Association of xerostomia and taste alterations of patients receiving antineoplastic chemotherapy: A cause for nutritional concern.

BACKGROUND & AIMS: The symptoms of xerostomia and taste alteration are adverse effects which frequently occur in patients under chemotherapy and once associated they can potentially impair their nutritional status. The aim of this study was to investigate the association of xerostomia and taste alterations in patients being treated by neoplastic chemotherapy. METHODS: Fifty patients scheduled to receive neoplastic chemotherapy were followed for their first two chemotherapy cycles for solid tumors and the Chemotherapy-Induced Taste Alteration Scale (CiTAS) was adopted. Xerostomia was defined by the presence of dry mouth complaints reported by the patients and signs of hyposalivation identified during the intraoral examination. RESULTS: Of the 50 patients, 33 were women, mean age; 61,48 ± 9,07 years, and 17 were men, mean age; 57,35 ± 11,50 years. The most common tumor was located in the breast affecting 15 patients (30%). The Mann-Whitney test showed that the mean scores of CiTAS were significantly higher for those patients who reported having xerostomia when compared with those without xerostomia after the first two chemotherapy cycles. The cofounding variables such as age, smoking habits and use of antidepressants were not statistically associated with taste alterations (p > 0.05). CONCLUSIONS: Taste alterations were worse for patients who complained of xerostomia during the first two cycles of antineoplastic chemotherapy and the association of both symptoms can potentially impair their nutritional status and quality of life.

Late Oral Complications Caused by Head and Neck Radiotherapy: Clinical and Laboratory Study.

OBJECTIVES: The aim of presented cross-sectional and observational study was to determine the prevalence of late oral complications of patients with head and neck cancer who underwent radiotherapy, by clinical and laboratory analyses. MATERIAL AND METHODS: Fifty-five patients, 43 (78.2%) men and 12 (21.8%) women, mean age 60; range 38 to 87 years, who have completed radiotherapy for head and neck cancer for at least 6 months were enrolled. The presence of xerostomia, hyposalivation, oral candidiasis, and type of oral yeasts were correlated with post-radiotherapy period. A control group, age and gender matched, was used for comparisons. The Pearson's Chi-square or Fischer's exact test was used at a significance level of 5%. RESULTS: The mean post-radiotherapy period was 32 months. The oral complications found were xerostomia (45/55, [81.8%]), hyposalivation (44/55 [80%]) and oral candidiasis (15/55 [27.2%]). Xerostomia and hyposalivation was statistically higher in the study group when compared to the control group (P < 0.05). The presence of yeast occurred in 39 (70.9%) of the patients in the study group, and Candida albicans was the most prevalent etiological agent in 25 (64.1%) of those patients (P < 0.05). CONCLUSIONS: Xerostomia and hyposalivation were the more prevalent late oral complications related to radiotherapy. Oral candidiasis was also observed, although its prevalence was lower. The need for long-term dental follow-up of patients who underwent radiotherapy of the head and neck cancer is mandatory.

Effects of Benzodiazepines on Acinar and Myoepithelial Cells.

BACKGROUND: Benzodiazepines (BZDs), the most commonly prescribed psychotropic drugs with anxiolytic action, may cause hyposalivation. It has been previously shown that BZDs can cause hypertrophy and decrease the acini cell number. In this study, we investigated the effects of BZDs and pilocarpine on rat parotid glands, specifically on acinar, ductal, and myoepithelial cells. METHODS: Ninety male Wistar rats were divided into nine groups. Control groups received a saline solution for 30 days (C30) and 60 days (C60), and pilocarpine (PILO) for 60 days. Experimental groups received lorazepam (L30) and midazolam (M30) for 30 days. Another group (LS60 or MS60) received lorazepam or midazolam for 30 days, respectively, and saline for additional 30 days. Finally, other groups (LP60 or MP60) received either lorazepam or midazolam for 30 days, respectively, and pilocarpine for additional 30 days. The expression of calponin in myoepithelial cells and the proliferating cell nuclear antigen (PCNA) in acinar and ductal cells were evaluated. RESULTS: Animals treated with lorazepam showed an increase in the number of positive staining cells for calponin as compared to control animals (p < 0.05). Midazolam administered with pilocarpine (MP60) induced an increase in the proliferation of acinar and ductal cells and a decrease in the positive staining cells for calponin as compared to midazolam administered with saline (MS60). CONCLUSION: We found that myoepithelial cells might be more sensitive to the effects of BZD than acinar and ductal cells in rat parotid glands.

Histomorphometric analysis of salivary gland in wistar rats treated chronically with two benzodiazepines.

Benzodiazepines (BZDs), the most commonly prescribed psychotropic drugs with anxiolytic action, may cause hyposalivation. Therefore, this study sought to quantify the acini (N) in parotid glands of Wistar rats treated chronically with two BZDs (Lorazepam and Midazolan) and to verify the action of the pilocarpine when administered with these drugs. Ninety male Wistar rats were distributed in 9 groups according to the administration of: a) S30 - saline solution for 30 days; b) S60 - saline solution for 60 days; c) P60 - pilocarpine for 60 days; d) L30 - Lorazepam for 30 days; e) M30 - Midozolam for 30 days; f) LS60 - Lorazepam for 60 days and, after this period, 30 more days of saline solution; g) MS60 - Midazolam for 30 days and, after this period, 30 more days of saline solution; h) LP60 - Lorazepam and Pilocarpine for 60 days; i) MP60 - Midazolam and Pilocarpine for 60 days. A surgery was performed on the animals to remove the glands. After this, histological cuts were stained by hematoxylin and eosin, from which the N was quantified. The ANOVA and Games-Howell tests were used for statistical analysis. The L30 and M30 groups presented less N than did the S30 group (p<0.05). The LS60, MS60, and LP60 groups presented less N than did the S60 and P60 groups (p<0.05). No differences could be observed between the MP60 and S60 groups. The chronic administration of Midazolam and Lorazepam reduced acini, which may well have collaborated in the reduction of salivary flow previously verified. The association of Midazolam with Pilocarpine led to the reestablishment of acinar cells, which may have favored the restoration of the salivary flow formerly shown.