Understanding the physiological mechanisms involved in exhaling delta 8

The physiological mechanisms involved in exhaling delta 8 dabs and its influence on cannabinoid receptors provide valuable insights into the interplay between breathwork and cannabinoid interactions. When exhaling delta 8 dab, several physiological processes come into play, potentially impacting cannabinoid receptors in the body. Here’s an exploration of the key physiological mechanisms and their influence on cannabinoid receptors:

  1. Pulmonary Absorption:

Physiological Mechanism: Upon inhaling delta 8 dab, the cannabinoids are absorbed by the pulmonary circulation, entering the bloodstream through the alveoli in the lungs.

Influence on Cannabinoid Receptors: Once in the bloodstream, delta 8 THC can interact with cannabinoid receptors, such as CB1 and CB2 receptors, which are found throughout the body, including the brain, immune system, and other organs.

  1. Metabolism and Excretion:

Physiological Mechanism: After being absorbed, delta 8 THC undergoes metabolism in the liver, where it is broken down into metabolites and eventually excreted from the body.

Influence on Cannabinoid Receptors: The metabolites of delta 8 THC may also have an impact on cannabinoid receptors, contributing to the overall influence of the compound on physiological processes.

  1. Exhalation:

Physiological Mechanism: Exhalation involves the expulsion of air from the lungs, effectively removing waste gases such as carbon dioxide and volatile compounds, including exhaled cannabinoids and their metabolites.

Influence on Cannabinoid Receptors: While the direct impact of exhaling delta 8 dab on cannabinoid receptors is not well-documented, the exhalation process serves as a means of removing residual cannabinoid compounds from the body, potentially influencing the duration and extent of cannabinoid receptor activation.

  1. Endocannabinoid System Modulation:

Physiological Mechanism: The endocannabinoid system, comprising endogenous cannabinoids (endocannabinoids), cannabinoid receptors, and enzymes, plays a crucial role in regulating various physiological processes, including mood, appetite, pain, and memory.

Influence on Cannabinoid Receptors: The intake and subsequent exhalation of delta 8 dab may interact with the endocannabinoid system, potentially modulating the activity of cannabinoid receptors and influencing the overall physiological response to delta 8 THC.


The physiological mechanisms involved in exhaling delta 8 dab, including pulmonary absorption, metabolism, excretion, and the potential modulation of the endocannabinoid system, can impact cannabinoid receptors in the body. While more research is needed to elucidate the specific interactions between exhalation and cannabinoid receptor activity, understanding these mechanisms provides a framework for exploring the complex interplay between breathwork and the physiological effects of delta 8 THC on cannabinoid receptors.