Neha Masne scite author profile

Neha Masne

2Publications

25Citation Statements Received

69Citation Statements Given

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The Trend of Metaverse and Augmented & Virtual Reality Extending to the Healthcare System

Bhugaonkar¹,

Bhugaonkar²,

Masne³

2022

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There is no escaping Internet's favorite buzzword for 2022: The Metaverse. Everyone is talking about it, but only a few know what it is or how it works. One can look at the Metaverse as a 3D model of the Internet where it is possible to spend your reality parallel to the virtual world. In broad terms, Metaverse can be explained as a virtual space, graphically rich, leaning towards verisimilitude where people can do all sorts of things they do in real-life such as shop, play, socialize, and party. The pandemic has accelerated innovations in the digital age. Looking beyond revolutions in telehealth, payments, remote monitoring, and secure datasharing are other essential innovations in the fields of artificial intelligence (AI), virtual reality (VR), augmented reality (AR), and blockchain technology. The Metaverse is still in its nascent stage and evolving continuously, having a huge potential in health care to combine the technologies of AI, AR/VR, web 3.0, Internet of medical devices, and quantum computing, along with robotics to give a new direction to healthcare systems. From improving surgical precision to therapeutic usage and more, the Metaverse can bring significant changes to the industry

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Use of Nanocomposites in Bone Regeneration

Masne¹,

Ambade²,

Bhugaonkar³

2022

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This article examines the compositions of bone tissue grafting and presents tissue culture and engineering formally as an approach for orthopaedic surgery. We assessed articles on bone grafts, analyzed their properties, advantages, and restrictions, and delivered explanations on technologies, including bone-tissue engineering (BTE). Osteo graft materials range from real human bone autografts (self-grafts) to substitute materials that can be used as grafts. These can be used single-handedly or conjointly to improve bone healing and regeneration. Tissue engineering is a relatively newer and evolving alternative for reducing the challenges of bone grafts and improving the rehabilitation of bone fractures and defects. Shortly, the combination of scaffolds, healing factors, gene therapy, and, more recently, 3D printing of tissue-engineered constructs may yield new perceptions. Natural bone tissue has a nanocomposite structure that offers the right biological and physical characteristics. It is essential that the biomaterial resemble real bone tissue in order to regenerate bone tissue. Because they can offer the correct matrix environment, combine desirable biological features, and allow regulated, sequential distribution of numerous growth factors for the different phases of bone tissue regeneration, nanocomposites are the ideal alternative for bone tissue regeneration. This is because no single type of material can replicate the composition, structure, and characteristics of native bone. A relatively new class of materials called nanocomposite biomaterials combines a biopolymeric and biodegradable matrix structure with nanoscale fillers that are bioactive and easily resorbable. There are also some things to think about when using nanoparticles and nanocomposites as scaffolds in clinical settings for bone tissue engineering.

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Neha Masne

The Trend of Metaverse and Augmented & Virtual Reality Extending to the Healthcare System

Use of Nanocomposites in Bone Regeneration

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