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An anesthetic circuit is provided for treating a patient. The anesthetic circuit includes a membrane having a plurality of hollow fibers. Also provided is a fluid separation apparatus connectable to an anesthetic circuit. In a further embodiment, a method is provided for anesthetic treatment of a pa

An anesthetic circuit is provided for treating a patient. The anesthetic circuit includes a membrane having a plurality of hollow fibers. Also provided is a fluid separation apparatus connectable to an anesthetic circuit. In a further embodiment, a method is provided for anesthetic treatment of a patient.

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1. An anesthetic circuit for treating a patient, comprising: a flow passage;an anesthetic agent inlet in fluid communication with the flow passage for introducing an external anesthetic agent into the flow passage;at least one fluid port in fluid communication with the flow passage for providing at

1. An anesthetic circuit for treating a patient, comprising: a flow passage;an anesthetic agent inlet in fluid communication with the flow passage for introducing an external anesthetic agent into the flow passage;at least one fluid port in fluid communication with the flow passage for providing at least the external anesthetic agent to the patient, whereinthe at least one fluid port is configured to receive an exhaled fluid mixture from the patient, the exhaled fluid mixture comprising an exhaled oxygen, an exhaled carbon dioxide and an exhaled anesthetic agent, the flow passage being in fluid communication with the at least one fluid port for receiving the exhaled fluid mixture from the at least one fluid port;a membrane comprising a plurality of hollow fibers, the membrane being in fluid communication with the flow passage, configured to receive the exhaled fluid mixture from the at least one fluid port, and at least partially impervious to the exhaled anesthetic agent to at least partially retain the exhaled anesthetic agent in the flow passage after the exhaled fluid mixture contacts the membrane, wherein the membrane is pervious to the exhaled carbon dioxide such that the membrane has an exhaled carbon dioxide-to-exhaled anesthetic agent selectivity of greater than 1,the membrane comprises the plurality of hollow fibers wound into a roll defining a hollow inner core having an open end to receive the exhaled fluid mixture therein,the exhaled fluid mixture contacts the membrane wherein the membrane separates a portion of the exhaled carbon dioxide from the exhaled fluid mixture to leave a modified fluid mixture in the flow passage having a lower amount of the exhaled carbon dioxide than the exhaled fluid mixture, andthe at least one fluid port is configured to receive the modified fluid mixture from the membrane and provide at least the modified fluid mixture to the patient; anda fluid inlet for introducing an external fluid into the flow passage to be added to the modified fluid mixture provided to the patient. 2. The anesthetic circuit of claim 1 wherein the exhaled anesthetic agent is an exhaled molecular anesthetic agent;the membrane comprises at least one polymeric material;the membrane is pervious to the exhaled oxygen such that the membrane has an exhaled oxygen-to-exhaled molecular anesthetic agent selectivity of greater than 1. 3. The anesthetic circuit of claim 1 wherein a carbon dioxide absorbing material is located on a side of the membrane that is external to the flow passage, wherein the membrane separates the carbon dioxide absorbing material from the exhaled anesthetic agent retained in the flow passage to impede the exhaled anesthetic agent from contacting the carbon dioxide absorbing material. 4. The anesthetic circuit of claim 1 wherein the membrane is pervious to a metabolic product including acetaldehyde, acetone, ethane, ethylene, hydrogen, isoprene, methane, methylamine or pentane; andthe membrane is configured to, upon contact with the exhaled fluid mixture, leave the modified fluid mixture in the flow passage with a lower amount of the metabolic product than the exhaled fluid mixture. 5. The anesthetic circuit of claim 1 wherein the at least one fluid port comprises: an exit outlet in fluid communication with the flow passage for providing at least the external anesthetic agent to the patient; andan entry inlet separate from the exit outlet for receiving the exhaled fluid mixture from the patient, the flow passage being in fluid communication with the entry inlet for receiving the exhaled fluid mixture from the entry inlet, and whereinthe exit outlet is configured to receive the modified fluid mixture from the membrane and provide the modified fluid mixture to the patient. 