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Renal Nursing
Care and Management of People with Kidney Disease
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About This Book
Now in its fifth edition, Renal Nursing continues to be the essential evidence-based guide to nephrology and kidney care for nurses and allied health care professionals. This comprehensive text examines the stages of chronic kidney disease, pre-dialysis care, acute kidney injury, renal replacement therapy, renal nutrition, renal care in children and young people and more.
- Offers thorough coverage of all major aspects of kidney care
- Includes updated content on current practice, changes in policies, care and management, with the latest research evidence and current NICE guidance on renal replacement therapy
- Has an innovative chapter on patient and public involvement in kidney care
Renal Nursing is an indispensable resource for nurses working in nephrology, dialysis and transplantation, nurses in post-registration renal courses, student nurses in renal wards, specialist renal dietitians, pharmacists and other allied health professionals in related fields.
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CHAPTER 1
The History of Dialysis and Transplantation
Nicola Thomas
London South Bank University, London, UK
Learning Outcomes
- to understand the evolution of haemodialysis (HD), peritoneal dialysis (PD), and transplantation.
- to appreciate the challenges that healthcare professionals have had to overcome in the development of the nephrology specialty.
- to evaluate the changing focus of renal care in the twentyâfirst century.
- to identify the opportunities for nephrology nursing in the future.
Introduction
The introduction of dialysis as a lifeâsaving treatment for kidney failure was not the result of any largeâscale research programme; rather, it emerged from the activities of a few pioneering individuals who were able to use ideas, materials, and methods from a range of developing technologies.
Haemodialysis, as a routine treatment for renal failure, was initiated in the 1960s, followed by continuous ambulatory peritoneal dialysis (CAPD) in the late 1970s. The recognition of the need for immunosuppression in transplantation in the 1960s enabled it to become the preferred treatment for many patients.
Haemodialysis
The beginning
It was the Romans who first used a form of dialysis therapy by giving hot baths to patients to remove urea. The action of the hot water made the patient sweat profusely and this, together with the toxins diffusing through the skin into the bath water, would temporarily relieve symptoms. However, the Romans did not understand why the treatment worked. The effect was to leave the patient fatigued but, as the only hope, this treatment was still used on occasion into the 1950s.
The first time that the term âdialysisâ was used was in 1854, by Thomas Graham, a Scottish chemist (Graham 1854). He used dialysis to describe the transport of solutes through an ox bladder, and this was the catalyst for other researchers working in a similar field to focus on the membrane.
Membranes were made from a variety of substances, including parchment and collodion (Eggerth 1921). Collodion is a syrupy liquid that dries to form a porous film, and allows the passage of smallâmolecularâweight substances, whilst being impermeable to substances with a molecular weight greater than 5 kDa. In 1889, B.W. Richardson referred to the use of collodion membranes in the dialysis of blood. So, by this method, living animals were dialysed in experimental conditions (Richardson 1889), but the limiting factor that prevented the treatment being used in humans at this time was the lack of suitable materials.
Preâ1920
It was not until 1913 that the first article on the technique of HD, named the âartificial kidneyâ, was reported. Experimental dialysis was performed on animals by using variances in the composition of dialysis fluid (Abel et al. 1914). Substances could be added to the solution to avoid their net removal. The main aim of the experiments was the removal of salicylates. The removal of fluid and toxins accumulated due to kidney disease was not, at this time, considered.
In 1914, Hess and McGuigan were experimenting with dialysis in a pharmacology laboratory in Chicago. As a result they were able to transfer sugar from tissue to blood and from the blood across a collodion membrane. The design of the dialyser minimised the length of tubing from the patient, and a high blood flow was achieved by connection to the carotid artery in an effort to minimise the necessity to use an anticoagulant. A single Uâshaped collodion tube was inserted into a glass cylinder with a rubber stopper at one end. The blood flow both to and from the dialyser was at one end, with a port for adjusting the pressure inside the tube. These experiments were still only performed on animals. The only anticoagulant available was in the form of an extract obtained from crushed leech heads, called hirudin. This was far from satisfactory, even though leeches were plentiful and readily available from the corner shop for around $25 per 1000.
