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Query: UMLS:C0015674 (
chronic fatigue syndrome
)
2,978
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Skeletal muscle bioenergetics and control of intracellular pH have been investigated in 46 patients with
chronic fatigue syndrome
by phosphorus magnetic resonance spectroscopy. The results have been compared with those from healthy controls and from a group of patients with mitochondrial cytopathies affecting skeletal muscle. No consistent abnormalities of glycolysis, mitochondrial metabolism or pH regulation were identified in the group when taken as a whole, although in 12 of the 46 patients the relationship between pH and
phosphocreatine
utilisation during exercise fell outside the normal range. Of these, 6 patients showed increased acidification relative to
phosphocreatine
depletion while 6 showed reduced acidification. These findings do not support the hypothesis that any specific metabolic abnormality underlies fatigue in this syndrome although abnormalities may be present in a minority of patients.
...
PMID:Skeletal muscle bioenergetics in the chronic fatigue syndrome. 850 83
The purpose of this study was to determine if
chronic fatigue syndrome
(CSF) is characterized by abnormalities in oxidative muscle metabolism. Patients with
CFS
according to Centers for Disease Control (CDC) criteria (n = 22) were compared to normal sedentary subjects (n = 15).
CFS
patients were also tested before and 2 days after a maximal treadmill test. Muscle oxidative capacity was measured as the maximal rate of postexercise
phosphocreatine
(PCr) resynthesis using the ADP model (Vmax) in the calf muscles using 31P magnetic resonance spectroscopy. Vmax was significantly reduced in
CFS
patients (39.6 +/- 2.8 mmol/L/min, mean +/- SE) compared to controls (53.8 +/- 2.8 mmol/L/min). Two days postexercise there was no change in resting inorganic phosphate (Pi)/PCr or Vmax in the
CFS
patients (n = 14). In conclusion, oxidative metabolism is reduced in
CFS
patients compared to sedentary controls. In addition, a single bout of strenuous exercise did not cause a further reduction in oxidative metabolism, or alter resting Pi/PCr ratios.
...
PMID:Reduced oxidative muscle metabolism in chronic fatigue syndrome. 914 90
The purpose of this study was to determine if
chronic fatigue syndrome
(
CFS
) is associated with reduced oxygen delivery to muscles. Patients with
CFS
according to CDC (Center for Disease Control) criteria (n=20) were compared with normal sedentary subjects (n=12). Muscle oxygen delivery was measured as the rate of post-exercise and post-ischaemia oxygen-haem resaturation. Oxygen-haem resaturation was measured in the medial gastrocnemius muscle using continuous-wavelength near-IR spectroscopy.
Phosphocreatine
resynthesis was measured simultaneously using (31)P magnetic resonance spectroscopy. The time constant of oxygen delivery was significantly reduced in
CFS
patients after exercise (46.5+/-16 s; mean+/-S.D.) compared with that in controls (29.4+/-6.9 s). The time constant of oxygen delivery was also reduced (20.0+/-12 s) compared with controls (12.0+/-2.8 s) after cuff ischaemia. Oxidative metabolism was also reduced by 20% in
CFS
patients, and a significant correlation was found between oxidative metabolism and recovery of oxygen delivery. In conclusion, oxygen delivery was reduced in
CFS
patients compared with that in sedentary controls. This result is consistent with previous studies showing abnormal autonomic control of blood flow. Reduced oxidative delivery in
CFS
patients could be specifically related to
CFS
, or could be a non-specific effect of reduced activity levels in these patients. While these results suggest that reduced oxygen delivery could result in reduced oxidative metabolism and muscle fatigue, further studies will be needed to address this issue.
...
PMID:Impaired oxygen delivery to muscle in chronic fatigue syndrome. 1054 13
The purpose of this study was to determine if
chronic fatigue syndrome
(
CFS
) is associated with reduced blood flow and oxidative delivery to skeletal muscle. Patients with
CFS
according to CDC (Center for Disease Control) criteria ( n =19) were compared with normal sedentary subjects ( n =11). Muscle blood flow was measured with Doppler ultrasound after cuff ischaemia and exercise. Muscle oxygen delivery was measured as the rate of post-exercise and post-ischaemic oxygen-haem resaturation. Oxygen-haem resaturation was measured in the medial gastrocnemius muscle using continuous wavelength near-IR spectroscopy. Muscle metabolism was measured using (31)P magnetic resonance spectroscopy.
CFS
patients and controls were not different in the peak blood flow after cuff ischaemia, the rate of recovery of
phosphocreatine
after submaximal exercise, and the rate of recovery of oxygen saturation after cuff ischaemia. In conclusion,
CFS
patients showed no deficit in blood flow or oxidative metabolism. This suggests that
CFS
symptoms do not require abnormal peripheral function.
