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Biomedical Spectroscopy
This book discusses biomedical spectroscopy and the applications of spectroscopic techniques in advanced medical technology. Applicable to scientists and medical professionals, the aim of this work is to enable them to work together in this field, so that healthcare facilities can be made routinely available in a cost-effective manner—especially for developing countries which may not be able to afford universal healthcare with present day expensive medical technologies. The subject matter of this book also covers – Instrumentation, Experimental Techniques and Computational Methods Spectroscopy of Animal Models Microspectroscopy for Biomedical Applications Clinical Applications of Optical Spectroscopy Spectroscopy of Human Models Print edition not for sale in South Asia (India, Sri Lanka, Nepal, Bangladesh, Pakistan and Bhutan)
Mathematical Methods and Models in Biomedicine
Mathematical biomedicine is a rapidly developing interdisciplinary field of research that connects the natural and exact sciences in an attempt to respond to the modeling and simulation challenges raised by biology and medicine. There exist a large number of mathematical methods and procedures that can be brought in to meet these challenges and this book presents a palette of such tools ranging from discrete cellular automata to cell population based models described by ordinary differential equations to nonlinear partial differential equations representing complex time- and space-dependent continuous processes. Both stochastic and deterministic methods are employed to analyze biological phe...
ImmunoPhysics and ImmunoEngineering
ImmunoPhysics (ImmPhys) and ImmunoEngineering (ImmPhysEng), are two cross-disciplinary fields. ImmPhysEng aims to unravel quantitatively the immune-system function and regulation in health and disease. Whereas ImmPhys study and assess the physical basis of the immune response, ImmEng pursues its control and prediction. Ultimately, the overarching goal of these disciplines is to facilitate the development of therapeutic interventions to more precisely modulate and control the compromised immune response during diseases. Lately, these disciplines are becoming more popular and as such, the number of publications applying physical or engineering tools to understand the immune response is increasing. Nevertheless, there is still no scientific forum compiling the ImmPhysEng research breakthroughs. Possibly the biggest burden is to stimulate a fluent communication and syntony between a physicist or engineer and an immunologist.
Advancing Uncertain Combinatorics through Graphization, Hyperization, and Uncertainization: Fuzzy, Neutrosophic, Soft, Rough, and Beyond
This book represents the fourth volume in the series Collected Papers on Advancing Uncertain Combinatorics through Graphization, Hyperization, and Uncertainization: Fuzzy, Neutrosophic, Soft, Rough, and Beyond. This volume specifically delves into the concept of the HyperUncertain Set, building on the foundational advancements introduced in previous volumes. The series aims to explore the ongoing evolution of uncertain combinatorics through innovative methodologies such as graphization, hyperization, and uncertainization. These approaches integrate and extend core concepts from fuzzy, neutrosophic, soft, and rough set theories, providing robust frameworks to model and analyze the inherent co...
Health and Cognition in Old Age
In recent years, the aim of research on aging has shifted from prolonging life to fostering healthy and cognitively robust old age. In order to improve the quality of life of older people, we need to better understand cognitive aging as well as bodily aging. Health and Cognition in Old Age assembles the cream of research across varied medical, mental health, and social disciplines, and demonstrates how this knowledge can lead to improved outcomes for older people. The first half of this expert volume discusses biomedical and life course factors in aging, particularly as they affect cognition and well-being in later life. From there, effective solutions are the focus: interventions and care p...
Directory of Lion Leaders of India 2019-20
This Digital Edition contain Profiles of all Lion Leaders of India, in 73 Lions Districts of India for the Lionistic year 2019-20. Profiles of International President, Vice Presidents, International Directors, DG Teams and Multiple Council Officers details etc are given.
Fermented Foods: Characterization of the Autochthonous Microbiota
Fermented foods harbour diverse and complex microbial communities that change over time and vary depending on the type of product, particularly artisanal ones, that do not rely on starter cultures to conduct the fermentation process. Thus, autochthonous microbiota can originate from raw materials, be added by workers, be introduced via equipment, or develop as a consequence of the production environment. The contribution of this microbiota is crucial for the development of specific organoleptic features of the final product. Moreover, the complex dynamics and interactions between microbes, and growth substrates (raw materials) can positively influence the quality and safety of the final prod...
Biopolymer Research Trends
Biopolymers are a special class of polymers produced by living organisms. Starch, proteins and peptides, DNA, and RNA are all examples of biopolymers, in which the monomer units, respectively, are sugars, amino acids, and nucleic acids.A major but defining difference between polymers and biopolymers can be found in their structures. Polymers, including biopolymers, are made of repetitive units called monomers. Biopolymers inherently have a well defined structure: The exact chemical composition and the sequence in which these units are arranged is called the primary structure. Many biopolymers spontaneously fold into characteristic compact shapes (see also "protein folding" as well as secondary structure and tertiary structure), which determine their biological functions and depend in a complicated way on their primary structures. Structural biology is the study of the structural properties of the biopolymers. In contrast most synthetic polymers have much simpler and more random (or statistic) structures. This book presents leading-edge research from around the world in this dynamic field.
