Capnography: Clinical Aspects, Carbon Dioxide Over Time and Volume

Abstract

Machine derived contents note: Contributors; Preface; Commonly used abbreviations; Introduction; Part I. Clinical Perspectives: 1. Clinical perspectives J. S. Gravenstein and D. A. Paulus; Section 1a. Ventilation: Adequacy of Breathing Assessment: 2. Capnography and respiratory assessment outside of the operating room E. B. Lobato and R. R. Kirby; Section 1b. Ventilation: Airway Management: 3. Airway management: pre-hospital setting B. Carmack, S. Silvestri, G. A. Ralls and J. L. Falk; 4. Capnography: airway management in the intensive care unit setting P. N. Betadpur and J. D. Truwit; 5. Airway management in the operating room D. G. Bjoraker; Section 1c. Ventilation: Monitoring: 6. Capnography during anesthesia J. M. Goldman, J.S. Gravenstein, D. A. Paulus and A. Hamburger; 7. Monitoring during mechanical ventilation J. Thompson and N. Craig; 8. Capnography in transport M. A. Frakes; 9. Capnography as a guide to ventilation in the field D. P. Davis; 10. Time and volumetric capnography in the neonates G. Schmalisch; 11. Capnography and sleep: technical aspects T. Scha;fer; 12. A case for carbon dioxide monitoring in the sleep laboratory R. J. Thomas; 13. Capnography during sedation E. A. Bowe and E. F. Klein, Jr.; 14. Respiration at high- and low-pressure environments M. S. Ozcan and T. J. Gallagher; 15. Therapeutic use of ambulatory capnography A. E. Meuret, T. Ritz, B. Dahme and W. T. Roth; 16. Non-invasive end-tidal carbon dioxide monitoring in conjunction with non-invasive positive pressure ventilation L. Greenway; Section1d. Ventilation: Weaning: 17. End-tidal carbon dioxide monitoring in post-operative ventilator weaning J. Varon and P. E. Marik; 18. Capnography to optimize and minimize mechanical ventilation D. S. Hamel and I. M. Cheifetz; Section 1e. Special Situations: 19. Capnography and adjuncts of mechanical ventilation U. Lucangelo, F. Bernab,̈ A. Gullo and L. Blanch; Section 1f. Circulation: Transport of Carbon Dioxide and Pulmonary Blood Flow: 20. Cardiopulmonary resuscitation D. C. Cone, J. C. Cahill and M. A. Wayne; 21. Embolism J. T. Anderson; 22. Pulmonary blood flow monitoring: noninvasive cardiac output R. Dueck; 23. Partial pressure end-tidal carbon dioxide monitoring for patients with acute respiratory distress syndrome: effects of physiologic dead-space volume M. J. Banner; 24. The basis for capnometric monitoring in shock K. R. Ward; Section 1g. Metabolism: Carbon Dioxide Production: 25. Carbon dioxide production and anesthesia D. Wilner and C. Weissman; Section 1h. Organ Effects: 26. Hypocapnia and hypercapnia: tissue- and organ-specific effects O. Akȧ; Part II. Physiological Perspectives: 27. Physiological perspectives: introduction M. B. Jaffe; 28. Carbon dioxide pathophysiology T. E. Morey; 29. Acid-base balance A. Isenberg and P. Boysen; 30. Ventilation/perfusion abnormalities and capnography A. Gabrielli and A. J. Layon; 31. Capnographic measures U. Lucangelo, A. Gullo, F. Bernab ̈and L. Blanch; 32. Anatomical and physiological basis of volume capnography studied by the single path model P. W. Scherer and K. Zhao; Part III. Historical Perspectives: 33. Historical perspectives: introduction M. B. Jaffe; 34. Brief history of time and volumetric capnography M. B. Jaffe; 35. The first years of clinical capnography, B. Smalhout; 36. Volumetric capnography: the early days R. Fletcher; 37. Excerpts from an interview with Max Liston, Interviewed by D. C. Brock and G. E. Gallwas; Part IV. Technological Perspectives: 38. Technical perspectives: introduction M. B. Jaffe; 39. Technical specifications and standards D. E. Supkis; 40. Carbon dioxide measurement M. B. Jaffe; 41. Flow measurement M. B. Jaffe; 42. Combining flow and carbon dioxide M. B. Jaffe and J. Orr; Appendix: patterns of time-based capnograms; Index.