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Microcirculation Volume 2, 1995 - Issue 3
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Original Article

Microcirculatory Homeostasis 1930–1990: Insight into Microcirculatory Readjustments Provided by Studies on the Peripheral Circulatory Insufficiency of the Shock Syndrome

Benjamin W. Zweifach Institute For Biomedical Engineering, University of California, San Diego, La Jolla, California, USA
Pages 245-251 | Published online: 10 Jul 2009

References

  • Benacerraf B, Sebastien MM. Effect of bacterial endotoxins on the reticulo-endothelial system. Fed Proc 1957; 16: 860–867
  • Bevilacqua MP. Endothelial-leukocyte adhesion molecules. Annu Rev Immunol 1993; 11: 767–804
  • Biemond P, Swack A JG, van Euk HG, Koster JF. Superoxide dependent iron release from ferritin in inflammatory states. Free Radical Biol Med 1988; 4: 185–199
  • Blalock A. A consideration of the present status of the shock problem. Surgery 1943; 14: 487–508
  • Chambers R, Zweifach BW. Topography and function of the mesenteric circulation. Am J Anat 1944; 75: 173–205
  • Clark ER, Clark EL. Changes in minute blood vessels observed in the living mammal. Am J Anat 1943; 73: 215–250
  • Davis E. Clinical vasomicroscopy. Microcirculation, G Kaley, BM Altura. University Park Press, Baltimore, MD 1980; Vol. III: 223–234
  • del Ray A, Besedovsky H. Metabolic and neuro-endocrine effects of pro-inflammatory cytokines. Eur J Clin Invest 1994; 22: 10–15
  • Ellsworth ML, Ellis CG, Popel AS, Pittman RN. Role of microvessels in oxygen supply to tissue. News Physiol Sci 1994; 9: 119–123
  • Fagrell B, Tooke J, Ostergren J. Vital microscopy for evaluating skin microcirculation in man. Prog Appl Microcirc 1984; 6: 129–140
  • Faraci FM. Role of endothelium-derived relaxing factor in cerebral circulation: large arteries vs. microcirculation. Am J Physiol (Heart Circ Physiol 30) 1991; 261: H1038–H1042
  • Fine J, Frank ED, Ravin HA, Rothenburg SH, Schweinburg FA. The bacterial factor in traumatic shock. N Engl J Med 1959; 260: 214–220
  • Folkow B, Sonnenschein RR, Wright DL. Loci of neurogenic and metabolic effects on precapillary vessels of skeletal muscle. Acta Physiol Scand 1971; 81: 459–471
  • Furchgott RF, Vanhoutte PM. Endothelium-derived relaxing factors. FASEB J 1989; 3: 2007–2018
  • Gerritson ME, Bloor CM. Endothelial cell gene expression in response to injury. FASEB J 1993; 7: 523–552
  • Goldblatt H. The Renal Origin of Hypertension. CC Thomas, Springfield, IL 1948
  • Hruza Z, Zweifach BW. Vascular reactivity to catecholamines in rats adapted to trauma. J Trauma 1969; 9: 430–441
  • Johnson PC. The myogenic response in the microcirculation and its interaction with other control systems. J Hypertens 1989; 7(Suppl 4)S33–S40
  • Koller A, Kaley G. Prostaglandins mediate arteriolar dilation to increased blood flow in skeletal muscle microcirculation. Circ Res 1990; 67: 529–534
  • Kovach S GB, Lefer AM. Endothelial dysfunction in shock states. News Physiol Sci 1993; 8: 145–148
  • Krogh A. The Anatomy and Physiology of Capillaries. Yale University Press., New Haven, CT 1922
  • Lawson CS, Downey JM. Preconditioning—state of art myocardial protection. Cardiovasc Res 1993; 27: 542–550
  • Lefer AM, Tsao A, Lefer DJ, Ma XI. Role of endothelial dysfunction in the pathogenesis of reperfusion injury after myocardial ischemia. FASEB J 1991; 5: 2029–2034
  • Lewis T. The vascular reactions of the skin to injury. I. Reactions to stroking. Heart 1924; 11: 119–129
  • Mazur A, Green S, Saha A, Carleton A. Mechanisms of release of ferritin iron in vivo by xanthine oxidase. J Clin Invest 1958; 37: 1809–1817
  • McMillan DE. Deterioration of the microcirculation in diabetes mellitus. J Clin Invest 1975; 54: 944–957
  • Michel CC. Capillary permeability and how it may change. J Physiol 1988; 404: 1–29
  • Moon V. Pathology of secondary shock. Am J Pathol 1948; 243: 204–273
  • Mullarkey C, Brownlee M. Biochemical basis of microvascular disease. Text Book of Diabetes, J Pickup, G Williams. Blackwell Scientific Publications., London 1991; 534–545
  • Nicoll PA, Webb RL. Vascular patterns and active vasomotion as determinants of flow through minute vessels. Angiology 1955; 6: 291–311
  • Noble RL, Collip JB. A quantitative method for the production of experimental traumatic shock without hemorrhage in unanesthetized animals. Quart J Exp Physiol 1942; 31: 187–197
  • Renkin EM. Cellular aspects of transvascular exchange. Microcirculation 1994; 1: 157–168
  • Rhodin J AG. Architecture of the vessel wall. Handbook of Physiology. The Cardiovascular System, DF Bohr, AP Somlyo, HV Sparks. American Physiology Society. Sect. 2, Bethesda, MD 1980; Vol. II: 1–31
  • Rubanyi GM. Role of endothelium in cardiovascular homeostasis and disease. J Cardiovasc Pharmacol. 1993; 22(Suppl 4)S1–S14
  • Schnitzer JE. Update of the cellular and molecular basis of capillary permeability. Trends Cardiovasc Med 1993; 3: 124–130
  • Selye H. The evolution of the stress concept. Am Sci 1973; 61: 692–699
  • Shorr E, Zweifach BW, Furchgott RF. On the occurrence, sites and modes of origin and destruction of principles affecting the compensatory vascular mechanisms in experimental shock. Science 1945; 102: 489–498
  • Ward PA. Inflammation. Principles of Pathobiology, LA Via, RB Hill. Oxford University Press., London 1975; 97–140
  • Weisman G, Thomas L. I. The effects of endotoxin, endotoxin tolerance and cortisone on the release of acid hydrolases from a granular fraction of rabbit liver. J Exp Med 1962; 116: 433–450
  • Wiggers CJ. Physiology of Shock. The Commonwealth Fund., New York 1950
  • Zweifach BW, Benacerraf B, Thomas L. The relationship between the vascular manifestations of shock produced by endotoxin, trauma and hemorrhage. II. The possible role of the reticulo-endothelial system in resistance to each type of shock. J Exp Med 1957; 106: 385–401
  • Zweifach BW. Microcirculatory derrangements as a basis for the lethal manifestations of experimental shock. Br J Anesth 1958; 30: 466–484
  • Zweifach BW, Lipowsky HH. Pressure-flow relations in blood and lymph microcirculation. Handbook of Physiology, The Cardiovascular System, Section IV, Microcirculation, Part I, EM Renkin, CC Michel. American Physiological Society, Bethesda, MD 1984; 251–307
  • Zweifach BW. Vitalism revisited—an historical perspective of microcirculatory concepts. Int J Microcirc Clin Exp 1994; 14: 122–131

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