Bala Madduri scite author profile

Modern medicine is under the excruciating pressure of drug resistant bacterial strains which are ever advancing with the introduction of every new class of antibiotics. Traditional bactericidal and bacteriostatic drugs, while effective in eliminating the susceptible bacterial strains, also impose a selective pressure on bacteria which often leads to the emergence of antimicrobial resistance. An alternative approach is the development of anti-virulence therapies, which aims reduce bacterial pathogenesis while avoiding the selective pressure of classical antimicrobial inhibitors, thus rendering bacteria harmless and potentiating natural elimination from the host by innate immunity defence mechanisms. We have synthesised a selection of functional polymers of poly(acryloyl hydrazide) using a panel of aldehyde functionalisation groups and evaluated their anti-virulence properties on both Mycobacterium bovis BCG and Mycobacterium smegmatis mc2 155, two surrogate organisms to study Mycobacterium tuberculosis, the etiological agent responsible for tuberculosis. Using a combination of microscopy and in vitro studies, we have shown the effectiveness of anti-virulence polymers in reducing mycobacterial phagocytosis in J774 macrophages with minimal antimicrobial activity.

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Advances in Electromagnetic Therapy for Wound Healing

Madduri¹,

Anand²,

Kohli³

et al. 2018

Def. Life. Sc. Jl.

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Understanding the molecular basis of wound healing and tissue regeneration continues to remain as one of the major challenges in modern medicine. Wound healing is a complex procedure involving various cellular mechanism. Though high frequency electromagnetic fields are reported to cause cancer, birth defects and DNA damage, electromagnetic field at low intensity and low frequency can be effectively used for wound healing and for many more medical applications. Low intensity-low frequency pulsed electromagnetic therapy is evidenced to have a significant impact on wound repair and regeneration. It provides a non-invasive reparative technique to treat an injury. In vitro studies reported a significant effect of electromagnetic field on neovascularisation and angiogenesis. There are also many pieces of evidence which support its efficiency in reducing the duration of wound healing and improving the tensile strength of scars. Here, we compared the traditional stigma associated with pulsed electromagnetic fields and weighed them with its potential therapeutic effect on wound healing. Furthermore, emphasised the need for more focused research to determine the therapeutic strategies and optimised parameters of pulsed electromagnetic field that can assure efficient wound healing and regeneration.

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Bala Madduri

Enhanced immunogenicity of Mycobacterium bovis BCG through CRISPRi mediated depletion of AftC

Development of anti-virulence polymers targeting mycobacteria

Advances in Electromagnetic Therapy for Wound Healing

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