6. The anesthetic circuit of claim 1 wherein the at least one fluid port includes only one fluid port, and whereinthe one fluid port is in fluid communication with the flow passage for providing at least the external anesthetic agent to the patient,the one fluid port is configured to receive the exhaled fluid mixture from the patient, the flow passage being in fluid communication with the one fluid port for receiving the exhaled fluid mixture from the one fluid port, andthe one fluid port is configured to receive the modified fluid mixture from the membrane and provide the modified fluid mixture to the patient. 7. The anesthetic circuit of claim 1 wherein each hollow fiber has an outer wall having a first side that contacts the exhaled fluid mixture and permits at least a portion of the exhaled carbon dioxide to flow into the hollow fiber, and an opposing second side at which the modified fluid mixture is provided after at least a portion of the exhaled carbon dioxide flows into the hollow fiber,the hollow fibers permit a sweep fluid to pass therethrough to facilitate the transport of at least a portion of the exhaled carbon dioxide into the hollow fibers, andthe hollow fibers direct the exhaled carbon dioxide out of the flow passage. 8. The anesthetic circuit of claim 1 wherein the plurality of hollow fibers are spaced from one another and are arranged substantially perpendicular to a flow direction of the exhaled fluid mixture when the exhaled fluid mixture initially contacts the plurality of hollow fibers. 9. The anesthetic circuit of claim 1 wherein the plurality of hollow fibers are formed in at least a first planar mat,the plurality of hollow fibers in the first planar mat are spaced from and substantially parallel with one another,the first planar mat is rolled together into the roll forming concentric layers of substantially parallel hollow fibers, andthe first planar mat defines the hollow inner core having the open end to receive the exhaled fluid mixture and a closed end. 10. The anesthetic circuit of claim 9 wherein the plurality of hollow fibers are formed in the first planar mat and a second planar mat,the plurality of hollow fibers in the second planar mat are spaced from and substantially parallel with one another,the first planar mat is overlapped with the second planar mat,the overlapped first and second planar mats are rolled together in a cylindrical roll forming concentric layers of the hollow fibers,the first planar mat is overlapped with the second planar mat so that the hollow fibers of the first planar mat are oriented at an angle to the hollow fibers of the second planar mat to provide concentric layers of cross wound hollow fibers, andthe rolled first planar mat and second planar mat define the hollow inner core having the open end to receive the exhaled fluid mixture therein. 11. A fluid separation apparatus fluidly connectable to an anesthetic circuit, the anesthetic circuit having a flow passage for transporting an exhaled fluid mixture containing at least exhaled anesthetic agent and exhaled carbon dioxide through the flow passage, the fluid separation apparatus comprises: a membrane having a plurality of hollow fibers, whereinthe membrane is at least partially impervious to the exhaled anesthetic agent to at least partially retain the exhaled anesthetic agent in the flow passage after the exhaled fluid mixture contacts the membrane,the membrane is more pervious to the exhaled carbon dioxide than the exhaled anesthetic agent such that the membrane has an exhaled carbon dioxide-to-exhaled anesthetic agent selectivity of greater than 1, andthe membrane comprises the plurality of hollow fibers wound into a roll defining a hollow inner core having an open end to receive the exhaled fluid mixture; anda membrane housing containing the membrane therein, whereinthe housing is configured to receive the exhaled fluid mixture via a housing inlet,the membrane housing directs the exhaled fluid mixture into contact with the membrane, to provide a modified fluid mixture having a lower amount of the exhaled carbon dioxide than the exhaled fluid mixture,the membrane housing directs the modified fluid mixture out of the membrane housing via a housing outlet,at least one of the plurality of hollow fibers permits a sweep fluid to pass therethrough to facilitate the transport of at least a portion of the exhaled carbon dioxide into the at least one hollow fiber, andthe membrane housing has at least one sweep inlet to receive the sweep fluid therethrough and at least one sweep outlet to expel the sweep fluid from the membrane housing. 12. The fluid separation apparatus of claim 11 wherein the membrane housing is configured to direct the sweep fluid received from the sweep inlet through a first portion of the plurality of hollow fibers in a first sweep direction and subsequently through a second portion of the plurality of hollow fibers in a second sweep direction substantially opposite to the first sweep direction before the sweep fluid exists the housing via the sweep outlet, andthe first portion of the plurality of hollow fibers is radially outward of the second portion of the plurality of hollow fibers. 