Study of Chemosensory Enhancement Through Neuromodulation Training (SCENT for Long COVID)

Sudden smell loss (SL), a hallmark feature of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-coV-2/COVID), frequently persists well past the initial recovery; rates of unresolved anosmia (total loss) are 21%, with unresolved hyposmia (reduced smell) or parosmia (distorted smell) higher at nearly 50%. SL is now recognized as a core symptom of "long COVID" (LC), which also includes other impairments in mood, cognition, and sleep. Given that SL itself can negatively impact many of the same problems being recognized in the symptomatology of LC, it is likely that SL is both a symptom of LC and a contributing factor that worsens other LC symptoms (i.e. mood, cognition, sleep, etc.). As such, successful treatment of SL could also help to improve these other LC symptoms. Smell/olfactory training (ST) is currently being studied as a treatment for COVID-related SL. Classic ST requires twice daily practice of sniffing odorants over the course of 3 months to regenerate olfactory neurons, engage smell-related cognitive functions, and retrain the brain to smell. ST is promising as a stand-alone treatment. However, its limitations include the burden of many months of daily practice that often leads to sub-optimal compliance and dropout. The current study aims to determine whether the benefits of ST can be accelerated and enhanced by using a novel, adjunct neuromodulatory intervention to conventional ST. Trigeminal nerve stimulation (TNS) is a non-invasive, pain-free, method of neuromodulation that delivers low levels of electrical stimulation to the trigeminal circuit, having potential to enhance smell function through activation of the highly connected olfactory-intranasal trigeminal systems. Prior work demonstrated TNS-enhanced psychophysical detection of odorants. Yet the effects of TNS are extensive, i.e. improved executive functioning (e.g. attention), sleep quality, and daytime sleepiness, as well as therapeutic efficacy across a number of neuropsychiatric disorders. Thus, TNS-as an adjunct to ST-may not only improve overall efficacy and speed of recovery of SL, but may help to treat some of the other symptoms of LC that ST, and improvement in smell function, may not fully resolve. This randomized, controlled trial (RCT) of ST and combination TNS and ST in adults with COVID-related SL will use a 3- group design: Group 1) Active ST (N=60), Group 2) Placebo ST (PBO, N=60), and Group 3) Active TNS plus Active ST (N=60). Our primary objectives are to 1) determine the efficacy of ST versus potential natural gains in function, 2) determine the TNS-enhanced effects of ST on SL, and 3) determine whether TNS+ST is more efficacious than ST in treating the other symptoms of LC.