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Journal of Nephrology
Erschienen in: Journal of Nephrology 4/2019

01.08.2019 | Review

Exercise training in kidney transplant recipients: a systematic review

verfasst von: Patrizia Calella, Sonsoles Hernández-Sánchez, Carlo Garofalo, Jonatan R. Ruiz, Juan J. Carrero, Vincenzo Bellizzi

Erschienen in: Journal of Nephrology | Ausgabe 4/2019

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Abstract

Background and aims

Evidences on the benefits of physical exercise in kidney transplant patients (KTx) are not conclusive and concerns on safety remain. We here gather and interpret current evidence on the benefits/harms of exercise training intervention in KTx.

Methods

Systematic review of exercise training programs in KTx.

Results

A total of 24 studies including 654 KTx patients on intervention and 536 controls were evaluated. The median age was 46 years; the transplant vintage was 2 days to 10 years. The intervention was an aerobic or resistance exercise program or a combination of both; interventions consisted of 20–60 min’ sessions, 2–3 times per week repetitions and 5.5 months’ median duration. Most studies improved cardiorespiratory fitness (expressed as VO2peak) as well as maximum heart rate, which was associated with a significant increase in muscle performances and strength. No significant changes in body weight or composition were observed, but a trend towards weight reduction in overweight or obese patients on stable KTx was noted. The arterial blood pressure reduced a little after exercise when it was high at start. Exercise intervention had no clinically relevant impact on anaemia, glycaemia or lipidaemia. In contrast, exercise training improved several aspects of quality of life. No data on long-term hard outcomes or on high-risk subpopulations such comorbid or elderly patients were available.

