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Future of Artificial Organs; Therapeutic Artificial Organs

Published online by Cambridge University Press:  26 February 2011

Yukihiko Nosé
Affiliation:
The Cleveland Clinic Foundation, Department of Artificial Organs, 9500 Euclid Avenue, Cleveland, Ohio 44106
Paul S. Malchesky
Affiliation:
The Cleveland Clinic Foundation, Department of Artificial Organs, 9500 Euclid Avenue, Cleveland, Ohio 44106
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Summary

After 40 years of research on various types of artificial organs, artificial organs once considered to be impossible have now become realities. The implantation of total cardiac prostheses is now feasible and many patients have been successfully bridged to transplant with total and partial artificial hearts. The use of the artificial kidney is now widespread all over the world. Various surgical implants such as heart valves, vascular grafts, cardiac pacemakers, and ophthalmologic implants, orthopedic implants are now used routinely. With the current trend of an increasing older population and the extension of the average life span, the need of artificial organ technologies is increasing annually. Because prostheses or artificial organ applications are quite expensive, the expenses involved for these types of application are increasing at an alarming rate annually. In the past, the only traditional medical technologies applied were primarily drugs and surgery. There are still limitations today in preventing end stage organ failure despite the remarkable studies made in surgery, drug therapy and even more recently in biochemistry and immunology. Artificial organ technologies must not only be for end stage organ failure but they can be useful in prophylaxis.

The role of artificial organ technologies in therapeutics is now being recognized. The removal of pathologic macromolecules by plasmapheresis technologies such as in various types of autoimmune diseases has been proven to slow down the disease processes and in some cases stop their progression. Studies on lipoprotein removal by extracorporeal technologies show that the process of atherosclerosis may be slowed or stopped and that regression of atherosclerotic lesions may be possible.

It is believed that the future of artificial organs should not only be focused on the development of replacement organs, but also on the artificial organ technologies for therapeutic or preventative medicine. By applying aggressively these type of technologies, certainly the outcome of early end stage organ failure can be prevented and the needs for artificial hearts, artificial kidneys, orthopedic implants and various implantable artificial organs reduced.

Type
Research Article
Copyright
Copyright © Materials Research Society 1988

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