Cardiovascular Diseases Clinical Trial
Official title:
Cardiopulmonary Changes Following Spinal Cord Stimulation in Individuals With Spinal Cord Injury
The aim of this study is to examine the mechanisms of transcutaneous spinal cord stimulation (tSCS) for improving cardiovascular and pulmonary function in individuals with chronic motor-complete spinal cord injury (SCI) by measuring vascular related endothelial biomarkers, plasma catecholamines, and respiratory parameters.
Status | Not yet recruiting |
Enrollment | 22 |
Est. completion date | August 1, 2028 |
Est. primary completion date | August 1, 2028 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 19 Years to 65 Years |
Eligibility | INCLUSION & EXCLUSION CRITERIA: INCLUSION CRITERIA: A participant must meet all of the following criteria in order to be eligible for inclusion: 1. Resident of British Columbia, Canada with active provincial medical services plan 2. Male or female, 19-65 years of age 3. Chronic SCI at or above the T10 spinal cord segment 4. >1-year post injury or diagnosis, at least 6 months from any spinal surgery. 5. American Spinal Injury Association Impairment Scale (AIS) A, B, C and D for SCI 6. Stable management of spinal cord related clinical issues (e.g., spasticity management) 7. Women of childbearing potential must not be intending to become pregnant, currently pregnant, or lactating. The following conditions apply: 7.1 Women of childbearing potential must have a confirmed negative pregnancy test prior to the baseline visit. 7.2 Women of childbearing potential must agree to use adequate contraception during the period of the trial and for at least 28 days after completion of treatment. Effective contraception includes abstinence. 8. Sexually active males with female partners of childbearing potential must agree to use effective contraception during the period of the trial and for at least 28 days after completion of treatment. 9. Must provide informed consent. 10. Able to understand and complete study-related questionnaires (must be able to understand and speak English or have access to an appropriate interpreter as judged by the investigator). 11. Willing and able to comply with all clinic visits and study-related procedures. EXCLUSION CRITERIA: A participant who meets any of the following criteria will not be eligible to participate: 1. Ventilator dependent. 2. Painful musculoskeletal dysfunction, unhealed fracture, pressure sore, or active infection that may interfere with testing 3. Clinically significant, unmanaged, depression (PHQ-9 above 15) or ongoing drug abuse. 4. Use of any medication or treatment that in the opinion of the investigator indicates that it is not in the best interest of the participant to participate in this study. 5. Intrathecal baclofen pump. 6. Cardiovascular, respiratory, bladder, or renal disease unrelated to SCI or presence of hydronephrosis or presence of obstructive renal stones. 7. Presence of severe acute medical issue(s) that in the investigator's judgement would adversely affect the participant's participation in the study (e.g., pressure sore, urinary tract infection, etc.). 8. Any implanted metal (other than dental implants) in the skull or presence of pacemakers, stimulators, or medication pumps in the trunk. 9. Severe anemia (Hgb<8 g/dl) or hypovolemia as measured by hematocrit via blood test in the last six months. 10. Participant has undergone electrode implantation surgery. 11. Participant is a member of the investigational team or his/her immediate family. |
Country | Name | City | State |
---|---|---|---|
Canada | Blusson Spinal Cord Centre | Vancouver | British Columbia |
Lead Sponsor | Collaborator |
---|---|
University of British Columbia |
Canada,
Aung HH, Sivakumar A, Gholami SK, Venkatewaran SP, Gorain B, Shadab M. An overview of the anatomy and physiology of the lung, in Nanotechnology-Based Targeted Drug Delivery Systems for Lung Cancer, 2019; 1-20.
