information

Verified date July 2022
Source University of Iowa
Contact n/a
Is FDA regulated No
Health authority
Study type Observational [Patient Registry]

Clinical Trial Summary

Orthotists currently use a range of weight bearing conditions when casting or scanning a patient's limb during the Ankle foot orthosis (AFO) fitting process. This variability in clinical practice is the result of differing opinions regarding the best method for fitting, and a limited understanding of how weight bearing affects the resulting geometry. Few studies have been performed to determine the effect of weight bearing on resulting geometry, or the consistency of the geometry obtained. In this study we seek to evaluate the effect of foot loading on lower limb geometry and the consistency of measurements using low-cost 3D scanning technology, with implications for fitting AFOs.


Description:

Two groups of subjects will be recruited for this study. The first group (Group 1) will consist of healthy, able-bodied individuals with no history of lower extremity trauma. The second group (Group 2) will consist of individuals with unilateral, below-knee functional deficits that require an AFO for daily activities (e.g. fracture, muscle and/or nerve injury, ankle arthritis, or peripheral neurologic disease). We will obtain a brief medical history to identify major medical conditions or prior injuries that could influence limb geometry and lead to reliance on an AFO for Group 2 participants. A 3D representation of each participant's lower limb geometry will be obtained using a Structure Core scanner (Occipital, Inc.), which uses an infrared structured light projector to construct a 3D image of an object. The scanner is connected to an iPad; to operate the scanner, the user rotates the iPad camera around the desired object. In seconds, the entire geometry is digitally reconstructed. Measurements will be evaluated using digital imaging analysis software (Standard Cyborg, Inc.). The different conditions being tested are full weight bearing, partial weight bearing, and non-weight bearing. The effect of limb loading on multiple measures of limb geometry will be evaluated. Limb measurements will include 1) width of the metatarsal heads, 2) width of the calcaneus, 3) foot length, 4) foot height, 5) arch height, 6) medial-lateral width between ankle malleoli, 7) minimum circumference above the ankle malleoli, 8) maximum calf circumference , 9) medial-lateral width of the knee condyles 10) anterior-posterior width at mid patellar tendon, 11) distance from bottom of foot to tibial tubercle.


Recruitment information / eligibility

Status Withdrawn
Enrollment 0
Est. completion date May 2023
Est. primary completion date May 2023
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 18 Years to 75 Years
Eligibility GROUP 1 Patient Inclusion criteria - Ages: 18-75 - Healthy individuals without a current complaint of lower extremity pain, spine pain, active infections or medical or neuromusculoskeletal disorders that have limited participation in work or exercise in the last 6 months - Ability to perform a full squat without pain - Able to read and write in English and provide written informed consent Patient Exclusion criteria - Diagnosed moderate or severe brain injury - Diagnosis of a physical or psychological condition that would preclude testing (e.g. cardiac condition, clotting disorder, pulmonary condition) - Current complaint of pain or numbness in the spine - Uncorrected visual or hearing impairments that limit the ability to understand or comply with instructions given during testing - Require an assistive device - Open/unhealed wounds on lower extremity. - Body mass index (BMI) above 35 GROUP 2 Patient Inclusion criteria - Ages: 18-75 - Daily AFO use to address unilateral below knee functional deficits (e.g. fracture, muscle and/or nerve injury, ankle arthritis, or peripheral neurologic disease) - Ability to stand independently without use of an assistive device (Cane, crutch, etc) - Ability to safely bear full body weight on affected limb without use of an AFO or other protection - Able to read and write in English and provide written informed consent Patient Exclusion criteria - Use of an AFO that crosses the knee (includes Knee brace or similar) - Open/unhealed wounds on lower extremity - Uncorrected visual or hearing impairments that limit the ability to understand or comply with instructions given during testing - Body mass index (BMI) above 35 - Diagnoses of a moderate to severe brain injury

Study Design


Related Conditions & MeSH terms


Intervention

Device:
Structure Sensor
A 3D representation of each participant's lower limb geometry will be obtained using a Structure Sensor scanner (Occipital, Inc.) which uses an infrared structured light projector to construct a 3D image of an object. The scanner is connected to an iPad; to operate the user rotates the iPad camera around the desired object. In seconds, the entire geometry is digitally reconstructed.

Locations

Country Name City State
United States University of Iowa Iowa City Iowa

Sponsors (1)

Lead Sponsor Collaborator
University of Iowa

Country where clinical trial is conducted

United States, 

Outcome

Type Measure Description Time frame Safety issue
Primary Width of the metatarsal heads Distance from the medial aspect of the first metatarsal head to the lateral aspect of the fifth metatarsal head. Less than 2 days
Primary Width of the calcaneus Distance from the medial aspect of calcaneus parallel to lateral aspect of calcaneus. Less than 2 days
Primary Foot length Distance from the most posterior aspect of calcaneus to the most anterior toe (1st or 2nd). Less than 2 days
Primary Foot height Distance from the most superior point on the foot distal to the tibialis anterior insertion. Less than 2 days
Primary Arch height Dorsum height at 50% foot length. Less than 2 days
Primary Medial-lateral ankle malleoli width Distance from the lateral malleolus to the medial malleolus. Less than 2 days
Primary Minimum ankle circumference Minimum ankle circumference above the ankle malleoli. Must be less than 10 cm proximal to the ankle malleoli. Less than 2 days
Primary Maximum calf circumference Maximum calf circumference greater that 5 cm distal to the knee condyles. Less than 2 days
Primary Width of the knee condyles Distance from the medial condyle to the lateral condyle. Less than 2 days
Primary Anterior-posterior width at patella Distance from mid patellar tendon to a parallel point most posterior on the back of the knee. Less than 2 days
Primary Tibial tubercle height Distance from the floor to tibial tubercle. Less than 2 days
See also
  Status Clinical Trial Phase
Completed NCT03262324 - The Aim of Study is Translate and Adapt the Visual Analog Scale Foot and Ankle (VAS-FA) Instrument Into Turkish and Psycho-metrically Test Its Reliability and Validity Among Patients Who Had Foot and Ankle Disorders or Surgery
Active, not recruiting NCT04032041 - SCANREP: Reliability of 3D Lower Limb Scanning
Completed NCT04264611 - Comparing the Effects of Foot Core Exercises N/A
Enrolling by invitation NCT05692401 - Weight Change With Controlled Ankle Movement (CAM) Boot Use N/A
Recruiting NCT06233565 - Dexamethasone vs. Dexmedetomidine for Popliteal Nerve Block in Pain Management After Pediatric Ankle and Foot Surgery Phase 4
Completed NCT03901053 - Ankle Foot Orthosis Comparative Effect N/A
Enrolling by invitation NCT04818775 - Use of Sterile HemaClear Tourniquet Below Calf Versus Pneumatic Tourniquet at the Thigh for Ankle and Foot Surgery N/A
Completed NCT05522179 - Nutritional Supplements and Foot Surgery N/A
Completed NCT05005832 - Influence of Walking Pilgrimage on Changes in Body Composition, Biochemical Parameters, Circulatory and Respiratory Efficiency and Foot Biomechanics in Healthy Women and Men of All Ages.