A method for using a medical device in connection with a catheter for regulation or transfer of fluids to and from a patient. The method may include obtaining and using a medical device including a diaphragm having two unidirectional slit valves disposed therein that actuate in different directions,
A method for using a medical device in connection with a catheter for regulation or transfer of fluids to and from a patient. The method may include obtaining and using a medical device including a diaphragm having two unidirectional slit valves disposed therein that actuate in different directions, one slit valve actuating in one direction in response to infusion-induced pressure and another slit valve actuating in another direction in response to aspiration-induced pressure. The method may include infusing fluid through one of the unidirectional slit valves, through a lumen, and into a patient's body. The method may also include aspirating fluid from a patient's body through the lumen and another unidirectional slit valve.
대표청구항▼
1. A method, comprising: obtaining a medical device, comprising: a lumen through which liquid can pass, the lumen including a first end and a second end; anda diaphragm disposed between the first end and the second end of the lumen including: a first unidirectional slit valve structurally configured
1. A method, comprising: obtaining a medical device, comprising: a lumen through which liquid can pass, the lumen including a first end and a second end; anda diaphragm disposed between the first end and the second end of the lumen including: a first unidirectional slit valve structurally configured to: actuate to allow flow of a first liquid through the lumen in a first direction in response to an infusion-induced pressure resulting from infusing the first liquid into a patient's body; andremain closed when subjected to an aspiration-induced pressure from a second direction different from the first direction; anda second unidirectional slit valve structurally configured to actuate to allow flow of a second liquid through the lumen in the second direction in response to the aspiration-induced pressure resulting from aspirating the second liquid from the patient's body and to remain closed when subjected to the infusion-induced pressure from the first direction,wherein the first unidirectional slit valve is located in a center of the diaphragm, and wherein the second unidirectional slit valve is adjacent a peripheral portion of the diaphragm and is located in a lateral portion of the diaphragm that extends perpendicular to the lumen; andcausing the first liquid to pass through the first unidirectional slit valve and flow through the lumen in the first direction. 2. The method according to claim 1, wherein causing the first liquid to pass through the first unidirectional slit valve and flow through the lumen in the first direction includes infusing the first liquid through the first unidirectional slit valve, through the lumen, and into the patient's body. 3. The method according to claim 1, further comprising causing the second liquid to pass through the second unidirectional slit valve and flow through the lumen in the second direction. 4. The method according to claim 3, wherein causing the first liquid to pass through the first unidirectional slit valve and flow through the lumen in the first direction includes infusing the first liquid through the first unidirectional slit valve, through the lumen, and into the patient's body, andwherein causing the second liquid to pass through the second unidirectional slit valve and flow through the lumen in the second direction includes aspirating the second liquid including blood from the patient's body through the lumen and the second unidirectional slit valve. 5. The method according to claim 3, wherein causing the first liquid to pass through the first unidirectional slit valve includes causing the first unidirectional slit valve to actuate at the infusion-induced pressure,wherein causing the second liquid to pass through the second unidirectional slit valve includes causing the second unidirectional slit valve to actuate at the aspiration-induced pressure, andwherein the aspiration-induced pressure is greater than the infusion-induced pressure. 6. The method according to claim 1, wherein the diaphragm further comprises a third unidirectional slit valve configured to actuate in the second direction in response to the aspiration-induced pressure and to remain closed when subjected to the infusion-induced pressure, andwherein the third unidirectional slit valve is separated from the first unidirectional slit valve and the second unidirectional slit valve. 7. The method according to claim 6, wherein the first unidirectional slit valve, the second unidirectional slit valve, and the third unidirectional slit valve of the diaphragm are substantially parallel to one another. 8. The method according to claim 1, wherein the diaphragm comprises a generally dome-shaped portion and an annular peripheral portion. 9. The method according to claim 8, wherein the generally dome-shaped portion of the diaphragm does not collapse when subjected to the aspiration-induced pressure. 10. The method according to claim 1, wherein an outer portion of the diaphragm has a first thickness that is greater than a second thickness of an inner portion of the diaphragm. 11. A method, comprising: obtaining a medical device, comprising: a catheter including a lumen through which liquid can pass, the lumen including a first end and a second end;a diaphragm disposed between the first end and the second end of the lumen including: a first unidirectional slit valve that actuates to allow a first liquid to flow through the lumen from a proximal end to a distal end of the catheter at a first liquid-induced pressure resulting from infusing the first liquid into a patient's body; anda second unidirectional slit valve that actuates to allow a second liquid to flow through the lumen from the distal end to the proximal end of the catheter at a second liquid-induced pressure resulting from aspirating the second liquid from the patient's body, wherein the first unidirectional slit valve is located in a center of the diaphragm, and the second unidirectional slit valve is adjacent a peripheral portion of the diaphragm and is located in a lateral portion of the diaphragm that extends perpendicular to the lumen,wherein the second liquid-induced pressure is different from the first liquid-induced pressure, andwherein the second unidirectional slit valve remains closed when the first unidirectional slit valve is open, and vice versa; anda valve housing securing the diaphragm at a peripheral portion of the diaphragm; andcausing the first liquid to pass through the first unidirectional slit valve and flow through the lumen from the proximal end to the distal end of the catheter. 12. The method according to claim 11, wherein a central portion of the diaphragm is positioned relative to the peripheral portion of the diaphragm such that when the peripheral portion is secured by the valve housing, compressive forces acting on the peripheral portion of the diaphragm create moment forces which bias the first unidirectional slit valve in a neutral position. 13. The method according to claim 11, wherein the diaphragm comprises a generally dome-shaped portion and a lateral region located between the generally dome-shaped portion and the peripheral portion of the diaphragm secured by the valve housing, the first unidirectional slit valve located in the generally dome-shaped portion, and the second unidirectional slit valve located in the lateral region. 14. The method according to claim 11, wherein causing the first liquid to pass through the first unidirectional slit valve and flow through the lumen includes infusing the first liquid including a medical liquid through the first unidirectional slit valve, through the lumen, and into the patient's body. 15. The method according to claim 11, further comprising causing the second liquid to pass through the second unidirectional slit valve and flow through the lumen from the distal end to the proximal end of the catheter. 16. The method according to claim 15, wherein causing the first liquid to pass through the first unidirectional slit valve and flow through the lumen includes infusing the first liquid including a medical liquid through the first unidirectional slit valve, through the lumen, and into the patient's body, andwherein causing the second liquid to pass through the second unidirectional slit valve and flow through the lumen includes aspirating the second liquid including blood from the patient's body through the lumen and the second unidirectional slit valve.
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Elliott Stanley E. (San Bruno CA) Shore Jack H. (San Rafael CA), Air flow to pressure differential transducer for pneumotachography.
Thomas Joseph J. (Berwyn PA) Thomas Robert W. (Wayne PA) Catlin David G. (West Chester PA) Armour Andrew W. (Springfield PA), Catheter introducer with lubrication means.
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Fath John J. (30429 Lincolnshire Birmingham MI 48010) Jorgensen Jorgen A. (10408 Rich Rd. Bloomington MN 55437) Darbut Alex L. (5908 Tamarac La. Edina MN 55436), Self-sealing infusion manifold and catheter connector.
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