The differential diagnosis of abdominal cramping accompanied by nausea and vomiting, is overwhelmingly broad. It demands a finely detailed history to further tease out an etiology as well as directed treatments. In addition to infectious and neurologic causes of said symptoms, it is important to remember potential chemical causes responsible for clinical pictures featuring abdominal cramping, nausea, and vomiting. In 2004, a peculiar syndrome of vomiting associated with chronic cannabis use appeared in the literature with the curious historical qualifier that symptoms seemed to be relieved with hot showering or bathing. This syndrome came to be known as cannabinoid hyperemesis syndrome (CHS). With the increasing use of cannabis among all manner of age groups, especially recreationally among adolescents as well as medically for use as an antiemetic in chemotherapy-induced vomiting, appetite stimulant in those with cachexia, and analgesic (e.g., for peripheral neuropathies) and as an antispasmodic in multiple sclerosis, it is important to recognize this phenomenon’s risk factors and presentation in both emergency and primary care.
The physiology of vomiting is related to multiple organ systems. When noxious stimuli are perceived (which may be anything, including a fearful sight, a foul odor, or even a distressing memory), the area postrema of the brain is activated, leading to vagal stimulation. The resultant neuro-endocrine mediated processes result in salivation, closure of the glottis to protect the person’s airway from aspiration, relaxation of the stomach’s sphincters, retroperistalsis of small intestinal contents to the stomach, and finally contraction of stomach and abdominal muscles to propel vomitus to the mouth and into the environment. The gastrointestinal tract itself has several receptors, including cannabinoids, histamine, and other chemical agents, which can serve to directly influence the process of vomiting when stimulated directly, in addition to stimulation from the nervous system.
Cannabis has activity at a variety of receptors along the multiple neurologic and endocrinologic pathways, which informs its unique ability to be both a pro- and anti-emetic. For example, cannabinoid receptor (CB) 1 and 2 receptors in the brain are present in the hypothalamus, hippocampus, cerebellum, and scattered throughout the parasympathetic nervous system (including the vagus nerve, with all of its influence on the hypothalamus-pituitary-adrenal gland axis), leading to cannabis having a potent effect on a large swath of bodily processes.
Cannabis hyperemesis syndrome can be challenging to diagnose for a variety of factors. One matter is, by virtue of its name and potential etiology, certain patients may be hesitant to offer historical clues (e.g., illicit drug use) to clinicians, which may complicate the clinician’s ability to rule in or rule out specific diagnoses. Another barrier to diagnosis includes the close resemblance of CHS to other pathologies, such as cyclical vomiting syndrome (CVS), also known as abdominal migraine due to such patients often having concurrent migraine-like symptoms, besides the fact that occasionally cannabis is used to treat CVS.
By nature of history, a necessary aspect in the diagnosis of cannabis hyperemesis syndrome is the use of cannabis, which happens to be the most used regulated substance in the world. Between 3 and 5% of the world's population has used cannabis at least once, with the majority of usages having been for non-prescribed purposes. Age is a significant correlation of cannabis smoking, and different countries vary in terms of age of the earliest use of cannabis. Approximately fifty percent of people in the United States have their first use of marijuana around the age of 20 years old. In the United States, there is male to female parity during adolescent years for the age of first marijuana usage. The ethnicity of cannabis users has changed from the 20th into the 21st century, with peoples identified as Hispanics representing a majority of cannabis users while in the modern era, non-Hispanic Whites make up the majority.
Due to the prevalence of receptors through which cannabis can act along the neurological and gastrointestinal organ systems to mediate vomiting, it seems paradoxical that a drug used as an antiemetic for a variety of conditions, including multiple sclerosis, chemotherapy-induced vomiting, and even cyclic vomiting syndrome could cause such distressing episodes of vomiting. The present hypothesis is that CHS may result from chronic overstimulation of endocannabinoid receptors, leading to derangements in the body’s intrinsic control of nausea and vomiting. Another receptor system recently elucidated, transient receptor potential vanilloid-1 (TRPV1) nociceptor system in the peripheral nervous system, is also influenced by cannabinoids.
Probably, a crucial factor in the genesis of CHS is the composition of cannabis. Since the 1990s, there has been a progressive change in the composition of the plant, with increases in the tetrahydrocannabinol (THC) and a reduction of cannabidiol (CBD). This trend correlates with increased cannabis use. Some individuals, for instance, also admitted to smoking 2000 mg of THC per day.
