Electrical Trauma
The Pathophysiology, Manifestations and Clinical Management
Herausgeber: Burke, J. F.; Lee, R. C.; Cravalho, E. G.
Schade – dieser Artikel ist leider ausverkauft. Sobald wir wissen, ob und wann der Artikel wieder verfügbar ist, informieren wir Sie an dieser Stelle.
Electrical Trauma
The Pathophysiology, Manifestations and Clinical Management
Herausgeber: Burke, J. F.; Lee, R. C.; Cravalho, E. G.
- Broschiertes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
This comprehensive 1992 treatise was the first on electrical trauma in humans.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 458
- Erscheinungstermin: 9. Februar 2011
- Englisch
- Abmessung: 229mm x 152mm x 27mm
- Gewicht: 738g
- ISBN-13: 9780521116145
- ISBN-10: 0521116147
- Artikelnr.: 33609780
- Verlag: Cambridge University Press
- Seitenzahl: 458
- Erscheinungstermin: 9. Februar 2011
- Englisch
- Abmessung: 229mm x 152mm x 27mm
- Gewicht: 738g
- ISBN-13: 9780521116145
- ISBN-10: 0521116147
- Artikelnr.: 33609780
Contributors; Preface; Acknowledgements; Part I. Introduction: 1.
Electrical burns: a historical review T. Bernstein; 2. Industrial
electrical accidents and their complications observed by Electricité de
France J. Cabanes; 3. The pathophysiology and clinical management of
electrical injury R. C. Lee; Part II. Clinical Manifestations and
Management: 4. Soft tissue patterns in acute electric burns J. L. Hunt; 5.
The spectrum of electrical injuries E. A. Luce; 6. Electrical trauma:
pathophysiology and clinical management R. H. Demling; 7. Acute and delayed
neurological sequelae of electrical injury B. J. Grube and D. M. Heimbach;
8. Paediatric electrical burns C. F. Keusch, G. H. Gifford and E. Eriksson;
9. Surgical technique for salvage of electrically damaged tissue L. J.
Gottlieb, J. Saunders and T. J. Krizek; Part III. Tissue Responses: 10. The
role of arachidonic acid metabolism in the pathogenesis of electrical
trauma M. C. Robson; P. G. Hayward and J. P. Heggers; 11. Thermal damage:
mechanisms, patterns and detection in electrical burns P. Héroux; 12.
Evaluation of electrical burn injury using an electrical impedance
technique M. Chilbert; 13. Impedance spectroscopy: the measurement of
electrical impedance of biological materials R. Schmukler; 14. Analysis of
heat injury to the upper extremity of electric shock victims: a theoretical
model B. I. Tropea and R. C. Lee; Part IV: Biophysical Mechanisms of
Cellular Injury: 15. Response of cells to supra-physiological temperatures:
experimental measurements and kinetic models E. G. Cravalho, M. Toner, D.
C. Gaylor and R. C. Lee; 16. Cell membrane rupture by strong electric
fields: prompt and delayed processes J. C. Weaver; 17. An anisotropic,
elastomechanical instability theory for electropermeabilisation of
bilayer-lipid membranes C. Maldarelli and K. Stebe; 18. Electrical injury
to heart muscle cells L. Tung; 19. Skeletal muscle cell membrane electrical
breakdown in electrical trauma D. C. Gaylor, D. L. Bhatt and R. C. Lee; 20.
Theory of non-linear conduction in cell membranes under strong electric
fields R. C. Lee and K. Prakah-Asante; Index.
Electrical burns: a historical review T. Bernstein; 2. Industrial
electrical accidents and their complications observed by Electricité de
France J. Cabanes; 3. The pathophysiology and clinical management of
electrical injury R. C. Lee; Part II. Clinical Manifestations and
Management: 4. Soft tissue patterns in acute electric burns J. L. Hunt; 5.
The spectrum of electrical injuries E. A. Luce; 6. Electrical trauma:
pathophysiology and clinical management R. H. Demling; 7. Acute and delayed
neurological sequelae of electrical injury B. J. Grube and D. M. Heimbach;
8. Paediatric electrical burns C. F. Keusch, G. H. Gifford and E. Eriksson;
9. Surgical technique for salvage of electrically damaged tissue L. J.
Gottlieb, J. Saunders and T. J. Krizek; Part III. Tissue Responses: 10. The
role of arachidonic acid metabolism in the pathogenesis of electrical
trauma M. C. Robson; P. G. Hayward and J. P. Heggers; 11. Thermal damage:
mechanisms, patterns and detection in electrical burns P. Héroux; 12.
Evaluation of electrical burn injury using an electrical impedance
technique M. Chilbert; 13. Impedance spectroscopy: the measurement of
electrical impedance of biological materials R. Schmukler; 14. Analysis of
heat injury to the upper extremity of electric shock victims: a theoretical
model B. I. Tropea and R. C. Lee; Part IV: Biophysical Mechanisms of
Cellular Injury: 15. Response of cells to supra-physiological temperatures:
experimental measurements and kinetic models E. G. Cravalho, M. Toner, D.
