Shinnosuke Nomoto scite author profile

The pulmonary and systemic hemodynamic response to four hours of hemorrhagic shock and resuscitation has been studied in 17 baboons using both open and closed chest models. No pulmonary artery (PA) hypertension occurred during shock or resuscitation except for an increase in lft ventricular end diastolic pressure (LVEDP) secondary to intravascular volumee overload with Dextran. Pulmonary vascular resistance (PVR) increased during shock but returned to control levels with reinfusion of shed blood and correction of acidosis. PVR was moderately elevated following reinfusion of shed blood if acidosis was not corrected or if volum resuscitation was inadequate. No increase in gradients occurred between PA pressure and left atrial (LA) pressure or LVEDP and there was no gradients between small pulmonary vein and LA pressure. Arterial PO2 uniformly increased during shock and remained at or above control levels of reinfusion. Gross or histologic evidence of "congestive atelectasis" or "shock lung" was not observed. These observations suggest that in the subhuman primate, hemorrhage alone does not produce significant injury to the lung during shock or the immediate postresuscitation interval. Hemorrhage alone did not produce changes in the lung which would result in increased pulmonary microvascular hydrostatic pressure following appropriate resuscitation.

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A case of cystadenocarcinoma of the appendix with sigmoid cancer.

Kimura¹,

Mizuno²,

Kanemaki³

et al. 1985

Jpn J Gastroenterol Surg, Nihon Shokaki Geka Gakkai zasshi

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Shinnosuke Nomoto

Pulmonary Anatomic Arteriovenous Shunting Caused by Epinephrine

Pulmonary Insufficiency Caused by Epinephrine

Pulmonary Arteriovenous Shunting Due to Epinephrine

Pulmonary and Systemic Hemodynamics During Hemorrhagic Shock in Baboons

A case of cystadenocarcinoma of the appendix with sigmoid cancer.

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