With the recognition of potential etiologies come diagnostic criteria for CHS. Multiple checklists have been proposed, including the latest known as the Rome IV criteria:
While diagnostic criteria can be helpful to tease out similar appearing disease processes, the Rome IV criteria suffer from a lack of data granularity, especially in terms of the specifics regarding number of vomiting episodes, amount of cannabis use, number of pathologic bathing episodes per day for however much time, period of time of sustained cessation of cannabis.
An intriguing point to keep in mind is that the Rome IV criteria include the phrase "resembling cyclical vomiting syndrome." In that regard, it is important to distinguish between the two. Per the Nelson Textbook of Pediatrics, cyclic vomiting syndrome is defined by having sudden onset episodes of vomiting, having at least four bouts of vomiting per hour, and often having 12 to 15 episodes of vomiting per day. These episodes of vomiting are often separated by weeks or months, and there is a return to baseline between episodes. Importantly, for the definition of cyclic vomiting syndrome, these episodes of vomiting cannot be attributed to other disorders. This factor is a key distinguishing feature from cannabis hyperemesis syndrome, where the toxicokinetics of cannabis itself influence the course of the disease.
Regardless, specific recommended historical points to keep in mind include: demographics and associated risk factors (age, gender, medical and surgical history), the onset, frequency, and progression of the patient’s vomiting, as well as any associated symptoms (notably headaches), the use of hot showers or baths, the duration of vomiting-free intervals, medication as well as illicit drug use, prior treatments and efficacies, periods of abstinence from various medications and illicit drugs, ability to follow up with a primary care provider, and any comorbidities, especially anxiety, depression, panic disorder, and migraine headaches. Appropriate history and a detailed physical exam can avoid a costly workup, inappropriate referrals to specialists, and, with recognition of this syndrome, a proper disposition, and recommendation for these patients.
Leaving aside risk factors dependent on the basis of age (e.g., cardiac markers for atypical presentations of coronary syndromes in the elderly, vasculopathic, or neuropathic individuals such as diabetics), an appropriate workup in the emergency department includes a metabolic panel to assess for electrolyte derangements as well as degree of dehydration in the form of a prerenal azotemia. Furthermore, a complete blood count (which, paired with an appropriate history, including travel history, which can assess for infectious etiologies), and a urinalysis to determine the presence of a urinary tract infection as well as ketones as a marker for metabolism and nutrition status, are required. An electrocardiogram may be useful to assess the patient’s QTc interval, especially in the context of antipsychotic medication use, as well as before the administration of certain antiemetics, which may prolong the QTc interval to extreme lengths. In women, a pregnancy test is necessary to assess for any pregnancies, especially ectopic pregnancies. Imaging is up to the discretion of the clinician, depending on various specific factors of history or physical exam, which may be concerning for surgical processes.
A key difficulty in treating CHS is its classic resistance to mainstay antiemetic therapy in both the emergency and primary care setting such as ondansetron and metoclopramide. In the last several years, case studies and reviews have come out recommending a variety of medical therapies, such as benzodiazepines in the short term, tricyclic antidepressants for long term control, and even antiepileptics such as levetiracetam and antipsychotics such as haloperidol, though these recommendations come from small case studies.. The emergency medicine and toxicology literature have explored dopamine (D2 and D3) and serotonin (5HT) antagonists. D2 and D3 antagonism in the medulla is believed to target emesis provocation from the area postremia and is the mechanism of action for metoclopramide, prochlorperazine, promethazine, and haloperidol, with various levels of efficacy.
Serotonin antagonism in the gastrointestinal tract from medications such as ondansetron, dolasetron, and granisetron likewise have varying levels of efficacy. Tricyclic antidepressants also antagonist serotonin receptors and may limit nausea due to this mechanism, though their extensive side effect profile such as transaminitis and predisposition to various dysrhythmias via QTc prolongation and QRS widening make appropriate dosing of these medications a priority. Drugs with an anticholinergic effect may likewise block medullary mediated vomiting, though they may have minimal impact on visceral stimulation, including the crippling abdominal cramping pain that patients with CHS experience. Opioids, while often prescribed for the patient’s debilitating abdominal pain, are not appropriate for CHS, as they may, in fact, worsen nausea and vomiting.
