Samerender Nagam Hanumantharao
YOU?
Author Swipe
View article: 12. Topical Rosiglitazone Improves Fibrosis and Enhances Adipogenesis in Radiation-induced Skin Injury
12. Topical Rosiglitazone Improves Fibrosis and Enhances Adipogenesis in Radiation-induced Skin Injury Open
View article: 132. GW9662 Improves Lymphedema and Mitigates Fibrosis in a Mouse Tail Model
132. GW9662 Improves Lymphedema and Mitigates Fibrosis in a Mouse Tail Model Open
View article: 13. Autologous Adipocyte Cell Therapy For Secondary Lymphedema
13. Autologous Adipocyte Cell Therapy For Secondary Lymphedema Open
Purpose: Secondary lymphedema is a chronic edematous condition associated with the methods to treat cancer leading to progressive swelling in extremities and chronic inflammatory response. Lymphedema is currently managed using physical app…
View article: 21. Rosiglitazone Decreases Fibrosis And Stimulates Adipogenesis From Locally Derived Precursors In Irradiated Skin
21. Rosiglitazone Decreases Fibrosis And Stimulates Adipogenesis From Locally Derived Precursors In Irradiated Skin Open
Purpose: Radiation-induced tissue injury occurs in over 90% of patients who receive radiation for cancer treatment. Adverse effects of radiation therapy include wound dehiscence, atrophy, fibrosis, ulceration, and partial or full-thickness…
View article: Preclinical characterization of the efficacy and safety of biologic N-001 as a novel pain analgesic for post-operative acute pain treatment
Preclinical characterization of the efficacy and safety of biologic N-001 as a novel pain analgesic for post-operative acute pain treatment Open
View article: Mechanical Properties and Morphological Alterations in Fiber-Based Scaffolds Affecting Tissue Engineering Outcomes
Mechanical Properties and Morphological Alterations in Fiber-Based Scaffolds Affecting Tissue Engineering Outcomes Open
Electrospinning is a versatile tool used to produce highly customizable nonwoven nanofiber mats of various fiber diameters, pore sizes, and alignment. It is possible to create electrospun mats from synthetic polymers, biobased polymers, an…
View article: ARTIFICIAL SYNTHETIC SCAFFOLDS FOR TISSUE ENGINEERING APPLICATION EMPHASIZING THE ROLE OF BIOPHYSICAL CUES
ARTIFICIAL SYNTHETIC SCAFFOLDS FOR TISSUE ENGINEERING APPLICATION EMPHASIZING THE ROLE OF BIOPHYSICAL CUES Open
The mechanotransduction of cells is the intrinsic ability of cells to convert the mechanical signals provided by the surrounding matrix and other cells into biochemical signals that affect several distinct processes such as tumorigenesis, …
View article: Engineered Three-Dimensional Scaffolds Modulating Fate of Breast Cancer Cells Using Stiffness and Morphology Related Cell Adhesion
Engineered Three-Dimensional Scaffolds Modulating Fate of Breast Cancer Cells Using Stiffness and Morphology Related Cell Adhesion Open
Goal: Artificially engineering the tumor microenvironment in vitro as a vital tool for understanding the mechanism of tumor progression. In this study, we developed three-dimensional cell scaffold systems with different topog…
View article: Multi-Functional Electrospun Nanofibers from Polymer Blends for Scaffold Tissue Engineering
Multi-Functional Electrospun Nanofibers from Polymer Blends for Scaffold Tissue Engineering Open
Electrospinning and polymer blending have been the focus of research and the industry for their versatility, scalability, and potential applications across many different fields. In tissue engineering, nanofiber scaffolds composed of natur…
View article: Electrospun acellular scaffolds for mimicking the natural anisotropy of the extracellular matrix
Electrospun acellular scaffolds for mimicking the natural anisotropy of the extracellular matrix Open
Co-axial electrospinning of three immiscible polymers by sequentially blending in solvents of different boiling points to obtain biomimetic scaffolds.
View article: A 3D Biomimetic Scaffold using Electrospinning for Tissue Engineering Applications
A 3D Biomimetic Scaffold using Electrospinning for Tissue Engineering Applications Open
Electrospinning holds great promise for designing functional 3D biomimetic scaffolds for tissue engineering applications. The technique allows for the reproducible fabrication of 3D scaffolds with control over the porosity and thickness. I…