Bijan Najafi1,2, Hooman Mohseni3, Gurtej S Grewal2, Talal K Talal4, Robert A Menzies4, David G Armstrong2. 1. 1 Interdisciplinary Consortium on Advanced Motion Performance (iCAMP), Division of Vascular Surgery and Endovascular Therapy, Michael E. DeBakey Department of Surgery, Baylor College of Medicine, Houston, TX, USA. 2. 2 Southern Arizona Limb Salvage Alliance (SALSA), Department of Surgery, University of Arizona, Tucson, Arizona, USA. 3. 3 Electrical Engineering and Computer Sciences, McCormick School of Engineering; Physics and Astronomy, Weinberg College of Arts and Sciences; Northwestern University, Evanston, IL, USA. 4. 4 Diabetic foot and Wound Clinic, Department of Medicine, Hamad Medical Co, Doha, Qatar.
Abstract
OBJECTIVE: This study aimed to validate a smart-textile based on fiber-optics for simultaneous measurement of plantar temperature, pressure, and joint angles in patients with diabetic peripheral neuropathy (DPN). METHODS: After in-vitro validation in the laboratory, 33 eligible subjects with DPN were recruited (age: 58 ± 8 years, BMI: 31.5 ± 8 kg/m2) for assessing plantar pressure and temperature during habitual gait-speed in a clinical-setting. All participants were asked to walk at their habitual speed while wearing a pair of sensorized socks made from highly flexible fiber optics (SmartSox). An algorithm was designed to estimate temperature, pressure, and toe range of motion from optical wavelength generated from SmartSox. To validate the device, results from thermal stress response (TSR) using thermography and peak pressure measured by computerized pressure insoles (F-Scan) were used as gold standards. RESULTS: In laboratory and under controlled conditions, the agreements for parameters of interest were excellent ( r > .98, P = .000), and no noticeable cross-talks between measurements of temperature, angle, and pressure were observed. During clinical data acquisition, a significant correlation was found for pressure profile under different anatomical regions of interest between SmartSox and F-Scan ( r = .67, P < .050) as well as between thermography and SmartSox ( r = .55, P < .050). CONCLUSION: This study demonstrates the validity of an innovative smart textile for assessing simultaneously the key parameters associated with risk of foot ulcers in patients with DPN. It may empower clinicians to objectively stratify foot risk and provide timely care. Another study is warranted to validate its clinical application in preventing limb threating problems in patients with DPN.
OBJECTIVE: This study aimed to validate a smart-textile based on fiber-optics for simultaneous measurement of plantar temperature, pressure, and joint angles in patients with diabetic peripheral neuropathy (DPN). METHODS: After in-vitro validation in the laboratory, 33 eligible subjects with DPN were recruited (age: 58 ± 8 years, BMI: 31.5 ± 8 kg/m2) for assessing plantar pressure and temperature during habitual gait-speed in a clinical-setting. All participants were asked to walk at their habitual speed while wearing a pair of sensorized socks made from highly flexible fiber optics (SmartSox). An algorithm was designed to estimate temperature, pressure, and toe range of motion from optical wavelength generated from SmartSox. To validate the device, results from thermal stress response (TSR) using thermography and peak pressure measured by computerized pressure insoles (F-Scan) were used as gold standards. RESULTS: In laboratory and under controlled conditions, the agreements for parameters of interest were excellent ( r > .98, P = .000), and no noticeable cross-talks between measurements of temperature, angle, and pressure were observed. During clinical data acquisition, a significant correlation was found for pressure profile under different anatomical regions of interest between SmartSox and F-Scan ( r = .67, P < .050) as well as between thermography and SmartSox ( r = .55, P < .050). CONCLUSION: This study demonstrates the validity of an innovative smart textile for assessing simultaneously the key parameters associated with risk of foot ulcers in patients with DPN. It may empower clinicians to objectively stratify foot risk and provide timely care. Another study is warranted to validate its clinical application in preventing limb threating problems in patients with DPN.
Authors: S A Bus; G D Valk; R W van Deursen; D G Armstrong; C Caravaggi; P Hlavácek; K Bakker; P R Cavanagh Journal: Diabetes Metab Res Rev Date: 2008 May-Jun Impact factor: 4.876
Authors: Bijan Najafi; James S Wrobel; Gurtej Grewal; Robert A Menzies; Talal K Talal; Mahmoud Zirie; David G Armstrong Journal: J Aging Res Date: 2012-07-30
Authors: L Prompers; N Schaper; J Apelqvist; M Edmonds; E Jude; D Mauricio; L Uccioli; V Urbancic; K Bakker; P Holstein; A Jirkovska; A Piaggesi; G Ragnarson-Tennvall; H Reike; M Spraul; K Van Acker; J Van Baal; F Van Merode; I Ferreira; M Huijberts Journal: Diabetologia Date: 2008-02-23 Impact factor: 10.122
Authors: Peter A Lazzarini; Ryan T Crews; Jaap J van Netten; Sicco A Bus; Malindu E Fernando; Paul J Chadwick; Bijan Najafi Journal: J Diabetes Sci Technol Date: 2019-04-29
Authors: Brandon Olivieri; Timothy E Yates; Sofia Vianna; Omosalewa Adenikinju; Robert E Beasley; Jon Houseworth Journal: Semin Intervent Radiol Date: 2019-02-05 Impact factor: 1.513
Authors: Trisha Shang; Jennifer Y Zhang; B Wayne Bequette; Jennifer K Raymond; Gerard Coté; Jennifer L Sherr; Jessica Castle; John Pickup; Yarmela Pavlovic; Juan Espinoza; Laurel H Messer; Tim Heise; Carlos E Mendez; Sarah Kim; Barry H Ginsberg; Umesh Masharani; Rodolfo J Galindo; David C Klonoff Journal: J Diabetes Sci Technol Date: 2021-07