4 results on '"Deeksha Shetty"'
Search Results
2. Community water fluoridation and its influence on periodontal health in different age groups
- Author
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Arti Dixit, Vijaysinh Ramchandra Tanpure, Piyush Jaiswal, Pallavi Tripathi Rameshchandra, Deeksha Shetty, Swastidipa Mandal, Bhumika Kamal Badiyani, and Amit Kumar
- Subjects
age groups ,clinical attachment level ,community water fluoridation ,gingival inflammation ,periodontal health ,probing depth ,Pharmacy and materia medica ,RS1-441 ,Analytical chemistry ,QD71-142 - Abstract
Background: Community water fluoridation is a well-recognized public health initiative known for its efficacy in preventing dental cavities. The positive effects of fluoride on tooth enamel have led to widespread implementation of water fluoridation programs. Materials and Methods: This cross-sectional study involved 1,000 participants from diverse age groups, spanning children, adolescents, adults, and older adults, residing in both fluoridated and non-fluoridated communities. Comprehensive periodontal assessments included measurements of probing depth (PD), clinical attachment level (CAL), and the presence of gingival inflammation. Participants were categorized into “fluoridated” or “non-fluoridated” groups based on their residential history. Results: Fluoridated communities consistently displayed lower mean PDs, CALs, and rates of gingival inflammation across all age groups. Notably, the reduction in PD and CAL reached approximately 0.5 millimeters and 0.3 millimeters, respectively, while the decrease in gingival inflammation ranged from 3% to 5%. Conclusion: This study suggests a potential link between community water fluoridation and enhanced periodontal health, as evidenced by improved PDs, CALs, and reduced gingival inflammation.
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- 2024
- Full Text
- View/download PDF
3. Unravelling the importance of the eukaryotic and bacterial communities and their relationship with Legionella spp. ecology in cooling towers: a complex network
- Author
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Kiran Paranjape, Émilie Bédard, Deeksha Shetty, Mengqi Hu, Fiona Chan Pak Choon, Michèle Prévost, and Sébastien P. Faucher
- Subjects
18S rRNA gene amplicon sequencing ,Eukaryotic community ,Legionella pneumophila ,Brevundimonas sp. ,Dissolved organic carbon ,Network analysis ,Microbial ecology ,QR100-130 - Abstract
Abstract Background Cooling towers are a major source of large community-associated outbreaks of Legionnaires’ disease, a severe pneumonia. This disease is contracted when inhaling aerosols that are contaminated with bacteria from the genus Legionella, most importantly Legionella pneumophila. How cooling towers support the growth of this bacterium is still not well understood. As Legionella species are intracellular parasites of protozoa, it is assumed that protozoan community in cooling towers play an important role in Legionella ecology and outbreaks. However, the exact mechanism of how the eukaryotic community contributes to Legionella ecology is still unclear. Therefore, we used 18S rRNA gene amplicon sequencing to characterize the eukaryotic communities of 18 different cooling towers. The data from the eukaryotic community was then analysed with the bacterial community of the same towers in order to understand how each community could affect Legionella spp. ecology in cooling towers. Results We identified several microbial groups in the cooling tower ecosystem associated with Legionella spp. that suggest the presence of a microbial loop in these systems. Dissolved organic carbon was shown to be a major factor in shaping the eukaryotic community and may be an important factor for Legionella ecology. Network analysis, based on co-occurrence, revealed that Legionella was correlated with a number of different organisms. Out of these, the bacterial genus Brevundimonas and the ciliate class Oligohymenophorea were shown, through in vitro experiments, to stimulate the growth of L. pneumophila through direct and indirect mechanisms. Conclusion Our results suggest that Legionella ecology depends on the host community, including ciliates and on several groups of organisms that contribute to its survival and growth in the cooling tower ecosystem. These findings further support the idea that some cooling tower microbiomes may promote the survival and growth of Legionella better than others. Video Abstract
- Published
- 2020
- Full Text
- View/download PDF
4. 'Read' and ‘Tailor’ Your Treatment
- Author
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Kausalya Sahu, Deviprasad Dosemane, Meera Khadilkar, Deeksha Shetty, and Madhurya Ramineni
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ethmoidal polyps ,hamartoma ,nasal mass ,nasal polyps ,respiratory epithelial adenomatoid hamartoma (read) ,sinonasal tract ,Otorhinolaryngology ,RF1-547 - Abstract
Introduction: Thesinonasal tract is an area that may be affected by various types of neoplastic lesions with more variety than what is encountered in other parts of the upper airway and food passage. Case Report: An elderly gentleman of 65 years complained of nose block on both sides for 3 months. On examination, he had firm polypoidal masses arising from the middle meatus and septum on both sides. Computed tomography scan of the sinuses revealed polypoidal mucosal thickening in bilateral sinuses with bilateral concha bullosa. The patient underwent functional endoscopic sinus surgery with the complete excision of the masses from the lateral wall and septum under general anesthesia. The results of the histopathological examination showed inflammatory changes in polypoidal tissues from the right maxillary, bilateral ethmoidal sinuses, and bilateral septal masses. The lesion in the left middle meatus showed the features of respiratory epithelial adenomatoid hamartoma (READ). The case had no evidence of residual or recurrent lesion during 6 months after the surgery. Conclusion: The READ is a rare lesion observed in the sinonasal tract. It is a diagnostic dilemma for clinicians as it can be misdiagnosed as neoplastic lesions, such as inverted papilloma or adenocarcinoma, which would warrant radical surgery or sinonasal polyposis and be treated inadequately.
- Published
- 2019
- Full Text
- View/download PDF
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