Computational Intelligence In Bioprinting
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Computational Intelligence in Bioprinting
COMPUTATIONAL INTELLIGENCE IN BIOPRINTING The book provides a comprehensive exploration of the evolving field of bioprinting in regenerative medicine and is an essential guide for professionals seeking a thorough understanding of the field. Computational Intelligence in Bioprinting provides a comprehensive overview of the evolving field of bioprinting in reformative medicine, defining the process of printing structures using viable cells, biomaterials, and living molecules. The primary goal is to provide substitutes for tissue implants, which might lead to eliminating the requirement for organ donors, as well as to transform animal testing for the learning and analysis of disease and the growth of treatments. The book offers a comprehensive overview of bioprinting technologies and their applications, emphasizing the integration of computation intelligence, artificial intelligence, and other computer science advancements in the field. By harnessing the power of computational intelligence techniques such as AI, machine learning, optimization algorithms, and data analytics, existing hurdles can be overcome and the full potential of bioprinting can be unlocked. The book covers an extensive range of topics, including bio-ink formulation and characterization, bioprinter hardware and software design, tissue and organ modeling, image analysis, process optimization, and quality control. Audience The book is aimed at professionals, practitioners and researchers in the fields of bioprinting, tissue engineering, and computational intelligence in medicine.
Computational Convergence and Interoperability in Electronic Health Records (EHR)
The digitization of patient records has ushered in a new era of possibilities in the healthcare industry, helping it to keep pace with the ever-evolving landscape. However, the need for more seamless interoperability in Electronic Health Record (EHR) systems poses a significant challenge. This fragmented landscape inhibits the exchange, integration, and analysis of crucial health data, hindering efforts to deliver optimal patient care and impeding the advancement of healthcare procedures. By unraveling the complexities of computational convergence and highlighting the pivotal role of interoperability, Computational Convergence and Interoperability in Electronic Health Records (EHR) provides a roadmap for transforming healthcare delivery. It equips data analysts, medical professionals, and IT specialists with the knowledge and tools needed to navigate the intersection of healthcare and technology, enabling them to leverage emerging trends and standards to improve patient outcomes.
3D Bioprinting from Lab to Industry
A complete overview of bioprinting, from fundamentals and essential topics to recent advances and future applications Additive manufacturing, also known as 3D printing, is one of the most transformative technological processes to emerge in recent decades. Its layer-by-layer construction method can create objects to remarkably precise specifications with minimal waste or energy consumption. Bioprinting, a related process that employs cells and biomaterials instead of man-made substances or industrial materials, has a range of biomedical and chemical uses that make it an exciting and fast-growing area of research. 3D Bioprinting from Lab to Industry offers a cutting-edge overview of this topic, its recent advances, and its future applications. Taking an interdisciplinary approach to a flourishing research field, this book exceeds all existing treatments of the subject in its scope and comprehensiveness. Moving from fundamental principles of the technology to its immense future potential, this is a must-own volume for scientists looking to incorporate this process into their research or product development. 3D Bioprinting from Lab to Industry readers will also find: Treatment of printing parameters, surface topography requirements, and much more Detailed discussion of topics including 5D printing in the medical field, dynamic tuning, the multi-material extrusion approach, and many others A complete account of the bioprinting process, from lab requirements to commercialization 3D Bioprinting from Lab to Industry is ideal for researchers—graduate and post-doctoral scholars—in the areas of materials science, biomedical engineering, chemical engineering, biotechnology, and biochemistry.