The 1920s
The first dialysis performed on a human was carried out by the German physician, Georg Haas, in Giessen in the latter half of the 1920s. He performed six treatments in six patients. Handmade collodion membranes were used, and clotting was prevented by using hirudin and, later, a crude form of heparin. Haas used multiple dialysers to increase the surface area of blood exposed to the dialysis fluid. This necessitated as many as six dialysers arranged in parallel and he found that the arterial pressure of the blood was insufficient to propel the blood through the entire extracorporeal circuit. He therefore introduced a pump into the circuit. Haas was aware of the lack of support given to him by the hospital and his colleagues, and by the late 1920s he gave up and the work was stopped. Georg Haas died in 1971, aged 85 years, and was honoured as the pioneer of dialysis.
Despite these treatments, carried out from the 1920s to the 1940s, those with uraemia suffering from poor appetite and vomiting could be offered nothing more than bed rest and a bland saltâfree diet composed mainly of vegetables, carbohydrate, and fat to reduce protein metabolism. Dialysis was not considered a realistic option and the conservative therapy was only offered as a palliative measure.
Heinrich Necheles was the founder of the contemporary dialyser. In 1923, he experimented with the sandwiching of membranes, thus giving an increased surface area without the necessity for multiple dialysers. The membrane used was the peritoneum of a sheep. As the membrane was prone to expansion, support sheets were placed between the layers of membrane, thus allowing a large surface area of membrane to come into contact with the dialysis fluid. Other features introduced by Necheles were a heater, the priming of the pathway for the blood, and a filter to prevent clots returning to the patient.
The 1930s
The 1920s and 1930s saw great advances in synthetic polymer chemistry, resulting in the availability of cellulose acetate, which could be used as a membrane for HD. It was in 1937 that the first synthetic membrane was used by the American scientist William Thalhimer. The material, cellophane â a form of cellulose acetate, which was used extensively in the sausage industry â had potential that was not recognised for some years. In the midâ1930s came the purification of heparin (Thalhimer et al. 1938), which could be used as an anticoagulant. Together, these two advances gave rise to the next stage of development, which took place in 1943 in occupied Holland.
The 1940s and 1950s
Willem Kolff, a physician working in Groningen in Naziâoccupied Holland, had his attention drawn to the work of a colleague who was concentrating plasma by using cellulose acetate as a membrane and immersing it in a weak solution of sugar. Kolff noticed that toxins in the blood were altered by this method (Kolff 1950). He built a rotating drum dialyser, which provided sufficient surface area for his first attempt at human dialysis (Kolff and Berk 1944). His machine consisted of 30 m of cellophane tube that was wound round a large cylinder. The cylinder was plac...
Table of contents
- Cover
- Table of Contents
- List of Contributors
- Foreword
- Preface
- CHAPTER 1: The History of Dialysis and Transplantation
- CHAPTER 2: Applied Anatomy and Physiology and the Renal Disease Process
- CHAPTER 3: Patient and Carer Involvement in Renal Nursing Care, Education, and Research
- CHAPTER 4: Psychological Perspectives
- CHAPTER 5: Acute Kidney Injury
- CHAPTER 6: Chronic Kidney Disease
- CHAPTER 7: Investigations in Kidney Disease
- CHAPTER 8: Haemodialysis
- CHAPTER 9: Peritoneal Dialysis
- CHAPTER 10: Renal Transplantation
- CHAPTER 11: Nondialytic Options and the Role of Palliative Care
- CHAPTER 12: Renal Care in Infancy, Childhood, and Early Adulthood
- CHAPTER 13: Renal Nutrition
- CHAPTER 14: Quality Improvement in Kidney Care
- Index
- End User License Agreement