Diabetes Mellitus, With Complications Clinical Trial
Official title:
Effects of Pulsatile Insulin Delivery on Peripheral Diabetic Neuropathy
Diabetic neuropathy is a progressive complication causing serious problems in 25-40% of diabetic patients. Anecdotal reports have indicated improvement with pulsatile IV insulin in patients otherwise resistant to all conventional therapies. Significant complications produce painful peripheral dysesthesias, loss of sensation and gastroparesis. This study is designed to test the effectiveness of pulsatile insulin delivery on diabetic neuropathy.
Diabetic neuropathy (DN) is a progressive complication causing serious problems in 25%-40%
of diabetic patients. Significant complications produce painful peripheral dysesthesias,
loss of sensation, and gastroparesis. DN may affect the peripheral motor and sensory nerves
in addition to the autonomic nervous system (1-3). Treatment strategies for patients with DN
have generally concentrated on pain relief, without addressing the underlying
pathophysiology of the disease (4). Anecdotal reports from patients treated with pulsatile
insulin for other complications suggest that this treatment may show efficacy in patients
with DN. This study is designed to compare patients with DN who receive pulsatile insulin
with a control group.
Pulses of IV insulin encourages the glucose metabolism in diabetics to normalize in multiple
organs, especially muscle, retina, liver, kidney and nerve endings. The process
fundamentally requires the administration of high dose insulin pulses similar to those found
in non diabetic humans by their pancreas into the surrounding portal circulation. Oral
carbohydrates are given simultaneously to augment the process and prevent hypoglycemia. The
process is monitored by frequent measuring of glucose levels and respiratory quotients (RQ).
RQ is measured by a metabolic cart which determines the ratio VCO2/ VO2. This ratio is
specific for the fuel used at any one time by the body. The glucose levels are monitored to
keep glucose levels appropriate and the RQ determines the need to readjust the infusion
protocol in each patient for subsequent insulin infusion sessions. The insulin pulses are
delivered over 1-hour periods with a 1-hour rest period between each session. Three
treatments are given during each treatment day.
The respiratory quotient (RQ) is a measurement of CO2 exhaled and O2 inhaled and is
proportionate to the fuel sources being used by the body, primarily the liver over short
periods of time. The higher the RQ, the more glucose and less alternative fuel sources are
being utilized. Following the RQ change helps determine the effectiveness of physiological
insulin administration in increasing anabolic functions in diabetic individuals. By
improving the body's glucose metabolism and thereby causing beneficial effects of anabolic
factors, the possibility of serious complications can be decreased. In addition the use of
oral carbohydrate at the same time along with the physiologic insulin administration
stimulates the appropriate gut hormones which augment this effect, a response which cannot
be duplicated with intravenous glucose. The purpose of our studies is to determine whether
the physiologic administration of insulin along with the augmenting effect of oral
carbohydrates will normalize metabolism in diabetic patients and correlate with an
improvement in their manifestations of diabetic neuropathy.
The RQ is determined by the use of a metabolic cart. Individuals breathe into a mask for 3-5
minutes after a rest period of 30 or more minutes. The ratio of exhaled volume of CO2 to the
inhaled volume of O2 is determined as the RQ. The physiologic range is 0.7 to1.3.
Individuals using fat as a primary fuel have a ratio of 0.7, protein or mixed fuels is
0.8-0.9 and carbohydrate is 0.9-1.0. Those taking excessive calories will have RQ's higher
than 1.05.
1. Tesfaye S, Chaturvedi N, Eaton SEM, Ward JD, Manes C, Ionescu-Tirgoviste C, Witte DR,
Fuller JH, Vascular Risk factors and Diabetic Neuropathy N Engl J Med 352:341-50, 2005.
2. Neuropathy Trust, Diabetic Neuropathy:Prevalence, www.neurocentre.com.
3. Potter PJ, Maryniak O, Yamorski R, Jones IC, Incidence of Peripheral Neuropathy in the
Contralateral Limb of Persons with Unilateral Amputation due to Diabetes, Journal of
Rehabilitation Research and Development 35:335-39, 1998.
4. Goldstein DJ, Lu Y, Detke MJ, Lee TC, Iyengan , Duloxetine versus Placebo in Patients
with Painful Diabetic Neuropathy, Pain 116:109-18, 2005.
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Allocation: Non-Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Investigator), Primary Purpose: Treatment
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