The historical feature of CHS patients having their symptoms partially or even fully relieved through hot baths or showers raises the consideration of heat therapy for relief. A 2014 anonymous internet survey sought to obtain information regarding hot shower usage amongst nearly five hundred marijuana users, who were predominantly Caucasian women from the United States of America with a mean age of 34 years and all recruited from a cyclical vomiting referral center in the United States at the Medical College of Wisconsin. This population had a high proportion of comorbid conditions, including anxiety, depression, migraine, and bipolar disorder. Sixty-seven percent of respondents noted that hot showers relieved their symptoms, though whether symptoms were merely ameliorated or fully resolved is unknown. Of note, this survey took place before the widespread legalization of cannabis, and a fear of litigation may have influenced respondent answers.
Capsaicin has been put forward as a potential analgesic with many hypotheses regarding its mechanism of action. The aforementioned transient receptor potential vanilloid-1 nociceptor system becomes activated by both acidic pH and high temperatures, which use sodium and calcium channels to regulate the release of substance P, a mediator involved in the perception of pain, and hence may undergo modulation through the use of topical capsaicin as well as exposure to hot water.
As of 2018, twenty published cases of CHS demonstrated significant relief of both pain and vomiting with capsaicin cream, though, due to various difficulties including the nascent age of this diagnosis, differing diagnostic criteria, and the lack of recruitment for large case series and randomized control trials, have not fully legitimized capsaicin use as definitive therapy for CHS. However, its easy acquisition and application, besides lack of notable adverse reactions excepting a localized sensation of warmth, stinging, and itching, make it a useful adjunct to nausea and pain control in the patient suspected to have CHS.
Before anchoring on the diagnosis of CHS, it is important to rule in or rule out other important diseases against the patient’s age and other risk factors, many of which may require urgent surgical and medical management. Certainly, when discussing abdominal pain associated with nausea and vomiting, gastrointestinal pathologies often leap to the forefront of one’s mind, including gastritis, GERD, PUD, appendicitis, diverticulitis, volvulus, biliary pathology, and pancreatitis. Genitourinary diseases such as ectopic pregnancy, ovarian torsion, nephrolithiasis, and urinary tract infections may present similarly. In older and hypertensive individuals, cardiovascular illnesses such as aortic pathology and atypical coronary artery syndromes may present as vague abdominal pain, nausea, and vomiting.
A variety of toxidromes and infectious etiologies, as well as non-penetrating traumatic injuries, will have this presentation. Neurologic syndromes such as strokes to the area postrema may result in nausea and vomiting, compounded by abdominal pain from forceful vomiting, which a patient may report as abdominal cramping. Psychiatric causes, likewise, may cause vomiting syndromes, as well as a variety of self, reported aggravating and relieving factors which the astute clinician must dissect.
A study examining nearly ninety veterans in a Veterans Affairs medical center reviewed the role of physical activity as a part of a self guided cannabis cessation program, demonstrating that among primarily male veterans with a mean age of nearly 51 years old, after being matched for age, medical and psychiatric conditions, and psychiatric assessment for stated desire to halt cannabis use, participants that performed lower levels of physical activity, measured in metabolic equivalents (METS) had more significant risks for relapsing to cannabis in the first four days after cessation, a particularly important period for acute withdrawal.
The ACCENT trial (Achieving Cannabis Cessation: Evaluating N-Acetylcysteine Treatment), which began enrollment in 2014 and is now in Phase 3 under the purview of UCLA, which examined the use of N-Acetylcysteine as a potential tool for cannabis cessation in adult participants. Its material is presently undergoing review and is unpublished at this time.
There are several potential complications of CHS. Indeed, with any syndrome that results in frequent vomiting, there is a concern for a disorder of electrolytes and fluid balance in the body. Patients who fail to respond to antiemetic therapy are at high risk for dehydration and resulting in nutritional deficiencies. Other known complications of forceful and uncontrolled vomiting include aspiration and subsequent pneumonitis or aspiration pneumonia as well as injury to the esophageal wall such as Boerhaave's syndrome.
Ultimately, the treatment of any illness is the removal of precipitating factors, not merely the management of its symptoms. The only definitive treatment of cannabis hyperemesis syndrome is the removal of cannabis exposure, which may ultimately require extensive coordination between the committed patient, an empathic and dedicated primary care physician, and appropriate substance use counseling and resources.
Cannabis is the most widely used illicit substance in the United States, and the third-ranking substance by prevalence for people seeking treatment (behind alcohol and opioids), is particularly plagued by users undergoing multiple attempts to halt their usage. A systematic review from 2018 showed that merely 54% of people in the outpatient setting were able to remain abstinent from cannabis for two or more weeks. Of these people, 71% of them lapsed back into drug use within six months, and of these people who relapsed, over 70% would return to previous levels of cannabis use. Only 8% of cannabis users who attempted to halt their drug use without professional assistance were able to be abstinent for six months.
