INTRODUCTION
Cannabinoid hyperemesis syndrome (CHS) is a paradoxical side effect of cannabis use in which patients often present with cyclical nausea, vomiting, and abdominal pain with no other identifiable etiology, and subsequently are discharged with a variety of misdiagnoses.Reference Sun and Zimmermann 1 This phenomenon has been increasingly described in the literature; however, studies to date are limited to case reports and case series.Reference Brenna, Aasarod and Gustafsson 2 - Reference Soriano-Co, Batke and Cappell 9
Since the introduction of the Marijuana [sic] Medical Access Regulations (MMAR) in 2001, the use of medical cannabis among Canadians has steadily increased, from under 500 authorized individuals to over 30,000 today, despite a decline in prevalence of recreational use.Reference Makkar 10 Recently, the federal government sought to improve the program and create a new commercial industry with quality-controlled production by instituting new federal regulations in June 2013. With the new Marihuana for Medical Purposes Regulations (MMPR), the only legal source of cannabis is designated producers licensed by Health Canada.Reference Juurlink 11 - Reference Owens 14 The Federal Government will once again be updating the MMPR in the coming months.
Cannabis has various therapeutic properties, including antiemesis, appetite stimulation, and pain control, which have led to cannabis use in patients with cachexia associated with acquired immunodeficiency syndrome (AIDS), chemotherapy-induced nausea and vomiting, painful peripheral neuropathy, and muscle spasticity due to multiple sclerosis.Reference Sun and Zimmermann 1 , Reference Galli, Sawaya and Friedenberg 15 - Reference Sullivan 17 CHS is a cluster of symptoms characterized by cyclical nausea and vomiting with abdominal pain paradoxically induced by long-term or short-term cannabis use.Reference Wallace, Andrews and Garmany 18
The pathophysiology of CHS is not yet defined but is thought to be related to endocannabinoid dysregulation.Reference Galli, Sawaya and Friedenberg 15 Prior to the diagnosis of CHS, patients often suffer for years with potentially debilitating symptoms on a cyclical basis. These patients typically present multiple times to emergency departments (EDs) with similar symptoms and receive multiple diagnostic tests and invasive procedures without a clear diagnosis or treatment plan.Reference Wallace, Andrews and Garmany 18 Furthermore, CHS has been theorized to indirectly precipitate further sequelae such as acute renal failure.Reference Habboushe and Sedor 19 As such, it is important for ED physicians to consider CHS in the differential diagnosis of patients presenting with intractable cyclical vomiting plus abdominal pain, because this may reduce the need for costly and invasive testing.
Medical cannabis is an increasingly accepted and used therapeutic option in medicine. However, only case studies and case series articles have documented CHS in the literature. Using a retrospective medical records review study design, the objective of our study was to document the epidemiology of CHS cases presenting to two major urban tertiary care centre EDs and one urgent care centre in Hamilton, Ontario, over a 2-year period.
METHODS
We designed a retrospective chart review incorporating the key elements, as previously outlined.Reference Gilbert, Lowenstein and Koziol-McLain 20 - Reference Worster, Bledsoe and Cleve 22 The study was undertaken at Hamilton Health Sciences, which provides emergency care to adult patients in the city of Hamilton through two EDs and one urgent care centre. All departments are staffed by full-time emergency physicians. All adult patients ages 18 to 55 years presenting to Hamilton EDs with a chief complaint of vomiting and/or a discharge diagnosis of vomiting and/or cyclical vomiting were reviewed during a 2-year period between January 1, 2013 and December 31, 2014. An un-blinded researcher abstracted 100% of the cases, after which a second researcher independently abstracted a random selection of 20% of the selected cases. Both used study-specific data collection forms for this purpose with explicit variable definitions. Abstractor performance was monitored, and differences were planned for resolution by group consensus. Periodic meetings were also held to discuss any difficulties and to provide abstractor performance feedback. Inter-rater reliability on data abstraction was measured and tested using a Cohen’s Kappa statistic.
The primary data abstracted from each chart included mention of drug use, specific mention of cannabis use and cannabis use greater than three times per week, and an alternate diagnosis made in the ED. The cut-off of cannabis use greater than three times per week was based on previous studies suggesting that the majority (>75%) of cases occur in those using cannabis greater than three times per week.Reference Simonetto, Oxentenko and Herman 7 , Reference Sorensen, DeSanto and Borgelt 23 A consensus definition of “regular cannabis use” does not currently exist in the literature. Secondary data abstracted included whether the patient had repeat visits to the ED, received bloodwork, urine toxicology, imaging, intravenous (IV) fluids, opiates, or antiemetics in the ED, whether the patient was admitted, or whether the patient received referral for consultation from gastroenterology.
