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An important resource that puts the focus on the chemical engineering aspects of biomedical engineering In the past 50 years remarkable achievements have been advanced in the fields of biomedical and chemical engineering. With contributions from leading chemical engineers, Biomedical Engineering Challenges reviews the recent research and discovery that sits at the interface of engineering and biology. The authors explore the principles and practices that are applied to the ever-expanding array of such new areas as gene-therapy delivery, biosensor design, and the development of improved therapeutic compounds, imaging agents, and drug delivery vehicles. Filled with illustrative case studies, this important resource examines such important work as methods of growing human cells and tissues outside the body in order to repair or replace damaged tissues. In addition, the text covers a range of topics including the challenges faced with developing artificial lungs, kidneys, and livers; advances in 3D cell culture systems; and chemical reaction methodologies for biomedical imagining analysis. This vital resource: Covers interdisciplinary research at the interface between chemical engineering, biology, and chemistry Provides a series of valuable case studies describing current themes in biomedical engineering Explores chemical engineering principles such as mass transfer, bioreactor technologies as applied to problems such as cell culture, tissue engineering, and biomedical imaging Written from the point of view of chemical engineers, this authoritative guide offers a broad-ranging but concise overview of research at the interface of chemical engineering and biology.
The leading Textbook on the subject. A completely rewritten and up-to-date fifth edition, based upon the highly respected fourth edition, edited by C. Jacobs, C.M. Kjellstrand, K.M. Koch and J.F. Winchester. This new edition is truly global in scope and features the contributions of the top experts from around the world.
This book deals with organ failure and the way it can be managed artificially without requiring a transplant. Written by a mixture of European and US physicians and surgeons, each of the chapters compares the artificial organ to what is currently available from the transplant point of view to highlight the current and modern available techniques for organ replacement. The book will be a useful reading for postgraduate students and people interested in modern surgical and medical technology.
Seeing a patient die under his hands because there is no adequate treatment causes an emotion and a frustration in a doctor, which sometimes stimulates him to try to develop a new type of treatment. Seeing so many wounded young soldiers die due to renal failure in World War I incited the German doctor Georg Haas to try to develop an artificial kidney. He had to give up in despair in 1928. Ten years later doctor Willem Kolff saw a young man die in his ward in the University Hospital of Groningen due to renal failure. By that time two essential factors for an artificial kidney had become available: a drug to keep the blood from clotting outside of the body and an efficient dialysing membrane through which waste substances can pass from the blood into the dialysing fluid. Kolff succeeded in creating the rotating artificial kidney which he started using in the town hospital of Kampen in 1943. The rotation of this artificial kidney started a revolution that made it possible for thousands of kidney patients all over the world to keep on living - and sometimes to forget their disease for the time being. In addition it gave rise to the development of other artificial organs such as the heart-lung machine, the artificial heart and the artificial eye. Doctor Jacob van Noordwijk, the author of this book, was Kolff's first assistant in the treatment of the first 15 patients. How Kolff succeeded in spite of all the limitations imposed by the German occupation of the Netherlands and in spite of the absence of antibiotics and other medical tools which are common nowadays makes a story which may sound incredible. Yet it did happen and visitors to the town of Kampen can still see the hospital building where it all took place.
Telemedicine and remote patient monitoring are innovative tools to provide remote transmission, interpretation, and storage of data for review by the care team. These tools allow for accurate home monitoring of patients enabling the team to improve care through prevention and early identification of problems. This book is structured into four main parts. The first describes the evolution of peritoneal dialysis and related technology. The second part summarizes current unmet clinical needs reported by patients and care teams, the need for innovation in the field, and the technical and clinical issues involved with the modern management of peritoneal dialysis. The third section presents the operational characteristics of the new information communication technology system and, in detail, the features of the Sharesource platform. Finally, a series of field experiences by expert users are reported to describe the benefits and the potential applications of remote patient monitoring in the future. Telemedicine and remote patient monitoring have proven to be useful in the care of patients on peritoneal dialysis. The scope of this publication, therefore, is to present the experiences of clinical key opinion leaders who have been using the application.
This book describes the past, present and future of dialysis and dialysis-related renal replacement therapies so that the reader can acquire a firm grasp of the medical management of acute and chronic renal failure.By becoming thoroughly conversant with the past and present of dialysis, a health care professional will be in a much better position to provide the best standard of care to patients suffering from renal failure. As the book highlights the unsolved operational obstacles in the field of renal replacement therapies, future innovators may be inspired to develop novel solutions to tackle these problems. This remarkable work is a must-read not only for healthcare providers in the dialysis industry, but also for patients, dialysis equipment manufacturers as well as pharmaceutical companies.
A biography of the life of Gordon Murray.
Recent developments have spurred a renewed interest in novel solutions to access the patient circulation, mainly concentrating on vascular access for renal replacement therapies and on peritoneal dialysis access.Starting with the epidemiology, the focus then shifts to the evolution of new techniques and monitoring procedures with regard to hemodialysis, which are discussed and evaluated. Attention is also paid to the new biomaterials available, concentrating on their improved biocompatibility and surface characteristics. As developments in the field of peritoneal dialysis have taken a similar turn, new devices providing access to the peritoneal cavity which have recently been made available are introduced next. Last but not least, the management of complications and the continuous maintenance and care of the access with regard to both hemodialysis and peritoneal dialysis are highlighted.This book provides a complete overview of the devices, catheters and methods currently available to ensure successful vascular and peritoneal access. Taking into account both the physiology of the extracorporeal circulation and the mechanisms of peritoneal dialysis with regard to the most adequate access techniques, this is a unique resource for clinicians, investigators and researchers in the field of renal replacement therapy.
​Design of Artificial Human Joints & Organs is intended to present the basics of the normal systems and how, due to aging, diseases or trauma, body parts may need to be replaced with manmade materials. The movement of the body generates forces in various work situations and also internally at various joints, muscles and ligaments. It is essential to figure out the forces, moments, pressure etc to design replacements that manage these stresses without breaking down. The mechanical characterization of the hard and the soft tissues are presented systematically using the principles of solid mechanics. The viscoelastic properties of the tissue will also discussed. This text covers the design science and methodology from concept to blueprint to the final component being replaced. Each chapter will be a brief overview of various joint/organ replacement systems. Engineers working on artificial joints and organs, as well as students of Mechanical Engineering and Biomedical Engineering are the main intended audience, however, the pedagogy is simple enough for those who are learning the subject for the first time.
The kidneys are sophisticated organs that filter waste from the blood. A number of diseases and disorders--including diabetes and hypertension--can harm the kidneys and cause them to fail. Historian and nephrologist Steven J. Peitzman traces the medical history of kidney disease alongside the personal experience of illness. Drawing on diaries, letters, and literary narratives, as well as on scientific writings, Peitzman charts the triumphs of medical innovators like Richard Bright, Thomas Addis, and Belding Scribner as well as the stories of persons, famous and not, who have struggled with the disease. Treatments have evolved from abdominal tapping and dietetics to hemodialysis and transplantation. Medical advances have improved the well-being and prognosis of persons with failing kidneys. Yet such persons remain on an arduous journey of chronic illness. Peitzman travels with them, from diagnosis to treatment, and witnesses their remarkable ability to cope.--From publisher description.