SCTIMST DSpace (Sree Chitra Tirunal Institute for Medical Sciences and Technology)
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Effect of sevoflurane versus propofol on strain quantification in patients with severe aortic stenosis undergoing aortic valve replacement
No full textThe prevalence of eating disorders among young adults (18 to 21yrs old) in Thiruvananthapuram city
No full textCellular and sub-chronic toxicity of hydroxyapatite porous beads loaded with antibiotic in rabbits, indented for chronic osteomyelitis
No full textBioceramics have emerged as a hopeful remedy for site-specific drug delivery in orthopaedic complications, especially in chronic osteomyelitis. The bioresorbable nature of bioceramic materials shaped them into a versatile class of local antibiotic delivery systems in the treatment of chronic osteomyelitis. Hydroxyapatite (HA) based bioceramics with natural bone mimicking chemical composition are of particular interest due to their excellent biocompatibility, better osteoconductive and osteointegrative properties. Although HA has been widely recognized as an efficient tool for local delivery of antibiotics, information regarding its subchronic systemic toxicity have not been explored yet. Moreover, a detailed investigation of in vivo subchronic systemic toxicity of HA is critical for understanding its biocompatibility and futuristic clinical applications of these materials as novel therapeutic system in its long haul. Evaluation of biocompatibility and sub-chronic systemic toxicity are significant determinants in ensuring biomedical device’s long-term functionality and success. Sub-chronic systemic toxicity allows assessing the potential adverse effects caused by leachable and nanosized wear particles from the device materials under permissible human exposure to the distant organs that are not in direct contact with the devices. In this context, the present study evaluates the sub-chronic systemic toxicity of in-house developed Hydroxyapatite porous beads (HAPB), gentamicin-loaded HAPB (HAPB + G) and vancomycin- loaded HAPB (HAPB + V) through 4 and 26-week muscle implantation in New Zealand white rabbits, as per ISO 10993–6 and ISO 10993–11. Analysis of cellular responses of HAPB towards Human Osteosarcoma (HOS) cell line through MTT assay, direct contact cytotoxicity, live/dead assay based on Imaging Flow Cytometry (IFC) showed its non-cytotoxic behaviour. Histopathological analysis of muscle tissue, organs like heart, lungs, liver, kidney, spleen, adrenals, intestine, testes, ovaries, and uterus did not reveal any abnormal biological responses. Our study concludes that the HAPB, gentamicin-loaded HAPB (HAPB + G) and vancomycin-loaded HAPB (HAPB + V) are biocompatible and did not induce sub-chronic systemic toxicity and hence satisfies the criteria for regulatory approval of HAs as a plausible candidate fo
Role of copeptin in predicting sodium homeostasis imbalances in patients undergoing surgery for pituitary adenoma
No full textMesenchymal stem cell culture in aligned porous hydroxyapatite scaffolds using a multiwell plate bioreactor for bone tissue engineering
No full textRegeneration of bone lost by trauma, diseases and aging, and restoration of its load-bearing function are major clinical challenges. Hydroxyapatite (HA) is a clinically proven scaffold material for bone grafting, but the random-pore structure limits the homing of the cells inside the graft and the bone regeneration progresses with the resorption of the graft material. This work is based on the hypothesis that aligned through pores in the graft will lead to a faster healing by homing the local cells inside and provide a better environment for new bone formation through the graft structure. The investigation was done using aligned porous HA scaffolds seeded with human Wharton's jelly-derived mesenchymal stem cells (hWJ-MSCs) and cultured in a multiwell format bioreactor setup. The cell adhesion was studied by microscopy, cell proliferation was evaluated by Alamar blue assay and osteogenic differentiation was confirmed by biochemical and molecular assays. The results indicate that the hWJ-MSCs infiltrated through the aligned porous network of the scaffold, proliferated well when cultured in the expansion medium, and differentiated into osteogenic lineage when cultured in the differentiation medium
Radiation exposure in cardiac electrophysiology: a prospective observational study in a tertiary care centre
No full textReview of types of csf diversion and their outcome in patients with posterior fossa tumour and hydrocephalus
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Microfluidic synthesis of gelatin nanoparticles conjugated with nitrogen-doped carbon dots and associated cellular response on A549 cells
No full textGelatin nanoparticles are a versatile class of nanoparticles with wide applications, especially in drug delivery and gene delivery. The inherent biocompatible nature of gelatin and various functional groups can improve the cellular interactions and enhance the efficacy of different drug formulations. Microfluidic hydrodynamic flow-focusing techniques can be used for the synthesis of gelatin nanoparticles. The present work syntheses nitrogen-doped carbon dots conjugated with gelatin nanoparticles (NQD-GNPs) using a microfluidic approach and associated cellular response through various assays. MTT, neutral red uptake, and Calcein AM/Propidium iodide (PI) assays independently proved the biocompatible nature of NQD-GNPs. The NQD-GNPs treatment demonstrated a slight increase in reactive nitrogen species generation and lactate dehydrogenase release. However, it does not alter the mitochondrial membrane potential or lysosomal stability. The cellular uptake of NQD-GNP depends on the concentration and does not affect the apoptotic pathway of the cells. Most of the cells remained viable even after treatment with high concentrations of NQD-GNPs
