The Experts below are selected from a list of 1431 Experts worldwide ranked by ideXlab platform
C. Messina - One of the best experts on this subject based on the ideXlab platform.
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Muscle phosphoglycerate mutase (PGAM) deficiency in the first Caucasian patient: biochemistry, Muscle culture and^31P-MR spectroscopy
Journal of Neurology, 1994Co-Authors: G. Vita, A. Toscano, N. Bresolin, G. Meola, F. Fortunato, A. Baradello, B. Barbiroli, C. Frassineti, P. Zaniol, C. MessinaAbstract:Muscle phosphoglycerate mutase (PGAM) deficiency has been so far identified in only six patients, five of these being African Americans. We report the results of clinical, morphological, biochemical, Muscle culture and^31P-MR spectroscopy studies in the first Caucasian patient with Muscle PGAM deficiency. A 23-year-old man had a 10-year history of cramps after physical exertion with one episode of pigmenturia. Neurological examination and EMG study were normal. ECG and echocardiography revealed hypertrophy of the interventricular septum and slight dilatation of the left chambers of the Heart. Muscle Biopsy revealed increased glycogen content and some accumulation of mitochondria. Muscle PGAM activity was markedly decreased (6.5% and 9.7% of control value in two different biopsies). Citrate synthase and other mitochondrial respiratory chain enzyme activities were much higher than normal. In contrast to the marked decrease of PGAM activity observed in Muscle Biopsy, total enzyme activity in the patient's aneural Muscle culture was normal, being represented exclusively by BB isoenzyme. The deficiency of PGAM-MM isoenzyme was reproduced in the patient's innervated Muscle culture. Muscle^31P-MR spectroscopy showed accumulation of phosphomonoesters only on fast “glycolytic” exercise. On “aerobic” exercise, V_max, calculated from the work-energy cost transfer function, showed an increase consistent with the morphological and biochemical evidence of mitochondrial proliferation. This might represent a sort of compensatory aerobic effort in an attempt to restore Muscle power.
G. Vita - One of the best experts on this subject based on the ideXlab platform.
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Muscle phosphoglycerate mutase (PGAM) deficiency in the first Caucasian patient: biochemistry, Muscle culture and^31P-MR spectroscopy
Journal of Neurology, 1994Co-Authors: G. Vita, A. Toscano, N. Bresolin, G. Meola, F. Fortunato, A. Baradello, B. Barbiroli, C. Frassineti, P. Zaniol, C. MessinaAbstract:Muscle phosphoglycerate mutase (PGAM) deficiency has been so far identified in only six patients, five of these being African Americans. We report the results of clinical, morphological, biochemical, Muscle culture and^31P-MR spectroscopy studies in the first Caucasian patient with Muscle PGAM deficiency. A 23-year-old man had a 10-year history of cramps after physical exertion with one episode of pigmenturia. Neurological examination and EMG study were normal. ECG and echocardiography revealed hypertrophy of the interventricular septum and slight dilatation of the left chambers of the Heart. Muscle Biopsy revealed increased glycogen content and some accumulation of mitochondria. Muscle PGAM activity was markedly decreased (6.5% and 9.7% of control value in two different biopsies). Citrate synthase and other mitochondrial respiratory chain enzyme activities were much higher than normal. In contrast to the marked decrease of PGAM activity observed in Muscle Biopsy, total enzyme activity in the patient's aneural Muscle culture was normal, being represented exclusively by BB isoenzyme. The deficiency of PGAM-MM isoenzyme was reproduced in the patient's innervated Muscle culture. Muscle^31P-MR spectroscopy showed accumulation of phosphomonoesters only on fast “glycolytic” exercise. On “aerobic” exercise, V_max, calculated from the work-energy cost transfer function, showed an increase consistent with the morphological and biochemical evidence of mitochondrial proliferation. This might represent a sort of compensatory aerobic effort in an attempt to restore Muscle power.
