Tag: work rate

Prediction of peak oxygen uptake in chronic fatigue syndrome

Abstract:

OBJECTIVES: To establish a simple, valid, and acceptable method of predicting peak oxygen uptake (VO2peak) in patients with chronic fatigue syndrome (CFS), which could provide a basis for subsequent exercise prescription at an appropriate intensity as part of a clinical rehabilitation programme.

METHODS: A total of 130 patients who met UK research criteria for CFS were taken from consecutive referrals for chronic fatigue to the University Department of Medicine at Withington Hospital, Manchester. VO2peak was determined using an incremental graded exercise test to exhaustion. Respiratory gas exchange, work rate, and heart rate were monitored throughout.

RESULTS: In all patients, VO2peak was found to correlate strongly and significantly with peak work rate (WRpeak) during testing (r2 = 0.88, p<0.001). In patients who exercised for longer than two minutes (n = 119), regression analysis established the relation as Vo2peak = 13.1 x WRPpeak + 284, where VO2 is given in ml/min and WR in W. The mean error between the measured VO2peak and the predicted value was 10.7%. The relation between increase in work rate and oxygen uptake across the group was highly significant (r2 = 0.87, p<0.001), and given as VO2increase = 12.0 x WRincrease, this value being similar to that expected for healthy individuals. Almost all (97%) subjects reported no exacerbation of symptoms after maximal exercise testing.

CONCLUSIONS: Using a simple to administer maximal exercise test on a cycle ergometer, it is possible to predict accurately the VO2peak of a patient with CFS from peak work rate alone. This value can then be used as an aid to setting appropriate exercise intensity for a rehabilitation programme. The increase in VO2 per unit increase in workload was consistent with that expected in healthy individuals, suggesting that the physiological response of the patients measured here was not abnormal. Contrary to the belief of many patients, maximal exercise testing to the point of subjective exhaustion proved to be harmless, with no subjects suffering any lasting deterioration in their condition after assessment.

 

Source: Mullis R, Campbell IT, Wearden AJ, Morriss RK, Pearson DJ. Prediction of peak oxygen uptake in chronic fatigue syndrome. Br J Sports Med. 1999 Oct;33(5):352-6. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1756205/ (Full article)

 

Lactate responses to exercise in chronic fatigue syndrome

Comment on: Exercise performance and fatiguability in patients with chronic fatigue syndrome. [J Neurol Neurosurg Psychiatry. 1993]

 

We were interested to read the recent account of exercise characteristics in patients with chronic fatigue syndrome by Gibson et al,’ which concluded that there was no abnormality of neuromuscular function in this condition. Patients reached the limits of exercise tolerance at lower heart rates than controls during incremental exercise to exhaustion but their peak work rates and duration of exercise did not differ significantly from the control group, although the total work done (the product of these variables) would appear to have been less; the authors had previously reported that patients with this condition showed a reduction in maximal work rate achieved in such tests.2 Despite this, plasma lactate levels at the end of exercise were as high in the patients as the controls.

In an earlier study using incremental exercise on a treadmill, Riley et a13 had found higher heart rates and increased lactate levels compared with normal controls at submaximal work rates but similarly noted no differences at peak exercise.

We have found that a proportion of patients with chronic fatigue syndrome exhibit abnormally raised lactate levels following steady state exercise at work rates below the anerobic threshold, corresponding to roughly half the peak work rates achieved in the incremental test paradigm.4 It is thus possible that lactate levels in some patients increase more rapidly than normal at lower work rates.

The cause of this apparent ‘left shift’ of the anaerobic threshold is unclear. Neither we nor Gibson et al 2 found evidence of “deconditioning” in terms of cardiac responses to exercise in our patients, and phosphorus spectroscopy of muscle in the syndrome has shown no consistent disturbance of muscle energy metabolism.5 The phenomenon may be of significance in the pathogenesis of “fatigue” in some patients, and it may be premature to conclude that neuromuscular function in all patients is normal, or that the “fatigue” is exclusively “central” in origin. Indeed, it may be presumptuous to consider chronic fatigue syndrome as a unitary entity.

You can read the rest of this comment here: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1072952/pdf/jnnpsyc00035-0134b.pdf

 

Source: Lane RJ, Woodrow D, Archard LC. Lactate responses to exercise in chronic fatigue syndrome. J Neurol Neurosurg Psychiatry. 1994 May;57(5):662-3. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1072952/