Exercise-Facilitated NeuroRehabilitation in Diabetic Neuropathy
Overview
- Phase
- N/A
- Intervention
- Not specified
- Conditions
- Diabetic Neuropathy
- Sponsor
- VA Office of Research and Development
- Enrollment
- 45
- Locations
- 1
- Primary Endpoint
- Tibial Nerve Amplitude
- Status
- Completed
- Last Updated
- 6 years ago
Overview
Brief Summary
This study will determine the type and combination of exercise needed to rehabilitate the neuro-compromised diabetic Veteran. Guided exercise protocols may prove to be practical therapeutic options for the prophylactic management of diabetic subjects with neuropathy.
Detailed Description
Purpose: A single-site, randomized, blinded, prospective clinical trial is proposed to determine the significance of a combined isokinetic strength and aerobic exercise training program on the rehabilitation of peripheral nerve function in Type 2 diabetic veterans and non-veterans with neuropathy. Background and Significance: Obesity is a major factor in the increasing rates of diabetes and its related complications. Diabetes affects greater than 7% of the population. Veterans are at even greater risk, with approximately 16% currently receiving treatment at Department of Veterans Affairs Medical Centers for diabetes. More than half of affected veterans experience debilitating complications of diabetes, including peripheral neuropathy (PN). Exercise training, in combination with pharmacologic intervention, is now recognized as a cornerstone of management for diabetes. Therapeutic interventions currently available for the treatment of PN in diabetic patients are limited, however, to pain management and stringent glycemic control. Exercise is reported to significantly decrease peripheral nerve microvascular complications common among chronic diabetics. Our preliminary findings demonstrate that exercise intervention improves peripheral nerve function in the diabetic veteran with PN. Intervention strategies, such as proposed in this application, offer a unique and novel therapeutic option for the rehabilitation of the neuro-compromised Type 2 diabetic veterans and non-veterans. Methods \& Research Plan: One-hundred subjects will be recruited for this 24-week study. Subjects each will be randomly assigned to aerobic, isokinetic strength training, combined aerobic and strength training, or non-exercise (control) intervention groups. Isokinetic strength training (Biodex System 3), aerobic exercise training (treadmill), or the combination of strength and aerobic training will be administered 3x per week for the initial 12 weeks. Control subjects will receive 12 clinical visits over the course of the initial 12 weeks. The effects of exercise training type, compared with control subjects, on recovery of peripheral nerve function will be rigorously determined from baseline, 12- and 24-week testing using electrodiagnostic primary outcome measures, Quantitative Sensory Testing, and a battery of validated qualitative and quantitative secondary outcome measures that include an incremental symptom-limited treadmill test, peak torque, Total Neuropathy Score, visual analogue pain scale, and quality of life SF-36V Health Survey. Sustainability of effect will be determined at 24-weeks.The individual effects of exercise training type, compared with control subjects, on tissue oxygenation will be determined from baseline, 12- and 24-week testing by non-invasive quantitated infrared spectroscopy using an InSpectraTM Tissue Spectrometer. Expected Outcomes: This study will objectively and critically determine the type and combination of exercise needed to rehabilitate the neuro-compromised diabetic Veteran. Guided exercise protocols may prove to be practical therapeutic options for the prophylactic management of diabetic subjects with neuropathy.
Investigators
Eligibility Criteria
Inclusion Criteria
- •Clinical diagnosis of type 2 diabetes mellitus
- •stable blood glucose control
- •clinical findings consistent with length-dependent sensorimotor polyneuropathy, stage N2a
Exclusion Criteria
- •foot ulceration
- •unstable heart disease
- •co-morbid conditions limiting exercise
- •disorders of the central nervous system causing weakness or sensory loss
- •received treatment with medications known to have neuropathy as a prominent side effect including vincristine, vinblastine, cis-platin, and paclitaxel
- •medical conditions that may be associated with neuropathies such as alcoholism, liver disease, kidney disease, toxic exposure, vitamin deficiency, autoimmune disorders, cancer, or hypothyroidism
Outcomes
Primary Outcomes
Tibial Nerve Amplitude
Time Frame: Baseline, 12 weeks, 24 weeks
Maximal responses were obtained using percutaneous electrical stimuli. Distal motor nerve evoked compound muscle action potential (CMAP) potentials were recorded from tibial and peroneal nerves.To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Sural Nerve Amplitude
Time Frame: Baseline, 12, and 24 weeks
Maximal responses were obtained using percutaneous electrical stimuli. Sensory nerve action potentials were recorded from sural (antidromic), median (antidromic to second digit), and ulnar nerves (antidromic to fifth digit).To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Tibial Nerve Latency
Time Frame: Baseline, 12 weeks, 24 weeks
Maximal responses were obtained using percutaneous electrical stimuli. Distal motor nerve evoked compound muscle action potential (CMAP) potentials were recorded from tibial and peroneal nerves.To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Tibial Nerve Conduction Velocity
