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The role of propofol on nitric oxide production and oxdiative stress in cardivascular and pulmonary system during endotoxmia and ischemia-reperfusion injury: from animal to cell

Sepsis, a great challenge to the physician, is characterized with massive oxidative stress of tissue, cytokine inflammation and increases in nitric oxide (NO) production. Meanwhile, free radical induced by oxidative stress also injures cell membrane or DNA. The way to terminate free radical chain reaction is to administer antioxidant. The commonly used anesthetic, propofol, was thought to be with antioxidant capacity.
In the first part of this thesis, we investigated the different role of oxidative injury and NO via systemic injection of LPS in rats. We demonstrated oxidative injury is associated with both early and late stage whereas NO is engaged primarily in late stage cardiovascular depression. Propofol, a rapid onset and fast recovery anesthetic, is attributed to protect anainst cardiovascular depression via attenuating the late stage NO surge in aorta by inhibition of iNOS upregulation. We also examine the influence of propofol on temporal changes in power density of frequency components of systemic arterial pressure (SAP) variability in rat with sepsis and the role of inducible NO synthase (iNOS). We have the conclusions that iNOS-induced NO might be involved in the manifestation of high-frequency and low-frequency components of the SAP spectrum during endotoxemia when low-dose propofol is used and the effect of NO is blunted when high-dose propofol is administered. Due to further investigation was needed to the cellular protective mechanisms of propofol, we delineate the effect of propofol to free radical related enzymel involved in sepsis via both in vivo and vitro studies with rats subjected to LPS (15 mg/kg) and H9C2, L2, NR8383 (derived from rat cardiac myocyte, lung, macrophage, respectively), respectively. Our results demonstrated that propofol may play the major protective role on iNOS, superoxide dismutase and p47 phox oxidative enzymes on lung epithelial cells. Propofol also provided protective effects on cardiac myocyte and macrophage with suppression of iNOS only although free radical production were all significantly suppressed.
Ischemia-reperfusion (IR) injury may also produce a lot of free radical and cytokines to cause tissue damage and is common in clinical. We investigated the effect of propofol on free radical and cytokine production via this different model and compared with another rapid recovery anesthesitc, sevoflurane. Aortic decalmping surgery in porcine and their monocyte, aortic and coronary smooth muscle cells were applied for in vivo and in vitro model, respectively. We also demonstrated that propofol but not sevoflurane suppressed the production of free radical and cytokine in monocyte and smooth muscle cells but not in vivo model.
In sepsis and IR model that produced a lot free radical and cytokines, propofol eliminated the free redical and cytokines via suppressed different kinds of oxidative enzymes in different cells of different organs to express its protective role. However, as an anesthetic, propofol must be used carefully to perform its maximal benefit.

Identiferoai:union.ndltd.org:NSYSU/oai:NSYSU:etd-0219110-144108
Date19 February 2010
CreatorsLiu, Yen-Chin
ContributorsSamuel HH Chan, Julie YH Chan, Alice YW Chang, Yu-Yan Poon, Alice YW Chang, Yu-Chuan Tsai
PublisherNSYSU
Source SetsNSYSU Electronic Thesis and Dissertation Archive
LanguageEnglish
Detected LanguageEnglish
Typetext
Formatapplication/pdf
Sourcehttp://etd.lib.nsysu.edu.tw/ETD-db/ETD-search/view_etd?URN=etd-0219110-144108
Rightsnot_available, Copyright information available at source archive

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