Physiological measurement
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Physiological measurement · Aug 2003
Comparative StudyDo the Finapres and Colin radial artery tonometer measure the same blood pressure changes following deflation of thigh cuffs?
The objective of this work was to determine if systematic differences exist between blood pressure time series measured by two non-invasive techniques. Cerebral blood flow autoregulation is often measured while a change in blood pressure is induced by deflation of thigh cuffs. To interpret the result a continuous measurement of arterial blood pressure is required. ⋯ Peripheral vasoaction may be distorting the measurement of blood pressure by the Finapres. This would account for the difference that exists between the techniques. Comparison with a direct arterial line would confirm which non-invasive measurement is more accurate.
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Physiological measurement · Aug 2003
Impact of bradycardia on cerebral oxygenation and cerebral blood volume during apnoea in preterm infants.
Apnoea in prematurity is a common problem in neonatology; and it is the impaired oxygen delivery during apnoea, which can harm the brain. The aim of this study was to evaluate the effect of bradycardia (below 80 beats min(-1)) on 'cerebral haemoglobin oxygenation index' (cHbD) and cerebral blood volume (CBV) during apnoea in stable preterm infants measured by means of near infrared spectroscopy. Twenty-six episodes of mixed and central apnoea with bradycardia (bradycardia group) in 20 preterm infants were compared to 26 episodes of mixed and central apnoea without bradycardia (non-bradycardia group) in 19 preterm infants. cHbD decreased significantly more in the bradycardia group (-11.33 micromol 1(-1) after 30 s) than in the non-bradycardia group (-6.36 micromol 1(-1) after 30 s) (p < 0.05). ⋯ Peripheral oxygen saturation (SaO2) decreased similarly in both groups. The aggravation of decrease of cHbD and the decrease of CBV during bradycardia in association with apnoea could be explained by decrease in cerebral blood flow, which caused decrease in cerebral oxygen delivery. This decrease of oxygen delivery during bradycardia might worsen long-term neurodevelopmental outcome in preterm infants with apnoea.