Cerebrovascular effects of the thigh cuff maneuver.

R B Panerai,T G Robinson,N P Saeed

doi:10.1152/ajpheart.00887.2014

R B Panerai, T G Robinson + Show 1 more

Open Access

https://doi.org/10.1152/ajpheart.00887.2014

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Abstract

Arterial hypotension can be induced by sudden release of inflated thigh cuffs (THC), but its effects on the cerebral circulation have not been fully described. In nine healthy subjects [aged 59 (9) yr], bilateral cerebral blood flow velocity (CBFV) was recorded in the middle cerebral artery (MCA), noninvasive arterial blood pressure (BP) in the finger, and end-tidal CO2 (ETCO2) with nasal capnography. Three THC maneuvers were performed in each subject with cuff inflation 20 mmHg above systolic BP for 3 min before release. Beat-to-beat values were extracted for mean CBFV, BP, ETCO2 , critical closing pressure (CrCP), resistance-area product (RAP), and heart rate (HR). Time-varying estimates of the autoregulation index [ARI(t)] were also obtained using an autoregressive-moving average model. Coherent averages synchronized by the instant of cuff release showed significant drops in mean BP, CBFV, and RAP with rapid return of CBFV to baseline. HR, ETCO2 , and ARI(t) were transiently increased, but CrCP remained relatively constant. Mean values of ARI(t) for the 30 s following cuff release were not significantly different from the classical ARI [right MCA 5.9 (1.1) vs. 5.1 (1.6); left MCA 5.5 (1.4) vs. 4.9 (1.7)]. HR was strongly correlated with the ARI(t) peak after THC release (in 17/22 and 21/24 recordings), and ETCO2 was correlated with the subsequent drop in ARI(t) (19/22 and 20/24 recordings). These results suggest a complex cerebral autoregulatory response to the THC maneuver, dominated by myogenic mechanisms and influenced by concurrent changes in ETCO2 and possible involvement of the autonomic nervous system and baroreflex.

Highlights

MethodsData for the current study were collected as part of a PhD project
Analysis of multiple beat-to-beat cerebro-cardiovascular parameters, jointly with high-resolution estimates of ARI(t), an index of dynamic CA, has shown that in healthy subjects, the rapid recovery of CBFV following the sudden drop in MBP, resulting from the release of inflated THC, was mainly due to a drop in RAP without significant changes in CrCP
This finding suggests that the THC maneuver induces a purely myogenic response, without significant involvement of metabolic mechanisms

Summary

Methods

Data for the current study were collected as part of a PhD project P. Saeed) and previously used as the control group for a clinical study [37]. Reanalysis of the same set of data in the current study was performed to test different and original hypotheses. Healthy subjects were recruited from departmental staff and their relatives. Subjects were free from any cardiovascular or neurological disease. The study was approved by the local ethics committee (09/H0403/25), and written informed consent was obtained from each subject

Results

Discussion

Conclusion