Multiple embodiments of medical filters are described. For example, this document describes extracorporeal blood filters that have a gradient of filter pore sizes at different portions of the filter element. The gradient of filter pore sizes may enhance the filter's potential for capturing and remov
Multiple embodiments of medical filters are described. For example, this document describes extracorporeal blood filters that have a gradient of filter pore sizes at different portions of the filter element. The gradient of filter pore sizes may enhance the filter's potential for capturing and removing gaseous bubbles that may be present in the blood or other fluid that is flowing through the filter.
대표청구항▼
1. A venous blood reservoir for use in an extracorporeal circuit, the reservoir comprising: an outer housing defining an internal space, the outer housing having an upper housing portion and a lower housing portion; anda venous filter comprising a porous filter material disposed within the internal
1. A venous blood reservoir for use in an extracorporeal circuit, the reservoir comprising: an outer housing defining an internal space, the outer housing having an upper housing portion and a lower housing portion; anda venous filter comprising a porous filter material disposed within the internal space, the filter having an upper filter end portion and a lower filter end portion, the upper filter end portion disposed adjacent the upper housing portion and the lower filter end portion disposed adjacent the lower housing portion, wherein an average pore size of the porous filter material disposed at the lower filter end portion is less than an average pore size of the porous filter material disposed at the upper filter end portion. 2. The reservoir of claim 1, wherein the venous filter comprises three or more distinct portions of the porous filter material. 3. The reservoir of claim 1, the venous filter also having a middle filter portion disposed between the upper filter end portion and the lower filter end portion, wherein an average pore size of the porous filter material disposed at the middle filter portion is larger than the average pore size of the porous filter material disposed at the lower filter end portion, and wherein the average pore size of the porous filter material disposed at the middle filter portion is less than the average pore size of the porous filter material disposed at the upper filter end portion. 4. The reservoir of claim 1, further comprising a cardiotomy filter. 5. The reservoir of claim 1, wherein the venous filter comprises a continuous piece of the porous filter material that has a gradually changing pore size along a length of the filter. 6. The reservoir of claim 1, wherein the venous filter comprises four or more distinct portions of the porous filter material. 7. The reservoir of claim 1, wherein the average pore size of the porous filter material disposed at the lower filter end portion is less than 40 microns, and wherein the average pore size of the porous filter material disposed at the upper filter end portion is greater than 40 microns. 8. A method of using an extracorporeal circuit during a surgery on a patient, the method comprising: transferring blood from the patient into a venous blood reservoir, the venous blood reservoir comprising: an outer housing defining an internal space, the outer housing having an upper housing portion and a lower housing portion; anda venous filter comprising a porous filter material disposed within the internal space, the filter having an upper filter end portion and a lower filter end portion, the upper filter end portion disposed adjacent the upper housing portion and the lower filter end portion disposed adjacent the lower housing portion, wherein an average pore size of the porous filter material disposed at the lower filter end portion is less than an average pore size of the porous filter material disposed at the upper filter end portion;passing the blood through the venous filter, wherein the average pore size of the porous filter material disposed at the lower filter end portion adapts the venous filter to cause the blood to dwell within the venous filter for a longer period of time than the blood would dwell if the pore size of the lower filter end portion was the same as the pore size of the upper filter end portion, thereby allowing for improved removal of gaseous emboli from the blood; anddraining the blood out of the venous blood reservoir. 9. The method of claim 8, wherein the average pore size of the porous filter material disposed at the lower filter end portion is less than 40 microns, and wherein the average pore size of the porous filter material disposed at the upper filter end portion is greater than 40 microns. 10. The method of claim 8, wherein at least some gaseous bubbles are removed from the blood by the venous filter as the blood passes through the filter. 11. The method of claim 8, wherein at least some gaseous bubbles are broken into smaller gaseous bubbles by the venous filter as the blood passes through the filter. 12. A medical filter comprising: a housing defining an internal space and a longitudinal axis, the housing having an upper housing portion and a lower housing portion; anda filter element comprising a porous filter material disposed in general longitudinal alignment within the internal space, the filter element having an upper portion and a lower portion, wherein the porous filter material disposed at the lower portion is finer than the porous filter material disposed at the upper portion. 13. The medical filter of claim 12, wherein the filter element comprises three or more distinct portions of the porous filter material. 14. The medical filter of claim 12, the filter element also having a middle portion disposed between the upper portion and the lower portion, wherein the porous filter material disposed at the middle portion is coarser than the porous filter material disposed at the lower portion, and wherein the porous filter material disposed at the middle portion is finer than the porous filter material disposed at the upper portion. 15. The medical filter of claim 12, wherein the filter element comprises two or more distinct portions of the porous filter material. 16. The medical filter of claim 12, wherein the filter element comprises a continuous piece of the porous filter material that has a gradually changing pore size along a length of the filter element. 17. The medical filter of claim 12, wherein the filter element comprises four or more distinct portions of the porous filter material. 18. A method of filtering blood through a filtering system, the method comprising: inputting the blood to the filtering system at a bottom region of a chamber defined by a filter and an upper air space, the filter comprising a porous filter material, the filter having an upper end portion and a lower end portion, wherein an average pore size of the porous filter material disposed at the lower end portion is less than an average pore size of the porous filter material disposed at the upper end portion; andfiltering the blood such that the blood flows outwardly through pores in the filter while gaseous bubbles prevented from flowing through the pores in the filter rise in the chamber toward the upper air space. 19. The method of claim 18, wherein the average pore size of the porous filter material disposed at the lower end portion is less than 40 microns, and wherein the average pore size of the porous filter material disposed at the upper end portion is greater than 40 microns.
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이 특허에 인용된 특허 (4)
Shah Suresh T. (Edina MN) Huffstutler ; Jr. Miles C. (Burnsville MN) Bentzen Bruce D. (Burnsville MN), Blood filter.
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