Claydon VE, Krassioukov AV. Clinical correlates of frequency analyses of cardiovascular control after spinal cord injury. Am J Physiol Heart Circ Physiol. 2008 Feb;294(2):H668-78. doi: 10.1152/ajpheart.00869.2007. Epub 2007 Nov 16. — View Citation
Consortium for Spinal Cord Medicine. Early acute management in adults with spinal cord injury: a clinical practice guideline for health-care professionals. J Spinal Cord Med. 2008;31(4):403-79. doi: 10.1043/1079-0268-31.4.408. No abstract available. — View Citation
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Forchheimer M, McAweeney M, Tate DG. Use of the SF-36 among persons with spinal cord injury. Am J Phys Med Rehabil. 2004 May;83(5):390-5. doi: 10.1097/01.phm.0000124441.78275.c9. — View Citation
Hubli M, Gee CM, Krassioukov AV. Refined assessment of blood pressure instability after spinal cord injury. Am J Hypertens. 2015 Feb;28(2):173-81. doi: 10.1093/ajh/hpu122. Epub 2014 Jul 1. — View Citation
Hubli M, Krassioukov AV. Ambulatory blood pressure monitoring in spinal cord injury: clinical practicability. J Neurotrauma. 2014 May 1;31(9):789-97. doi: 10.1089/neu.2013.3148. Epub 2014 Jan 30. — View Citation
Kelley A, Garshick E, Gross ER, Lieberman SL, Tun CG, Brown R. Spirometry testing standards in spinal cord injury. Chest. 2003 Mar;123(3):725-30. doi: 10.1378/chest.123.3.725. — View Citation
Martin Ginis KA, Phang SH, Latimer AE, Arbour-Nicitopoulos KP. Reliability and validity tests of the leisure time physical activity questionnaire for people with spinal cord injury. Arch Phys Med Rehabil. 2012 Apr;93(4):677-82. doi: 10.1016/j.apmr.2011.11.005. Epub 2012 Feb 13. — View Citation
Miller MR, Hankinson J, Brusasco V, Burgos F, Casaburi R, Coates A, Crapo R, Enright P, van der Grinten CP, Gustafsson P, Jensen R, Johnson DC, MacIntyre N, McKay R, Navajas D, Pedersen OF, Pellegrino R, Viegi G, Wanger J; ATS/ERS Task Force. Standardisation of spirometry. Eur Respir J. 2005 Aug;26(2):319-38. doi: 10.1183/09031936.05.00034805. No abstract available. — View Citation
Park AJ, Fandl HK, Garcia VP, Coombs GB, DeSouza NM, Greiner JJ, Barak OF, Mijacika T, Dujic Z, Ainslie PN, DeSouza CA. Differential Expression of Vascular-Related MicroRNA in Circulating Endothelial Microvesicles in Adults With Spinal Cord Injury: A Pilot Study. Top Spinal Cord Inj Rehabil. 2023 Spring;29(2):34-42. doi: 10.46292/sci22-00032. Epub 2023 Apr 3. — View Citation
Pithon KR, Martins LE, Renno AC, Abreu DC, Cliquet A Jr. Pulmonary function testing in quadriplegic subjects. Spinal Cord. 2008 Apr;46(4):275-7. doi: 10.1038/sj.sc.3102146. Epub 2007 Nov 20. — View Citation
Standardization of Spirometry, 1994 Update. American Thoracic Society. Am J Respir Crit Care Med. 1995 Sep;152(3):1107-36. doi: 10.1164/ajrccm.152.3.7663792. No abstract available. — View Citation
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* Note: There are 14 references in all — Click here to view all references
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Circulating endothelial biomarkers in EMV/µL (Park et al., 2023) | Real-time Effect: Change in circulating endothelial biomarkers (i.e., endothelial cell derived microvesicles (EMVs)) before and after real-time tSCS during cardiovascular stress (i.e., head-up tilt test to trigger orthostatic hypotension OH and/or vibrostimulation/DARS to trigger AD).
Long-term Effect: Change from baseline in circulating endothelial biomarkers (i.e., endothelial cell derived microvesicles (EMVs)) before and after long-term tSCS intervention during cardiovascular stress (i.e., head-up tilt test to trigger OH and/or vibrostimulation/DARS to trigger AD). |
Real-time Effect: 1 week; Long-term Effect: 8 weeks | |
Secondary | Plasma catecholamines in nmol/L (Claydon & Krassioukov, 2008) | Real-time Effect: Change in plasma catecholamines (e.g., norepinephrine) before and after real-time tSCS during cardiovascular stress (i.e., head-up tilt test to trigger orthostatic hypotension OH and/or vibrostimulation/DARS to trigger AD).
Long-term Effect: Change from baseline in plasma catecholamines (e.g., norepinephrine) before and after long-term tSCS intervention during cardiovascular stress (i.e., head-up tilt test to trigger OH and/or vibrostimulation/DARS to trigger AD). |
Real-time Effect: 1 week; Long-term Effect: 8 weeks | |
Secondary | Spirometric parameters for lung volume in ml/kg (Aung et al., 2019) for FVC | Real-time Effect: Change in spirometric parameters (i.e., forced vital capacity (FVC)), before and after real-time tSCS during cardiovascular stress (i.e., head-up tilt test to trigger orthostatic hypotension OH and/or vibrostimulation/DARS to trigger AD).
Long-term Effect: Change from baseline in spirometric parameters (i.e., forced vital capacity (FVC)), before and after long-term tSCS intervention during cardiovascular stress (i.e., head-up tilt test to trigger OH and/or vibrostimulation/DARS to trigger AD). |
Real-time Effect: 1 week; Long-term Effect: 8 weeks | |
Secondary | Spirometric parameters for lung volume in ml/kg (Aung et al., 2019) for FEV1 | Real-time Effect: Change in spirometric parameters (i.e., forced expiratory volume (FEV) in 1 second (FEV1)), before and after real-time tSCS during cardiovascular stress (i.e., head-up tilt test to trigger orthostatic hypotension OH and/or vibrostimulation/DARS to trigger AD).
Long-term Effect: Change from baseline in spirometric parameters (i.e., forced expiratory volume (FEV) in 1 second (FEV1)), before and after long-term tSCS intervention during cardiovascular stress (i.e., head-up tilt test to trigger OH and/or vibrostimulation/DARS to trigger AD). |
Real-time Effect: 1 week; Long-term Effect: 8 weeks |
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