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Int Forum Allergy Rhinol. Author manuscript; available in PMC 2024 Jun 1.
Published in final edited form as:
Int Forum Allergy Rhinol. 2023 Jun; 13(6): 1034–1036.
Published online 2022 Dec 15. doi:10.1002/alr.23117
PMCID: PMC9877759
NIHMSID: NIHMS1854458
PMID: 36484400
Jaime A Pena Garcia, M.D.,1 Emily Miller, M.D.,1 Timothy G. Norwood, M.D.,1 Natalie A. Dorin, M.D.,1 Jessica Grayson, M.D.,1 Bradford Woodworth, M.D.,1,2 and Do-Yeon Cho, M.D.1,2,3
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The publisher's final edited version of this article is available at Int Forum Allergy Rhinol
INTRODUCTION
Post viral olfactory dysfunction (PVOD) has significantly increased in incidence since the rise of coronavirus disease 2019 (COVID-19), resulting in anosmia (complete loss), hyposmia (partial loss), phantosmia (dysfunction of smell in the absence of an odor), or parosmia (distorted perception of smell) with limited evidence for proposed treatments.1,2 Olfactory disorders have been linked with a negative impact on emotions, interpersonal relationships, and overall health, as well as increased mortality.3,4 Parosmia, typically a foul or rotten odor, can be significantly distressing and dangerous as patients may no longer enjoy or tolerate previously pleasant or innocuous scents that they regularly encounter. This results in loss of appetite or even mistaking noxious odors as benign. This appears to be a long-term sequela, as recent literature notes an incidence of continued parosmia in 25-43.2% of patients six months after infection.5,6 Parosmia has been the least studied of the PVODs but has been treated with antipsychotics, anti-seizure medications, topical cocaine, and antimigraine medications with variable results.3 This study aims to analyze the therapeutic potential of gabapentin for parosmia after COVID-19 infection.
METHODS
This study was approved by the Institutional Review Board of the University of Alabama at Birmingham. The medical records of patients visiting a single provider (DYC) in the Smell and Taste clinic between August 2021 - February 2022 were reviewed. The University of Pennsylvania Smell Identification Test (UPSIT) was used to detect olfactory dysfunction (OD), and parosmia was identified through the patient’s history.7 Patients included those with parosmia and at least a six month history of OD with abnormal UPSIT scores following COVID-19 infection. The titration schedule started with100 mg daily for seven days, followed by 200 mg daily for another seven days. Based on symptomatic improvement and tolerance, the dosage was increased by 100-300 mg weekly, if necessary, up to 600 mg daily. All subjects were instructed to perform daily budesonide (0.5mg/2ml suspension) sinus irrigation and olfactory training (OT) with four essential oils (lemon, rose, eucalyptus, clove). Phone interviews were performed after a minimum of 3 weeks of treatment at the maximal tolerable dosage (MTD). Responsiveness to treatment was assessed by a patient-reported scale of no, mild, moderate, or significant improvement via phone interviews.
RESULTS
A total of 85 new patients with PVOD visited the UAB Smell and Taste clinic during the study period. Of those 85 patients, 14 patients (16.5%, male to female=1:13, mean age 41.2 (16-67), mean pre-treatment UPSIT score=20.9+/−7.5)) identified parosmia as a major complaint after COVID-19 infection. Gabapentin was prescribed to 12 patients as two decided to postpone treatment. Of those 12 patients, two did not tolerate the medication due to side effects (drowsiness) during titration, and one patient (male) was excluded as the treatment was less than three weeks at MTD. Four patients (44.4%) were already on daily budesonide irrigation and OT before starting gabapentin. Of the 9 patients who took more than three weeks of treatment at MTD, an improvement was noticed in 8 patients (88.9%) (Table 1). All 9 patients confirmed their compliance with daily budesonide irrigation and OT during the phone interview. Significant improvement was noticed in six patients (66.7%) who had foul smell as the nature of parosmia. This cohort indicated improvement was noticed within three weeks of treatment at MTD. One patient who expressed an altered smell (rather than foul) did not demonstrate improvement. Post-treatment UPSIT assessment was only available in three patients from this cohort, who had no or minimal improvement in their scores yet reported significant improvement in parosmia. When two of these three patients tried to taper the dosage, they noted a significant worsening of their parosmia. 50% of responsive patients currently remain on MTD with excellent benefits. Moreover, the short duration of action, where all patients who responded had subjective improvement within several days of starting the medication, indicates the mitigation of parosmia was likely from gabapentin.
