Your search keyword '"Reeves ND"' showing total 14 results

1. How Does Self-Perceived Unsteadiness Influence Balance and Gait in People With Diabetes? Preliminary Observations.

Author

Reeves, ND, Brown, SJ, Petrovic, M, Boulton, AJM, Vileikyte, L, Reeves, ND, Brown, SJ, Petrovic, M, Boulton, AJM, and Vileikyte, L

Published

2017

2. Does Self-Reported Postural Instability Correspond with Objective Measures of Balance in Patients with Diabetic Neuropathy?

Author

Brown, SJ, Reeves, ND, Boulton, A, Vileikyte, L, Brown, SJ, Reeves, ND, Boulton, A, and Vileikyte, L

Abstract

Postural Instability (PI) is common in patients with diabetic peripheral neuropathy (DPN) and is the strongest predictor of depression and non-adherence to foot ulcer treatment. However, as PI was assessed by self-report in PREVIOUS studies, some have challenged the accuracy of self-report in capturing PI. We therefore compared the quantified PI measures during walking to patients’ perception of their own unsteadiness, as measured with 2 item scale from the NeuroQoL questionnaire (alpha=.87). During walking, PI was quantified by the maxima and range of motion of the centre-of-mass and temporal spatial measures of step length, width and walking speed. Fifteen individuals with diabetes and no DPN (D: 56±2yrs, 78±3kg, 1.70±0.02m, 10:5 [M:F], Vibration Perception Thershold (VPT) <25), 15 with diabetes and severe DPN (N: 62±3yrs, 91±4kg, 1.70±0.03m, 11:4 [M:F], VPT>25) and 19 controls without diabetes (C: 56±2yrs, 79±3kg, 1.72±0.02m, 13:6 [M:F], VPT<25). Group N reported poorer balance than group C on NeuroQoL (D:10, N:6, C:10; [score/10]; p<0.05), and perception of balance correlated with individual vibration perception thresholds (r=0.6, p=<0.001). Group N walked slower (D:1.5, N:1.2, C:1.5; [m/s]; p<0.05) with shorter step lengths (D:73, N:65, C:77; [cm]; p<0.05), both variables also correlated with NeuroQoL perception of balance (r=0.6, p<0.001). Anterior range of motion for the centre of mass was also decreased in group N (D: 92, N:83, C:94; [cm]; p<0.05). Shortening step length is a commonly observed trait of patients with physiological weakness in walking. Shorter step length also explains the slower speed and a smaller range of motion of the centre of mass. As these parameters significantly correlate with individuals’ perception of balance, more research is needed to determine whether self-reported postural instability prompts individuals to walk slower, thereby contributing to balance control.

Published

2016

3. Response to Comment on Almurdhi et al. Reduced Lower-Limb Muscle Strength and Volume in Patients With Type 2 Diabetes in Relation to Neuropathy, Intramuscular Fat, and Vitamin D Levels. Diabetes Care 2016;39:441-447.

Author

Almurdhi, MM, Reeves, ND, Bowling, FL, Boulton, AJM, Jeziorska, M, Malik, RA, Almurdhi, MM, Reeves, ND, Bowling, FL, Boulton, AJM, Jeziorska, M, and Malik, RA

Published

2016

4. Reduced Lower-Limb Muscle Strength and Volume in Patients With Type 2 Diabetes in Relation to Neuropathy, Intramuscular Fat, and Vitamin D Levels.

Author

Almurdhi, MM, Reeves, ND, Bowling, FL, Boulton, AJ, Jeziorska, M, Malik, RA, Almurdhi, MM, Reeves, ND, Bowling, FL, Boulton, AJ, Jeziorska, M, and Malik, RA

