No laughing matter: subacute degeneration of the spinal cord due to nitrous oxide inhalation

Nitrous oxide (N₂O or laughing gas) has been used in clinical practice as a dissociative anaesthetic for over 170 years, but its recreational use has become widespread, facilitated by legal over-the-counter availability. N₂O abuse is rapidly rising throughout the USA and UK, and has become the seventh most commonly used recreational drug according to the Global Drug Survey 2016 [1].

Several case reports have documented the potential for N₂O to cause damage to the nervous system through interference with vitamin B₁₂ metabolism, leading to megaloblastic anaemia and subacute degeneration of the spinal cord [2‐5] which itself can be irreversible [6]. Here, we report the largest series of patients with neurological complications from N₂O abuse, in an effort to raise awareness and prompt appropriate surveillance, so that an adequate public health response may be designed and implemented.

All adult patients presenting between 1st of November 2016 and 1st May 2017 to the Emergency Department of the Royal London Hospital, with a history of N₂O use and symptoms suggestive of subacute degeneration of the spinal cord were included. Two patients had a pre-existing diagnosis of subacute degeneration of the spinal cord and re-presented during this period (cases 8 and 10). Blood tests were performed to rule out alternative causes of myelopathy in most patients, including virology, anti-nuclear antibodies, anti-neutrophil cytoplasmic antibodies, anti-cardiolipin antibodies, aquaporin 4 antibodies and paraneoplastic antibodies. Nutritional deficiencies of copper and folate were also routinely tested. Cerebrospinal fluid examination was performed in four patients. All patients were seen and examined by an attending consultant neurologist and imaging reported by a consultant neuroradiologist. Where serum vitamin B₁₂ level was normal, serum methylmalonic acid (MMA) was also measured. Where possible, patients were followed up in the outpatient department. Due to difficulties contacting patients (change of address, GP or phone number), not all patients were available to provide consent, and therefore all cases have been fully anonymised.

Recreational use of N₂O is largely through use of whipped cream chargers or ‘whippets’ bought from ‘head shops’ or online (see Fig. 2a). Whippets fit onto a dispenser, which is attached to a balloon that enables gas inhalation. Inhalation results in almost immediate psychotropic effects including euphoria, giggling, distortion of sound and mild hallucinations, peaking after about 20 s before rapidly diminishing. Users often feel entirely normal within 2 min following inhalation. Side effects of dissociation, blurred vision, acute ataxia, nausea and headache have been reported [7].

Recreational use of N₂O in the UK has recently increased [7]. According to the Global Drug Survey, which collected data from over 100,000 drug users in 20 countries, N₂O is the seventh most popular recreational drug worldwide, and the fourth most commonly used by UK nightclub attendees, with 48% admitting to using the drug [1]. Since the Psychoactive Substances Act came into effect in the UK in May 2016, it has become illegal to supply N₂O for recreational consumption. Two recent high-profile cases of failed prosecutions for N₂O supply have forced the Crown Prosecution Service to consider the implications for future cases [8]. Nonetheless, whippets are still being sold at a price of approximately £30 ($40) for 96 canisters.

Previous reports have been published of patients presenting to hospital with acute pain and administration of medicinal N₂O excessively, with subsequent development of subacute degeneration of the spinal cord [9]. However, routine use in anaesthesia or dental procedures only carries a risk of subacute degeneration of the spinal cord in patients with low or low/normal serum vitamin B₁₂ [2, 6].

The deleterious effects of N₂O overuse are secondary to its interference with the action of vitamin B₁₂. N₂O causes oxidation of cobalt ions in vitamin B₁₂, leading to its inactivation (see Fig. 2b). This results in reduced recycling of homocystine to methionine, preventing methylation of myelin proteins, thereby causing demyelination.

Identification of subacute degeneration of the spinal cord secondary to N₂O abuse requires a high index of suspicion and a thorough history, supported by the clinical examination, laboratory data and radiological findings. A normal vitamin B₁₂ level does not rule out the possibility of N₂O-induced subacute degeneration of the spinal cord, given that functional B₁₂ deficiency can occur in the presence of normal serum vitamin B₁₂ levels. In such cases, detecting raised MMA and homocystine, which rely on normally functioning vitamin B₁₂ for their metabolism, can give crucial clues to the diagnosis. Sagittal MRI imaging demonstrates a classic appearance of T2 hyperintensity in the dorsal spinal cord. Contrast enhancement is uncommon.

The management of patients includes educating them about the risks of N₂O and vitamin B₁₂ replacement using high-dose intramuscular hydroxocobalamin (1 mg on alternate days until no further neurological improvement, followed by 1 mg every 2 months) [10]. Neurological recovery may be incomplete, particularly when patients continue to use N₂O [6].

Our series revealed that N₂O-related subacute degeneration of the spinal cord tended to occur in young people. While most were smokers, unexpectedly, and not in keeping with the habits of other drug users [11], the majority did not drink alcohol or take other recreational drugs. However, this may also reflect the culture of the population local to our hospital. The finding that 70% of patients were of Bangladeshi origin emphasises the importance of considering recreational drug use even when religious and/or cultural assumptions may dissuade clinicians from this line of enquiry. The high Bangladeshi proportion also raises questions whether ethnicity-related metabolic, nutritional or genetic predispositions influence functional B₁₂ metabolism and predispose to neurological damage. Anecdotally, many N₂O users were not aware of the harmful effects of the drug and believed that because it was not previously illegal to consume, it was also safe to use.

The true scale of the problem is hard to gauge, but may only be improved through collaborative working by health professionals in neurology, public health and emergency medicine. Better recognition and accurate coding at the point of access to care will help ascertain the incidence and prevalence of neurological damage related to N₂O, and plan an effective public health response.