DE2430898A1 - Double capillary blood oxygenation - simultaneously acting as substitute for heart and lung - Google Patents

Abstract

Oxygenator for supplying venous blood with O2 while simultaneously removing CO2, to act as lung, comprises a double capillary tube made of elastic, gas-permeable material and housed in an outer housing, with a thinner capillary tube passing through a thicker tube between which is a gap into which venous blood is introduced. The blood passes through a blood inlet chamber, through the tubes in which O2 is added and CO2 removed due to the difference in partial pressure on both sides of a membrane, and through a blood outlet chamber. O2 is supplied by passing it via a distribution system into the lumen of the inner tube, and by passing into the chamber surrounding the whole tube assembly and thus to the outer wall of the outer tube.

Description

Title: Double capillary oxygenator application area: The invention relates to a gas exchanger, which by means of gas-permeable membranes, the transfer of gases in a liquid or gaseous medium, or the extraction of gases from a liquid or gaseous medium.

1.) With the help of this gas exchanger it is possible to oxygenate the blood adding and removing carbon dioxide at the same time, it therefore fulfills the task one lung.

2.) With the help of this gas exchanger it is possible to add oxygen to the water to, inferred, it can therefore be used for oxygen production for diving equipment.

3.) Since only gases can pass the membrane, it is suitable for supplying oxygen of nuclear bunkers from the radioactively contaminated air.

4.) In addition to its function as an oxygenator, the device is in use selective gas-permeable membranes also able to separate different gases and enrich accordingly.

Purpose: The gas exchange rate should be achieved with the same membrane surface that of the previously available gas exchangers: exceed. Besides, he should at the same time with intermediate switching -! of valves can work as a directional pump and thus Can serve as a simultaneous replacement for the heart and lungs.

State of the art: The principle of gas transmission by means of gas permeable Membranes is known. Likewise the resulting areas of application such as gas enrichers, Oxygenators etc ..

Literature: Bramson, M.L. et al., J. Thor. Cardiovasc. Surg.

To, 391, 1965 Lande: A.J. i.a. Surg. Clin. N. Amer. 47,1461,1967 Lande, A.J. i.a. Artif. Ileart Conf. Proceedings June 9-13, 1969, Washington, D.C., 5,417-430 Peirce, E.C. J. Mount Sinai Hospital 34,437,1967 Peirce, E.C. i.a. Trans Amer. Soc. Artif. Intern. O # g.i4,22O, 1968 Robb, W.I. Ann.N. #. Acad.Sci. 146,119,1968 Criticism of the prior art: As a result of an unfavorable flow geometry In the available oxygenators there is a boundary layer with a higher level in the vicinity of the membrane Gas concentration than in the center. The formation of this so-called "boundary layer" is impaired the degree of effectiveness of the available oxygenators considerably. The filling volume of the currently available oxygenators with blood is too great the risk of rupture Membrane and the unhindered direct transfer of oxygen into the blood direct danger to the patient's life should not be underestimated.

Task: The invention is based on the task of creating the "boundary layer effect "and thus to increase the gas exchange performance of the oxygenator, to keep the filling volume of the oxygenator with blood as low as possible and the To reduce the risk of capillary rupture. Ultimately, the oxygenator should be interposed of valves to work as a "pump oxygenator" and then be able to use the Blood delivery through the device without the interposition of a separate blood pump do it yourself. The task of the device will then be lungs, or lungs and heart to replace or relieve. The application can be extra- or intracorporeal take place.

Solution: The object is achieved according to the invention in that double capillaries made of an elastic, gas-permeable material housed in an outer housing are, so that in each case a thinner capillary inside a thicker capillary runs. A gap remains between the two capillaries, into which the venous The venous blood is drawn into the capillaries via a blood inlet chamber and is after passage through the capillaries as oxygenated blood in a blood outlet chamber collected. On the way through the capillaries, the venous blood becomes oxygen supplied and carbon dioxide withdrawn, these processes take place according to the partial pressure difference on both sides of the membrane. The oxygen is pulsating to two in the oxygenator different Ways to: 1. It is fed through a distribution system guided into the lumen of the inner capillaries and 2. it reaches the entire The chamber surrounding the bundle of capillaries and thus reaches the outside of the thicker one Capillaries The blood between the two capillaries is thus from both sides oxygenated. By interposing valves in the blood inlet and outlet paths is the oxygenator when using suitable gas pulse frequencies and gas pressures at the same time able to work as a pump; because the outer capillary becomes when applied compressed by excess pressure in the gas phase, while the inner capillary is expands. The blood between the two associated ICapillaries is thus repressed. When using negative pressure in the gas phase, the gap fills between the capillaries with blood again. Section 1 shows the schematic structure of the oxygenator using the example of a capillary.

Achievable advantages: 1.) The blood filling volume of the oxygenator is considerably reduced, since the interior of the outer capillary is to a large extent is filled by the thinner capillary running inside.

2.) The gas exchange surface of the oxygenator is increased, since the inner Capillary contributes to gas exchange with its surface.

3.) Since the blood is oxygenated from both sides, the effective is The thickness of the blood film for oxygenation is only half the thickness of the gap between the capillaries, i.e., even at high blood flow rates, the oxygenator's passage resistance can be reduced keep it low for the blood without losing its ability to oxygenate.

4.) Since in the inner capillary always the same pressure as in the the housing surrounding the bundle of capillaries prevails and thus a pressure difference occurs, the possibility of capillary rupture is low.

5.) Due to the construction of the oxygenator all possibilities come the reduction of the "boundary layer effects for the application: a) the increase of the Oxygen partial pressure on the membrane b) agitation of the bloodstream as a result of the pulsation of the building material c) the change in blood flowometry as a result the appearance of helical folds running around the longitudinal axis of the capillary during the overpressure phase of the oxygen.

Claims (1)

Patent claims: Term: 1. ~) Oxygenator for supplying venous blood with oxygen with simultaneous removal of carbonic acid, so that the oxygenate or the function the lungs can take over. (Fig.1 Identifying part: marked thereby, that double capillaries made of an elastic, gas-permeable material in an outer one Housing are housed, so that each a thinner capillary inside a thicker capillary runs. A gap remains between the two capillaries, into which the venous blood is directed. The venous blood is drawn through a blood inlet chamber the capillaries and is after passage through the capillaries as oxygenated Blood collected in the blood outlet chamber. On the way through the capillaries, the venous blood is thus supplied with oxygen and carbonic acid removed, these processes take place according to the partial pressure difference on both sides of the membrane. Of the Oxygen is supplied to the oxygenator in a pulsatile manner in two different ways: 1. it is directed into the lumen of the inner capillary via a distribution system and 2. it enters the chamber surrounding the entire bundle of capillaries and reaches thus the outside of the thicker capillaries. The blood between the two capillaries is thus from both sides oxygenated preamble of dependent claim: 2.) Oxygenator according to claim 1 characterizing Part of the dependent claim: characterized thereby. that the oxygenator by interposing of one valve each in the blood inlet and outlet path when using a suitable one Gas pulse frequencies and Gas pressures at the same time is able to as Work pump; because the outer capillary is in the gas phase is compressed while the inner capillary expands. The blood between the two associated capillaries is thus displaced. When applied the gap between the capillaries is filled again by negative pressure in the gas phase with blood The oxygenator can thus function of the heart as a pump in addition take over.