Abstract

OBJECTIVE: Muscle weakness and atrophy of the lower limbs may develop in patients with diabetes, increasing their risk of falls. The underlying basis of these abnormalities has not been fully explained. The aim of this study was to objectively quantify muscle strength and size in patients with type 2 diabetes mellitus (T2DM) in relation to the severity of neuropathy, intramuscular noncontractile tissue (IMNCT), and vitamin D deficiency. RESEARCH DESIGN AND METHODS: Twenty patients with T2DM and 20 healthy control subjects were matched by age, sex, and BMI. Strength and size of knee extensor, flexor, and ankle plantar and dorsiflexor muscles were assessed in relation to the severity of diabetic sensorimotor polyneuropathy (DSPN), amount of IMNCT, and serum 25-hydroxy vitamin D (25OHD) levels. RESULTS: Compared with control subjects, patients with T2DM had significantly reduced knee extensor strength (P = 0.003) and reduced muscle volume of both knee extensors (P = 0.045) and flexors (P = 0.019). Ankle plantar flexor strength was also significantly reduced (P = 0.001) but without a reduction in ankle plantar flexor (P = 0.23) and dorsiflexor (P = 0.45) muscle volumes. IMNCT was significantly increased in the ankle plantar (P = 0.006) and dorsiflexors (P = 0.005). Patients with DSPN had significantly less knee extensor strength than those without (P = 0.02) but showed no difference in knee extensor volume (P = 0.38) and ankle plantar flexor strength (P = 0.21) or volume (P = 0.96). In patients with <25 nmol/L versus >25 nmol/L 25OHD, no significant differences were found for knee extensor strength and volume (P = 0.32 vs. 0.18) and ankle plantar flexors (P = 0.58 vs. 0.12). CONCLUSIONS: Patients with T2DM have a significant reduction in proximal and distal leg muscle strength and a proximal but not distal reduction in muscle volume possibly due to greater intramuscular fat accumulation in distal muscles. Proximal but not distal muscle strength is related to the severit

Published

2016

5. Diabetic Peripheral Neuropathy Compromises Balance During Daily Activities

Author

Brown, SJ, Handsaker, JC, Bowling, FL, Boulton, AJM, Reeves, ND, Brown, SJ, Handsaker, JC, Bowling, FL, Boulton, AJM, and Reeves, ND

Abstract

OBJECTIVE Patients with diabetes with peripheral neuropathy have a well-recognized increased risk of falls that may result in hospitalization. Therefore this study aimed to assess balance during the dynamic daily activities of walking on level ground and stair negotiation, where falls are most likely to occur. RESEARCH DESIGN AND METHODS Gait analysis during level walking and stair negotiation was performed in 22 patients with diabetic neuropathy (DPN), 39 patients with diabetes without neuropathy (D), and 28 nondiabetic control subjects (C) using a motion analysis system and embedded force plates in a staircase and level walkway. Balance was assessed by measuring the separation between the body center of mass and center of pressure during level walking, stair ascent, and stair descent. RESULTS DPN patients demonstrated greater (P < 0.05) maximum and range of separations of their center of mass from their center of pressure in the medial-lateral plane during stair descent, stair ascent, and level walking compared with the C group, as well as increased (P < 0.05) mean separation during level walking and stair ascent. The same group also demonstrated greater (P < 0.05) maximum anterior separations (toward the staircase) during stair ascent. No differences were observed in D patients. CONCLUSIONS Greater separations of the center of mass from the center of pressure present a greater challenge to balance. Therefore, the higher medial-lateral separations found in patients with DPN will require greater muscular demands to control upright posture. This may contribute to explaining why patients with DPN are more likely to fall, with the higher separations placing them at a higher risk of experiencing a sideways fall than nondiabetic control subjects.

Published

2015

6. Contributory Factors to Unsteadiness During Walking Up and Down Stairs in Patients With Diabetic Peripheral Neuropathy

Author

Handsaker, JC, Brown, SJ, Bowling, FL, Cooper, G, Maganaris, CN, Boulton, AJM, Reeves, ND, Handsaker, JC, Brown, SJ, Bowling, FL, Cooper, G, Maganaris, CN, Boulton, AJM, and Reeves, ND

Abstract

OBJECTIVE Although patients with diabetic peripheral neuropathy (DPN) are more likely to fall than age-matched controls, the underlying causative factors are not yet fully understood. This study examines the effects of diabetes and neuropathy on strength generation and muscle activation patterns during walking up and down stairs, with implications for fall risk. RESEARCH DESIGN AND METHODS Sixty-three participants (21 patients with DPN, 21 diabetic controls, and 21 healthy controls) were examined while walking up and down a custom-built staircase. The speed of strength generation at the ankle and knee and muscle activation patterns of the ankle and knee extensor muscles were analyzed. RESULTS Patients with neuropathy displayed significantly slower ankle and knee strength generation than healthy controls during stair ascent and descent (P < 0.05). During ascent, the ankle and knee extensor muscles were activated significantly later by patients with neuropathy and took longer to reach peak activation (P < 0.05). During descent, neuropathic patients activated the ankle extensors significantly earlier, and the ankle and knee extensors took significantly longer to reach peak activation (P < 0.05). CONCLUSIONS Patients with DPN are slower at generating strength at the ankle and knee than control participants during walking up and down stairs. These changes, which are likely caused by altered activations of the extensor muscles, increase the likelihood of instability and may be important contributory factors for the increased risk of falling. Resistance exercise training may be a potential clinical intervention for improving these aspects and thereby potentially reducing fall risk.