13. The fluid separation apparatus of claim 11 wherein the sweep fluid comprises at least nitrogen gas, the membrane is at least partially impervious to the nitrogen gas and pervious to the exhaled carbon dioxide fluid such that the membrane has an exhaled carbon dioxide-to-nitrogen gas selectivity of greater than 1. 14. The fluid separation apparatus of claim 11 wherein the membrane housing comprises an inner shaft inserted into the hollow inner core of the membrane,the inner shaft has a plurality of apertures therein to direct the exhaled fluid mixture through the apertures and into the membrane, andthe apertures located further away from the membrane housing inlet are smaller than the apertures located closer to the membrane housing inlet. 15. A method for anesthetic treatment of a patient, comprising: introducing an external anesthetic agent towards and into the patient via a flow passage;directing an exhaled fluid mixture comprising an exhaled oxygen, an exhaled carbon dioxide and an exhaled anesthetic agent away from and out of the patient into the flow passage;advancing the exhaled fluid mixture through the flow passage towards and into contact with a membrane comprising a plurality of hollow fibers in fluid communication with the flow passage, whereinthe membrane comprises the plurality of hollow fibers wound into a roll defining a hollow inner core having an open end to receive the exhaled fluid mixture therein;transferring more of the exhaled carbon dioxide than the exhaled anesthetic agent from the exhaled fluid mixture through the membrane and out of the flow passage after the exhaled fluid mixture contacts the membrane to leave a modified fluid mixture in the flow passage, wherein the modified fluid mixture has a lower concentration of the exhaled carbon dioxide than the exhaled fluid mixture; andadvancing the modified fluid mixture through the flow passage toward the patient to provide at least the modified fluid mixture to the patient. 16. An anesthetic circuit for treating a patient, comprising: a flow passage;an anesthetic agent inlet in fluid communication with the flow passage for introducing an external anesthetic agent into the flow passage;at least one fluid port in fluid communication with the flow passage for providing at least the external anesthetic agent to the patient, whereinthe at least one fluid port is configured to receive an exhaled fluid mixture from the patient, the exhaled fluid mixture comprising an exhaled oxygen, an exhaled carbon dioxide and an exhaled anesthetic agent, the flow passage being in fluid communication with the at least one fluid port for receiving the exhaled fluid mixture from the at least one fluid port;a membrane comprising a plurality of hollow fibers, the membrane being in fluid communication with the flow passage, configured to receive the exhaled fluid mixture from the at least one fluid port, and at least partially impervious to the exhaled anesthetic agent to at least partially retain the exhaled anesthetic agent in the flow passage after the exhaled fluid mixture contacts the membrane, whereinthe membrane is pervious to the exhaled carbon dioxide such that the membrane has an exhaled carbon dioxide-to-exhaled anesthetic agent selectivity of greater than 1,the membrane is pervious to the exhaled oxygen such that the membrane has an exhaled oxygen-to-exhaled volatile molecular anesthetic agent selectivity of greater than 1,the exhaled fluid mixture contacts the membrane wherein the membrane separates a portion of the exhaled carbon dioxide from the exhaled fluid mixture to leave a modified fluid mixture in the flow passage having a lower amount of the exhaled carbon dioxide than the exhaled fluid mixture, andthe at least one fluid port is configured to receive the modified fluid mixture from the membrane and provide at least the modified fluid mixture to the patient; anda fluid inlet for introducing an external fluid into the flow passage to be added to the modified fluid mixture provided to the patient. 17. The anesthetic circuit of claim 16 wherein the plurality of hollow fibers are formed in planar discs stacked upon one another, andthe hollow fibers in each planar disc are spaced from one another and oriented substantially parallel to one another in a corresponding disc direction. 18. The anesthetic circuit of claim 16 wherein the plurality of hollow fibers of the membrane are located in an elongate channel having a longitudinal centerline. 19. The anesthetic circuit of claim 18 wherein the plurality of hollow fibers are arranged substantially perpendicular to the longitudinal centerline of the elongate channel. 20. The anesthetic circuit of claim 18 wherein the longitudinal centerline is curved. 21. The anesthetic circuit of claim 16 wherein the plurality of hollow fibers of the membrane are located in a membrane housing,the hollow fibers are randomly packed into the membrane housing,the exhaled fluid mixture enters the housing via a housing inlet,the membrane housing directs the exhaled fluid mixture into contact with the membrane to provide the modified fluid mixture, andthe membrane directs the modified fluid mixture out of the membrane housing via a housing outlet.