L. Mohan scite author profile

Surgical sutures are used to facilitate closure and healing of surgical-or trauma-induced wounds by upholding tissues together to facilitate healing process. There is a wide range of suture materials for medical purpose and the main types include absorbable and nonabsorbable. Recently, there is a growth in the development of classes of suture materials based on their properties and capabilities to improve tissue approximation and wound closure. This review outlines and discusses the current and emerging trends in suture technology including knotless barbed sutures, antimicrobial sutures, bio-active sutures such as drug-eluting and stem cells seeded sutures, and smart sutures including elastic, and electronic sutures. These newer strategies expand the versatility of sutures from being used as just a physical entity approximating opposing tissues to a more biologically active component enabling delivery of drugs and cells to the desired site with immense application potential in both therapeutics and diagnostics.

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Electrophoretic deposition of nanocomposite (HAp + TiO2) on titanium alloy for biomedical applications

Mohan

Durgalakshmi

Manivasagam

et al. 2012

Ceramics International

157

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Current Trends of Microfluidic Single-Cell Technologies

Shinde

Mohan

Kumar

et al. 2018

IJMS

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The investigation of human disease mechanisms is difficult due to the heterogeneity in gene expression and the physiological state of cells in a given population. In comparison to bulk cell measurements, single-cell measurement technologies can provide a better understanding of the interactions among molecules, organelles, cells, and the microenvironment, which can aid in the development of therapeutics and diagnostic tools. In recent years, single-cell technologies have become increasingly robust and accessible, although limitations exist. In this review, we describe the recent advances in single-cell technologies and their applications in single-cell manipulation, diagnosis, and therapeutics development.

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Single-cell electroporation: current trends, applications and future prospects

Kar

Mohan

Dey

et al. 2018

J. Micromech. Microeng.

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The ability to deliver foreign molecules into a single living cell with high transfection efficiency and high cell viability is of great interest in cell biology for applications in therapeutic development, diagnostics and drug delivery towards personalized medicine. Many chemical and physical methods have been developed for cellular delivery, however most of these techniques are bulk approach, which are cell-specific and have low throughput delivery. On the other hand, electroporation is an efficient and fast method to deliver exogenous biomolecules such as DNA, RNA and oligonucleotides into target living cells with the advantages of easy operation, controllable electrical parameters and avoidance of toxicity. The rapid development of micro/nanofluidic technologies in the last two decades, enables us to focus an intense electric field on the targeted cell membrane to perform single cell micro-nano-electroporation with high throughput intracellular delivery, high transfection efficiency and cell viability. This review article will emphasize the basic concept and working mechanism associated with electroporation, single cell electroporation and biomolecular delivery using micro/nanoscale electroporation devices, their fabrication, working principles and cellular analysis with their advantages, limitations, potential applications and future prospects.

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Electrochemical behavior and effect of heat treatment on morphology, crystalline structure of self-organized TiO2 nanotube arrays on Ti–6Al–7Nb for biomedical applications

Mohan

Anandan

Rajendran

2015

Materials Science and Engineering: C

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L. Mohan

Suture materials — Current and emerging trends

Electrophoretic deposition of nanocomposite (HAp + TiO2) on titanium alloy for biomedical applications

Current Trends of Microfluidic Single-Cell Technologies

Single-cell electroporation: current trends, applications and future prospects

Electrochemical behavior and effect of heat treatment on morphology, crystalline structure of self-organized TiO2 nanotube arrays on Ti–6Al–7Nb for biomedical applications

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