Shilpa Ajit scite author profile

Shilpa Ajit

5Publications

19Citation Statements Received

56Citation Statements Given

How they've been cited

How they cite others

159

Affiliations

Sree Chitra Thirunal Institute for Medical Sciences and Technology, Texas A&M University – Commerce

Publications

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An Approach for Building a Personal Health Information System Using Conceptual Domain Knowledge

et al. 2012

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In this paper we present the development of a Personal Health Information System (PHIS) by capturing the domain knowledge in the form of concept maps. The software architecture based on capturing the conceptual domain knowledge is demonstrated using a working prototype for patients suffering from diabetes mellitus. Cited current literature predicts that this user based information system has the potential to improve patient care, reduce medical errors, and lower health care costs.

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Radical scavenging gelatin methacrylamide based bioink formulation for three dimensional bioprinting of parenchymal liver construct

Pai¹,

Ajit²,

J³

et al. 2022

Bioprinting

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Three-dimensional bioprinting of tissues and organs

Pai

Sekar

Ajit

et al. 2022

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Abstract P383: 3D-collagen Matrix Enhanced Integrins And Matrix Metalloproteinases Expression In Cardiac Mesenchymal Cells

Muthusamy

Nath

Ajit

et al. 2021

Circulation Research

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Introduction: Use of cardiac mesenchymal cells (CMCs) has been shown to improve cardiac function following myocardial infarction. Main drawback in cardiac cell therapy is the major loss of injected cells within few hours. Increase the retention of these injected cells could increase their efficacy, where cardiac patches with various cell types showed better outcome. Among, collagen patch plays lead role as a cell-laden matrix in cardiac tissue engineering. Creating a detailed understanding of how collagen matrix changes the cellular phenotype could provide seminal insights to regeneration therapy. Hypothesis: Growing CMCs in three dimensional (3D) collagen matrix could alter the expression of extracellular matrix (ECM) and adhesion molecules, which may enhance their efficacy. Methods: The bovine type I collagen was chemically modified and solubilized in culture medium with photo-initiator. The mouse CMCs were isolated and resuspended in collagen solution, printed using 3D bioprinter and UV-crosslinked to form 3D-CMC construct. The 3D-CMC construct was submerged in growth medium and cultured for 48h and analyzed for the expression of ECM and adhesion molecules (n=5/group). CMCs cultured in regular plastic tissue culture dish was used as control. Results: RT profiler array showed changes in the ECM and adhesion molecules expression, specifically certain integrins and matrix metalloproteinases (MMPs) in CMCs cultured 3D collagen construct compared to 2D monolayer. Subsequent qRT-PCR analysis revealed significant (p<0.01) upregulation of integrins such as Itga2 (2.96±0.13), Itgb1 (3.18±0.2) and Itgb3 (2.4±0.27) and MMPs such as MMP13 (37.2±3.36), MMP9 (5.23±1.06) and MMP3 (7.14±2.07). Western blot analysis further confirmed significant elevation of these integrins and matrix metalloproteinases at protein level. Collagen encapsulation did not alter the expression of N-cadherin in CMCs, which is a potential mesenchymal cadherin adhesion molecule. Conclusion: Integrin αβ heterodimers transduce signals that facilitate cell homing, migration, survival and differentiation. Similarly, MMPs plays vital role in cell migration and proliferation. Our results demonstrate that the 3D-collagen Niche enhances the expression of certain integrins and MMPs in CMCs. This suggest that the efficacy of CMCs could be magnified by providing 3D architecture with collagen matrix and further in vivo experiments would reveal functional benefits from CMCs for clinical use.

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MicroRNA‐200c/429 mediated regulation of Zeb1 augments N‐Cadherin in mouse cardiac mesenchymal cells

Nath

Ajit

Sekar

et al. 2021

Cell Biology International

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Cardiac mesenchymal cells (CMCs) are a promising cell type that showed therapeutic potential in heart failure models. The analysis of the underlying mechanisms by which the CMCs improve cardiac function is on track. This study aimed to investigate the expression of N-Cadherin, a transmembrane protein that enhances cell adhesion, and recently gained attention for differentiation and augmentation of stem cell function. The mouse CMCs were isolated and analyzed for the mesenchymal markers using flow cytometry. Quantitative real-time polymerase chain reaction (qRT-PCR) and western blot analysis were used to assess the expression of N-Cadherin along with its counteracting molecule E-Cadherin and their regulator Zeb1 in CMCs and dermal fibroblast. The expression level of miR-200c and miR-429 was analyzed using miRNA assays. Transient transfection of miR-200c followed by qRT-PCR, western blot analysis, and immunostaining was done in CMCs to analyze the expression of Zeb1, N-Cadherin, and E-Cadherin. Flow cytometry analysis showed that CMCs possess mesenchymal markers and absence for hematopoietic and immune cell markers. Increased expression of N-Cadherin and Zeb1 in CMCs was observed in CMCs at both RNA and protein levels compared to fibroblast. We found significant downregulation of miR-200c and miR-429 in CMCs. The ectopic expression of miR-200c in CMCs significantly downregulated Zeb1 and N-Cadherin expression. Our findings suggest that the significant downregulation of miR-200c/ 429 in CMCs maintains the expression of N-Cadherin, which may be important for its functional integrity.

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Shilpa Ajit

An Approach for Building a Personal Health Information System Using Conceptual Domain Knowledge

Radical scavenging gelatin methacrylamide based bioink formulation for three dimensional bioprinting of parenchymal liver construct

Three-dimensional bioprinting of tissues and organs

Abstract P383: 3D-collagen Matrix Enhanced Integrins And Matrix Metalloproteinases Expression In Cardiac Mesenchymal Cells

MicroRNA‐200c/429 mediated regulation of Zeb1 augments N‐Cadherin in mouse cardiac mesenchymal cells

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