C. Gaylor and R. C. Lee; 16. Cell membrane rupture by strong electric
fields: prompt and delayed processes J. C. Weaver; 17. An anisotropic,
elastomechanical instability theory for electropermeabilisation of
bilayer-lipid membranes C. Maldarelli and K. Stebe; 18. Electrical injury
to heart muscle cells L. Tung; 19. Skeletal muscle cell membrane electrical
breakdown in electrical trauma D. C. Gaylor, D. L. Bhatt and R. C. Lee; 20.
Theory of non-linear conduction in cell membranes under strong electric
fields R. C. Lee and K. Prakah-Asante; Index.
Contributors; Preface; Acknowledgements; Part I. Introduction: 1.
Electrical burns: a historical review T. Bernstein; 2. Industrial
electrical accidents and their complications observed by Electricité de
France J. Cabanes; 3. The pathophysiology and clinical management of
electrical injury R. C. Lee; Part II. Clinical Manifestations and
Management: 4. Soft tissue patterns in acute electric burns J. L. Hunt; 5.
The spectrum of electrical injuries E. A. Luce; 6. Electrical trauma:
pathophysiology and clinical management R. H. Demling; 7. Acute and delayed
neurological sequelae of electrical injury B. J. Grube and D. M. Heimbach;
8. Paediatric electrical burns C. F. Keusch, G. H. Gifford and E. Eriksson;
9. Surgical technique for salvage of electrically damaged tissue L. J.
Gottlieb, J. Saunders and T. J. Krizek; Part III. Tissue Responses: 10. The
role of arachidonic acid metabolism in the pathogenesis of electrical
trauma M. C. Robson; P. G. Hayward and J. P. Heggers; 11. Thermal damage:
mechanisms, patterns and detection in electrical burns P. Héroux; 12.
Evaluation of electrical burn injury using an electrical impedance
technique M. Chilbert; 13. Impedance spectroscopy: the measurement of
electrical impedance of biological materials R. Schmukler; 14. Analysis of
heat injury to the upper extremity of electric shock victims: a theoretical
model B. I. Tropea and R. C. Lee; Part IV: Biophysical Mechanisms of
Cellular Injury: 15. Response of cells to supra-physiological temperatures:
experimental measurements and kinetic models E. G. Cravalho, M. Toner, D.
C. Gaylor and R. C. Lee; 16. Cell membrane rupture by strong electric
fields: prompt and delayed processes J. C. Weaver; 17. An anisotropic,
elastomechanical instability theory for electropermeabilisation of
bilayer-lipid membranes C. Maldarelli and K. Stebe; 18. Electrical injury
to heart muscle cells L. Tung; 19. Skeletal muscle cell membrane electrical
breakdown in electrical trauma D. C. Gaylor, D. L. Bhatt and R. C. Lee; 20.
Theory of non-linear conduction in cell membranes under strong electric
fields R. C. Lee and K. Prakah-Asante; Index.
Electrical burns: a historical review T. Bernstein; 2. Industrial
electrical accidents and their complications observed by Electricité de
France J. Cabanes; 3. The pathophysiology and clinical management of
electrical injury R. C. Lee; Part II. Clinical Manifestations and
Management: 4. Soft tissue patterns in acute electric burns J. L. Hunt; 5.
The spectrum of electrical injuries E. A. Luce; 6. Electrical trauma:
pathophysiology and clinical management R. H. Demling; 7. Acute and delayed
neurological sequelae of electrical injury B. J. Grube and D. M. Heimbach;
8. Paediatric electrical burns C. F. Keusch, G. H. Gifford and E. Eriksson;
9. Surgical technique for salvage of electrically damaged tissue L. J.
Gottlieb, J. Saunders and T. J. Krizek; Part III. Tissue Responses: 10. The
role of arachidonic acid metabolism in the pathogenesis of electrical
trauma M. C. Robson; P. G. Hayward and J. P. Heggers; 11. Thermal damage:
mechanisms, patterns and detection in electrical burns P. Héroux; 12.
Evaluation of electrical burn injury using an electrical impedance
technique M. Chilbert; 13. Impedance spectroscopy: the measurement of
electrical impedance of biological materials R. Schmukler; 14. Analysis of
heat injury to the upper extremity of electric shock victims: a theoretical
model B. I. Tropea and R. C. Lee; Part IV: Biophysical Mechanisms of
Cellular Injury: 15. Response of cells to supra-physiological temperatures:
experimental measurements and kinetic models E. G. Cravalho, M. Toner, D.
C. Gaylor and R. C. Lee; 16. Cell membrane rupture by strong electric
fields: prompt and delayed processes J. C. Weaver; 17. An anisotropic,
elastomechanical instability theory for electropermeabilisation of
bilayer-lipid membranes C. Maldarelli and K. Stebe; 18. Electrical injury
to heart muscle cells L. Tung; 19. Skeletal muscle cell membrane electrical
breakdown in electrical trauma D. C. Gaylor, D. L. Bhatt and R. C. Lee; 20.
Theory of non-linear conduction in cell membranes under strong electric
fields R. C. Lee and K. Prakah-Asante; Index.