A cooling system for preserving tissue is disclosed. The cooling system comprises a base member, a temperature control sleeve constructed of a thermally conductive material, and a selectively removable lid member. The base member defines a reservoir and receives the temperature control sleeve. The t
A cooling system for preserving tissue is disclosed. The cooling system comprises a base member, a temperature control sleeve constructed of a thermally conductive material, and a selectively removable lid member. The base member defines a reservoir and receives the temperature control sleeve. The temperature control sleeve at least partially defines a tissue collector chamber that is configured to receive a tissue collector. The temperature control sleeve is in communication with the reservoir. The reservoir is configured to receive a cooling medium. A slit formed within the tissue collection chamber that is sized to receive a tubing connected to the tissue collector therethrough. The lid member is configured to be selectively attached to the base member, and permit access to a tube mount for the tissue collector when the lid is attached to the base member.
대표청구항▼
1. A temperature controlled system, comprising: a base member having a closed bottom surface and upwardly extending walls connected to the bottom surface that define a reservoir that is configured to receive a temperature controlled medium;a temperature control sleeve constructed of a thermally cond
1. A temperature controlled system, comprising: a base member having a closed bottom surface and upwardly extending walls connected to the bottom surface that define a reservoir that is configured to receive a temperature controlled medium;a temperature control sleeve constructed of a thermally conductive material disposed within the base member, wherein the temperature control sleeve at least partially defines a tissue collector chamber; andwherein the temperature control sleeve is in communication with the reservoir;a slit formed through a side wall of the temperature control sleeve, wherein the slit is sized to receive a tubing connected to the tissue collector such that the tubing extends through the slit; anda lid member that is configured to be selectively attached to the base member, opposite the closed bottom, where in the lid member permits access to a tube mount for the tissue collector, when the lid is attached to the base member. 2. The temperature controlled system of claim 1, wherein the slit extends the longitudinal extent of the tissue collector chamber. 3. The temperature controlled system of claim 1, further comprising a channel disposed within the base member, wherein the channel is in communication with an interior of the temperature control sleeve through the slit, and wherein the channel is configured to receive tubing from the tissue collector within the slit. 4. The temperature controlled system of claim 3, wherein the channel is defined by opposing wall members disposed within the reservoir and wherein the channel further includes an open end in communication with the slit. 5. The temperature controlled system of claim 4, wherein the opposing wall members include end members that are contoured to complement the outer surface of the temperature control sleeve. 6. The temperature controlled system of claim 1, wherein the lid member includes an opening having a first section and a second section that are in communication with one another; wherein the first section is sized to permit at least a tubing mount to extend therethrough to attach tubing from a tissue resection device so as to deliver tissue samples to the tissue collector disposed within the base member; and wherein the second section is sized to permit tubing to exit to operably attach to a vacuum generator. 7. The temperature controlled system of claim 1, further comprising at least one projecting element extending from a bottom surface of the lid member, wherein the projecting element is configured to be disposed within the reservoir so as to frictionally retain the lid member on the reservoir. 8. The temperature controlled system of claim 7, further comprising a sealing member disposed around the projecting element to provide a fluid-tight seal. 9. The temperature controlled system of claim 7, wherein a plurality of projecting members are provided. 10. The temperature controlled system of claim 1, further comprising at least one clip member secured to an outer surface of base member to permit base member to be secured to a surgical tray. 11. The temperature controlled system of claim 10, wherein the clip member is comprised of a first arm member that is arranged so as to oppose a second arm member, wherein the first and second arm members cooperate to form a retaining groove between the first and second arm members. 12. The temperature controlled system of claim 1, wherein the base member further comprises a locating depression formed on a bottom surface of the reservoir, wherein the locating depression is configured to receive the temperature control sleeve within the locating depression. 13. The temperature controlled system of claim 1, further comprising a securing member contacting the temperature control sleeve and securing the temperature control sleeve to the base member. 14. The temperature controlled system of claim 1, further comprising two opposing walls defining a channel, wherein an end of the walls defines a seat for receiving the temperature control sleeve. 15. A temperature controlled system, comprising: a base member defined by a bottom surface and upwardly extending walls to define a reservoir that is configured to receive a temperature controlled medium;a temperature control sleeve constructed of a thermally conductive material, wherein the temperature control sleeve at least partially defines a tissue collector chamber; and wherein the temperature control sleeve is in communication with the reservoir;a slit formed through the side wall of the tissue collector chamber, wherein the slit is sized to receive a tubing connected to the tissue collector such that the tubing extends through the slit;a channel in communication with the slit; anda lid member that is configured to be selectively attached to the base member opposite the bottom surface of the base member, wherein the lid member includes at least one projecting element extending from a bottom surface of the lid member, wherein the projecting element is configured to be disposed within the reservoir so as to frictionally retain the lid member on the reservoir, and wherein the lid member permits access to a tube mount for the tissue collector, when the lid is attached to the base member.
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