We examined the influence of oral malodor on psychological stress among patients with a chief complaint of oral malodor. A total of 101 patients (40 male and 61 female) who visited our clinic with a chief complaint of oral malodor were included in this study. The primary compounds of oral malodor—volatile sulfur compounds (VSC)—were measured using the Oral Chroma TM instrument. Salivary stress markers, cortisol, and chromogranin A were measured using an enzyme-linked immunosorbent assay (ELISA) kit. The mood was measured using the Profile of Mood States 2nd Edition (POMS2). Among the participants, 60.3% had at least one level above the threshold in the following three markers: hydrogen sulfide, methyl mercaptan, and dimethyl sulfide. The gender distribution was 35 female (57.4%) and 25 male (62.5%). Salivary cortisol levels, a biomarker of stress, did not vary depending on the presence or absence of oral malodor. Chromogranin A levels were higher in the oral malodor female group than in the no oral malodor female group. With respect to the POMS2, regardless of the presence or absence of oral malodor measured using gas chromatography, the participants had higher scores for “Anger-Hostility” and “Fatigue-Inertia”. Analysis by gender showed that “Depression-Dejection” was significantly higher in the oral malodor female group than in the no oral malodor female group. These results suggest that those who are worried about oral malodor have higher psychological stress than those who are not, regardless of the presence or absence of oral malodor measured using gas chromatography.
As the world becomes richer and more peaceful, increasingly more people are concerned about oral malodor and seeking cleanliness. However, in reality, most dental clinics have a difficult time determining how to deal with different types of patients with oral malodor. Although specialists rate the symptoms as mild, for patients, these are serious problems that can affect social acceptance. Hine M. K. pointed out that oral malodor causes psychological distress in many people who are worried about it [
A 1999 survey on trends in health and welfare among 30,000 Japanese individuals conducted by the Japanese Ministry of Health, Labor and Welfare indicated public awareness of oral malodor in Japan. Seventy percent of those who have oral malodor have problems in the oral cavity. Indeed, 14.5% of them are worried about oral malodor [Reference]. Oral malodor is the fourth most common worry after periodontal diseases and dental caries. More than 10 million individuals in Japan are afraid of their oral malodor. A 1992 survey of oral malodor [
In younger generations, those who think they have oral malodor have significantly higher breath gas concentration than those who do not. On the other hand, in individuals over 45 years of age, those who think they have oral malodor have significantly lower breath gas concentration than those who do not.
Psychological factors that can directly affect interactions with others, such as worries about oral malodor, are subtle, and half of the patients with psychosomatic diseases have complaints of oral malodor. In terms of personality, those who are delicate perfectionists and those with mysophobia are likely to worry about oral malodor. It has been reported that experimentally induced psychological stress reduces the amount of saliva and increases oral malodor. The fact that oral malodor is mostly caused by psychological stress rather than by objective factors shows that patients with complaints of oral malodor require effective and scientific psychological support.
There are few studies on the psychological stress of those who are worried about oral malodor. In this study, we examined the influence of oral malodor on psychological stress by using VSC levels, saliva stress markers, and a mood questionnaire.
Patients who visited Ginza Daiko Dental Clinic with a chief complaint of oral malodor were included in the study. A total of 101 patients (40 male and 61 female), after excluding those with systemic disease, Sjogren syndrome with a reduced amount of saliva, or severe periodontal disease, were included in this study. They provided informed consent prior to participation. This study was approved by the ethics committee of Medical Corporation Association Koyokai.
Odor measurements and instrumental analysis were performed using a simple chromatography (Oral Chroma™, FIS Corporation, Hyogo, Japan), which is less likely to be affected by temperature and humidity and allows high-precision measurements. The primary compounds of oral malodor, that is, VSC including hydrogen sulfide (H2S), methyl mercaptan (CH3SH), and dimethyl sulfide ((CH3)2S), were measured in ppb for 8 minutes per measurement, using gas chromatography. The following thresholds were used: H2S = 112 ppb, CH3SH = 26 ppb, and (CH3)2S = 8 ppb. Participants with levels exceeding at least one of the three thresholds were classified as those with oral malodor. All measurements were performed three hours after meals (i.e., between 10:00 am and 3:00 pm).
Saliva collection was performed using the Saliva Collection Aid (SCA) (Salimetrics, LLC, State College, PA, USA). Specifically, saliva samples were collected by drooling using a straw that was inserted into a vial (a storage tube). The collected saliva was stored at −20 degrees until the analysis of salivary markers.
The levels of Salivary cortisol and chromogranin A in the collected saliva were measured using the ELISA assay and the Salivary Cortisol Enzyme Immunoassay Kit (Salimetrics, LLC, State College, PA, USA), respectively.
Chromogranin A levels were corrected with total protein measured using the BCA Protein Assay Kit (Pierce, Rockford, IL, USA).
