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Anju Yadav
Researcher at Defence Institute of Physiology and Allied Sciences
Publications - 11
Citations - 292
Anju Yadav is an academic researcher from Defence Institute of Physiology and Allied Sciences. The author has contributed to research in topics: Wound healing & Oxidative stress. The author has an hindex of 6, co-authored 11 publications receiving 204 citations.
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Journal ArticleDOI
Superpulsed (Ga-As, 904 nm) low-level laser therapy (LLLT) attenuates inflammatory response and enhances healing of burn wounds
Asheesh Gupta,Gaurav K. Keshri,Anju Yadav,Shefali Gola,Satish Chauhan,Ashok K. Salhan,Shashi Bala Singh +6 more
TL;DR: In conclusion, LLLT using superpulsed 904 nm laser reduced the inflammatory response and was able to enhance cellular proliferation, collagen deposition and wound contraction in the repair process of burn wounds.
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Noninvasive Red and Near-Infrared Wavelength-Induced Photobiomodulation: Promoting Impaired Cutaneous Wound Healing
Anju Yadav,Asheesh Gupta +1 more
TL;DR: Red and near‐infrared light‐induced photobiomodulation therapy appears to emerge as a promising drug‐free approach for promoting wound healing, reduction in inflammation, pain and restoration of function owing to penetration power in conjunction with their ability to positively modulate the biochemical and molecular responses.
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Photobiomodulation with Pulsed and Continuous Wave Near-Infrared Laser (810 nm, Al-Ga-As) Augments Dermal Wound Healing in Immunosuppressed Rats
TL;DR: The findings from this study might broaden the current biological mechanism that could be responsible for photobiomodulatory effect mediated through pulsed NIR 810 nm laser (10 Hz) for promoting dermal wound healing in immunosuppressed subjects.
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Combination of medicinal honey and 904 nm superpulsed laser-mediated photobiomodulation promotes healing and impedes inflammation, pain in full-thickness burn.
TL;DR: The study showed that therapeutic efficacy of 904 nm superpulsed laser-mediated PBM augments in the presence of medicinal honey by enhancing cellular proliferation and attenuation of inflammation and pain in burn wound healing.
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Photobiomodulatory effects of superpulsed 904 nm laser therapy on bioenergetics status in burn wound healing
TL;DR: The findings suggest that superpulsed 904nm LLLT augments burn wound healing by enhancing intracellular energy contents through modulation of aerobic metabolism for maximum energy output.