Nitric oxide prevents the bacterial translocation and inhibits the systemic inflammatory response produced by implantation of a vascular prosthesis followed by Zymosan A.
OBJECTIVE AND DESIGN: To evaluate the beneficial effects of exogenous NO and its levels of action in a model of SIRS/Bacterial Translocation (BT) induced by two sequential insults. MATERIAL OR SUBJECTS: Eighty-six Wistar rats were submitted to different treatments and their tissue and blood samples were accessed at the end of the experiment. TREATMENT: Nitric Oxide was compared to Gentamicin as the tested guideline for our study. METHODS: Dacron graft implantation (first insult) and subsequent administration of Zymosan A((R)) (second insult) were performed in Wistar rats. The animals were divided into 6 groups: I) No manipulation (BASAL: ); II) Laparotomy (L) + mineral oil (SHAM: ); III) L + Graft-Zymosan (GZ) (CONTROL: ); IV) L + GZ + Antibiotic (A) (ASSAY: I); V) L + GZ + NO (ASSAY: II) and VI) L + GZ + A + NO (ASSAY: III). Determinations: Survival, Bacterial Translocation, myeloperoxidase (MPO), Cytokines (TNF-alpha, IL-1beta, IFN-gamma), Oxygen Free Radical (OFR) SOA and detoxifying enzymes (SOD, Superoxide Dismutase, CAT, Catalase and GPX, Glutathione Peroxidase), Cell Adhesion Molecules, CAMs (ICAM-1, VCAM-1 and PECAM-1) and Nuclear Transcription Factor, NFkappaB. RESULTS: The model established induced a mortality rate of 20% and generated BT in all samples. It also significantly increased all variables, with P < 0.001 for MPO and all Cytokines; P < 0.01 for all OFR, and P < 0.05 for CAMs and for NFkappaB. Treatment with A reduced mortality to 0%, significantly decreased BT, MPO, Cytokines and OFR (P < 0.05), but did not reduce CAMs or NFkappaB. NO, either alone or associated, reduced mortality to 0% and abolished BT, significantly decreasing nearly all the variables studied (P < 0.001 for MPO and all Cytokines; P < 0.01 for OFR, and P < 0.05 for CAMs and for NFkappaB). CONCLUSIONS: The exogenous administration of NO before the two sequential insults prevented BT and controlled SIRS peripherally and at both cellular and transcriptional level in a lasting manner. In contrast, antibiotic treatment only exerted its action at peripheral level. The association of both treatments did not provide any important advantages.[1]References
- Nitric oxide prevents the bacterial translocation and inhibits the systemic inflammatory response produced by implantation of a vascular prosthesis followed by Zymosan A. Lozano, F.S., Barros, M.B., Fresnadillo, M.J., García-Criado, F.J., Gomez-Alonso, A. Inflamm. Res. (2005) [Pubmed]
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