Published

2014

7. Response to Comment on Orlando et al. Acute Effects of Vibrating Insoles on Dynamic Balance and Gait Quality in Individuals With Diabetic Peripheral Neuropathy: A Randomized Crossover Study. Diabetes Care 2024;47:1004-1011.

Author

Orlando G, Brown S, Jude E, Bowling FL, Boulton AJM, and Reeves ND

Subjects

Humans, Male, Vibration therapeutic use, Foot Orthoses, Shoes, Female, Diabetic Neuropathies therapy, Diabetic Neuropathies physiopathology, Cross-Over Studies, Postural Balance physiology, Gait physiology

Published

2024

8. Acute Effects of Vibrating Insoles on Dynamic Balance and Gait Quality in Individuals With Diabetic Peripheral Neuropathy: A Randomized Crossover Study.

Author

Orlando G, Brown S, Jude E, Bowling FL, Boulton AJM, and Reeves ND

Subjects

Humans, Male, Middle Aged, Aged, Walking physiology, Foot Orthoses, Shoes, Diabetic Neuropathies physiopathology, Diabetic Neuropathies therapy, Postural Balance physiology, Cross-Over Studies, Vibration therapeutic use, Gait physiology

Abstract

Objective: This study investigated the effects of vibrating insoles on dynamic balance and gait quality during level and stair walking and explored the influence of vibration type and frequency in individuals with diabetic peripheral neuropathy (DPN)., Research Design and Methods: Twenty-two men with DPN were assessed for gait quality and postural and dynamic balance during walking and stair negotiation using a motion capture system and force plates across seven vibratory insole conditions (Vcs) versus a control (Ctrl) condition (insole without vibration). Vibration was applied during standing and walking tasks, and 15-min rest-stop periods without vibration were interposed between conditions. Repeated measures test conditions were randomized. The primary outcomes were gait speed and dynamic balance., Results: Gait speed during walking significantly improved in all Vcs compared with Ctrl (P < 0.005), with Vc2, Vc4, and Vc6 identified as the most effective. Gait speed increased (reflecting faster walking) during stair ascent and descent in Vc2 (Ctrl vs. Vc2 for ascent 0.447 ± 0.180 vs. 0.517 ± 0.127 m/s; P = 0.037 and descent 0.394 ± 0.170 vs. 0.487 ± 0.125 m/s; P = 0.016), Vc4 (Ctrl vs. Vc4 for ascent 0.447 ± 0.180 vs. 0.482 ± 0.197 m/s; P = 0.047 and descent 0.394 ± 0.170 vs. 0.438 ± 0.181 m/s; P = 0.017), and Vc6 (Ctrl vs. Vc6 for ascent 0.447 ± 0.180 vs. 0.506 ± 0.179 m/s; P = 0.043 and descent 0.394 ± 0.170 vs. 0.463 ± 0.159 m/s; P = 0.026). Postural balance improved during quiet standing with eyes closed in Vc2, Vc4, Vc6, and Vc7 (P < 0.005)., Conclusions: Vibrating insoles are an effective acute strategy for improving postural balance and gait quality during level walking and stair descent in individuals with DPN. These benefits are particularly evident when the entire plantar foot surface is stimulated., (© 2024 by the American Diabetes Association.)

