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No funding support and not adequate number of subjects are recruited for the study
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Patients with chronic kidney disease (CKD) experience fatigue and exercise intolerance. Increased oxidative stress in CKD may be a contributing factor. The role of impaired muscle blood flow regulation has not been fully explored. The investigators hypothesize that functional sympatholysis is exaggerated in CKD and this is associated with increased oxidative stress. The investigators also hypothesize that exercise training will improve functional sympatholysis and oxidative stress
Progressive muscle weakness and premature fatigue are characterize the condition of chronic kidney disease (CKD) which can be very debilitating. Mechanisms underlying exercise intolerance in CKD is not completely understood. Previous studies have demonstrated impaired skeletal muscle vasodilation during exercise in CKD patients, which may contribute to exercise intolerance. Normally, there is blunting of sympathetic mediated vasoconstriction in exercising muscle to allow for steady blood supply to exercising muscles. This phenomenon is called functional sympatholysis. Functional sympatholysis is impaired by increases in reactive oxygen specie and may be impaired in CKD.
Experiments will be performed on 2 groups of subjects 1) Normal kidney function (eGFR>90) 2) Stage 2-3 CKD (eGFR 30-89). VAsoactive medications will be held for 72 hours before study. All participants will attend a baseline study visit, which will include a physical examination, a medical history review, vital sign measurements, and blood collection. Muscle nerve activity and muscle oxygenation will be measured while the subjects perform hand grip exercise at 30% maximum voluntary contraction with and without lower body negative pressure (- 20 mmHg). Muscle blood flow will be measured before and after hand grip exercises. CKD subjects will then be randomized to exercise training (to squeeze a tennis ball repeatedly for at least 30 min/day) or no exercise training for 28 days. Procedures in baseline visit will be repeated followed by cross over to alternate group for 28 days followed by repeat of baseline procedures. Blood flow, muscle oxygenation and muscle nerve activity will be compared between CKD and normal subjects as well as before and after exercise training for CKD subjects.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Exercise training followed by no exercise training | Experimental | CKD subjects will be randomized to exercise training (to squeeze a tennis ball repeatedly for at least 30 min/day) or no exercise training for 28 days. Procedures in baseline visit will be repeated followed by cross over to alternate group for 28 days followed by repeat of baseline procedures. |
|
| No exercise training followed by exercise training | Experimental | CKD subjects will be randomized to exercise training (to squeeze a tennis ball repeatedly for at least 30 min/day) or no exercise training for 28 days. Procedures in baseline visit will be repeated followed by cross over to alternate group for 28 days followed by repeat of baseline procedures. |
|
| Normal Control | No Intervention | Control subjects without CKD will undergo baseline assessment as above. |
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Forearm exercise training | Behavioral | Subjects will be asked to squeeze a tennis ball repeatedly for at least 30 min/day for 28 days at an approximate rate of 20 squeezes/min. |
|
| Measure | Description | Time Frame |
|---|---|---|
| Change in muscle oxygenation | Tissue oxygenation will be recorded using Near-infrared spectroscopy (NIRS) | After 28 days |
| Measure | Description | Time Frame |
|---|---|---|
| Change in Forearm vascular conductance (FVC) | Doppler ultrasonography to measure blood flow | After 28 days |
| Change in plasma isoprostanes | Plasma isoprostanes will be used as a measure of oxidative stress |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Wanpen Vongpatanasin, MD | University of Texas Southwestern Medical Center | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| University of Texas Southwestern Medical Center at Dallas | Dallas | Texas | 75390 | United States |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 9531179 | Result | Moore GE, Painter PL, Brinker KR, Stray-Gundersen J, Mitchell JH. Cardiovascular response to submaximal stationary cycling during hemodialysis. Am J Kidney Dis. 1998 Apr;31(4):631-7. doi: 10.1053/ajkd.1998.v31.pm9531179. | |
| 16527920 | Result | Adams GR, Vaziri ND. Skeletal muscle dysfunction in chronic renal failure: effects of exercise. Am J Physiol Renal Physiol. 2006 Apr;290(4):F753-61. doi: 10.1152/ajprenal.00296.2005. |
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| ID | Term |
|---|---|
| D051436 | Renal Insufficiency, Chronic |
| ID | Term |
|---|---|
| D051437 | Renal Insufficiency |
| D007674 | Kidney Diseases |
| D014570 | Urologic Diseases |
| D052776 | Female Urogenital Diseases |
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| After 28 days |
| Change in muscle sympathetic nerve activity (MSNA) | MSNA will be measured using tiny tungsten wire inserted into the common peroneal nerve below fibular head. | After 28 days |
| 23800461 | Result | Paglialonga F, Lopopolo A, Scarfia RV, Galli MA, Consolo S, Brivio A, Grassi MR, Salera S, Edefonti A. Correlates of exercise capacity in pediatric patients on chronic hemodialysis. J Ren Nutr. 2013 Sep;23(5):380-6. doi: 10.1053/j.jrn.2013.04.006. Epub 2013 Jun 22. |
| 2169372 | Result | Bradley JR, Anderson JR, Evans DB, Cowley AJ. Impaired nutritive skeletal muscle blood flow in patients with chronic renal failure. Clin Sci (Lond). 1990 Sep;79(3):239-45. doi: 10.1042/cs0790239. |
| 13679483 | Result | Sakkas GK, Ball D, Mercer TH, Sargeant AJ, Tolfrey K, Naish PF. Atrophy of non-locomotor muscle in patients with end-stage renal failure. Nephrol Dial Transplant. 2003 Oct;18(10):2074-81. doi: 10.1093/ndt/gfg325. |
| 10759586 | Result | Hansen J, Sander M, Thomas GD. Metabolic modulation of sympathetic vasoconstriction in exercising skeletal muscle. Acta Physiol Scand. 2000 Apr;168(4):489-503. doi: 10.1046/j.1365-201x.2000.00701.x. |
| 21224235 | Result | Vongpatanasin W, Wang Z, Arbique D, Arbique G, Adams-Huet B, Mitchell JH, Victor RG, Thomas GD. Functional sympatholysis is impaired in hypertensive humans. J Physiol. 2011 Mar 1;589(Pt 5):1209-20. doi: 10.1113/jphysiol.2010.203026. Epub 2011 Jan 4. |
| 24816260 | Result | Mizuno M, Iwamoto GA, Vongpatanasin W, Mitchell JH, Smith SA. Exercise training improves functional sympatholysis in spontaneously hypertensive rats through a nitric oxide-dependent mechanism. Am J Physiol Heart Circ Physiol. 2014 Jul 15;307(2):H242-51. doi: 10.1152/ajpheart.00103.2014. Epub 2014 May 9. |
| 3013501 | Result | Piantadosi CA, Hemstreet TM, Jobsis-Vandervliet FF. Near-infrared spectrophotometric monitoring of oxygen distribution to intact brain and skeletal muscle tissues. Crit Care Med. 1986 Aug;14(8):698-706. doi: 10.1097/00003246-198608000-00007. |
| 20309951 | Result | Kumar S, Seward J, Wilcox A, Torella F. Influence of muscle training on resting blood flow and forearm vessel diameter in patients with chronic renal failure. Br J Surg. 2010 Jun;97(6):835-8. doi: 10.1002/bjs.7004. |
| D005261 |
| Female Urogenital Diseases and Pregnancy Complications |
| D000091642 | Urogenital Diseases |
| D052801 | Male Urogenital Diseases |
| D002908 | Chronic Disease |
| D020969 | Disease Attributes |
| D010335 | Pathologic Processes |
| D013568 | Pathological Conditions, Signs and Symptoms |