Olfactory Performance in Culinary Arts Students

Overview

The COVID-19 pandemic brought impaired smell and taste to the forefront of international public awareness and clinical importance. Loss of smell can impair awareness of environmental hazards, alter appetite, and have negative effects on social behavior and well-being. Despite the significant functional impact associated with impaired olfaction, few effective treatments are available. Olfactory training (OT), the mainstay of treatment, is a self-administered therapy which involves a routine of repetitive brief odor exposures over several weeks. The process has been shown to improve odor discrimination, identification and detection threshold. However, the structured design and daily time commitment may be difficult to adopt for some patients, leading to poor compliance. Moreover, OT only exposes patients to a limited number of odours, failing to replicate the complexity of odor mixtures experienced daily in our chemosensory environment. OT has mainly been studied with four conventional odours encompassing the major odor categories; phenyl ethyl alcohol/rose (flowery odor), eucalyptol (aromatic), citronellal/lemon (fruity), and eugenol (clove) (resinous); however, this neglects the importance of emphasizing odors that culturally specific or personally relevant to the patient. For some patients, these factors could hinder their ability to adopt and comply with therapy. In contrast, cooking is a culturally ubiquitous activity that is already performed daily by most people, and naturally exposes us to personally meaningful and culturally relevant odors. However, there have been no published studies investigating the impact that odors encountered during meal preparation have on olfactory performance and development. The present study aims to compare the olfactory effects of culinary skills training to those of a conventionally designed OT program. To achieve this, olfactory testing will be conducted on students enrolled in a professional culinary skills training program at Fanshawe College, and a control group consisting of students in non-olfactory dependent programs at the same institution. To compare the effect of cooking to conventional OT, the study will be repeated for a second semester and students will be asked to perform concurrent OT.

This factorially designed randomized control trial is designed to compare the effects of a culinary skills training program to a typical olfactory training program on olfactory ability, awareness, and quality of life. Students enrolled in a culinary skills training program and those in a different discipline with no relevant dependence on olfactory function (information technology) will have their olfactory performance assessed before and after the completion of the program semester. The investigators will then repeat the experiment in the subsequent semester with a new group of students, asking them to perform routine OT throughout the semester. Objective olfactory assessment will be performed with the Sniffin'Sticks olfactory test kit (Burghart, Wedel, Germany). Additionally, they will be asked to complete questionnaires that evaluate their olfactory awareness, the 32-item Odor Awareness Scale. The study aims to compare the effect of routine exposure to the chemosensory environment of cooking with conventional odor training (OT) in improving olfactory function. Hypothesis and Objectives Objective 1: To compare the effect of culinary skill training to a control group on objective olfactory performance, subjective olfactory awareness and olfactory related quality of life. * Hypothesis 1: Participants who complete a semester of culinary skill training will experience improvements in odor threshold discrimination identification scores compared to students studying in non-chemosensory dependent fields. * Hypothesis 2: Participants who complete a semester of culinary skill training will experience improvements in subjective odor awareness compared to students studying in non- chemosensory dependent fields. * Hypothesis 3: Participants who complete a semester of culinary skill training will experience improvements in olfactory specific quality of life compared to students studying in non- chemosensory dependent fields. Objective 2: To compare the effect of culinary skill training with OT to conventional OT on objective olfactory performance, subjective olfactory awareness and olfactory related quality of life * Hypothesis 1: Participants who complete a semester of culinary skill training with OT will experience further improvements in odor their threshold discrimination identification scores. * Hypothesis 2: Participants who complete a semester of culinary skill training with OT will experience improvements in subjective odor awareness that are greater in magnitude to the improvements gained by participants practicing OT. * Hypothesis 3: Participants who complete a semester of culinary skill training with OT will experience improvements in olfactory specific quality of life that are greater in magnitude to the improvements gained by participants practicing OT.