Time Frame: Baseline, 12 weeks, 24 weeks
Maximal responses were obtained using percutaneous electrical stimuli. Distal motor nerve evoked compound muscle action potential (CMAP) potentials were recorded from tibial and peroneal nerves.To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Sensory Median Nerve Latency
Time Frame: Baseline, 12wks, 24 wks
Maximal responses were obtained using percutaneous electrical stimuli. Sensory nerve action potentials were recorded from sural (antidromic), median (antidromic to second digit), and ulnar nerves (antidromic to fifth digit).To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Sensory Ulnar Nerve Conduction Velocity
Time Frame: Baseline, 12 wks, 24 wks
Maximal responses were obtained using percutaneous electrical stimuli. Sensory nerve action potentials were recorded from sural (antidromic), median (antidromic to second digit), and ulnar nerves (antidromic to fifth digit).To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Peroneal Nerve Amplitude
Time Frame: Baseline, 12 wks, 24 wks
Maximal responses were obtained using percutaneous electrical stimuli. Distal motor nerve evoked compound muscle action potential (CMAP) potentials were recorded from tibial and peroneal nerves.To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Sural Nerve Latency
Time Frame: Baseline, 12 wks, 24 wks
Maximal responses were obtained using percutaneous electrical stimuli. Sensory nerve action potentials were recorded from sural (antidromic), median (antidromic to second digit), and ulnar nerves (antidromic to fifth digit).To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Sural Nerve Conduction Velocity
Time Frame: Baseline, 12 wks, 24 wks
Maximal responses were obtained using percutaneous electrical stimuli. Sensory nerve action potentials were recorded from sural (antidromic), median (antidromic to second digit), and ulnar nerves (antidromic to fifth digit).To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Sensory Ulnar Nerve Amplitude
Time Frame: Baseline, 12 wks, 24 wks
Maximal responses were obtained using percutaneous electrical stimuli. Sensory nerve action potentials were recorded from sural (antidromic), median (antidromic to second digit), and ulnar nerves (antidromic to fifth digit).To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Sensory Ulnar Nerve Latency
Time Frame: Baseline, 12 wks, 24 wks
Maximal responses were obtained using percutaneous electrical stimuli. Sensory nerve action potentials were recorded from sural (antidromic), median (antidromic to second digit), and ulnar nerves (antidromic to fifth digit).To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Sensory Median Nerve Amplitude
Time Frame: Baseline, 12, and 24 weeks
Maximal responses were obtained using percutaneous electrical stimuli. Sensory nerve action potentials were recorded from sural (antidromic), median (antidromic to second digit), and ulnar nerves (antidromic to fifth digit).To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Sensory Median Nerve Conduction Velocity
Time Frame: Baseline, 12 wks, 24 wks
Maximal responses were obtained using percutaneous electrical stimuli. Sensory nerve action potentials were recorded from sural (antidromic), median (antidromic to second digit), and ulnar nerves (antidromic to fifth digit).To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Peroneal Nerve Conduction Velocity
Time Frame: Baseline, 12 wks, 24 wks
Maximal responses were obtained using percutaneous electrical stimuli. Distal motor nerve evoked compound muscle action potential (CMAP) potentials were recorded from tibial and peroneal nerves.To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Peroneal Nerve Latency
Time Frame: Baseline, 12 wks, 24 wks
Maximal responses were obtained using percutaneous electrical stimuli. Distal motor nerve evoked compound muscle action potential (CMAP) potentials were recorded from tibial and peroneal nerves.To minimize inter-examiner variability and maximize neurophysiologic test/retest reliability, the same experienced neurologist conducted all nerve conduction studies on days separate from all other testing activities. A dedicated TECA Synergy electromyograph system was used for all nerve conduction studies. The patients dominant side was chosen. In patients with definable differences between the two sides, the side with the most prominent clinical findings was chosen. In all cases, the same limb was used for all three (baseline, 12-weeks, 24-weeks) conduction studies.
Secondary Outcomes
- Symptom-Limited TMT Blood Glucose Response(Initial entry into study, 12 and 24 weeks)
- Short Form-36V: Mental Component Score(initial entry into study, and at 12-wks and 24-wks)
- Voluntary Duration of Symptom-Limited TMT(baseline, 12-wks, 24-wks)
- Symptom-Limited TMT Maximum Heart Rate(baseline, 12-wks, 24-wks)
- Symptom-Limited TMT Maximum Oxygen Uptake (VO2)(Baseline, 12-wks, 24-wks)
- Maximum Respiratory Exchange Ratio (RER) During TMT(Baseline, 12-wks, 24-wks)
- Short Form-36V: Physical Component Score(Initial entry into study, 12 and 24 weeks)
- Symptom-Limited TMT Maximum Carbon Dioxide Expelled (VCO2)(Baseline, 12-wks, 24-wks)
- Symptom-Limited TMT Maximum METS Achieved (MET)(Baseline, 12-wks, 24-wks)
- Symptom-Limited TMT Maximum Minute Ventilation (VE)(Baseline, 12-wks, 24-wks)
- Symptom-Limited TMT Maximum Systolic Blood Pressure(Baseline, 12-wk, 24-wk)