Membrane oxygenator

Membrane oxygenator

A membrane oxygenator is a device used to add oxygen to, and remove carbon dioxide from the blood. It can be used in two principal modes: to imitate the function of the lungs in cardiopulmonary bypass (CPB), and to oxygenate blood in longer term life support, termed extracorporeal membrane oxygenation, ECMO. A membrane oxygenator consists of a thin gas permeable membrane separating the blood and gas flows in the CPB circuit; oxygen diffuses from the gas side into the blood, and carbon dioxide diffuses from the blood into the gas for disposal.

Contents

History

The history of the oxygenator, or artificial lung, dates back to 1885, with the first demonstration of a disc oxygenator, on which blood was exposed to the atmosphere on rotating discs by Von Frey and Gruber [1] These pioneers noted the dangers of blood streaming, foaming and clotting. In the 1920s and 30s, research into developing extracorporeal oxygenation continued. Working independently, Brukhonenko in the USSR and John Heysham Gibbon in the USA demonstrated the feasibility of extracorporeal oxygenation. Brukhonenko used excised dog lungs while Gibbon used a direct contact drum type oxygenator, perfusing cats for up to 25 minutes in the 1930s [2]

Gibbon’s pioneering work was rewarded in May 1953 with the first successful cardiopulmonary bypass operation [3]. The oxygenator was of the stationary film type, in which oxygen was exposed to a film of blood as it flowed over a series of stainless steel plates.

The disadvantages of direct contact between the blood and air were well recognized, and the less traumatic membrane oxygenator was developed to overcome these. The first membrane artificial lung was demonstrated in 1955 by the group led by Willem Kolff [4] and in 1956 the first disposable membrane oxygenator removed the need for time consuming cleaning before re-use [5]. No patent was filed as Kolff believed that doctors should make technology available to all, without mind to profit.[citation needed]

The early artificial lungs used relatively impermeable polyethylene or Teflon homogeneous membranes, and it was not until more highly permeable silicone rubber membranes were introduced in the 1960s (and as hollow fibres in 1971) that the membrane oxygenator became commercially successful [6] [7]. The introduction of microporous hollow fibres with very low resistance to mass transfer revolutionized the design of membrane modules, as the limiting factor to oxygenator performance became the blood resistance [8]. Current designs of oxygenator typically use an extraluminal flow regime, where the blood flows outside the gas filled hollow fibers, for short term life support, while only the homogeneous membranes are approved for long term use.

See also

  • Bubble oxygenator
  • Extracorporeal circulation

References

1. ^ Dorson, W.J. and Loria, J.B., "Heart Lung Machines", in: Webster's Encyclopaedia of Medical Devices and Instrumentation, Vol. 3 (1988), Wiley, New York: 1440–1457.
2. ^ Galletti, P.M., "Cardiopulmonary Bypass: A Historical Perspective", Artificial Organs 17:8 (1993), 675-686.
3. ^ Gibbon, J.H. Chairman's address to the American Society for Artificial Internal Organs, Transactions of the American Society for Artificial Internal Organs, 1 (1955), 58-62.
4. ^ Kolff, W.J., and Balzer R., "The Artificial Coil Lung", Transactions of the American Society for Artificial Internal Organs, 1 (1955), 39-42.
5. ^ Kolff, W.J., and Effler, D.B., "Disposable Membrane Oxygenator (Heart-Lung Machine) and its use in Experimental and Clinical Surgery while the Heart is Arrested with Potassium Citrate According to the Melrose Technique, Transactions of the American Society for Artificial Internal Organs, 2 (1956), 13-17.
6. ^ Kolobow, T., and Bowman, R.L., "Construction and Evaluation of an Alveolar Membrane Artificial Heart-Lung", Transactions of the American Society for Artificial Internal Organs, 9 (1963), 238-241.
7. ^ Dutton, R.C., et al., "Development and Evaluation of a New Hollow Fibre Membrane Oxygenator", Transactions of the American Society for Artificial Internal Organs, 17 (1971), 331-336.
8. ^ Gaylor, J.D.S., "Membrane Oxygenators: Current Developments in Design and Application", Journal of Biomedical Engineering 10 (1988), 541-547.

External links


Wikimedia Foundation. 2010.

Игры ⚽ Поможем сделать НИР

Look at other dictionaries:

  • membrane oxygenator — a device in which blood and oxygen are separated by a semipermeable membrane, generally of Teflon or polypropylene, across which gas exchange occurs. The membrane may be arranged as a series of parallel plates or as a number of hollow fibers; in… …   Medical dictionary

  • Oxygenator — An oxygenator is a medical device that is capable of exchanging oxygen and carbon dioxide in the blood of human patient in surgical procedures that may necessitate the interruption or cessation of blood flow in the body, a critical organ or great …   Wikipedia

  • Extracorporeal membrane oxygenation — In intensive care medicine, extracorporeal membrane oxygenation (ECMO) is an extracorporeal technique of providing both cardiac and respiratory support oxygen to patients whose heart and lungs are so severely diseased or damaged that they can no… …   Wikipedia

  • Cardiopulmonary bypass — (CPB) is a technique that temporarily takes over the function of the heart and lungs during surgery, maintaining the circulation of blood and the oxygen content of the body. The CPB pump itself is often referred to as a Heart Lung Machine or the… …   Wikipedia

  • E. Converse Peirce 2nd — Edmund Converse Peirce 2nd, M.D. (October 9, 1917 Upper Montclair, New Jersey August 8, 2003 Hancock Point, Maine) was Professor and Director of Hyperbaric Medicine at the Mount Sinai School of Medicine in New York City), from 1966 to 1991 when… …   Wikipedia

  • respiratory distress syndrome of newborns — ▪ pathology also called  hyaline membrane disease        a common complication in infants, especially in premature newborns, characterized by extremely laboured breathing, cyanosis (a bluish tinge to the skin or mucous membranes), and abnormally… …   Universalium

  • Liquid breathing — Intervention MeSH D021061 Liquid breathing is a form of respiration in which a normally air breathing organism breathes an oxygen rich liquid (such as a perfluorocarb …   Wikipedia

  • cardiovascular disease — Introduction       any of the diseases, whether congenital or acquired, of the heart and blood vessels (blood vessel). Among the most important are atherosclerosis, rheumatic heart disease, and vascular inflammation. Cardiovascular diseases are a …   Universalium

  • Extrakorporale Membranoxygenierung — Venös arterielle ECMO Schema beim Neugeborenen Die Extrakorporale Membranoxygenierung (ECMO) ist eine intensivmedizinische Technik, bei der eine Maschine teilweise oder vollständig die Atemfunktion von Patienten übernimmt. Sie wird angewendet bei …   Deutsch Wikipedia

  • ECMO — Schéma montrant le fonctionnement d une machine ECMO sur un nouveau né. L « oxygénateur à membrane » où s effectue l échange gazeux est indiqué ici sous le nom d’oxygenator. Dans la médecine de soins intensifs, ECMO (en anglais,… …   Wikipédia en Français

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”