Dialysis Treatment for Kidney disease

1. Dialysis Treatment for Kidney disease By Zachary Jacobson

2. History • First practiced on animals in early 1900’s • Developed by Dr. Willem Kolff in 1943 • First successful treatment administered in 1945 • In 1950’s Dr. Belding Scribner uses Teflon tubing • Scribner heralded as father of bioethics • Scribner starts first outpatient facility in 1962

3. Introduction • Function of Kidneys • Nephrons, glomeruli and waste tubules • Hormone secretion support homeostasis • Causes of Chronic Kidney Disease/Failure • Hypertension • Diabetes mellitus (3 types) • Diagnosing KidneyDisease/Failure • Elevated proteins and/or blood in urine • Function of Dialysis • Filter waste and excess fluid from blood

4. Methods • Dialysis requires surgery to develop access site • 3 types: fistula, graft, catheter • Filter Membrane • Semi-permeable quality allows only smaller materials(i.e. waste) to diffuse across • Larger waste products and excess fluid require ultrafiltration • Dialysate • Composed of sterile water, electrolytes/chemicals and dextrose • Dextrose concentration determines osmotic pressure in PD exchange

5. How it Works (PD) • Peritoneal Dialysis • Creation of access site • Permenant Peritoneal Catheter • Dialysate drawn into abdominal cavity • Peritoneum acts as filter • Waste stored in dialysate • Dextrose level determines ultrafiltration rate • 2 types: CAPD, CCPD • Dialysate drained from cavity

6. How it works (HD) • Hemodialysis • Blood filtered outside of body • Dialyser • Filters through synthetic membrane • Thousands of thin hollow fibers • Countercurrent ultrafiltration • Different types of filters • Dialysis Machine • Monitors time, temp, pressure • Blood returned to body through access

7. Advantages/Disadventages • PD vs. HD • HD uses more predictable membrane • PD is easier to use and more convenient • PD less likely to cause Hypotension • PD may cause trouble breathing • Dialysis patients require special diet and medication to replace hormonal function.

8. Limitations • PD and HD do not replicate all kidney functions • Access sites can move or become infected • Limited movement • Body image • Time per treatment • Blood clotting • Expensive without health coverage

9. Future • Shorter Dialysis Time • Increased Efficiency in Filtration • Increased Portability • Recycling of Dialysate • Simultaneous monitoring and introduction of synthetic hormones

10. Works Cited 1. Salvatore, David. "Evolution and Physical Principles of Convection-based Dialysis Treatment." GiornaleItaliano Di Nefrologia 29.55 (2012): 3-11. Print. 2. Wakasugi, M., Kawamura, K., Yamamoto, S., Kazama, J. J. and Narita, I. (2012), High Mortality Rate of Infectious Diseases in Dialysis Patients: A Comparison With the General Population in Japan. Therapeutic Apheresis and Dialysis, 16: 226–231. doi: 10.1111/j.1744-9987.2012.01062.x 3. Saran, R., J. L. Bragg-Gresham, N. W. Levin, Z. J. Twardowski, V. Wizemann, A. Saito, N. Kimata, B. W. Gillespie, C. Combe, J. Bommer, T. Akiba, D. L. Mapes, E. W. Young, and F. K. Port. "Longer Treatment Time and Slower Ultrafiltration in Hemodialysis: Associations with Reduced Mortality in the DOPPS." Kidney International 69.7 (2006): 1222-228. Print. 4. "Home Dialysis Central." Home Dialysis Central. Medical Education Institute, Inc, Oct. 2012. Web. 22 Oct. 2012. <http://homedialysis.org/>. 5. Vienken, Jörg, Michael Diamantoglou, Werner Henne, and Bernd Nederlof. "Artificial Dialysis Membranes: From Concept to Large Scale Production." American Journal of Nephrology 19.2 (1999): 355-62. Print. 6. Misra, Madhukar. "The Basics of Hemodialysis Equipment." Hemodialysis International 9.1 (2005): 30-36. Print. 7. "Dialysis." Wikipedia. Wikimedia Foundation, 22 Oct. 2012. Web. 22 Oct. 2012. <http://en.wikipedia.org/wiki/Dialysis>.