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In a recent article published in the Medical Cannabis and Cannabinoids journal, investigators analyzed the impacts of Cannabis flower consumption in the treatment of fatigue. 

Study: The Effects of Consuming Cannabis Flower for Treatment of Fatigue. Image Credit: fizkes/Shutterstock

Background

Federal obstacles are present in pursuing clinical studies on the influences of Cannabis in the United States of America (USA). Thus, there is an overall scarcity of knowledge of how widely available cannabis-based products could impact the most fundamental aspects of normative bodily operating, such as activity and energy levels.

According to conventional wisdom, frequent Cannabis usage leads to a decline in goal pursuit, behavioral action, and competitiveness, or what is generally known as amotivational syndrome.

Fatigue is a characteristic of many illnesses. Further, previous studies have demonstrated that giving people with cancer, chronic pain, etoposide cost india multiple sclerosis, and Parkinson's disease the legal right to buy and ingest Medical Cannabis and replacing Cannabis with other classes of pharmaceutical drugs such as sedatives, opiates, and antidepressants, improved energy levels. On the other hand, these data appear to contradict findings from a recent analysis of adverse events documented by study subjects in clinical trials, which indicated fatigue as a common side effect of Cannabis use.

Additionally, the medical and scientific community has provided scarce formal guidance on how the Cannabis-based products that the consumers or health providers choose/prescribe may affect energy levels and feelings of fatigue.

About the study

In the present work, the researchers examined a set of frequent and widely accessible products used in vivo to determine which sorts of Cannabis flower features were linked with variations in feelings of fatigue in real-time. 

The team employed the broadest database of real-time impacts of Cannabis use in the USA, which was acquired by the mobile software program, Releaf application, to measure session-based Cannabis intake and its consequences. Real-time subjective variations in fatigue intensity degrees before and after Cannabis use, Cannabis flower features, such as cannabinoid strength levels and labeled phenotype, combustion technique, and any possible experienced adverse effects were all recorded during the usage sessions.

The primary study outcome was the alteration in user-documented symptom intensity levels after Cannabis usage. The investigators divided the 47 probable side effects of Cannabis into three categories: context-specific (11), negative (17), and positive (19).

Results

The study results indicated that between 6 June 2016 and 7 August 2019, 1,224 people used the Releaf App to record 3,922 self-administration sessions of the Cannabis flower. Following Cannabis ingestion, 91.94% of people reported less fatigue, with a mean symptom intensity drop of 3.48 points on a zero to ten visual analog scale. While symptom alleviation did not vary between labeled plant phenotypes such as C. sativaC. indica, or hybrid, those who used joints for combusting the flower reported more symptom relief than pipe or vaporizer users.

The constant observation of vaporizing Cannabis flowers produced worse results than joints, especially for more prolonged symptom alleviation over a longer duration, implies that the phytochemicals combustion temperature might affect alterations in fatigue. Both vaporizers and pipes offer little fatigue relief, possibly due to dosage and the relative ease of continually inhaling from a burning joint than using a vaporizer or relighting a pipe. 

Cannabidiol (CBD) and tetrahydrocannabinol (THC) levels were not linked with variations in symptom intensity levels throughout cannabinoid concentrations. Together, CBD, THC, and labeled plant phenotypes were not autonomous predictors of symptom alleviation in the overall sample and for all subsets except inexperienced users. Hence, other non-cannabinoid chemical constituents and cannabinoids, such as terpenoids and terpenes, could influence the perception of physical and mental fatigue or the connection between CBD, THC, and fatigue.

Cannabis consumption was linked to various negative side effects, including increased feelings of fatigue (e.g., couch-locked, unmotivated) in a minority of users, i.e., less than 24%. In addition, marginally more users, i.e., up to 37%, endured positive side effects, such as increased energy (e.g., feeling frisky, energetic, active, or productive). Indeed, males, elderly patients, and more experienced Cannabis users reported the most symptom relief, and greater CBD concentrations were linked inversely with the reporting of unpleasant side effects.

Conclusions

The authors stated that measuring the relationships between the administration routes and the labeled properties of regularly administered Cannabis flower products could aid patients and health practitioners in their quest for more personalized therapeutic approaches. In the present research, the team makes a substantial, early addition to the scientific literature on normative ethological consequences of Cannabis usage by assessing how popular and commercially accessible Cannabis flower products alter momentary fatigue levels.

The researchers discovered that combusting entire, dried Cannabis flower has a typically rapid-acting and energetic impact on the most people who experience fatigue symptoms, based on the broadest database of actual-time influences of Cannabis use in the USA. While few user sessions led to elevated fatigue or fatigue-linked side effects, most subjects indicated that Cannabis flower intake in vivo reduced their apparent fatigue intensity levels. The authors reported that the magnitude of the impact and the degree of side effects probably differed based on the synergistic chemotypic qualities of Cannabis and the metabolic status of the person.

Besides, the current findings indicate the need for further detailed investigations into how phytochemical ingestion interacts with the user's cardiovascular, metabolic, endocrine, and other organ systems (example, musculoskeletal) to create a variety of physiological and visceral impacts.

Journal reference:
  • Li X, Diviant J, P, Stith S, S, Brockelman F, Keeling K, Hall B, Vigil J, M. (2022). The Effects of Consuming Cannabis Flower for Treatment of Fatigue. Medical Cannabis and Cannabinoids. doi: 10.1159/000524057 https://www.karger.com/Article/FullText/524057

Posted in: Medical Science News | Medical Research News | Disease/Infection News

Tags: Cancer, Cannabidiol, Cannabinoid, Cannabis, Chronic, Chronic Pain, Coronavirus Disease COVID-19, Drugs, Endocrine, Fatigue, in vivo, Multiple Sclerosis, Musculoskeletal, Pain, Parkinson's Disease, Phenotype, Phytochemical, Research, Sclerosis, Syndrome, Terpenes, Tetrahydrocannabinol

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Written by

Shanet Susan Alex

Shanet Susan Alex, a medical writer, based in Kerala, India, is a Doctor of Pharmacy graduate from Kerala University of Health Sciences. Her academic background is in clinical pharmacy and research, and she is passionate about medical writing. Shanet has published papers in the International Journal of Medical Science and Current Research (IJMSCR), the International Journal of Pharmacy (IJP), and the International Journal of Medical Science and Applied Research (IJMSAR). Apart from work, she enjoys listening to music and watching movies.

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