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  • Title: Measurement of pulmonary flow reserve in higher primates.
    Author: Ilsar R, Chawantanpipat C, Chan KH, Waugh R, Hennessy A, Celermajer DS, Ng MK.
    Journal: Clin Exp Pharmacol Physiol; 2009 Aug; 36(8):797-802. PubMed ID: 19215231.
    Abstract:
    1. There are currently limited diagnostic methods for assessing the integrity of the pulmonary microvasculature. We hypothesized that a novel, invasively determined physiological index of 'pulmonary flow reserve' (PFR = maximal hyperaemic pulmonary blood flow divided by basal pulmonary flow) may facilitate microvascular assessment in the lung. Therefore, we developed a baboon model in which to: (i) validate the use of Doppler flow velocity for PFR assessment; (ii) define the optimal drug and dose regimen for attainment of maximal pulmonary hyperaemia; and (iii) demonstrate the feasibility of measuring PFR in healthy higher primates. 2. Doppler sensor guidewires were placed in segmental pulmonary arteries of 11 ketamine-anaesthetized baboons. Vessel diameter, flow velocity and haemodynamics were recorded before and after direct intrapulmonary artery administration of saline, adenosine (50-500 microg/kg per min) and papaverine (3-60 mg), enabling calculation of PFR. 3. Saline (either bolus injection or infusion) did not alter vessel diameter or flow velocity (P > 0.1), validating local drug administration. Both adenosine and papaverine induced dose-dependent increases in flow velocity from baseline (from 22.5 +/- 2.3 to 32.7 +/- 4.8 cm/s for 400-500 microg/kg per min adenosine; and from 23.9 +/- 1.1 to 34.6 +/- 4.0 cm/s for 24 mg papaverine; both P < 0.0001), without affecting pulmonary artery pressure or vessel diameter (P > 0.3). Healthy primate PFR values were 1.35 +/- 0.10 and 1.39 +/- 0.10 using 200 microg/kg per min adenosine and 24 mg papaverine, respectively (P > 0.8). 4. In conclusion, pulmonary flow reserve in higher primates can be assessed using Doppler sensor guidewire and either adenosine or papaverine as microvascular hyperaemic agents. Measurements of PFR may facilitate pulmonary microvascular assessments.
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