The subjective mood was assessed using the Profile of Mood States 2nd Edition (POMS2), a 65-item questionnaire using a 5-point scale [
1) “Anger-Hostility”: a measure of hostility and anger toward others
2) “Confusion-Bewilderment”: a measure of bewilderment and poor thinking ability
3) “Depression-Dejection”: a measure of depression with loss of self-confidence
4) “Fatigue-Inertia”: a measure of apathy and lack of vigor
5) “Tension-Anxiety”: a measure of tension and anxiety
6) “Vigor-Activity”: a measure of energy, uplifting feelings, and vigor
7) “Friendliness”: a measure of sense of trust and compassionate and positive feelings toward others
The POMS2 was administered after saliva collection.
All data are presented as mean ± standard error. Statistical analysis was performed using the Wilcoxon signed rank test. P-values < 0.05 were considered statistically significant.
The results for the VSC (i.e., H2S, CH3SH, and (CH3)2S) are shown in
Forty participants (39.6%) had levels below the threshold for all VSC markers. Based on these results, 61 participants were categorized as the oral malodor group. When analyzed for each VSC type, a high percentage of participants (34.7%, 35 out of 61 participants) had only methyl sulfide levels above the threshold. Fourteen participants (13.9%) had levels above the threshold for all three VSC.
Analysis by gender showed the incidence of oral malodor to be 62.5% and 57.4% in men (n = 25) and women (n = 35), respectively.
Measurements of salivary biomarkers, cortisol, and chromogranin A were performed. The cortisol and chromogranin A levels in the participants were 0.23 ± 0.02 μg/dl and 9.94 ± 0.73 pmol/mg protein, respectively. The results of the comparison between the oral malodor group and the no oral malodor group are shown in
levels were 0.23 ± 0.03 μg/dl and 10.73 ± 1.07 pmol/mg protein, respectively. In the no oral malodor group, the cortisol and chromogranin A levels were 0.23 ± 0.04 μg/dl and 8.73 ± 0.85 pmol/mg protein, respectively. The chromogranin A levels in the oral malodor group were significantly higher than those in the no oral malodor group.
The results of the analysis by gender are shown in
those in the oral malodor group. Among female participants, the chromogranin A levels in the oral malodor group were higher than those in the no oral malodor group.
The participants’ scores on the POMS2 are shown in
The results of the analysis by gender are shown in
Fatigue-Inertia (46.7 ± 1.4 in the no oral malodor group, 45.1 ± 1.8 in the oral malodor group was significantly higher) in the no oral malodor group than that in the oral malodor group (
In this study, we examined the influence of oral malodor on psychological stress by using gas chromatography, saliva stress markers, and a mood questionnaire in patients with a chief complaint of oral malodor.
Oral malodor was measured using three VSC markers that are the causative agents of oral malodor [
We measured salivary stress markers, cortisol, and chromogranin A. Cortisol is an adrenocortical hormone that is secreted through the activation of the hypothalamic-pituitary-adrenal axis (HPA) system in response to various stressors [
Chromogranin A is present in many secretory granules in endocrine organs including adrenal medullary chromaffin cells and sympathetic nerve endings. It responds to the action of the sympathetic nervous-adrenal medullary (SAM) system in the biological response to stress and is released into saliva by autonomic nerve stimulation [
The analysis of the mood questionnaire showed that negative factors such as “Anger-Hostility” (a measure of anger and hostility towards others) and “Fatigue-Inertia” (a measure of apathy and lack of vigor) were significantly higher in the no oral malodor group than in the oral malodor group. The fact that participants without oral malodor, which was measured using gas chromatography, had higher scores for “Anger-Hostility” and “Fatigue-Inertia” suggests that they have difficulty interacting with others because of anxiety about oral malodor.
Analysis by gender showed that negative factors, such as “Anger-Hostility” and “Depression-Dejection” (a measure of depression with loss of self-confidence), were significantly higher in the male no oral malodor group than in the male oral malodor group. In the female participants, “Fatigue-Inertia” was significantly higher in the no oral malodor group than in the oral malodor group, while “Depression-Dejection” was significantly higher in the oral malodor group than in the no oral malodor group. For both male and female participants, among the positive factors, “Friendliness” (a measure of sense of trust and compassionate and positive feelings towards others) and “Vigor-Activity” (a measure of energy, uplifting feeling, and vigor) were found to be significantly higher and lower in the oral malodor group than in the no oral malodor group, respectively. The fact that the participants had higher scores for “Depression-Dejection” and lower scores for “Vigor-Activity” suggests that they have ambivalent feelings about wanting to get along with others and depression and anxiety about oral malodor.
These results suggest that those who are worried about oral malodor have higher psychological stress than those who are not, regardless of the presence or absence of oral malodor measured using gas chromatography. This study also showed that patients with oral malodor require not only dental treatment but also psychological treatment.
The authors declare no conflicts of interest regarding the publication of this paper.
Kato, M., Hu, A., Kimura, S., Yamaguchi, T. and Kobayashi, H. (2019) The Influence of Oral Malodor on Psychological Stress. Health, 11, 501-510. https://doi.org/10.4236/health.2019.115043