There are also "twelve-step facilitation" (TSF) programs for other addictive substances such as Alcoholics Anonymous and Narcotics Anonymous. There is likewise a program named Marijuana Anonymous, which has also undergone small studies for success in lowering drug use and eventually obtaining cessation in adults and adolescents. One particular study examined a small cohort of 36 adolescents demonstrating a positive correlation between attending TSF meetings with a three-month number of days abstinent.
CHS is a relatively new disorder that is not only difficult to diagnose but to manage. To lower the morbidity, CHS is best managed by an interprofessional team.
As CHS is a relatively recently recognized and studied phenomenon easily confused with other diseases, there is a paucity of sizeable randomized control studies. Most resources and recommendations come from case studies and expert opinions. In addition to appropriate antiemetic therapy, fluid resuscitation, and management of the patient's symptoms, patients must recognize behaviors and exposures that place them at risk for their pathology. For supportive care, a clinician should work together with the pharmacist to see if any medications could contribute to the patient's presentation. If administering antiemetics, the nursing staff should be familiar with the adverse event profile so they can report any concerns that may arise.
Health care provider and clinician education, such as this activity, as crucial to the advancement of care in this condition because it is not usually at the top of the differential list because of the lack of research and familiarity in the healthcare community. The same factors apply to clinicians, specialists, nurses, and pharmacists, as well as other healthcare personnel, to consider the diagnosis in any chronic vomiting disorder, and to better inform themselves regarding the condition. They should also have the freedom and empowerment to speak up to other team members if they feel that this may be getting overlooked in the diagnostic picture. Since the only treatment is the removal of the offending agent, accurate diagnosis is the only portal to actual management.
Appropriate primary care follow-up and substance abuse counseling, in addition to a non-judgmental environment, to allow patients to come to terms with their pathology work best for these patients. [Level V.]
|||Graham J,Barberio M,Wang GS, Capsaicin Cream for Treatment of Cannabinoid Hyperemesis Syndrome in Adolescents: A Case Series. Pediatrics. 2017 Dec; [PubMed PMID: 29122973]|
|||Richards JR,Lapoint JM,Burillo-Putze G, Cannabinoid hyperemesis syndrome: potential mechanisms for the benefit of capsaicin and hot water hydrotherapy in treatment. Clinical toxicology (Philadelphia, Pa.). 2018 Jan; [PubMed PMID: 28730896]|
|||Hernandez JM,Paty J,Price IM, Cannabinoid hyperemesis syndrome presentation to the emergency department: A two-year multicentre retrospective chart review in a major urban area. CJEM. 2018 Jul; [PubMed PMID: 28835305]|
|||Venkatesan T,Levinthal DJ,Li BUK,Tarbell SE,Adams KA,Issenman RM,Sarosiek I,Jaradeh SS,Sharaf RN,Sultan S,Stave CD,Monte AA,Hasler WL, Role of chronic cannabis use: Cyclic vomiting syndrome vs cannabinoid hyperemesis syndrome. Neurogastroenterology and motility : the official journal of the European Gastrointestinal Motility Society. 2019 Jun; [PubMed PMID: 31241817]|
|||Anthony JC,Lopez-Quintero C,Alshaarawy O, Cannabis Epidemiology: A Selective Review. Current pharmaceutical design. 2017 Jan 4 [PubMed PMID: 27526792]|
|||Randall K,Hayward K, Emergent Medical Illnesses Related to Cannabis Use. Missouri medicine. 2019 May-Jun [PubMed PMID: 31527946]|
|||Burillo Putze G,Darias-Acosta AT,López-Hernández Á, Improving the diagnosis of cannabinoid hyperemesis syndrome. Revista espanola de enfermedades digestivas : organo oficial de la Sociedad Espanola de Patologia Digestiva. 2019 Jul [PubMed PMID: 31190547]|
|||[PubMed PMID: 31511820]|
|||[PubMed PMID: 31280510]|
|||Richards JR,Gordon BK,Danielson AR,Moulin AK, Pharmacologic Treatment of Cannabinoid Hyperemesis Syndrome: A Systematic Review. Pharmacotherapy. 2017 Jun; [PubMed PMID: 28370228]|
|||[PubMed PMID: 31488758]|
|||[PubMed PMID: 24792504]|
|||[PubMed PMID: 31482758]|
|||[PubMed PMID: 31324702]|
|||[PubMed PMID: 24629045]|
|||[PubMed PMID: 28753466]|
|||[PubMed PMID: 27429548]|