Published

2024

9. Psychosocial Care for People With Diabetic Neuropathy: Time for Action.

Author

Pouwer F, Mizokami-Stout K, Reeves ND, Pop-Busui R, Tesfaye S, Boulton AJM, and Vileikyte L

Subjects

Humans, Accidental Falls, Fear, Anxiety psychology, Diabetic Neuropathies diagnosis, Psychiatric Rehabilitation, Diabetes Mellitus

Abstract

Psychological factors and psychosocial care for individuals with diabetic neuropathy (DN), a common and burdensome complication of diabetes, are important but overlooked areas. In this article we focus on common clinical manifestations of DN, unremitting neuropathic pain, postural instability, and foot complications, and their psychosocial impact, including depression, anxiety, poor sleep quality, and specific problems such as fear of falling and fear of amputation. We also summarize the evidence regarding the negative impact of psychological factors such as depression on DN, self-care tasks, and future health outcomes. The clinical problem of underdetection and undertreatment of psychological problems is described, together with the value of using brief assessments of these in clinical care. We conclude by discussing trial evidence regarding the effectiveness of current pharmacological and nonpharmacological approaches and also future directions for developing and testing new psychological treatments for DN and its clinical manifestations., (© 2023 by the American Diabetes Association.)

Published

2024

10. How Does Self-Perceived Unsteadiness Influence Balance and Gait in People With Diabetes? Preliminary Observations.

Author

Reeves ND, Brown SJ, Petrovic M, Boulton AJM, and Vileikyte L

Published

2017

11. Response to Comment on Almurdhi et al. Reduced Lower-Limb Muscle Strength and Volume in Patients With Type 2 Diabetes in Relation to Neuropathy, Intramuscular Fat, and Vitamin D Levels. Diabetes Care 2016;39:441-447.

Author

Almurdhi MM, Reeves ND, Bowling FL, Boulton AJ, Jeziorska M, and Malik RA

Subjects

Humans, Lower Extremity, Muscle Strength, Peripheral Nervous System Diseases, Diabetes Mellitus, Type 2, Vitamin D

Published

2016

12. Reduced Lower-Limb Muscle Strength and Volume in Patients With Type 2 Diabetes in Relation to Neuropathy, Intramuscular Fat, and Vitamin D Levels.

Author

Almurdhi MM, Reeves ND, Bowling FL, Boulton AJ, Jeziorska M, and Malik RA

Subjects

Aged, Diabetes Mellitus, Type 2 blood, Diabetic Neuropathies blood, Female, Humans, Lower Extremity innervation, Lower Extremity physiopathology, Male, Middle Aged, Muscle Weakness blood, Muscle Weakness physiopathology, Muscle, Skeletal physiology, Muscular Atrophy blood, Muscular Atrophy physiopathology, Range of Motion, Articular, Vitamin D, Vitamin D Deficiency blood, Adiposity physiology, Diabetes Mellitus, Type 2 physiopathology, Diabetic Neuropathies physiopathology, Muscle Strength physiology, Vitamin D Deficiency physiopathology

Abstract

Objective: Muscle weakness and atrophy of the lower limbs may develop in patients with diabetes, increasing their risk of falls. The underlying basis of these abnormalities has not been fully explained. The aim of this study was to objectively quantify muscle strength and size in patients with type 2 diabetes mellitus (T2DM) in relation to the severity of neuropathy, intramuscular noncontractile tissue (IMNCT), and vitamin D deficiency., Research Design and Methods: Twenty patients with T2DM and 20 healthy control subjects were matched by age, sex, and BMI. Strength and size of knee extensor, flexor, and ankle plantar and dorsiflexor muscles were assessed in relation to the severity of diabetic sensorimotor polyneuropathy (DSPN), amount of IMNCT, and serum 25-hydroxyvitamin D (25OHD) levels., Results: Compared with control subjects, patients with T2DM had significantly reduced knee extensor strength (P = 0.003) and reduced muscle volume of both knee extensors (P = 0.045) and flexors (P = 0.019). Ankle plantar flexor strength was also significantly reduced (P = 0.001) but without a reduction in ankle plantar flexor (P = 0.23) and dorsiflexor (P = 0.45) muscle volumes. IMNCT was significantly increased in the ankle plantar (P = 0.006) and dorsiflexors (P = 0.005). Patients with DSPN had significantly less knee extensor strength than those without (P = 0.02) but showed no difference in knee extensor volume (P = 0.38) and ankle plantar flexor strength (P = 0.21) or volume (P = 0.96). In patients with <25 nmol/L versus >25 nmol/L 25OHD, no significant differences were found for knee extensor strength and volume (P = 0.32 vs. 0.18) and ankle plantar flexors (P = 0.58 vs. 0.12)., Conclusions: Patients with T2DM have a significant reduction in proximal and distal leg muscle strength and a proximal but not distal reduction in muscle volume possibly due to greater intramuscular fat accumulation in distal muscles. Proximal but not distal muscle strength is related to the severity of peripheral neuropathy but not IMNCT or 25OHD level., (© 2016 by the American Diabetes Association. Readers may use this article as long as the work is properly cited, the use is educational and not for profit, and the work is not altered.)

