The role of the sympathetic nervous system in postasphyxial intestinal hypoperfusion in the pre-term sheep fetus

doi:10.1113/jphysiol.2004.062554

The role of the sympathetic nervous system in postasphyxial intestinal hypoperfusion in the pre-term sheep fetus

Josine S. Quaedackers¹²³, Vincent Roelfsema¹², Erik Heineman²³, Alistair J. Gunn¹²⁴⁵ and Laura Bennet¹²⁴⁵

^¹ Liggins Institute, Departments of^² Paediatrics^³ Surgery^⁴ Obstetrics and Gynaecology^⁵ Anatomy, The University of Auckland, Auckland, New Zealand

Asphyxia in utero in pre-term fetuses is associated with evolvinghypoperfusion of the gut after the insult. We examined the roleof the sympathetic nervous system (SNS) in mediating this secondaryhypoperfusion. Gut blood flow changes were also assessed duringpostasphyxial seizures. Preterm fetal sheep at 70% of gestation(103–104 days, term is 147 days) underwent sham asphyxiaor asphyxia induced by 25 min of complete cord occlusion andfetuses were studied for 3 days afterwards. Phentolamine (10mg bolus plus 10 mg h^–1I.V.) or saline was infused for8 h starting 15 min after the end of asphyxia or sham asphyxia.Phentolamine blocked the fall in superior mesenteric arteryblood flow (SMABF) after asphyxia and there was a significantdecrease in MAP for the first 3 h of infusion (33 ± 1.6mmHg versus vehicle 36.7 ± 0.8 mmHg, P < 0.005). Duringseizures SMABF fell significantly (8.3 ± 2.3 versus 11.4± 2.7 ml min^–1, P < 0.005), and SMABF was morethan 10% below baseline for 13.0 ± 1.7 min per seizure(versus seizure duration of 78.1 ± 7.2 s). Phentolaminewas associated with earlier onset of seizures (5.0 ±0.4 versus 7.1 ± 0.7 h, P < 0.05), but no change inamplitude or duration, and prevented the fall in SMABF. In conclusion,the present study confirms the hypothesis that postasphyxialhypoperfusion of the gut is strongly mediated by the SNS. Thedata highlight the importance of sympathetic activity in theinitial elevation of blood pressure after asphyxia and are consistentwith a role for the mesenteric system as a key resistance bedthat helps to maintain perfusion in other, more vulnerable systems.

(Received 7 February 2004; accepted after revision 5 April 2004; first published online 8 April 2004)
Corresponding author L. Bennet: Department of Anatomy, The University of Auckland, Private Bag 92019 Auckland, New Zealand. Email: l.bennet{at}auckland.ac.nz

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