Seema Saraswathy scite author profile

BackgroundRadiation-induced xerostomia is a distressing clinical condition that starts appearing from the initial stages of radiotherapy in head and neck cancer patients. Though submandibular glands contribute to maximum of the “resting salivary” secretions, most of the acute xerostomia experiments so far reported have been on animal parotid glands. Therefore, we assessed and quantified the histologic changes in submandibular glands of Sprague-Dawley (SD) rats using histomorphometry, 24 hours after radiation.MethodsThree SD rats were given single-dose radiation of 15 Gray from a gamma cobalt-60 irradiator. Same number of non-radiated animals was the controls. Animals were sacrificed at 24 hours followed by histopathology and histomorphometry of submandibular glands, where the mean values were analyzed by Student’s t-test.ResultsIrradiated submandibular glands showed highly significant reduction in acinar area (53%: 77.16±5.05% to 36.55±4.90%) and acinar size (87%: 3,447.53 ± 461.03 mm2 to 428.25 ± 75.22 mm2) with concomitant increase in inter-acinar space (3.46 ± 0.67 mm to 10.08 ± 0.60 mm). Acini nuclei displayed anisonucleosis, poikilonucleosis and pyknosis. “Serous acini” had marked morphologic changes, with fluid accumulation between cells, generalized cytoplasmic vacuolation and vascular congestion, while “mucous acini” largely retained cell architecture. Similarly, ductal cells and nuclei also did not show apparent differences. This demonstrated radiosensitivity variations among different submandibular gland cell types.ConclusionEvaluation of acute submandibular acinar cell dysfunctions has helped in quantifying the histologic elements, which mainly contribute to the resting salivary secretions. Findings would aid in future research of radioprotector drugs, salivary glandular regeneration modalities and in devising prudent radiotherapy protocols to address radiation-induced xerostomia.

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Laser ionization mass spectrometry in oral squamous cell carcinoma

Saraswathy

Krishnan

Harith

et al. 2013

J Oral Pathology Medicine

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Biomarker research in oral squamous cell carcinoma (OSCC) aims for screening/early diagnosis and in predicting its recurrence, metastasis and overall prognosis. This article reviews the current molecular perspectives and diagnosis of oral cancer with proteomics using matrix-assisted laser desorption ionization (MALDI) and surface-enhanced laser desorption ionization (SELDI) mass spectrometry (MS). This method shows higher sensitivity, accuracy, reproducibility and ability to handle complex tissues and biological fluid samples. However, the data interpretation tools of contemporary mass spectrometry still warrant further improvement. Based on the data available with laser-based mass spectrometry, biomarkers of OSCC are classified as (i) diagnosis and prognosis, (ii) secretory, (iii) recurrence and metastasis, and (iv) drug targets. Majority of these biomarkers are involved in cell homeostasis and are either physiologic responders or enzymes. Therefore, proteins directly related to tumorigenesis have more diagnostic value. Salivary secretory markers are another group that offers a favourable and easy strategy for non-invasive screening and early diagnosis in oral cancer. Key molecular interrelated pathways in oral carcinogenesis are also intensely researched with software analysis to facilitate targeted drug therapeutics. The review suggested the need for incorporating 'multiple MS or tandem approaches' and focusing on a 'group of biomarkers' instead of single protein entities, for making early diagnosis and treatment for oral cancer a reality.

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Surface characterization of nickel titanium orthodontic arch wires

Krishnan

Saraswathy

Tiwari

et al. 2015

Medical Journal Armed Forces India

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Effect of ion-implantation on surface characteristics of nickel titanium and titanium molybdenum alloy arch wires

et al. 2013

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