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Query: UMLS:C0015672 (
fatigue
)
51,768
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chronic heart failure is a well-recognized syndrome in which left ventricular impairment produces a constellation of secondary changes in other organ symptoms leading to symptoms such as muscular
fatigue
and dyspnoea and objective limitation to exercise tolerance. With modern drug therapy of diuretics and ACE inhibitors, the majority of patients have minimal if any signs of congestion, and yet severe symptomatic limitation remains. This limitation bears little relationship to conventional measures of either left ventricular function or the haemodynamic profile of the patient. The symptoms limiting exercise are predominantly
fatigue
or dyspnoea, and yet the classical pathophysiological explanations for their genesis now seem inadequate. Recent investigations, as demonstrated, in part, by the research presented in this symposium, attest to the importance of abnormalities in peripheral blood flow and in skeletal muscle in producing both objective limitation to exercise and in explaining the generation of the exercise-limiting symptoms of the syndrome of stable optimally treated chronic heart failure. In addition it is now evident that these muscle changes may in addition have pathophysiological significance for the maintenance of sympatho-excitation during exercise and potentially therefore in the progression of left ventricular remodelling and in the susceptibility to ventricular arrhythmias. This paper presents some of the background evidence which leads to the hypothesis that a feedback loop links changes in skeletal muscle to
abnormal reflex
cardiopulmonary control which may both limit exercise and be harmful in the progression of the syndrome.
...
PMID:The "muscle hypothesis" of chronic heart failure. 893 79
The aetiology of exercise-associated muscle cramps (EAMC), defined as 'painful, spasmodic, involuntary contractions of skeletal muscle during or immediately after physical exercise', has not been well investigated and is therefore not well understood. This review focuses on the physiological basis for skeletal muscle relaxation, a historical perspective and analysis of the commonly postulated causes of EAMC, and known facts about EAMC from recent clinical studies. Historically, the causes of EAMC have been proposed as (1) inherited abnormalities of substrate metabolism ('metabolic theory') (2) abnormalities of fluid balance ('dehydration theory'), (3) abnormalities of serum electrolyte concentrations ('electrolyte theory') and (4) extreme environmental conditions of heat or cold ('environmental theory'). Detailed analyses of the available scientific literature including data from recent studies do not support these hypothesis for the causes of EAMC. In a recent study, electromyographic (EMG) data obtained from runners during EAMC revealed that baseline activity is increased (between spasms of cramping) and that a reduction in the baseline EMG activity correlates well with clinical recovery. Furthermore, during acute EAMC the EMG activity is high, and passive stretching is effective in reducing EMG activity. This relieves the cramp probably by invoking the inverse stretch reflex. In two animal studies,
abnormal reflex
activity of the muscle spindle (increased activity) and the Golgi tendon organ (decreased activity) has been observed in fatigued muscle. We hypothesize that EAMC is caused by sustained abnormal spinal reflex activity which appears to be secondary to muscle
fatigue
. Local muscle
fatigue
is therefore responsible for increased muscle spindle afferent and decreased Golgi tendon organ afferent activity. Muscles which cross two joints can more easily be placed in shortened positions during exercise and would therefore decrease the Golgi tendon organ afferent activity. In addition, sustained
abnormal reflex
activity would explain increased baseline EMG activity between acute bouts of cramping. Finally, passive stretching invokes afferent activity from the Golgi tendon organ, thereby relieving the cramp and decreasing EMG activity.
...
PMID:Aetiology of skeletal muscle 'cramps' during exercise: a novel hypothesis. 923 53
Human temporomandibular disorders due to disturbed occlusal mechanics are characterized by sensory, motor and autonomic symptoms, possibly related to muscle overwork and
fatigue
. Our previous study in rats with experimentally-induced malocclusion due to unilateral molar cusp amputation showed that the ipsilateral masseter muscles undergo morphological and biochemical changes consistent with muscle hypercontraction and ischemia. In the present study, the masseter muscle spindles of the same malocclusion-bearing rats were examined by electron microscopy. Sham-operated rats were used as controls. In the treated rats, clear-cut alterations of the muscle spindles were observed 26 days after surgery, when the extrafusal muscle showed the more severe damage. The fusal alterations affected predominantly capsular cells, intrafusal muscle fibers and sensory nerve endings. These results suggest that in the malocclusion-bearing rats, an
abnormal reflex
regulation of the motor activity of the masticatory muscles may take place. They also allow us to hypothesize that muscle spindle alterations might be involved in the pathogenesis of human temporomandibular disorders.
...
PMID:Ultrastructural abnormalities of muscle spindles in the rat masseter muscle with malocclusion-induced damage. 1181 85
