Klinische Wochenschrift
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Klinische Wochenschrift · Dec 1991
ReviewOxygen radicals--an important mediator of sepsis and septic shock.
There is considerable evidence to implicate aggressive species of oxygen in the pathogenesis of organ dysfunction consequent to sepsis and septic shock. The inflammatory process appears to participate ubiquitously in this setting. A characteristic of inflammation is the involvement of activated neutrophils and their generation of aggressive oxygen species. ⋯ For those reasons, the potential for antioxidants as therapy should include consideration of the volume of distribution of such substances. It is probably important that antioxidants access excluded spaces including cell interiors in order to have their maximum effect in this setting. We have studied ina preliminary way the effects of n-acetyl-cysteine, a highly permeable free radical scavenger and anti-oxidant, in patients with established ARDS.(ABSTRACT TRUNCATED AT 250 WORDS)
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This contribution focuses on the role of iron as a critical component in the genesis of oxygen radical mediated tissue injury occurring after global ischemia associated with severe hypovolemic shock. Conventional colloid or crystalloid fluid resuscitation does not adequately protect organs susceptible to reperfusion injury. One approach aimed at attenuating such post-trauma reperfusion injury is systemic, high dose, iron chelation used in combination with colloid fluid replacement.
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Klinische Wochenschrift · Dec 1991
Value of a modified continuity equation method to quantify mitral valve area in patients with mitral stenosis and sinus rhythm.
To quantify valve area in mitral stenosis, a modified continuity equation method using continuous wave Doppler and thermodilution measurements was applied. In 14 patients with mitral stenosis and sinus rhythm (age: 49 +/- 11 years), transmitral flow velocity was recorded by continuous wave Doppler during right and left heart catheterization. Mitral valve area was calculated by three different methods: 1. ⋯ In contrast, the correlation between mitral valve area determined by pressure half-time (y) and the Gorlin formula (x) was not as good: y = 0.77x + 0.11, SEE = 0.26 cm2, r = 0.65, P less than 0.05. Thus, the continuity equation method using combined continuous wave Doppler and thermodilution technique allows a valid determination of mitral valve area. In patients with mitral stenosis and sinus rhythm, this technique is superior to the noninvasive determination of mitral valve area by the conventional pressure half-time method.