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  • Sharpe Piper posted an update 11 hours, 43 minutes ago

    Patients receiving treatment for head-and-neck squamous cell carcinoma (HNSCC) also may have coexisting viral infections caused by HIV, HBV, and HCV (seropositive). There is scarce literature regarding the clinical presentation and treatment outcomes for these patients with coexisting viral infections (seropositive HNSCC). We conducted this study to assess the clinical presentation and treatment outcomes (overall survival [OS] and disease-specific survival [DSS]) of seropositive HNSCC patients.

    This was a retrospective cohort study on seropositive HNSCC patients registered at our center from 2012 to 2014. The viral infections were identified by the presence of the antibodies to these viruses in the patient’s blood samples.

    Out of the 19,137 HNSCC patients registered, 156 patients had HBV, HCV, and/or HIV infection. Among these, HBV infection was the most common (n = 86/156, 55.1%) followed by HIV infection (n = 36/156, 23.1%) and HCV infection (n = 29/156, 18.6%). The oral cavity was the most common subsite involved. Majority of these patients presented at an advanced stage (advanced T stage – 71.8% and node positive – 62.2%). The majority of the patients received curative-intent treatment (65.4%). The OS at 3 years for these HNSCC patients with coexisting HIV, HBV, and HCV infection was 60%, 62.6%, and 57.5%, respectively, and their DSS at 3 years was 58.8%, 78.6%, and 53.8%, respectively.

    Seropositive patients with HNSCC often present in the advanced stage but have a good survival if treated appropriately.

    Seropositive patients with HNSCC often present in the advanced stage but have a good survival if treated appropriately.

    The objective of this study is to evaluate the effects of radiotherapy doses on mineral density and percentage mineral volume of human permanent tooth enamel.

    Synchrotron radiation Xray microcomputed tomography (SRμCT) and microhardness testing were carried out on 8 and 20 tooth samples, respectively. Enamel mineral density was derived from SRμCT technique using ImageJ software. Microhardness samples were subjected to Vickers indentations followed by calculation of microhardness and percentage mineral volume values using respective mathematical measures. Data were analyzed using paired t-test at a significance level of 5%. Qualitative analysis of the enamel microstructure was done with two-dimensional projection images and scanned electron micrographs using μCT and field emission scanning electron microscopy, respectively.

    Vickers microhardness and SRμCT techniques showed a decrease in microhardness and an increase in mineral density, respectively, in postirradiated samples. These changes were related tontarget oral tissues such as teeth while delivering effective dosages to target regions.

    This study aims to assess the usefulness of salivary sialic acid (SA) as a tumor marker in the detection of oral squamous cell carcinoma (OSCC) among tobacco chewers.

    After the approval of study protocol by the Institutional Ethics Committee and informed voluntary consent, salivary samples were collected from 96 participants in each group of tobacco chewers with OSCC, tobacco chewers without precancerous or cancerous lesion, and healthy controls. Salivary protein-bound SA (PBSA) and salivary-free SA (FSA) were measured by Yao et al.’s method of acid ninhydrin reaction, and the data were subjected to appropriate statistical analysis.

    The salivary PBSA and FSA levels in the Groups 1, 2, and 3 participants were 31.17 ± 7.6 mg/dL and 63.45 ± 9.8 mg/dL, 25.45 ± 16.61 mg/dL and 33.18 ± 11.38 mg/dL, and 22.73 ± 3.01 mg/dL and 21.62 ± 8.86 mg/dL, respectively. Salivary FSA levels were significantly increased among the tobacco chewers with OSCC patients (Group 1) and tobacco chewers with no premalignant lesions cally obvious precancerous or cancerous lesions in the oral cavity.

    Salivary PBSA and FSA are significantly raised in both tobacco chewers with OSCC and in tobacco chewers with no precancerous or cancerous lesions in the oral cavity. SA should therefore be used cautiously while considering it as a marker for the early detection of oral cancer. Tobacco can be a crucial confounding factor when SA is used as a biomarker in OSCC since their levels are elevated to some extent even in tobacco chewers without any clinically obvious precancerous or cancerous lesions in the oral cavity.

    Radiotherapy in head-and-neck cancer (HNC) is a challenging task, and the anatomical alterations occurring during the course of intensity-modulated radiotherapy (IMRT) can be compensated by adaptive radiotherapy (ART) which utilizes repeat computed tomography (CT) scans during the treatment course for replanning. In this study, the clinical and dosimetric benefits of ART were compared with the conventional IMRT.

    Sixty patients with locally advanced HNC were randomized into two arms to receive IMRT up to a curative dose of 70 Gy with concurrent weekly chemotherapy and were prospectively analyzed between March 2018 and March 2019. Bupivacaine Repeat CT scan was acquired after the 3

    week of radiation. Patients in the study arm underwent replanning, whereas those in the control arm continued with the first IMRT plan. Assessment was done weekly till the end of treatment and at 1, 3, and 6 months post IMRT for disease response and toxicities. Tumor volume reduction rate (TVRR) and dose reduction to organs at risk were also recorded.

    Complete response was observed in 90% and 96.7% patients in the control and study arms, respectively, at the end of 6 months. Insignificant differences were found between the two arms in terms of toxicities. Xerostomia was statistically significantly higher in the control arm at 6 months (P = 0.01). TVRR was found to be 31.85%. Dose to spinal cord, ipsilateral, and contralateral parotid reduced by 4.3%, 6%, and 2.2%, respectively, with ART.

    Mid-treatment adaptive replanning can help in better target coverage and minimize toxicities in HNC patients.

    Mid-treatment adaptive replanning can help in better target coverage and minimize toxicities in HNC patients.

    Radiation therapy is commonly used in the treatment of head and neck cancer in both the definitive and postoperative settings. Proton therapy, due to its intrinsic physical properties, has the ability to reduce the integral dose delivered to the patients while maintaining highly conformal target coverage.

    .A literature search was performed on scientific databases, and Preferred Reporting Items for Meta-Analyses guidelines were followed to compute results. Only original studies were selected. Selected studies were used to extract some proposed data for comparison, dosimetry, site, complications, and survival.

    Proton beam therapy technology can be used against the conventional radiotherapy and shows satisfactory results. Yet conventional therapy is not less advantageous considering the amount of work available for any cross interpretations.

    Comparative preplanning could be beneficial considering multiple therapies for ruling out the best treatment outcomes that could be expected.

    Comparative preplanning could be beneficial considering multiple therapies for ruling out the best treatment outcomes that could be expected.

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