-
Vascular Health and Risk Management
-
About Dovepress
Open access peer-reviewed scientific and medical journals.
-
Open Access
Dove Medical Press is now a member of the Open Access Initiative
-
An Author's Guide
A guide to help authors get their paper published.
-
Advocacy
Support Open Access and Dove Press
-
Reprints
Promotional Article Monitoring - further details
-
Favored Author Program
Real benefits for authors, including fast-track processing of papers.
Protein C preserves microcirculation in a model of neonatal septic shock
Short Report
(2552) Views (732) Full article downloads
Authors: Doris Fischer, Marcel F Nold, Claudia A Nold-Petry, et al
Published Date September 2009
Volume 2009:5 Pages 775 - 781
DOI: http://dx.doi.org/10.2147/VHRM.S5863
Doris Fischer1, Marcel F Nold2, Claudia A Nold-Petry2, Antonio Furlan2, Alex Veldman3
1Department of Pediatrics, Hospital of the J W Goethe University, Frankfurt, Germany; 2Division of Infectious Diseases, University of Colorado Denver, Aurora, CO, USA; 3Monash Newborn, Monash Medical Centre, Melbourne, VIC, Australia
Objectives: Sepsis remains a disease with a high mortality in neonates. Microcirculatory impairment plays a pivotal role in the development of multiorgan failure in septic newborns. The hemodynamic effects of recombinant activated protein C (rhAPC) were tested in an animal model of neonatal septic shock focusing on intestinal microcirculation.
Materials and methods: Endotoxic shock was triggered by intravenous application of Escherichia coli lipopolysaccarides in newborn piglets. Thereafter, five animals received a continuous infusion of 24 µg/kg/h rhAPC, and five received vehicle for control. Over the course of three hours, intestinal microcirculation was assessed by intravital microscopy every 30 min. Macrocirculation and blood counts were monitored simultaneously.
Results: After a short hypotensive period in all animals, the arterial blood pressure returned to baseline in the rhAPC-treated piglets, whereas the hypotension became increasingly severe in the controls. By 90 min, mean blood pressure in the controls was significantly lower than in the treatment group. Similar observations were made regaring microcirculation. After an early impairment in all study animals, functional capillary density and intestinal microcirculatory red blood cell velocity and red blood cell flow recovered in the rhAPC group, but deteriorated further in the control piglets.
Conclusion: Recombinant activated protein C protects macro- and microcirculation from endotoxic shock.
Keywords: protein C, neonatal septic shock, microcirculation, intravital microscopy
Download Video
Other articles by Dr Marcel Nold
Thrombosis in the critically ill neonate: incidence, diagnosis, and management- Join ISVH
Be part of the World's leading experts in vascular health by joining the International Society of Vascular Health (ISVH)
- Testimonials
"... I was impressed at the rapidity of publication from submission to final acceptance." Dr Edwin Thrower, PhD, Yale University
- The western diet and lifestyle and diseases of civilization
- Stiffness of the large arteries in individuals with and without Down syndrome
- Effects of Azelnidipine plus OlmesaRTAn versus amlodipine plus olmesartan on central blood pressure and left ventricular mass index: the AORTA study
- Vascular effects of rapid-acting insulin analogs in the diabetic patient: a review
