Psychological stress is associated with various oral diseases such as aphthous stomatitis, oral lichen planus, taste disturbances and glossodynia. However, the underlying mechanism is still unknown. The aim of this study was to determine the effect of psychological stress on salivary proteins and the oral microbiota in a rat model of chronic restraint stress. Six-week-old Sprague Dawley rats were subjected to restraint stress for four hours daily for 1 month. The behavior, weights of the adrenal glands, and serum corticosterone levels were evaluated as stress markers. Proteomic analysis of the saliva was performed using two-dimensional gel electrophoresis followed by mass spectrometry and Western blotting. Analysis of the oral microbiota was performed via 16S rRNA next-generation sequencing. The low mean body weights, lower number of entries and time spent in the open arm of elevated plus maze, high adrenal gland/body weight ratios, and high serum corticosterone levels confirmed the high levels of stress in the stress group of rats compared to the controls. Thirty-three protein spots were found to be significantly altered between the two groups. After silver staining, seven visible spots were subjected for mass spectrometry, and the expression levels of the two most significantly altered proteins, BPI fold containing family A member 2 and von Ebner’s gland protein, were confirmed by Western blotting. 16S rRNA sequencing analysis revealed a significant reduction in alpha diversity in the stress group compared to the controls. The abundances of oral bacteria, such as Facklamia and Corynebacterium, were significantly altered between the two groups. Additionally, analysis with PICRUSt2 software predicted 37 different functional pathways to be altered between the groups. In conclusion, the present study identified altered salivary proteins and oral microbiota due to psychological stress. These findings might aid in understanding the pathogenesis of stress-related oral diseases.
Secretory carcinoma (SC) of the salivary gland was recently added to the fourth edition of the World Health Organization classification of head and neck tumors. Some salivary tumors, including acinic cell carcinoma, have been reclassified as SC. Most of these tumors are located on the parotid gland with very few cases reported in the minor salivary glands of the buccal mucosa. Herein, we present a case of SC of buccal mucosa, which appeared clinically as a benign lesion in a 54-year-old Japanese female patient. Histopathologically, the tumor cells presented with an eosinophilic cytoplasm with microcytic structure along with eosinophilic secretory material and hemosiderin deposit. Immunohistochemical staining revealed strongly positive staining for S100, vimentin, and mammaglobin and negative staining for DOG-1. The tumor was finally diagnosed as secretory carcinoma of the buccal mucosa. We present a review of the medical literature of SC arising from minor salivary glands. We found only 15 cases of SC of buccal mucosa out of 63 cases of SC in the minor salivary glands. They showed good prognoses and only one case of SC in the buccal mucosa exhibited local recurrence and lymph node metastases.
ObjectiveBurning mouth syndrome (BMS) is a chronic intraoral burning sensation with no identifiable causes. In this study, we aim to demonstrate the effectiveness of treatment strategy using ethyl loflazepate monotherapy or in combination with milnacipran or amitriptyline.MethodA hospital‐based, retrospective study was conducted in 86 patients. The patients were divided into remission group and non‐remission group. The remission group comprised patients who were satisfied with their pain relief within a year of treatment initiation and did not require any follow‐up treatment. The treatment was considered effective if the patient got remission within 1 year or was able to reduce the visual analogue scale (VAS) score to <20, in the absence of remission.ResultsThe treatment strategy was effective in 76.7% of the patients. Significant reductions (p < .05) in VAS scores from 73.5 ± 14.2 at first visit to 14.7 ± 8.7 at last visit in the remission group, and from 79.7 ± 14.3 at first visit to 33.4 ± 23.7 after 1 year of treatment in the non‐remission group were noted.ConclusionThe treatment strategy using ethyl loflazepate monotherapy or in combination with milnacipran or amitriptyline can be very effective in reducing pain in BMS patients.
Background and Objective The translocation of oral bacteria, including Porphyromonas gingivalis, to the gut has been shown to alter gut microbiome. However, the effect of P. gingivalis on gut microbiome in relation to aging has not been demonstrated. We hypothesize that P. gingivalis has more detrimental effect on gut environment with increased age. The objective of this study is to investigate the effect of P. gingivalis on gut environment using aged mice. Materials and Methods C57BL/6J mice aged 4 weeks (young) or 76 weeks (old) were divided into four groups: control‐young, control‐old, P. gingivalis‐administered young, and P. gingivalis‐administered old. P. gingivalis was orally administered thrice weekly for 5 weeks. At 30 days after the last P. gingivalis administration, 16S rRNA sequencing was performed to study the gut microbiome. The mRNA and protein expression of intestinal junctional barrier molecules and the levels of the inflammatory cytokines IL‐1β and TNF‐α in the serum were evaluated. Results Significant differences in the gut microbiomes between the groups, in terms of taxonomic abundance, bacterial diversity, and predicted metagenome function, were observed. A significant reduction in the alpha diversity and in the abundance of beneficial bacteria, such as Akkermansia and Clostridiaceae, in the P. gingivalis‐administered old mice was observed. The mRNA and protein levels of Claudin‐1 and Claudin‐2 in the intestine were significantly elevated, while E‐cadherin was significantly downregulated in the P. gingivalis‐administered old mice, as were the serum levels of IL‐1β and TNF‐α. Conclusion The effect of P. gingivalis on the gut environment is more pronounced in old mice than in young mice.
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