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1.  Impact of phenylephrine administration on cerebral tissue oxygen saturation and blood volume is modulated by carbon dioxide in anaesthetized patients† 
BJA: British Journal of Anaesthesia  2012;108(5):815-822.
Background
Multiple studies have shown that cerebral tissue oxygen saturation () is decreased after phenylephrine treatment. We hypothesized that the negative impact of phenylephrine administration on is affected by arterial blood carbon dioxide partial pressure () because CO2 is a powerful modulator of cerebrovascular tone.
Methods
In 14 anaesthetized healthy patients, i.v. phenylephrine bolus was administered to increase the mean arterial pressure ∼20–30% during hypocapnia, normocapnia, and hypercapnia. and cerebral blood volume (CBV) were measured using frequency domain near-infrared spectroscopy, a quantitative technology. Data collection occurred before and after each treatment.
Results
Phenylephrine caused a significant decrease in during hypocapnia [=−3.4 (1.5)%, P<0.001], normocapnia [=−2.4 (1.5)%, P<0.001], and hypercapnia [=−1.4 (1.5)%, P<0.01]. Decreases in were significantly different between hypocapnia, normocapnia, and hypercapnia (P<0.001). Phenylephrine also caused a significant decrease in CBV during hypocapnia (P<0.01), but not during normocapnia or hypercapnia.
Conclusion
The negative impact of phenylephrine treatment on and CBV is intensified during hypocapnia while blunted during hypercapnia.
doi:10.1093/bja/aes023
PMCID: PMC3325051  PMID: 22391890
carbon dioxide; cerebral blood volume; cerebral tissue oxygen saturation; modulation; phenylephrine
2.  Effect of phenylephrine and ephedrine bolus treatment on cerebral oxygenation in anaesthetized patients 
BJA: British Journal of Anaesthesia  2011;107(2):209-217.
Background
How phenylephrine and ephedrine treatments affect global and regional haemodynamics is of major clinical relevance. Cerebral tissue oxygen saturation ()-guided management may improve postoperative outcome. The physiological variables responsible for changes induced by phenylephrine and ephedrine bolus treatment in anaesthetized patients need to be defined.
Methods
A randomized two-treatment cross-over trial was conducted: one bolus dose of phenylephrine (100–200 µg) and one bolus dose of ephedrine (5–20 mg) were given to 29 ASA I–III patients anaesthetized with propofol and remifentanil. , mean arterial pressure (MAP), cardiac output (CO), and other physiological variables were recorded before and after treatments. The associations of changes were analysed using linear-mixed models.
Results
The CO decreased significantly after phenylephrine treatment [▵CO=−2.1 (1.4) litre min−1, P<0.001], but was preserved after ephedrine treatment [▵CO=0.5 (1.4) litre min−1, P>0.05]. The was significantly decreased after phenylephrine treatment [▵=−3.2 (3.0)%, P<0.01] but preserved after ephedrine treatment [▵=0.04 (1.9)%, P>0.05]. CO was identified to have the most significant association with (P<0.001). After taking CO into consideration, the other physiological variables, including MAP, were not significantly associated with (P>0.05).
Conclusions
Associated with changes in CO, decreased after phenylephrine treatment, but remained unchanged after ephedrine treatment. The significant correlation between CO and implies a cause–effect relationship between global and regional haemodynamics.
doi:10.1093/bja/aer150
PMCID: PMC3136202  PMID: 21642644
cardiac output; cerebral tissue oxygen saturation; ephedrine; mean arterial pressure; phenylephrine

Results 1-2 (2)