T. R. Helliwell scite author profile

Skeletal muscle wasting is commonly observed in critically-ill patients and has been attributed to catabolic fibre atrophy and to neuropathy. This study describes the occurrence of a necrotizing myopathy in 15 out of 31 critically-ill patients who had percutaneous biopsies taken from the tibialis anterior muscles. While most cases showed necrosis of isolated fibres, 5 of the 12 patients who had serial biopsies showed progressive necrosis of up to 95 per cent of the fibres. One other case showed infarction and one case had staphylococcal vasculitis. Atrophy of type 1 and/or type 2 fibres was documented by morphometry in 12 cases. Myoglobin-containing casts were demonstrated immunohistochemically in renal tubules on either biopsy or necropsy material in 5 out of 7 cases. The presence of muscle necrosis was a clinically unexpected finding which may contribute to weakness, complicate the interpretation of tissue biochemistry and energy balance studies, and potentiate renal failure. The necrosis is probably multifactorial in origin, with ischaemia and sepsis contributing factors.

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Skeletal Muscle Involvement in Falciparum Malaria: Biochemical and Ultrastructural Study

Davis

Pongponratan

Supanaranond

et al. 1999

CLIN INFECT DIS

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Biochemical evidence of skeletal muscle damage is common in malaria, but rhabdomyolysis appears to be rare. To investigate the relationship between serum creatine kinase and myoglobin levels, muscle histology, and renal function in Plasmodium falciparum infections, we studied 13 patients with uncomplicated malaria, 13 with severe noncerebral malaria, and 10 with cerebral malaria. A muscle biopsy specimen was obtained from each patient for light microscopy and electron microscopy. Mean serum creatine kinase concentrations +/- SD were raised but similar for the three groups (258 +/- 277, 149 +/- 158, and 203 +/- 197 U/L, respectively; P = .5). The mean serum myoglobin level +/- SD was highest in cerebral malaria (457 +/- 246 vs. 170 +/- 150 and 209 +/- 125 ng/mL in uncomplicated and severe malaria, respectively; P < .01) and correlated with the mean serum creatinine level (r = .39 for 36 patients; P = .02). The number of intravascular parasites, proportion of mature forms, and glycogen depletion were highest in biopsy specimens from patients with cerebral malaria. Myonecrosis was not observed. Muscle appears to be an important site for P. falciparum sequestration, which could contribute to metabolic and renal complications.

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Investigation of Muscle Imbalance in the Leg in Symptomatic Forefoot Pes Cavus: A Multidisciplinary Study

et al. 1992

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The cross-sectional areas of the peroneal and anterior muscle compartments at the same level in the upper leg were measured using magnetic resonance imaging in 41 cases of forefoot pes cavus. The pes cavus group included idiopathic cases and pes cavus associated with Charcot-Marie-Tooth disease, Friedreich's ataxia, cerebral palsy, status postpoliomyelitis, nerve trauma, and spinal cord tethering. Thirty-nine of these cases were symptomatic. The results were compared with studies of 11 normal controls. It was found that in the majority of cases of forefoot cavus, the peroneal compartment was enlarged relative to the anterior compartment when compared with the normal controls. Biopsies of the tibialis anterior and peroneus longus muscles in 18 patients with forefoot pes cavus showed that any relative expansion of the peroneus longus was not due to pseudohypertrophy. Overaction of the peroneus longus in comparison to its antagonist the tibialis anterior is proposed as an important factor in the pathogenesis of the majority of symptomatic cases of forefoot pes cavus.

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T. R. Helliwell

Effect of passive stretching on the wasting of muscle in the critically ill

Necrotizing myopathy in critically‐ill patients

Skeletal Muscle Involvement in Falciparum Malaria: Biochemical and Ultrastructural Study

Investigation of Muscle Imbalance in the Leg in Symptomatic Forefoot Pes Cavus: A Multidisciplinary Study

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