The overall goal of this proposed study is to evaluate the underlying mechanisms of neural control of blood flow in the lower extremities in humans with restless leg syndrome (RLS). At least 15% of the general public suffers from RLS and many more may go undiagnosed. This unfortunate disorder leads primarily to a disturbing sensation within the patient's lower extremities that requires movement for relief (1, 2). The central hypothesis of our study is that physiological changes in lower limb blood flow as a result of thoracolumbar epidural Spinal Cord Stimulation (SCS) lead to the relief of RLS.
Patients age 18-85 years with (n=25) and without RLS (n=25) that have recently having undergone Spinal Cord Stimulation (SCS) implantation (thoracolumbar) for chronic pain will be recruited from the Departments of Anesthesia and Neurosurgery, University of Iowa Hospitals and Clinics. The rationale for studying both RLS patients and non-RLS patients with chronic back pain is to initially test the effectiveness of Spinal Cord Stimulation (SCS) on lower limb blood flow in the absence of symptoms of RLS. In the non-RLS patients, we could determine if SCS does in fact alter limb blood flow. We hypothesize that RLS patients have altered muscle sympathetic nerve activity (MSNA) and blood flow correlating to severity of RLS symptoms, which will then be modulated by Spinal Cord Stimulation (SCS), allowing for resolution of symptoms in RLS with MSNA-mediated improvements in leg blood flow. We also hypothesize that SCS in RLS patients will reduce 24-hour ambulatory blood pressure in parallel with reductions in MSNA. Those deemed eligible to participate will be invited for 2 visits to the Translational Vascular Physiology Laboratory in the Clinical Research Unit (CRU) of the University of Iowa Hospitals and Clinics. Each of the 2 study visits are identical except for experimental measurements that are made at each of the five measurement time points when the Spinal Cord Stimulation (SCS) unit is either on or off as described below. Visit 1: Experimental measurements include non-invasive "gold standard" measures of limb blood flow and arterial stiffness including femoral artery blood flow via Doppler ultrasound, calf blood flow from strain gauge venous occlusion plethysmography, and arterial stiffness via pulse wave velocity using applanation tonometry. Additionally, participants will be asked to assess the current level of leg discomfort every 10 minutes while measurements are taken by the SIT test, a validated technique for assessing restless legs symptoms where patients are asked to set and rest quietly during measurement talking, moving as little as possible (3). Visit 2: Experimental measurements include direct measures of sympathetic nerve activity using microneurography before, during and again after administration of SCS to the patient. Additionally, participants will be asked to assess the current level of leg discomfort every 10 minutes while measurements are taken by the SIT test, a validated technique for assessing restless legs symptoms where patients are asked to set and rest quietly during measurement taking, moving as little as possible (3). Some participates may visit the laboratory for placement of a 24-hour ambulatory blood pressure cuff.
Body composition analysis will be obtained by DEXA scan.
The following labs will be obtained during the course of the study: pregnancy test (urine), glucose, insulin, catecholamine, and cholesterol (serum).
The blood flow to the arm or leg may also be measured by placing an ultrasonic probe on the skin over the femoral artery of the leg and the brachial artery of the arm.
University of Iowa Hospitals and Clinics
Iowa City, Iowa, United States
Percent Change MSNA Burst Frequency From Baseline to 60 Minutes
Response will measured by peroneal nerve microneurography to the lower limb during epidural spinal cord stimulation in patients with chronic back pain. Percent change MSNA burst frequency from baseline to 60 minutes
Time frame: Baseline to 60 minutes
Response Measurement of Thoracolumbar Epidural SCS in the Femoral Artery Blood Flow
The response will be measured by Doppler ultrasound of the femoral artery during epidural spinal cord stimulation in patients with chronic back pain.
Time frame: Baseline and 1.5 Hours
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Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
15
Continuous Blood pressure cuff will worn for 2 days with spinal cord stimulator on and off (24 hour on and 24 hour off). Optional procedure.
Transcutaneous recordings will be captured to measure the partial pressure of oxygen by placing monitors on the subject's chest and foot.
The sympathetic nervous system activity to the subject's leg muscles will be measured by a tiny microelectrode placed in the peroneal nerve in the leg located just below the knee on the outer part of the leg. When the nerve is located 2 tiny sterile microelectrodes will be inserted through the skin.
Height and weight will be obtained.
Subjects will be administered questionnaires to evaluate RLS symptoms using John Hopkins Restless Legs Severity Scale.
Subjects participating in Continuous Blood Pressure monitoring will be administered continuous blood pressure monitoring compliance diary.