A. Toscano - One of the best experts on this subject based on the ideXlab platform.
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Muscle phosphoglycerate mutase (PGAM) deficiency in the first Caucasian patient: biochemistry, Muscle culture and^31P-MR spectroscopy
Journal of Neurology, 1994Co-Authors: G. Vita, A. Toscano, N. Bresolin, G. Meola, F. Fortunato, A. Baradello, B. Barbiroli, C. Frassineti, P. Zaniol, C. MessinaAbstract:Muscle phosphoglycerate mutase (PGAM) deficiency has been so far identified in only six patients, five of these being African Americans. We report the results of clinical, morphological, biochemical, Muscle culture and^31P-MR spectroscopy studies in the first Caucasian patient with Muscle PGAM deficiency. A 23-year-old man had a 10-year history of cramps after physical exertion with one episode of pigmenturia. Neurological examination and EMG study were normal. ECG and echocardiography revealed hypertrophy of the interventricular septum and slight dilatation of the left chambers of the Heart. Muscle Biopsy revealed increased glycogen content and some accumulation of mitochondria. Muscle PGAM activity was markedly decreased (6.5% and 9.7% of control value in two different biopsies). Citrate synthase and other mitochondrial respiratory chain enzyme activities were much higher than normal. In contrast to the marked decrease of PGAM activity observed in Muscle Biopsy, total enzyme activity in the patient's aneural Muscle culture was normal, being represented exclusively by BB isoenzyme. The deficiency of PGAM-MM isoenzyme was reproduced in the patient's innervated Muscle culture. Muscle^31P-MR spectroscopy showed accumulation of phosphomonoesters only on fast “glycolytic” exercise. On “aerobic” exercise, V_max, calculated from the work-energy cost transfer function, showed an increase consistent with the morphological and biochemical evidence of mitochondrial proliferation. This might represent a sort of compensatory aerobic effort in an attempt to restore Muscle power.
N. Bresolin - One of the best experts on this subject based on the ideXlab platform.
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Muscle phosphoglycerate mutase (PGAM) deficiency in the first Caucasian patient: biochemistry, Muscle culture and^31P-MR spectroscopy
Journal of Neurology, 1994Co-Authors: G. Vita, A. Toscano, N. Bresolin, G. Meola, F. Fortunato, A. Baradello, B. Barbiroli, C. Frassineti, P. Zaniol, C. MessinaAbstract:Muscle phosphoglycerate mutase (PGAM) deficiency has been so far identified in only six patients, five of these being African Americans. We report the results of clinical, morphological, biochemical, Muscle culture and^31P-MR spectroscopy studies in the first Caucasian patient with Muscle PGAM deficiency. A 23-year-old man had a 10-year history of cramps after physical exertion with one episode of pigmenturia. Neurological examination and EMG study were normal. ECG and echocardiography revealed hypertrophy of the interventricular septum and slight dilatation of the left chambers of the Heart. Muscle Biopsy revealed increased glycogen content and some accumulation of mitochondria. Muscle PGAM activity was markedly decreased (6.5% and 9.7% of control value in two different biopsies). Citrate synthase and other mitochondrial respiratory chain enzyme activities were much higher than normal. In contrast to the marked decrease of PGAM activity observed in Muscle Biopsy, total enzyme activity in the patient's aneural Muscle culture was normal, being represented exclusively by BB isoenzyme. The deficiency of PGAM-MM isoenzyme was reproduced in the patient's innervated Muscle culture. Muscle^31P-MR spectroscopy showed accumulation of phosphomonoesters only on fast “glycolytic” exercise. On “aerobic” exercise, V_max, calculated from the work-energy cost transfer function, showed an increase consistent with the morphological and biochemical evidence of mitochondrial proliferation. This might represent a sort of compensatory aerobic effort in an attempt to restore Muscle power.
G. Meola - One of the best experts on this subject based on the ideXlab platform.
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Muscle phosphoglycerate mutase (PGAM) deficiency in the first Caucasian patient: biochemistry, Muscle culture and^31P-MR spectroscopy
Journal of Neurology, 1994Co-Authors: G. Vita, A. Toscano, N. Bresolin, G. Meola, F. Fortunato, A. Baradello, B. Barbiroli, C. Frassineti, P. Zaniol, C. MessinaAbstract:Muscle phosphoglycerate mutase (PGAM) deficiency has been so far identified in only six patients, five of these being African Americans. We report the results of clinical, morphological, biochemical, Muscle culture and^31P-MR spectroscopy studies in the first Caucasian patient with Muscle PGAM deficiency. A 23-year-old man had a 10-year history of cramps after physical exertion with one episode of pigmenturia. Neurological examination and EMG study were normal. ECG and echocardiography revealed hypertrophy of the interventricular septum and slight dilatation of the left chambers of the Heart. Muscle Biopsy revealed increased glycogen content and some accumulation of mitochondria. Muscle PGAM activity was markedly decreased (6.5% and 9.7% of control value in two different biopsies). Citrate synthase and other mitochondrial respiratory chain enzyme activities were much higher than normal. In contrast to the marked decrease of PGAM activity observed in Muscle Biopsy, total enzyme activity in the patient's aneural Muscle culture was normal, being represented exclusively by BB isoenzyme. The deficiency of PGAM-MM isoenzyme was reproduced in the patient's innervated Muscle culture. Muscle^31P-MR spectroscopy showed accumulation of phosphomonoesters only on fast “glycolytic” exercise. On “aerobic” exercise, V_max, calculated from the work-energy cost transfer function, showed an increase consistent with the morphological and biochemical evidence of mitochondrial proliferation. This might represent a sort of compensatory aerobic effort in an attempt to restore Muscle power.
