Exploring Noninvasive Disease Biomarkers With Urinary Omics Analysis
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Exploring Noninvasive Disease Biomarkers with Urinary Omics Analysis
Exploring Noninvasive Disease Biomarkers with Urinary Omics Analysis offers a transformative journey into the world of non-invasive diagnostics. This comprehensive volume delves into the molecular foundations of urinary biomarkers, illuminating the intricate signatures that indicate various pathological conditions and elucidating the mechanisms behind their release into urine. Readers will gain invaluable insights into cutting-edge analytical technologies, methodologies, and data integration techniques essential for biomarker discovery. From genomic approaches to transcriptomics, proteomics, and metabolomics, each chapter provides a thorough examination of the latest advancements, accompanied by practical guidance and case studies showcasing their clinical applications across diverse health conditions.In addition to the foundational knowledge, the book highlights the clinical applications of urinary omics in diagnosing renal disorders, metabolic syndromes, and infectious diseases. It equips professionals and students with the tools needed to navigate the complexities of urinary omics, revolutionize personalized medicine, and advance transformative healthcare solutions. The practical guidance and case studies included in the book make it an invaluable resource for those looking to implement these advanced diagnostic techniques in clinical settings. - Provides a comprehensive exploration of urinary omics, including an in-depth analysis of genomics, proteomics, and metabolomics - Highlights advances in analytical technologies for analyzing urinary biomarkers, offering a comprehensive overview - Elucidates clinical application across health conditions, highlighting a holistic examination of urine's potential as a diagnostic reservoir
Pulmonomics: Omics Approaches for Understanding Pulmonary Diseases
This book comprehensively reviews various omics approaches like genomics, proteomics, transcriptomics, and metabolomics for understanding pulmonary disease at molecular and systems levels. The initial chapters present the pathogenesis of major pulmonary diseases, namely, obstructive diseases, restrictive diseases, vascular diseases, infectious diseases, and neoplastic carcinoma. The book chapters provide current information about the role of the microbiome and applications of medical imaging, bioinformatics tools, and databases for diagnosis and designing treatment strategies against complex lung diseases. Further, the book discusses omics technologies to identify biomarkers for the early diagnosis and prognosis of pulmonary diseases. Finally, the book elucidates the multi-omics approaches and data integration using mathematical modeling for insights into the disease etiology towards improving the prognostics and predictive accuracy of disease phenotypes.
Innovations in Nephrology
Author: Geraldo Bezerra da Silva Junior
language: en
Publisher: Springer Nature
Release Date: 2022-10-28
Our world is facing unprecedented technological development, which affects all the sectors of society. The 4th industrial revolution has brought numerous advances that are currently integrated in our daily life, including artificial intelligence (A.I.), internet of things (IoT), genetic engineering, 3D-printing and robotics. The health care sector is one of the most impacted by these technologies of the so-called digital era. From the simple advent of medical records to robotic surgery, health care has significantly changed from the XX to XXI century and is constantly changing, incorporating novel technologies. Nephrology is itself an innovative branch of medicine, created as a discipline in the 1960s, with breakthrough inventions, such as the dialysis machine, which made it possible to prolong life of those who suffer from chronic kidney disease; kidney transplant, with point-of-care immunosuppression that favours maintenance of kidney allografts for long years; kidney biopsy, which made it possible to discover the mysteries of glomerulonephritis and nephropathology. Novel technologies, such as A.I., IoT, robotics, stem cells, 3D-printing, mHealth, eHealth and several others are starting to be applied in nephrology, with promising results. It is possible that a great part of these technologies will become routinely available in clinical practice, and the burden of kidney diseases will significantly decrease once prevention, prediction, detection, monitoring and treatment of kidney diseases are more precise, with patients taking part in the process and becoming more and more connected. This book gathers essential information on the technologies that have been applied in nephrology and that can be applied in the future, with real possibilities of improving the care of kidney diseases. At first glance, this work is directed to the entire nephrology community and all the healthcare professionals that deal with kidney diseases. Researchers from different fields, not directly linked to nephrology, may also be interested in the book since many of the topics presented are related to other areas and serve as examples of their uses in medicine, such as artificial intelligence, robotics, and big data. Finally, the content provides an important resource to medical students, discussing technologies that will certainly be integrated in their professional practice.