Abstract
Background. To identify vascular beds where endogenous adenosine plays a significant role as a mediator of resting perfusion alterations associated with sepsis, we tested the hypothesis that adenosine receptor blockade would cause differential regional increases in vascular resistance during intraperitoneal (ip) sepsis in the rat. Materials and methods. Rats (250-350 g) were catheterized and randomized to septic or nonseptic groups. Sepsis was induced with an ip injection of cecal slurry (150 mg/kg in D5W; 5 ml/kg), and baseline hemodynamics, cardiac output (CO), and blood flows (microspheres) were measured 24 h later. Animals then received the adenosine receptor antagonist 8-phenyltheophylline (8-PTH; 10 mM, 1.5 ml/kg), its vehicle (1.5 ml/kg), or normal saline (1.5 ml/kg), iv, and measurements were repeated. Results. Septic animals treated with 8-PTH had a significant increase in skeletal muscle, hepatic portal, and cerebral vascular resistance with concomitant decreases in CO when compared with vehicle at 1 min. No significant resistance changes were observed in the renal, adipose, or coronary vasculatures. Adenosine receptor blockade caused a significant increase in +dP/dt and -dP/dt during sepsis, indicating that the reduced CO was not secondary to myocardial depression. Conclusions. These data suggest that adenosine receptor-mediated actions during sepsis affect vascular beds selectively and indicate a significant role for adenosine in resting perfusion redistribution in sepsis.
Original language | American English |
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Journal | Journal of Surgical Research |
Volume | 80 |
State | Published - Jan 1 1998 |
Keywords
- 8 phenyltheophylline
- Animal
- Animals
- Cardiac Output
- Cardiac performance
- Disease Models
- Hemodynamic Processes
- Microspheres
- Nucleosides
- Organ Specificity
- Perfusion
- Peritonitis
- Purinergic P1
- Rats
- Receptors
- Shock
- Sprague-Dawley
- Theophylline
- Vascular Resistance
- adenosine
- adenosine receptor
- adenosine receptor blocking agent
- adipose tissue
- animal experiment
- animal model
- article
- blood vessel compliance
- blood vessel tone
- brain vascular resistance
- controlled study
- coronary vascular resistance
- enzyme activity
- free radical
- heart output
- heart performance
- heart rate
- heart stroke volume
- kidney vascular resistance
- liver circulation
- male
- mean arterial pressure
- muscle blood flow
- nitric oxide
- nitric oxide synthase
- nonhuman
- priority journal
- rat
- receptor blocking
- regulatory mechanism
- sepsis
- systemic vascular resistance
Disciplines
- Medicine and Health Sciences