Your search keyword '"Johnny Collett"' showing total 2 results

1. Single Sensor Gait Analysis to Detect Diabetic Peripheral Neuropathy: A Proof of Principle Study

Author

Patrick Esser, Johnny Collett, Kevin Maynard, Dax Steins, Angela Hillier, Jodie Buckingham, Garry D. Tan, Laurie King, and Helen Dawes

Subjects

Accelerometry, Diabetes complications, Diabetic neuropathies, Gait, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

This study explored the potential utility of gait analysis using a single sensor unit (inertial measurement unit [IMU]) as a simple tool to detect peripheral neuropathy in people with diabetes. Seventeen people (14 men) aged 63±9 years (mean±SD) with diabetic peripheral neuropathy performed a 10-m walk test instrumented with an IMU on the lower back. Compared to a reference healthy control data set (matched by gender, age, and body mass index) both spatiotemporal and gait control variables were different between groups, with walking speed, step time, and SDa (gait control parameter) demonstrating good discriminatory power (receiver operating characteristic area under the curve >0.8). These results provide a proof of principle of this relatively simple approach which, when applied in clinical practice, can detect a signal from those with known diabetes peripheral neuropathy. The technology has the potential to be used both routinely in the clinic and for tele-health applications. Further research should focus on investigating its efficacy as an early indicator of or effectiveness of the management of peripheral neuropathy. This could support the development of interventions to prevent complications such as foot ulceration or Charcot's foot.

Published

2018

2. Single Sensor Gait Analysis to Detect Diabetic Peripheral Neuropathy: A Proof of Principle Study

Author

Jodie Buckingham, G. D. Tan, Patrick Esser, Johnny Collett, Angela Hillier, Helen Dawes, Laurie King, Dax Steins, and Kevin Maynard

Subjects

medicine.medical_specialty, Complications, Short Communication, Endocrinology, Diabetes and Metabolism, Accelerometer, lcsh:Diseases of the endocrine glands. Clinical endocrinology, 03 medical and health sciences, 0302 clinical medicine, Gait (human), Physical medicine and rehabilitation, Diabetes complications, Inertial measurement unit, Diabetes mellitus, Accelerometry, Medicine, 030212 general & internal medicine, Gait, lcsh:RC648-665, Receiver operating characteristic, business.industry, medicine.disease, Preferred walking speed, Peripheral neuropathy, Gait analysis, business, 030217 neurology & neurosurgery, Diabetic neuropathies

Abstract

This study explored the potential utility of gait analysis using a single sensor unit (inertial measurement unit [IMU]) as a simple tool to detect peripheral neuropathy in people with diabetes. Seventeen people (14 men) aged 63±9 years (mean±SD) with diabetic peripheral neuropathy performed a 10-m walk test instrumented with an IMU on the lower back. Compared to a reference healthy control data set (matched by gender, age, and body mass index) both spatiotemporal and gait control variables were different between groups, with walking speed, step time, and SDa (gait control parameter) demonstrating good discriminatory power (receiver operating characteristic area under the curve >0.8). These results provide a proof of principle of this relatively simple approach which, when applied in clinical practice, can detect a signal from those with known diabetes peripheral neuropathy. The technology has the potential to be used both routinely in the clinic and for tele-health applications. Further research should focus on investigating its efficacy as an early indicator of or effectiveness of the management of peripheral neuropathy. This could support the development of interventions to prevent complications such as foot ulceration or Charcot's foot.

Published

2018