Acute Effects of Cannabis Inhalation on Arterial Stiffness, Vascular Endothelial Function, and Cardiac Function
Abstract
The cardiovascular impact of cannabis use is incompletely understood. Although evidence links chronic use to an increased risk of disease and adverse cardiovascular events, few studies have investigated the acute effects of cannabis inhalation on subclinical dysfunction. Furthermore, it remains unknown how method of inhalation and cannabinoid profile modify risk. While controlling for inhalation method and the effects of either Δ‐9‐tetrahydrocannabinol (THC) or cannabidiol (CBD), we examined the acute cardiovascular effects of cannabis use on arterial stiffness, vascular endothelial responsiveness, and cardiac function, as markers of cardiovascular impairment.
Twenty‐two young, healthy, cannabis users were assessed for arterial stiffness via pulse wave velocity, vascular endothelial function via brachial artery flow mediated dilation, and cardiac function via echocardiography, before and after (1) smoking THC‐predominant cannabis (S‐THC), (2) vaporizing THC‐predominant THC (V‐THC), and (3) vaporizing cannabidiol‐predominant cannabis (V‐CBD). S‐THC and V‐THC increased heart rate (S‐THC: ∆17±15 bpm, V‐THC: ∆16±16 bpm;both P<0.0001) and mean arterial pressure (S‐THC: ∆7±6 mm Hg, V‐THC: ∆5±5 mm Hg;both P<0.0001) whereas V‐CBD did not (∆1±4 bpm, ∆3±4 mm Hg;both P>0.05). After inhalation, pulse wave velocity increased (S‐THC: ∆0.29±0.75 m/s, V‐THC: ∆0.42±0.74 m/s, V‐CBD: ∆0.10±0.44 m/s; P=0.002) and diastolic function was reduced ([early/late ratio] S‐THC: ∆‐0.2±0.53, V‐THC: ∆‐0.33±58, V‐CBD: ∆0.01±66; P=0.03). Differences in heart rate were related to changes in pulse wave velocity (r2=0.2; P=0.0002) and diastolic function (r2=0.26; P<0.0001). Inhalation method did not alter these cannabinoid‐dependent responses.
THC predominant, but not cannabidiol predominant, cannabis elicits increases in heart rate and blood pressure irrespective of inhalation method, which may increase arterial stiffness and reduce diastolic function. These findings implicate THC as a relevant factor for cannabis‐related subclinical cardiovascular dysfunction.
URL: https://www.clinicaltrials.gov; Unique identifier: NCT04693884.
This library aims to empower you with knowledge but it does not replace the personalized advice and guidance a healthcare professional can provide. Before implementing any changes to your health regimen based on the contents of this library, we strongly advise you to consult with a qualified healthcare professional. Your doctor’s expertise is essential for interpreting how these insights may apply to your unique health circumstances.