Statistical analysis was carried out using a two-tailed Fisher exact test with GraphPad software (GraphPad Software Inc., La Jolla, CA). This research project was approved by the Hamilton Integrated Research Ethics Board (HiREB).
RESULTS
A total of 494 charts were identified over the 2-year study period, of which 101 patients left the ED before being seen by a physician, 9 were referrals admitted directly to a specialty service (thus not assessed in the ED), and 9 had missing chart data, yielding 375 charts for analysis, 323 of which were unique individuals. The mean age was 31 years (SD 11), 35.7% of patients were male, and an alternate diagnosis was identified on 35 charts (Table 1). Alternate diagnoses included post-chemotherapy nausea and vomiting (n=13), side effects of metastatic cancer (n=6), medication side effects (n=4), acute alcohol withdrawal or intoxication (n=2), inflammatory bowel disease (n=2), gastroparesis (n=1), viral hepatitis (n=1), traveler’s diarrhea (n=1), dysmenorrhea (n=1), bowel obstruction (n=1), diabetic ketoacidosis (n=1), pyelonephritis (n=1), and cholecystitis (n=1).
Dx=diagnosis; NM=not mentioned.
* Unless otherwise indicated.
Drug use was indicated in the chart of 99 patients (26.4%), and cannabis was specifically indicated in 73 charts (19.4%). Of those that indicated cannabis use, 39 (10.4%) charts quantified the use of cannabis as greater than three times per week, 19 (5.1%) charts specified cannabis use as less than three times a week, whereas 15 charts (4.0%) showed no specific mention of frequency. There were two charts that identified patients using cannabis for medicinal purposes, and, in both cases, use was greater than three times per week. Of those with an alternate diagnosis, two were identified as cannabis users, and both had use greater than three times per week.
A post-hoc subgroup analysis was conducted on the group of 37 (9.9%) regular cannabis users, identified as cannabis use of greater than three times per week with no alternate diagnosis (Table 2). Among those ED visits, 43% (n=16) were repeat visits (automatically flagged if presenting within 2 weeks of being discharged from the ED) compared to 18.5% (n=62) of visits among non-cannabis users (p<0.001). Of the regular cannabis users, 92% (n=34) had bloodwork done in the ED compared to 76% (n=255) of non-cannabis users (p<0.05), 92% (n=32) received IV fluids compared to 76.5% (n=257) of non-cannabis users (p<0.05), and 27% (n=10) received opiates compared to 11% of non-cannabis users (p<0.05). Furthermore, 89% (n=33) received antiemetics, 19% (n=7) received some form of imaging, 8% (n=3) were admitted to the hospital, and 8% (n=3) were referred to the gastrointestinal service. The pathognomonic finding of symptom resolution with hot showers was not documented in any charts reviewed.
GI=gastrointestinal.
* Statistically significant (p<0.05).
DISCUSSION
In this manuscript, we have, to our knowledge, described the largest retrospective chart review of CHS cases published to date. We identified patients presenting to the ED with a chief complaint of vomiting and identified a documented history of cannabis use. Our findings are consistent with previously published case reports and case series identifying cases of CHS, and we suggest that CHS is poorly screened, likely underdiagnosed, and results in a large number of investigations and repeat visits.
CHS was first described in a case series in 2004Reference Allen, de Moore and Heddle 24 and has subsequently been described in a number of case reports and case series.Reference Iacopetti and Packer 5 , Reference Simonetto, Oxentenko and Herman 7 , Reference Donnino, Cocchi and Miller 25 , Reference Kim, Anderson and Saghafi 26 Through a systematic review of case studies, a set of diagnostic criteria has been developedReference Simonetto, Oxentenko and Herman 7 and further endorsed,Reference Ruffle, Bajgoric and Samra 27 which is outlined in Table 3. Of note, the essential criterion for making the diagnosis of CHS is chronic cannabis use, with a major feature being weekly cannabis use. Among the patients included in our review, only 26.4% had any mention of drug use charted, with cannabis use being specifically mentioned on only 19.4% of all reviewed charts. Therefore, it is clear that even among patients with vomiting without a clear etiology, there is a significant lack of screening for CHS. Even among a population that this study identified as potentially meeting criteria for CHS, clinicians are either failing to question patients’ cannabis use, or failing to document it. This lack of screening is a main finding and contributes to the underdiagnosis of CHS.