Published

2016

13. Diabetic peripheral neuropathy compromises balance during daily activities.

Author

Brown SJ, Handsaker JC, Bowling FL, Boulton AJ, and Reeves ND

Subjects

Accidental Falls, Activities of Daily Living, Case-Control Studies, Diabetic Neuropathies physiopathology, Female, Gait physiology, Gait Disorders, Neurologic physiopathology, Humans, Male, Middle Aged, Walking physiology, Diabetic Neuropathies complications, Gait Disorders, Neurologic etiology, Postural Balance physiology

Abstract

Objective: Patients with diabetes with peripheral neuropathy have a well-recognized increased risk of falls that may result in hospitalization. Therefore this study aimed to assess balance during the dynamic daily activities of walking on level ground and stair negotiation, where falls are most likely to occur., Research Design and Methods: Gait analysis during level walking and stair negotiation was performed in 22 patients with diabetic neuropathy (DPN), 39 patients with diabetes without neuropathy (D), and 28 nondiabetic control subjects (C) using a motion analysis system and embedded force plates in a staircase and level walkway. Balance was assessed by measuring the separation between the body center of mass and center of pressure during level walking, stair ascent, and stair descent., Results: DPN patients demonstrated greater (P < 0.05) maximum and range of separations of their center of mass from their center of pressure in the medial-lateral plane during stair descent, stair ascent, and level walking compared with the C group, as well as increased (P < 0.05) mean separation during level walking and stair ascent. The same group also demonstrated greater (P < 0.05) maximum anterior separations (toward the staircase) during stair ascent. No differences were observed in D patients., Conclusions: Greater separations of the center of mass from the center of pressure present a greater challenge to balance. Therefore, the higher medial-lateral separations found in patients with DPN will require greater muscular demands to control upright posture. This may contribute to explaining why patients with DPN are more likely to fall, with the higher separations placing them at a higher risk of experiencing a sideways fall than nondiabetic control subjects., (© 2015 by the American Diabetes Association. Readers may use this article as long as the work is properly cited, the use is educational and not for profit, and the work is not altered.)

Published

2015

14. Contributory factors to unsteadiness during walking up and down stairs in patients with diabetic peripheral neuropathy.

Author

Handsaker JC, Brown SJ, Bowling FL, Cooper G, Maganaris CN, Boulton AJ, and Reeves ND

Subjects

Aged, Ankle Joint pathology, Case-Control Studies, Exercise physiology, Female, Humans, Knee Joint pathology, Male, Middle Aged, Diabetes Mellitus physiopathology, Diabetic Neuropathies physiopathology, Walking physiology

Abstract

Objective: Although patients with diabetic peripheral neuropathy (DPN) are more likely to fall than age-matched controls, the underlying causative factors are not yet fully understood. This study examines the effects of diabetes and neuropathy on strength generation and muscle activation patterns during walking up and down stairs, with implications for fall risk., Research Design and Methods: Sixty-three participants (21 patients with DPN, 21 diabetic controls, and 21 healthy controls) were examined while walking up and down a custom-built staircase. The speed of strength generation at the ankle and knee and muscle activation patterns of the ankle and knee extensor muscles were analyzed., Results: Patients with neuropathy displayed significantly slower ankle and knee strength generation than healthy controls during stair ascent and descent (P < 0.05). During ascent, the ankle and knee extensor muscles were activated significantly later by patients with neuropathy and took longer to reach peak activation (P < 0.05). During descent, neuropathic patients activated the ankle extensors significantly earlier, and the ankle and knee extensors took significantly longer to reach peak activation (P < 0.05)., Conclusions: Patients with DPN are slower at generating strength at the ankle and knee than control participants during walking up and down stairs. These changes, which are likely caused by altered activations of the extensor muscles, increase the likelihood of instability and may be important contributory factors for the increased risk of falling. Resistance exercise training may be a potential clinical intervention for improving these aspects and thereby potentially reducing fall risk., (© 2014 by the American Diabetes Association. Readers may use this article as long as the work is properly cited, the use is educational and not for profit, and the work is not altered.)

Published

2014