Conclusions

In adult kidney transplant patients, a structured physical exercise program improved the aerobic capacity and ameliorated muscle performance and quality of life. No harms were observed in the short-term, but long-term RCTs are required. Overall, in mid-age kidney transplant patients without major comorbidities, an aerobic or resistance supervised exercise lasting 3–6 months could be suggested within the comprehensive treatment of kidney transplant.
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Literatur
1.
Group K W (2009) KDIGO clinical practice guideline for the care of kidney transplant recipients. Am J Transpl 9(Suppl 3):S1–S155
2.
Bellizzi V, Cupisti A, Capitanini A, Calella P, D’Alessandro C (2014) Physical activity and renal transplantation. Kidney Blood Press Res 39:212–219CrossRef
3.
Hannan M, Bronas UG (2017) Barriers to exercise for patients with renal disease: an integrative review. J Nephrol 30:729–741CrossRef
4.
Mosconi G et al (2014) Physical activity in solid organ transplant recipients: preliminary results of the Italian project. Kidney Blood Press Res 39:220–227CrossRef
5.
Dontje ML et al (2014) Longitudinal measurement of physical activity following kidney transplantation. Clin Transpl 28:394–402CrossRef
6.
Zelle DM et al (2011) Low physical activity and risk of cardiovascular and all-cause mortality in renal transplant recipients. Clin J Am Soc Nephrol 6:898–905CrossRef
7.
Devine PA, Courtney AE, Maxwell AP (2018) Cardiovascular risk in renal transplant recipients. J Nephrol 1:3
8.
Roi GS et al (2014) Physical activity in solid organ transplant recipients: organizational aspects and preliminary results of the Italian project. Transpl Proc 46:2345–2349CrossRef
9.
Baum CL (2001) Weight gain and cardiovascular risk after organ transplantation. JPEN J Parenter Enteral Nutr 25:114–119CrossRef
10.
Kumar R et al (2012) Assessment of cardiovascular risk factors after renal transplantation: a step towards reducing graft failure. Transpl Proc 44:1270–1274CrossRef
11.
Aakhus S, Dahl K, Widerøe TE (2004) Cardiovascular disease in stable renal transplant patients in Norway: morbidity and mortality during a 5-year follow-up. Clin Transpl 18:596–604CrossRef
12.
Oterdoom LH et al (2008) Urinary creatinine excretion reflecting muscle mass is a predictor of mortality and graft loss in renal transplant recipients. Transplantation 86:391–398CrossRef
13.
Jennings G et al (1986) The effects of changes in physical activity on major cardiovascular risk factors, hemodynamics, sympathetic function, and glucose utilization in man: a controlled study of four levels of activity. Circulation 73:30–40CrossRef
14.
Lee IM et al (2012) Effect of physical inactivity on major non-communicable diseases worldwide: an analysis of burden of disease and life expectancy. Lancet 380:219–229CrossRef
15.
Sofi F, Capalbo A, Cesari F, Abbate R, Gensini GF (2008) Physical activity during leisure time and primary prevention of coronary heart disease: an updated meta-analysis of cohort studies. Eur J Cardiovasc Prev Rehabil 15:247–257CrossRef
16.
17.
Liberati A et al (2009) The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. J Clin Epidemiol 62:e1–e34CrossRef
18.
Caspersen CJ, Powell KE, Christenson GM (1985) Physical activity, exercise, and physical fitness: definitions and distinctions for health-related research. Public Health Rep 100:126–131PubMedPubMedCentral
19.
Downs SH, Black N (1998) The feasibility of creating a checklist for the assessment of the methodological quality both of randomised and non-randomised studies of health care interventions. J Epidemiol Community Health 52:377–384CrossRef
20.
Huang KS, Cheah SCH, Kee TYS, Ng CLW (2015) Physical function and body composition in kidney transplant recipients over time with physiotherapy intervention. Proc Singap Healthc 24:208–212CrossRef
21.
Juskowa J et al (2006) Physical rehabilitation and risk of atherosclerosis after successful kidney transplantation. Transpl Proc 38:157–160CrossRef
22.
Kempeneers G et al (1990) Skeletal muscle limits the exercise tolerance of renal transplant recipients: effects of a graded exercise training program. Am J Kidney Dis 16:57–65CrossRef
23.
Korabiewska L, Lewandowska M, Juskowa J, Białoszewski D (2007) Need for rehabilitation in renal replacement therapy involving allogeneic kidney transplantation. Transpl Proc 39:2776–2777CrossRef
24.
Miller TD et al (1987) Graded exercise testing and training after renal transplantation: a preliminary study. Mayo Clin Proc 62:773–777CrossRef
25.
Pitha J et al (2015) Effect of exercise on markers of vascular health in renal transplant recipients. Physiol Res 64:945–949PubMed
26.
Romano G et al (2010) Physical training effects in renal transplant recipients. Clin Transpl 24:510–514CrossRef
27.
Stefani L et al (2016) Cardiovascular outcomes in renal transplant recipients: feasibility and clinical role of 2D speckle tracking to assess myocardial function. J Funct Morphol Kinesiol 1:109–117CrossRef
28.
Surgit O, Ersoz G, Gursel Y, Ersoz S (2001) Effects of exercise training on specific immune parameters in transplant recipients. Transpl Proc 33:3298CrossRef