As others have mentioned,Reference Simonetto, Oxentenko and Herman 7 , Reference Kim, Anderson and Saghafi 26 the reasons for this lack of screening are likely multifactorial. Being a newly identified phenomenon, it is unlikely to be consistently considered on the differential diagnosis of these patients. Additional confusion arises from the diagnostic similarities with cyclical vomiting syndrome (CVS). Although severe cyclical nausea and vomiting are part of the diagnostic criteria for CHS, CVS is a separate clinical entity, classified as a functional gastrointestinal disorder, with its own diagnostic criteria (Rome III).Reference Tack, Talley and Camilleri 28 CVS is a widely recognized disorder, and thus patients who have otherwise undifferentiated nausea and vomiting may often be given this diagnosis without further questioning into their substance use. Another factor contributing to the lack of screening is the attitudes surrounding cannabis use and its acceptance both culturally and legally. Our average patient population was 31.1 years old. These individuals often present to the ED with significant others or family members, making questioning around substance use either uncomfortable or unreliable. A recent study addressed this phenomenon, assessing the prevalence of cannabis use reported in the ED before and after cannabis legalization in Colorado, and found that patients were more likely to disclose cannabis use following legalization.Reference Kim, Anderson and Saghafi 26 Only two charts in our study identified legal, medicinal users of cannabis, and therefore it is assumed that the remainder were using cannabis for recreational purposes. Thus, although it is clear that screening for CHS is lacking, there are many issues that contribute to this.
Of the 19.4% (n=73) of patients in this study who were explicitly asked about cannabis use, greater than half (53.4%, n=37) stated that they used cannabis more than three times per week. Therefore, 10.4% of our study population used cannabis three or more times per week. This compares to the Canadian national average of 3.2% using cannabis once per week and 1.8% using cannabis daily.Reference Rotermann and Langlois 29 A subgroup analysis was carried out on this group of high-frequency cannabis users, because these were considered most likely correlated with a diagnosis of CHS. Consistent with other reports, we found that this population often had a high degree of repeat visits and a large number of negative investigations.
Although there was statistically no difference in the frequency of admission, imaging, or antiemetic administration between the two groups, a number of factors were more prevalent in the high-frequency cannabis group (see Table 2). Repeat visits, bloodwork, and fluid resuscitation were all more common among high-frequency users as compared to non-cannabis users. Additionally, frequent cannabis users received more opiates in the ED for abdominal pain management, despite the potential of narcotics to precipitate increased nausea.Reference Galli, Sawaya and Friedenberg 15 These data suggest that there is some increase in the frequency of investigations and repeat visits among high-frequency cannabis users with nausea and vomiting. If these patients had a diagnosis of CHS earlier, it is possible that excess testing would be somewhat reduced.
This study found a high prevalence of antiemetic use, with 83.9% of all-comers receiving antiemetic therapy and 89.2% of cannabis users receiving antiemetics, despite evidence suggesting its futility in this population.Reference Galli, Sawaya and Friedenberg 15 It is not clear in our study how patients who received antiemetics responded. However, there is limited evidence to suggest that haloperidol may provide some antiemetic effect in CHS.Reference Hickey, Witsil and Mycyk 30 An earlier recognition of CHS would potentially allow for earlier initiation of this targeted therapy.
Given the nature of a phenomenon that is relatively new to the literature and the retrospective study design, there are a number of limitations in this study. Firstly, CHS is a differential diagnosis that is not often contemplated by ED physicians, with a set of diagnostic criteria that are not commonly screened for. As such, there were minimal charted data regarding cannabis use and CHS diagnostic criteria, particularly in regard to the pathognomonic feature of symptom resolution with hot showers, limiting our ability to identify cases of CHS. A lack of documentation of these criteria unfortunately precludes the ability to calculate the number of patients who meet the diagnosis of CHS through a retrospective chart review.
Interestingly, the charts that we reviewed showed an unusually high prevalence of patients leaving without being seen (LWBS) by the ED physician. The goal LWBS rate is around 2% for all ED visits, and our review had a rate of 20% of charts screened. Although there was no clear cause for this, it is postulated that the population captured by our inclusion criteria was a generally young and otherwise healthy group who would have been triaged as low acuity. Wait times would have been increased for this population. Evidence suggests that ED patients triaged with low acuity and subsequently longer wait times have significantly higher LWBS rates.Reference Lucas, Batt and Soremekun 31 Thus, a key factor in our high LWBS rate was likely wait times. Unfortunately, it was not possible to directly investigate this using our study design.
CONCLUSIONS
This study adds to a growing body of research that suggests CHS may be an overlooked part of the differential diagnosis for vomiting, a factor that contributes to unnecessary investigations and treatments in the ED. There appears to be a lack of screening for the diagnostic criteria of CHS, especially in quantifying cannabis use history, and associated symptoms of the syndrome. This suggests the need for further investigation in regard to screening for CHS, and would benefit from a prospective study to better establish the prevalence of other signs and symptoms.
Competing interests: None declared.