...
PMID:Blood flow and muscle metabolism in chronic fatigue syndrome. 1258 4
The purpose of this study was to determine whether
chronic fatigue syndrome
(
CFS
) is associated with reduced blood flow and muscle oxidative metabolism. Patients with
CFS
according to Centers for Disease Control criteria (n = 19) were compared with normal sedentary subjects (n = 11). Muscle blood flow was measured in the femoral artery with Doppler ultrasound after exercise. Muscle metabolism was measured in the medial gastrocnemius muscle with (31)P-magnetic resonance spectroscopy. Muscle oxygen saturation and blood volume were measured using near-infrared spectroscopy.
CFS
and controls were not different in hyperemic blood flow or
phosphocreatine
recovery rate. Cuff pressures of 50, 60, 70, 80, and 90 mmHg were used to partially restrict blood flow during recovery. All pressures reduced blood flow and oxidative metabolism, with 90 mmHg reducing blood flow by 46% and oxidative metabolism by 30.7% in
CFS
patients. Hyperemic blood flow during partial cuff occlusion was significantly reduced in
CFS
patients (P < 0.01), and recovery of oxygen saturation was slower (P < 0.05). No differences were seen in the amount of reduction in metabolism with partially reduced blood flow. In conclusion,
CFS
patients showed evidence of reduced hyperemic flow and reduced oxygen delivery but no evidence that this impaired muscle metabolism. Thus
CFS
patients might have altered control of blood flow, but this is unlikely to influence muscle metabolism. Furthermore, abnormalities in muscle metabolism do not appear to be responsible for the
CFS
symptoms.
...
PMID:Muscle metabolism with blood flow restriction in chronic fatigue syndrome. 1457 62
In a previous study we evaluated muscle blood flow and muscle metabolism in patients diagnosed with
chronic fatigue syndrome
(
CFS
). To better understand muscle metabolism in
CFS
, we re-evaluated our data to calculate free Magnesium levels in skeletal muscle. Magnesium is an essential cofactor in a number of cell processes. A total of 20
CFS
patients and 11 controls were evaluated. Phosphorus magnetic resonance spectroscopy from the medial gastrocnemius muscle was used to calculate free Mg2+ from the concentrations and chemical shifts of Pi, PCr, and beta ATP peaks.
CFS
patients had higher magnesium levels in their muscles relative to controls (0.47 + 0.07 vs 0.36 + 0.06 mM, P < 0.01), although there was no difference in the rate of
phosphocreatine
recovery in these subjects, as reported earlier. This finding was not associated with abnormal oxidative metabolism as measured by the rate of recovery of
phosphocreatine
after exercise. In summary, calculation of free Mg2+ levels from previous data showed
CFS
patients had higher resting free Mg2+ levels compared to sedentary controls.
...
PMID:Increase of free Mg2+ in the skeletal muscle of chronic fatigue syndrome patients. 1640 24
Neurospectroscopy allows biochemical processes in the brain to be studied non-invasively. At magnetic field strengths of 1.5 T or higher, cerebral proton neurospectroscopy allows the ascertainment of values of myo-inositol, choline-containing compounds, creatine, glutamate, glutamine, and N-acetyl aspartate. At similar field strengths, cerebral 31-phosphorus neurospectroscopy allows the ascertainment of values of phosphomonoesters, inorganic phosphate, phosphodiesters,
phosphocreatine
, and the gamma, alpha and beta nucleotide triphosphate (mainly adenosine triphosphate) resonances. Since choline is a common polar head group at the Sn3 position of membrane phospholipid molecules, a raised level of free choline, as indexed by proton neurospectroscopy, can indicate relatively low anabolism of membrane phospholipid molecules. Furthermore, the choline peak includes phosphorylcholine and glycerophosphorylcholine and even ethanolamine. The phosphomonoesters peak measured using 31-phosphorus spectroscopy includes major contributions from phosphocholine, phosphoethanolamine and L-phosphoserine, which are important precursors of membrane phospholipids, while the phosphodiesters peak includes contributions from glycerophosphocholine and glycerophosphoethanolamine, which are important products of membrane phospholipid catabolism. Hence proton neurospectroscopy and 31-phosphorus neurospectroscopy can yield important information relating to the metabolism of cerebral membrane phospholipids. The application of these techniques to the investigation of membrane phospholipid metabolism in schizophrenia, depression,
chronic fatigue syndrome
(
myalgic encephalomyelitis
or M.E.) and dyslexia is described.
...
PMID:Proton and 31-phosphorus neurospectroscopy in the study of membrane phospholipids and fatty acid intervention in schizophrenia, depression, chronic fatigue syndrome (myalgic encephalomyelitis) and dyslexia. 1677 68
