The aim of this study is to evaluate whether a three month intra-dialytic exercise programme improves arterial function.
Life expectancies in haemodialysis patients are significantly shorter than the general population due to higher cardiovascular disease risk. This is mediated by higher prevalence of cardiovascular risk factors associated with chronic kidney disease and the haemodialysis procedure. Consequently ageing of the arterial system is accelerated in this condition leading to higher prevalence of arterial plaques and increased arterial stiffness. Higher physical activity and fitness are associated with lower cardiovascular disease and all-cause mortality in haemodialysis patients and the general population. Moreover, physical inactivity is associated with increased arterial stiffness and plaques which narrow heart arteries. Worryingly the haemodialysis population is on average highly inactive with low fitness. Current research demonstrates that exercise which improves fitness improves arterial health. Increased bloodflow during exercise stimulates the release of nitric oxide causing arteries to dilate. Regular exercise is believed to lead to beneficial remodelling of arteries and lower arterial stiffness. Exercise is reported to improve arterial function across a range of conditions. However published research regarding the possible benefits of long term aerobic exercise on arterial health in this population is conflicting. Limitations in study design, moderately high participant dropout rates and low statistical power hamper a definitive conclusion. Importantly a gold standard measure of arterial function has not been used in previously published studies. There is ample evidence that exercise programmes in people on dialysis improve fitness, physical function, and quality of life. It is also clear that a state of higher physical activity and fitness is associated with better arterial function in the general population. It would be advantageous for reasons of health counselling to determine whether the process of improving physical fitness and activity levels may also improve arterial health in haemodialysis patients.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
50
Participants in the intervention group will undertake moderate intensity aerobic exercise. Exercise modality will be recumbent cycling during the first two hours of haemodialysis sessions. Exercise prescription is set using a graded exercise test and anchored to a perceived level of exertion using the BORG scale. Training stimulus is maintained by the participant by increasing the cycling resistance when perceived exertion drops by one point at the current resistance level. Adherence and training volume is recorded during the intervention period.
This is a sequence of stretching and relaxation of the major muscle groups of the body. Participants are initially given detailed information regarding the technique and then provided with a recorded version which they listen to for 30-40 minutes during dialysis sessions. Participants in this group are offered the exercise programme at the end of three months.
Monklands Hospital
Airdrie, United Kingdom
RECRUITINGBrachial artery flow mediated dilatation
Brachial artery diameter is measured using vascular ultrasound. A cuff similar to that used for blood pressure is then inflated around the forearm for 5 minutes. Following cuff release vascular ultrasound is used to measure arterial dilation in response to reactive hyperaemia. Relative change in diameter provides a measure of endothelial function. Images are recorded over a period of 4-5 minutes post cuff release.
Time frame: Baseline and 12 week follow-up
Aortic pulse wave velocity
Aortic pulse wave velocity is measured using a Vicorder (Skidmore Medical, Bristol UK). Briefly the Vicorder measures the time taken for a pulse wave to travel between a pressure cuff located on the carotid artery and another at the site of the femoral artery. The calculated velocity of the pulse wave is a measure of central arterial stiffness.
Time frame: Baseline and three month follow-up
Maximal aerobic power
Peak aerobic power is assessed using a graded exercise test with respiratory gas analysis. An Astrand protocol will be used with cycle ergometry. Participants continue until volitional exhaustion or the test is terminated by the investigator. An oxygen uptake figure in ml/kg/min is a measure of peak aerobic power (VO2peak)
Time frame: Baseline and three months
Timed up-and-go
The time taken to stand up from a chair, walk three metres and return is recorded. This is a functional measure of mobility with a threshold time related to falls and fractures.
Time frame: Baseline and three month follow-up
Sit-to-stand 5
The time taken to stand up from a chair five times without using upper limb assistance is recorded. This is a surrogate measure of lower limb power with a threshold that is related to balance and risk of falls.
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Time frame: Baseline and 3 month follow-up
Non exercise questionnaire
A non-exercise questionnaire utilising anthropometry, gender and self reported physical activity will be used to estimate aerobic fitness. This method carries minimal burden compared to physical performance tests and is a useful screening tool for health counselling.
Time frame: Baseline and 3 month follow-up
Physical activity
Physical activity over a seven day period will be measured using an Actigraph accelerometer. The monitor measures body movement as activity counts which may be categorised according to level of intensity using established cut-points.
Time frame: Baseline and 3 month follow-up
Kidney Disease Quality of Life Short Form (KDQOL)
The KDQOL is a self-administered questionnaire designed to measure generic health related quality life as well as condition specific items. Higher scores indicate better quality of life.
Time frame: Baseline and 3 month follow-up
Duke Activity Status Index
This self administered 12 item questionnaire provides a self reported measure of physical capacity. Higher scores indicate higher fitness and ability to perform activities of daily living.
Time frame: Baseline and 3 months
Leicester Uraemic Symptom Scale (LUSS)
The LUSS provides a measure of condition related symptom burden. it records the number of symptoms, frequency and their level of intrusiveness.
Time frame: Baseline and 3 month follow-up