Metaverse technology's incorporation into smart healthcare systems offers immersive, interactive, patient-centered solutions, therefore transforming medical treatment. Including virtual and augmented reality (VR/AR), artificial intelligence (AI), and blockchain for secure health data management, this chapter investigates how the metaverse is used in healthcare. It shows how these tools improve diagnostic accuracy, assist remote consultations, allow individualized therapy, and promote patient education. This chapter's main emphasis is on a creative therapeutic idea using energy interactions from particular materials investigated using advanced methods including Scanning Electron Microscopy (SEM), X-ray Diffraction (XRD), Fourier-Transform Infrared Spectroscopy (FTIR), and Electromagnetic Field (EMF) analysis. These techniques evaluate the structural and functional characteristics of the materials, therefore exploring their possible health advantages. The chapter goes on to cover how metaverse platforms may be used for preclinical and clinical research, therefore offering a safe and controlled setting for therapeutic exploration and behavioural studies. The metaverse's incorporation of these cutting-edge technologies seeks to improve patient outcomes, reduce negative drug reactions, and optimise healthcare delivery. This thorough investigation provides ideas on the future of digital health, where metaverse technologies and energy-based therapeutic strategies could change patient care.

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Integration of Metaverse Technologies in Smart Healthcare Systems

  • Rakesh Das,
  • Sandip Mondal,
  • Puttaswamy Madhusudan

摘要

Metaverse technology's incorporation into smart healthcare systems offers immersive, interactive, patient-centered solutions, therefore transforming medical treatment. Including virtual and augmented reality (VR/AR), artificial intelligence (AI), and blockchain for secure health data management, this chapter investigates how the metaverse is used in healthcare. It shows how these tools improve diagnostic accuracy, assist remote consultations, allow individualized therapy, and promote patient education. This chapter's main emphasis is on a creative therapeutic idea using energy interactions from particular materials investigated using advanced methods including Scanning Electron Microscopy (SEM), X-ray Diffraction (XRD), Fourier-Transform Infrared Spectroscopy (FTIR), and Electromagnetic Field (EMF) analysis. These techniques evaluate the structural and functional characteristics of the materials, therefore exploring their possible health advantages. The chapter goes on to cover how metaverse platforms may be used for preclinical and clinical research, therefore offering a safe and controlled setting for therapeutic exploration and behavioural studies. The metaverse's incorporation of these cutting-edge technologies seeks to improve patient outcomes, reduce negative drug reactions, and optimise healthcare delivery. This thorough investigation provides ideas on the future of digital health, where metaverse technologies and energy-based therapeutic strategies could change patient care.