SCTIMST DSpace
Digital repository of Sree Chitra Tirunal Institute for Medical Sciences and Technology(SCTIMST), Trivandrum.
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- Academic Presentations by various Departments and Divisions
Recent Submissions
An Overview on Prototype Fabrication for the Medical Device Development Program
(SCTIMST, 2024-08-17) Ramesh Babu, V
Biocompatible InP/ZnSeS quantum dots/MXene composite as highly sensitive electrochemical sensors for carbendazim pesticide
(Applied Surface Science, 2024-11) Sharma, TSK; Jana, J; Sivaselvam, S; Babu, B; Jayasree, RS; Mishra, Y; Hur, SH; Choi, WM
In this study, we prepared InP/ZnSeS QDs anchored on MXene hybrid composite (IZQ-MX) for precise electrochemical sensing of carbendazim (CBZ) pesticide in food and environmental samples. The resulting electrochemical detection of CBZ exhibited a wide linear range of 0.019–527.6 μM, with a low detection limit of 14.59 nM and high sensitivity of 9.9026 µA·µM−1·cm−2. The environmental safety of IZQ-MX composite was further studied using in-vitro and in-vivo model. In L929 cells, exposure to IZQ-MX (0–100 nM) did not induce any significant change in cell viability, intracellular ROS generation and morphological changes. The exposure to IZQ-MX (0–200 nM) in C. elegans has also no significant change in primary and secondary endpoints of nematodes, neuronal development, DAF-16/FOXO and SKN-1/Nrf-2 transcription factors regulating the antioxidant genes. Environmental safety assessment of the IZQ-MX composite was performed using in-vitro and in-vivo models which demonstrated excellent biocompatibility. This work demonstrated the potential of IZQ-MX as significant electrocatalyst in sensitive and selective detection of CBZ for practical applications.
Nitrogen doped carbon quantum dots for bioimaging and detection of norfloxacin residues in food samples
(Journal of Materials Chemistry B, 2024-07) Sivaselvam, S; Anjana, RS; Dhujana, NS; Victor, M; Jayasree, RS
Incomplete metabolism and non-biodegradable nature of norfloxacin (NORx) lead to its persistent residues in the environment and food, potentially fostering the emergence of antibiotic resistance and posing a significant threat to public health. Hence, we developed a norfloxacin sensor employing hydrothermally synthesized N-doped carbon dots (N-Ch-CQDs) from chitosan and PEI demonstrated high sensitivity and specificity towards the antibiotic detection. The quantum yield of excitation-dependent emission of N-Ch-CQDs was effectively tuned from 4.6 to 21.5% by varying the concentration of PEI (5–15%). With the enhanced fluorescence in the presence of norfloxacin, N-Ch-CQDs exhibited a linear detection range of 20–1400 nM with a limit of detection (LoD) of 9.3 nM. The high biocompatibility of N-Ch-CQDs was confirmed in the in vitro and in vivo model and showed the environment-friendly nature of the sensor. Detailed study elucidated the formation of strong hydrogen bonds between N-Ch-CQDs and NORx, leading to fluorescence enhancement. The developed sensor's capability to detect NORx was evaluated in water and milk samples. The recovery rate ranged from 98.5% to 103.5%, demonstrating the sensor's practical applicability. Further, the bioimaging potential of N-Ch-CQDs was demonstrated in both the in vitro (L929 cells) and in vivo model (C. elegans). The synergistic influence of the defecation pattern and functioning of intestinal barrier mitigates the translocation of N-Ch-CQDs into the reproductive organ of nematodes. This study revealed the bioimaging and fluorescent sensing ability of N-Ch-CQDs, which holds significant promise for extensive application in the biomedical field.
Doxorubicin-Polysorbate 80 conjugates: targeting effective and sustained delivery to the brain
(RSC pharmaceutics, 2024-05) Ram Prasad, S; Leena, SS; Deepthi, A; Resmi, AN; Jayasree, RS; Sandhya, KS; Jayakrishnan, A
Targeting therapeutic agents to the brain to treat the central nervous system (CNS) diseases is a major challenge due to the blood-brain-barrier (BBB). In this study, an attempt was made to deliver a model drug such as doxorubicin (DOX) to the brain in a mice model through DOX-Polysorbate 80 (DOX-PS80) conjugates. DOX was successfully conjugated with the non-ionic surfactant Polysorbate 80 (PS80) by carbamate linkage and the conjugate was characterized by different spectroscopic techniques such as FTIR, UV-Visible and NMR. The DOX conjugation efficacy was found to be 43.69 ± 4.72 %. The in vitro cumulative release of DOX from the conjugates was found to be 4.9 ± 0.8 % in PBS of pH 7.3 and 3.9 ± 0.6 % in simulated cerebrospinal fluid (CSF) of pH 7.3 at the end of 10 days. In vitro BBB permeability assay was carried out using bEnd.3 cells and DOX-PS80 conjugate showed a 3-fold increase in BBB permeability compared to controls. In vitro cytotoxicity assay using U251 human glioblastoma cells showed an IC50 value of 38.10 µg/mL for DOX-PS80. Cell uptake studies revealed that DOX-PS80 was effectively taken up (90%) by the bEnd.3 and U251 cells and localized in cytoplasm at the end of 24 h. Tumor spheroid assay and in vivo experiments in Swiss albino mice demonstrated the possibility of DOX-PS80 conjugate crossing the BBB and delivering the drug molecules to the target site for treating CNS disorders.
Can a mouth wash prevent atherosclerosis and ischemic stroke?
(Cell Signaling, 2024-04) Lizymol, PP
Can a mouth wash prevent atherosclerosis and ischemic stroke? Is it a joke/dream/possibility in future? The mini review points to the possibility of controlling atherosclerosis and ischemic stroke through proper oral hygiene, regular dental check-up, removing tooth decay, preventing dental plaque and gum diseases. A systematic and detailed survey/study of oral health conditions among the neuro/cardio patients may be useful in improving their health recovery. Maintaining good oral health with regular brushing, flossing, and dental check-ups are crucial for preventing gum diseases. Moreover, mouthwash can be a helpful component of oral hygiene. Daily use of proven natural materials such as 0.1% turmeric mouthwash or coconut oil can reduce the chance of gum diseases.