Table 1.
Demographics and Characteristics
No | Age | Gender | Duration of OD (months) | Nature of Parosmia | Pre- & Post-treatment UPSIT score | Gabapentin dosage (duration of treatment) | Outcome | Pre-Gabapentin BI & OT |
---|---|---|---|---|---|---|---|---|
1 | 41 | F | 11 | Foul | 17 - 19 | 300mg BID (6 months) | Significant | No |
2* | 30 | F | 6 | Altered | 25 – 25 | 200mg Daily (3 weeks) | No improvement | No |
3 | 30 | F | 10 | Sour | 27 - NA | 200mg Daily (2 months) | Mild | Yes |
4* | 29 | F | 10 | Foul | 21 - NA | 200mg Daily (2 months) | Significant | Yes |
5* | 27 | F | 15 | Foul | 15 - NA | 200mg Daily (1 month) | Significant | No |
6* | 54 | F | 11 | Foul | 24 - NA | 200mg Daily (1 month) | Significant | No |
7 | 50 | F | 7 | Foul | 13 – 14 | 300mg BID(6 months) | Significant | Yes |
8 | 33 | F | 12 | Foul | 35 - NA | 300mg Daily (6 months) | Significant | Yes |
9* | 16 | F | 14 | Altered | 14 - NA | 200mg Daily (3 weeks) | Mild | No |
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OD: Olfactory Dysfunction
*:No longer on gabapentin
NA: Not Available
Pre-Gabapentin BI & OT: Application of budesonide irrigation (BI) and olfactory training (OT) before starting gabapentin
DISCUSSION
In the present study, we investigated the effects of titrating gabapentin on patients with parosmia after COVID-19 infection. Our data suggest that gabapentin provides at least subjective improvement in parosmia after three weeks of treatment in 8 out of 9 patients with parosmia, which was even more significant when all odors smelled foul/rotten. Although this was a small sample size, this is the first study to suggest that gabapentin could be helpful in the treatment of COVID19-related parosmia. Overall, the medication was well tolerated, with the only major adverse effect: daytime drowsiness. About 50% of patients could taper off within two months at MTD without a return of parosmia.
The qualitative smell changes associated with COVID-19 may significantly impact the patient’s overall emotional, mental, and physical health. Lerner et al.8 recently demonstrated that those with COVID19-related parosmia have significantly decreased olfactory-related quality of life scores. Therefore, treatment options aimed at these qualitative changes, notably parosmia, have an important role in future research.
The limitations of this study include a single provider cohort of patients with a short follow-up, a hom*ogenous patient population, and limited objective data to determine the degree of improvement. Future directions will include a larger, more diverse patient population with objective data from pre-and post-treatment olfactory tests. Additionally, a randomized controlled study is necessary to prove efficacy. Many post-treatment UPSITs were unavailable due to no-shows on follow-up visits or a lack of UPSIT kits due to a supply crisis. Overall, gabapentin appears to be a well-tolerated potential treatment option for parosmia in those infected with COVID-19.
Funding Sources
This work was supported by National Institutes of Health (NIH)/National Heart, Lung, and Blood Institute (1 R01 HL133006-05) to BW; and NIH/National Institutes of Allergy and Infectious disease (K08AI146220, 1R21AI168894-01), Triological Society Career Development Award, and Cystic Fibrosis Foundation K08 Boost Award (CHO20A0-KB) to DYC.
Footnotes
The manuscript was presented at the 2022 American Rhinologic Society Annual Meeting, Philadelphia PA, in September 2022.
Bradford A. Woodworth, M.D. is a consultant for Cook Medical, Smith and Nephew, and Medtronic. The authors whose names are listed other than Bradford A. Woodworth, M.D. certify that they have no affiliations with or involvement in any organization or entity with any financial interest in the subject matter or materials discussed in this manuscript.
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