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A description of the biochemical processes that occur during cellular damage of specific organs; for example, what happens to the cells during heart attacks, strokes and muscular dystrophy.
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A description of the biochemical processes that occur during cellular damage of specific organs; for example, what happens to the cells during heart attacks, strokes and muscular dystrophy.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 240
- Erscheinungstermin: 26. Dezember 2007
- Englisch
- Abmessung: 229mm x 152mm x 14mm
- Gewicht: 396g
- ISBN-13: 9780521057615
- ISBN-10: 0521057612
- Artikelnr.: 23438493
- Verlag: Cambridge University Press
- Seitenzahl: 240
- Erscheinungstermin: 26. Dezember 2007
- Englisch
- Abmessung: 229mm x 152mm x 14mm
- Gewicht: 396g
- ISBN-13: 9780521057615
- ISBN-10: 0521057612
- Artikelnr.: 23438493
1. Are there common biochemical pathways in cell damage and cell death? C.
J. Duncan; 2. Free radicals in the pathogenesis of tissue damage M. J.
Jackson; 3. Calcium and signal transduction in oxidative cell damage P.
Nicotera, G. E. N. Kass, S. K. Duddy and S. Orrenius; 4. Regulation of
neutrophil oxidant production S. W. Edwards; 5. Reperfusion arrhythmias:
role of oxidant stress M. J. Shattock, H. Matsuura and D. J. Hearse; 6.
Biochemical pathways that lead to the release of cytosolic proteins in the
perfused rat heart C. J. Duncan; 7. Malignant hyperthermia: the roles of
free radicals and calcium? J. R. Arthur and G. G. Duthie; 8. Free radicals,
calcium and damage in dystrophic and normal skeletal muscle M. J. Jackson,
A. McArdle and R. H. T. Edwards; 9. Ultrastructural changes in mitochondria
during rapid damage triggered by calcium C. J. Duncan and N. Shamsadeen;
10. The importance of oxygen free radicals, iron and calcium in renal
ischaemia J. D. Gower, L. A. Cotterill and C. J. Green; 11. The Rubicon
Hypothesis: a quantal framework for understanding the molecular pathway of
cell activation and injury A. K. Campbell.
J. Duncan; 2. Free radicals in the pathogenesis of tissue damage M. J.
Jackson; 3. Calcium and signal transduction in oxidative cell damage P.
Nicotera, G. E. N. Kass, S. K. Duddy and S. Orrenius; 4. Regulation of
neutrophil oxidant production S. W. Edwards; 5. Reperfusion arrhythmias:
role of oxidant stress M. J. Shattock, H. Matsuura and D. J. Hearse; 6.
Biochemical pathways that lead to the release of cytosolic proteins in the
perfused rat heart C. J. Duncan; 7. Malignant hyperthermia: the roles of
free radicals and calcium? J. R. Arthur and G. G. Duthie; 8. Free radicals,
calcium and damage in dystrophic and normal skeletal muscle M. J. Jackson,
A. McArdle and R. H. T. Edwards; 9. Ultrastructural changes in mitochondria
during rapid damage triggered by calcium C. J. Duncan and N. Shamsadeen;
10. The importance of oxygen free radicals, iron and calcium in renal
ischaemia J. D. Gower, L. A. Cotterill and C. J. Green; 11. The Rubicon
Hypothesis: a quantal framework for understanding the molecular pathway of
cell activation and injury A. K. Campbell.
1. Are there common biochemical pathways in cell damage and cell death? C.
J. Duncan; 2. Free radicals in the pathogenesis of tissue damage M. J.
Jackson; 3. Calcium and signal transduction in oxidative cell damage P.
Nicotera, G. E. N. Kass, S. K. Duddy and S. Orrenius; 4. Regulation of
neutrophil oxidant production S. W. Edwards; 5. Reperfusion arrhythmias:
role of oxidant stress M. J. Shattock, H. Matsuura and D. J. Hearse; 6.
Biochemical pathways that lead to the release of cytosolic proteins in the
perfused rat heart C. J. Duncan; 7. Malignant hyperthermia: the roles of
free radicals and calcium? J. R. Arthur and G. G. Duthie; 8. Free radicals,
calcium and damage in dystrophic and normal skeletal muscle M. J. Jackson,
A. McArdle and R. H. T. Edwards; 9. Ultrastructural changes in mitochondria
during rapid damage triggered by calcium C. J. Duncan and N. Shamsadeen;
10. The importance of oxygen free radicals, iron and calcium in renal
ischaemia J. D. Gower, L. A. Cotterill and C. J. Green; 11. The Rubicon
Hypothesis: a quantal framework for understanding the molecular pathway of
cell activation and injury A. K. Campbell.
J. Duncan; 2. Free radicals in the pathogenesis of tissue damage M. J.
Jackson; 3. Calcium and signal transduction in oxidative cell damage P.
Nicotera, G. E. N. Kass, S. K. Duddy and S. Orrenius; 4. Regulation of
neutrophil oxidant production S. W. Edwards; 5. Reperfusion arrhythmias:
role of oxidant stress M. J. Shattock, H. Matsuura and D. J. Hearse; 6.
Biochemical pathways that lead to the release of cytosolic proteins in the
perfused rat heart C. J. Duncan; 7. Malignant hyperthermia: the roles of
free radicals and calcium? J. R. Arthur and G. G. Duthie; 8. Free radicals,
calcium and damage in dystrophic and normal skeletal muscle M. J. Jackson,
A. McArdle and R. H. T. Edwards; 9. Ultrastructural changes in mitochondria
during rapid damage triggered by calcium C. J. Duncan and N. Shamsadeen;
10. The importance of oxygen free radicals, iron and calcium in renal
ischaemia J. D. Gower, L. A. Cotterill and C. J. Green; 11. The Rubicon
Hypothesis: a quantal framework for understanding the molecular pathway of
cell activation and injury A. K. Campbell.