ABSTRACT
Context: As the number of head-and-neck cancer (HNC) patients are high in our subcontinent, the study was designed to reduce the treatment time and increase efficacy. Aims: Comparative evaluation of the efficacy, toxicity, local control, and survival of concomitant boost radiotherapy (CBRT), CBRT with concurrent chemoradiation (CBRT + CCT) and conventionally fractionated radiotherapy with concomitant chemotherapy (CFRT + CCT) in locally advanced HNC (LAHNC). Materials and Methods: Patients with LAHNC were randomly assigned to 3-groups of 30-patients each. Group I (CBRT) received, 45 Gy/25#/5-weeks and 18 Gy/10# concomitant boost in the last 2-week of treatment, receiving a total dose of 63 Gy. Group II (CBRT + CCT) received CBRT with concomitant cisplatin 75 mg/m 2 on day 1, 17, and 34. Group III (CFRT + CCT) received 64 Gy/32#/6.2 weeks, concurrent with injection cisplatin 75 mg/m 2 on day 1, 22, and 42. Statistical Analysis Used: Stata 9.0 SPSS and Chi-square test were used for analysis and disease-free survival (DFS) rates were calculated using the Kaplan–Meier method. Results: The median follow-up period was 8.2 months. At last follow-up, locoregional control was 36%, 57%, and 40% and DFS was seen in 33%, 53%, and 40% of patients in Group I, II, and III, respectively. Grade-3 cutaneous reactions were significantly higher in Group-II as compared to that of Group-III (P = 0.033) and Group-I (P = 0.715). Conclusion: All three groups have similar response rates and DFS with manageable toxicity
ABSTRACT
Coenzyme Q10 (CoQ10) is a naturally occurring, lipid soluble, essential compound and is also known as ubiquinone. CoQ10 acts as an intermediate of the electron transport chain situated in membrane of mitochondria and vital for ATP production and cellular respiration. CoQ10 also serves as an intercellular antioxidant. All the clinical use of CoQ10 are based upon these two functions. CoQ10 levels are altered in a number of oncological as well as non-oncological diseases. Furthermore, recent data indicate that CoQ10 has an impact on the expression of many genes involved in metabolism, cellular transport, transcription control, and cell signaling, making CoQ10 a potent gene regulator. CoQ10 supplementation is useful in diseases associated with CoQ10 deficiency which includes primary and secondary CoQ10 deficiencies, fibromyalgia, diabetes mellitus, mitochondrial diseases, neurodegenerative diseases, cardiovascular disease, cancer, male infertility and periodontal disease. Clinical presentations of severe CoQ10 deficiency include severe infantile multisystemic disease, encephalomyopathy, isolated myopathy cerebellar ataxia and Leigh syndrome with growth retardation. Oral CoQ10 administration can correct CoQ10 deficiency since it increases CoQ10 tissue levels. CoQ10 therapy has no serious side effects in humans and new formulations have been developed that increase CoQ10 absorption and tissue distribution. Future trends involving CoQ10 in many diseases needs more clinical trials for better understanding of CoQ10 efficacy.