Dhanashree Murugan scite author profile

According to the Global Burden of Diseases, Injuries, and Risk Factors Study, cases of bone fracture or injury have increased to 33.4% in the past two decades. Bone-related injuries affect both physical and mental health and increase the morbidity rate. Biopolymers, metals, ceramics, and various biomaterials have been used to synthesize bone implants. Among these, bioactive glasses are one of the most biomimetic materials for human bones. They provide good mechanical properties, biocompatibility, and osteointegrative properties. Owing to these properties, various composites of bioactive glasses have been FDA-approved for diverse bone-related and other applications. However, bone defects and bone injuries require customized designs and replacements. Thus, the three-dimensional (3D) printing of bioactive glass composites has the potential to provide customized bone implants. This review highlights the bottlenecks in 3D printing bioactive glass and provides an overview of different types of 3D printing methods for bioactive glass. Furthermore, this review discusses synthetic and natural bioactive glass composites. This review aims to provide information on bioactive glass biomaterials and their potential in bone tissue engineering.

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Mixed ligand copper(ii)-diimine complexes of 2-formylpyridine-N⁴-phenylthiosemicarbazone: diimine co-ligands tune thein vitronanomolar cytotoxicity

Kannan

Murugan

Ajaykamal

et al. 2023

Dalton Trans.

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A Perspective on Newly Emerging Proteolysis-Targeting Strategies in Antimicrobial Drug Discovery

2022

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Targeted protein degradation is a new aspect in the field of drug discovery. Traditionally, developing an antibiotic includes tedious and expensive processes, such as drug screening, lead optimization, and formulation. Proteolysis-targeting chimeras (PROTACs) are new-generation drugs that use the proteolytic mechanism to selectively degrade and eliminate proteins involved in human diseases. The application of PROTACs is explored immensely in the field of cancer, and various PROTACs are in clinical trials. Thus, researchers have a profound interest in pursuing PROTAC technology as a new weapon to fight pathogenic viruses and bacteria. This review highlights the importance of antimicrobial PROTACs and other similar “PROTAC-like” techniques to degrade pathogenic target proteins (i.e., viral/bacterial proteins). These techniques can perform specific protein degradation of the pathogenic protein to avoid resistance caused by mutations or abnormal expression of the pathogenic protein. PROTAC-based antimicrobial therapeutics have the advantage of high specificity and the ability to degrade “undruggable” proteins, such as nonenzymatic and structural proteins.

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Nanoparticle Enhancement of Natural Killer (NK) Cell-Based Immunotherapy

Murugan

Murugesan

Panchapakesan

et al. 2022

Cancers

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Natural killer (NK) cells are one of the first lines of defense against infections and malignancies. NK cell-based immunotherapies are emerging as an alternative to T cell-based immunotherapies. Preclinical and clinical studies of NK cell-based immunotherapies have given promising results in the past few decades for hematologic malignancies. Despite these achievements, NK cell-based immunotherapies have limitations, such as limited performance/low therapeutic efficiency in solid tumors, the short lifespan of NK cells, limited specificity of adoptive transfer and genetic modification, NK cell rejection by the patient’s immune system, insignificant infiltration of NK cells into the tumor microenvironment (TME), and the expensive nature of the treatment. Nanotechnology could potentially assist with the activation, proliferation, near-real time imaging, and enhancement of NK cell cytotoxic activity by guiding their function, analyzing their performance in near-real time, and improving immunotherapeutic efficiency. This paper reviews the role of NK cells, their mechanism of action in killing tumor cells, and the receptors which could serve as potential targets for signaling. Specifically, we have reviewed five different areas of nanotechnology that could enhance immunotherapy efficiency: nanoparticle-assisted immunomodulation to enhance NK cell activity, nanoparticles enhancing homing of NK cells, nanoparticle delivery of RNAi to enhance NK cell activity, genetic modulation of NK cells based on nanoparticles, and nanoparticle activation of NKG2D, which is the master regulator of all NK cell responses.

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The use of antimicrobial biomaterials as a savior from post-operative vascular graft-related infections: A review

Murugan

Rangasamy

2022

Results in Engineering

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Pooled evidence from preclinical and clinical studies for stem cell-based therapy in ARDS and COVID-19

Murugan

Rangasamy

2022

Mol Cell Biochem

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COVID-19 has severely devastated many lives across the globe. It has been speculated that stem cell-based therapy for COVID-19 treatment could be able to subsidize the effects. In preclinical and clinical studies, stem cell-based therapy has successfully eliminated inflammatory cytokines in ALI, ARDS, and COVID-19. Clinical trials have produced a variety of promising results for validating stem cell therapy in COVID-19 patients. For instance, exosome-based therapy (ExoFlow) showed an 87% survival status, and MSC-based therapy (Mesoblast) achieved an 83% survival rate in moderate to severe COVID-19 patients. This review debates the advantages of cell-free therapy, i.e., stem cell-derived exosome-based therapies, over stem cell-based therapy. This review aims to question whether the immunomodulatory effect of stem cells differs based on their origin and also tries to find possible answers for the best stem cells for treating SARS-CoV-2 infection.

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Rational design of diphenyl-λ5σ4-phosphinine based fluorescent probe for the selective detection of Hg2+ ions: Real application in cell imaging and paper strips

Enbanathan

Manickam

Thiyagarajan

et al. 2023

Journal of Photochemistry and Photobiology A: Chemistry

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Rational Design of Diphenyl-Λ5σ4-Phosphinine Based Fluorescent Probe for the Selective Detection of Hg2+ Ions: Real Application in Cell Imaging and Paper Strips

Iyer¹,

Enbanathan

Manickam³

et al. 2022

SSRN Journal

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