29.
Teplan V et al (2014) Early exercise training after renal transplantation and asymmetric dimethylarginine: the effect of obesity. Kidney Blood Press Res 39:289–298CrossRef
30.
Violan MA et al (2002) Exercise capacity in hemodialysis and renal transplant patients. Transpl Proc 34:417–418CrossRef
31.
You HS, Chung SY, So HS, Choi SJN (2008) Effect of a DanJeon breathing exercise program on the quality of life in patients with kidney transplants. Transpl Proc 40:2324–2326CrossRef
32.
Greenwood SA et al (2015) Aerobic or resistance training and pulse wave velocity in kidney transplant recipients: a 12-week pilot randomized controlled trial (the Exercise in Renal Transplant [ExeRT] Trial). Am J Kidney Dis 66:689–698CrossRef
33.
Kouidi E, Vergoulas G, Anifanti M, Deligiannis A (2013) A randomized controlled trial of exercise training on cardiovascular and autonomic function among renal transplant recipients. Nephrol Dial Transpl 28:1294–1305CrossRef
34.
Moraes Dias CJ et al (2015) Autonomic modulation analysis in active and sedentary kidney transplanted recipients. Clin Exp Pharmacol Physiol 42:1239–1244CrossRef
35.
Painter PL et al (2003) Effects of exercise training on coronary heart disease risk factors in renal transplant recipients. Am J Kidney Dis 42:362–369CrossRef
36.
Painter PL et al (2002) A randomized trial of exercise training after renal transplantation. Transplantation 74:42–48CrossRef
37.
Pooranfar S et al (2014) The effect of exercise training on quality and quantity of sleep and lipid profile in renal transplant patients: a randomized clinical trial. Int J Org Transpl Med 5:157–165
38.
Riess KJ et al (2014) Exercise training improves aerobic capacity, muscle strength, and quality of life in renal transplant recipients. Appl Physiol Nutr Metab 39:566–571CrossRef
39.
Tzvetanov I et al (2014) A novel and personalized rehabilitation program for obese kidney transplant recipients. Transpl Proc 46:3431–3437CrossRef
40.
van den Ham EC et al (2005) Similarities in skeletal muscle strength and exercise capacity between renal transplant and hemodialysis patients. Am J Transpl 5:1957–1965CrossRef
41.
Karelis AD, Hébert M-J, Rabasa-Lhoret R, Räkel A (2015) Impact of resistance training on factors involved in the development of new-onset diabetes after transplantation in renal transplant recipients: an open randomized pilot study. Can J Diabetes 40:382–388CrossRef
42.
O’Connor EM et al (2017) Long-term pulse wave velocity outcomes with aerobic and resistance training in kidney transplant recipients—a pilot randomised controlled trial. PLoS One 12:1–14
43.
van den Ham ECH et al (2007) The functional, metabolic, and anabolic responses to exercise training in renal transplant and hemodialysis patients. Transplantation 83:1059–1068CrossRef
44.
Hlatky MA et al (1989) A brief self-administered questionnaire to determine functional capacity (The Duke Activity Status Index). Am J Cardiol 64:651–654CrossRef
45.
Horber FF, Scheidegger JR, Grünig BE, Frey FJ (1985) Evidence that prednisone-induced myopathy is reversed by physical training. J Clin Endocrinol Metab 61:83–88CrossRef
46.
Aucella F et al (2015) Physical exercise programs in CKD: lights, shades and perspectives [corrected]. J Nephrol 28:143–150CrossRef
47.
Ogutmen B et al (2006) Health-related quality of life after kidney transplantation in comparison intermittent hemodialysis, peritoneal dialysis, and normal controls. Transpl Proc 38:419–421CrossRef
48.
Didsbury M et al (2013) Exercise training in solid organ transplant recipients: a systematic review and meta-analysis. Transplantation 95:679–687CrossRef
49.
Ihle F et al (2011) Effect of inpatient rehabilitation on quality of life and exercise capacity in long-term lung transplant survivors: a prospective, randomized study. J Hear Lung Transpl 30:912–919
50.
Langer D et al (2012) Exercise training after lung transplantation improves participation in daily activity: a randomized controlled trial. Am J Transplant 12:1584–1592CrossRef
51.
Ahmadi S-F et al (2014) Body mass index and mortality in kidney transplant recipients: a systematic review and meta-analysis. Am J Nephrol 40:315–324CrossRef
52.
Aksoy N (2016) Weight gain after kidney transplant. Exp Clin Transpl 14:138–140
53.
Dahle DO et al (2015) Aortic stiffness in a mortality risk calculator for kidney transplant recipients. Transplantation 99:1730–1737CrossRef
54.
Dahle DO et al (2011) Inflammation-associated graft loss in renal transplant recipients. Nephrol Dial Transpl Off Publ Eur Dial Transpl Assoc 26:3756–3761CrossRef
Metadaten
Titel
Exercise training in kidney transplant recipients: a systematic review
verfasst von
Patrizia Calella
Sonsoles Hernández-Sánchez
Carlo Garofalo
Jonatan R. Ruiz
Juan J. Carrero
Vincenzo Bellizzi
Publikationsdatum
01.08.2019
Verlag
Springer International Publishing
Erschienen in
Journal of Nephrology / Ausgabe 4/2019
Print ISSN: 1121-8428
Elektronische ISSN: 1724-6059
DOI
https://doi.org/10.1007/s40620-019-00583-5

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