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According to the present invention, a temperature controlled therapy device is provided which maintains a desired temperature in a fluid. The temperature controlled therapy device includes a fluid reservoir, a temperature controlled fluid, a watertight blanket having an internal space located therew

According to the present invention, a temperature controlled therapy device is provided which maintains a desired temperature in a fluid. The temperature controlled therapy device includes a fluid reservoir, a temperature controlled fluid, a watertight blanket having an internal space located therewith, a conduit connected between an exit port of the reservoir and an entry port of the blanket and between an exit port of the blanket and an entry port of the reservoir for defining a fluid circuit within which the temperature controlled fluid may circulate, a pump for circulating the temperature controlled fluid through the fluid circuit, a differential temperature sensor for generating an output signal proportional to a difference in fluid temperature in the blanket and a temperature at a remote location, an absolute temperature sensor for generating an output signal proportional to the temperature at the remote location, a control circuit having as inputs the outputs of the differential temperature sensor and the absolute temperature sensor for generating a control signal for operating the pump in order to maintain a defined temperature range in the fluid in the blanket, and a power supply for supplying power to the device.

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According to the present invention, a temperature controlled therapy device is provided which maintains a desired temperature in a fluid. The temperature controlled therapy device includes a fluid reservoir, a temperature controlled fluid, a watertight blanket having an internal space located therew

According to the present invention, a temperature controlled therapy device is provided which maintains a desired temperature in a fluid. The temperature controlled therapy device includes a fluid reservoir, a temperature controlled fluid, a watertight blanket having an internal space located therewith, a conduit connected between an exit port of the reservoir and an entry port of the blanket and between an exit port of the blanket and an entry port of the reservoir for defining a fluid circuit within which the temperature controlled fluid may circulate, a pump for circulating the temperature controlled fluid through the fluid circuit, a differential temperature sensor for generating an output signal proportional to a difference in fluid temperature in the blanket and a temperature at a remote location, an absolute temperature sensor for generating an output signal proportional to the temperature at the remote location, a control circuit having as inputs the outputs of the differential temperature sensor and the absolute temperature sensor for generating a control signal for operating the pump in order to maintain a defined temperature range in the fluid in the blanket, and a power supply for supplying power to the device. a free end that remains unaffixed to the coil, wherein the core (22) provides the helical coil (12) with an anchoring force in the vessel (42), and the core (22) provides the helical coil (12) with a secondary nonlinear shape when unstressed in the vessel (42), wherein the secondary nonlinear shape of said helical coil (12) is predetermined by the core (22). 2. The device (10) as set forth in claim 1 wherein the coil lumen (20) possesses a defined cross-section, and the core (22) substantially fills the defined cross-section of the coil lumen (20). 3. The device (10) as set forth in claim 1 wherein the distal core end (26) is affixed to the distal coil end (18). 4. The device (10) as set forth in claim 3 wherein the distal core end (26) is soldered, welded or adhered to the distal coil end (18). 5. The device (10) as set forth in claim 1 adapted for introduction into the patient via a catheter (32), wherein the device (10) is detachably secured to the catheter (32). 6. The device (10) as set forth in claim 5 wherein the device (10) further comprises a reversible coupling (30) for detachably connecting the device (10) to the catheter (32) for introducing it into the patient. 7. The device (10) as set forth in claim 6 adapted for introduction into the patient via a pusher (34) contained in the catheter (32), wherein the coupling (30) detachably connects the device (10) to the pusher (34). 8. The device (10) as set forth in claim 1 wherein the core (22) comprises nitinol, another shape memory material, stainless steel or MP35N. 9. The device (10) as set forth in claim 1 wherein the core (22) comprises nitinol in a superelastic state. 10. The device (10) as set forth in claim 1 wherein the core (22) comprises nitinol in other than its stress induced, martensitic condition. 11. The device (10) as set forth in claim 1 wherein the secondary shape (60) is a saddle-type (62), helical type (64), vortex-type (66), irregular baffle-type (68) or fusiform helix-type (70) shape. 12. The device (10) as set forth in claim 1 wherein the secondary shape (60) is a substantially spherical secondary shape (72). 13. The device (10) as set forth in claim 12 wherein the substantially spherical secondary shape (72) is defined by circular loops (74) angularly spaced about an axis. 14. The device (10) as set forth in claim 12 wherein the substantially spherical secondary shape (72) is defined by D-shaped loops (78) angularly spaced about an axis. 15. The device (10) as set forth in claim 1 wherein the secondary shape (60) is an oval plate (84). 16. The device (10) as set forth in claim 15 wherein the oval plate secondary shape (84) is defined by a generally flattened array of loops of wire (14) and defining a plurality of holes through which other coils are deployable. 17. The device (10) as set forth in claim 1 further comprising a thrombogenic material (38) connected to or carried by the coil (12). 18. The device (10) as set forth in claim 17 wherein the thrombogenic material (38) comprises Dacron, cotton, silk, wool or polyester threads (44). 19. The device (10) as set forth in claim 1 wherein the helical coil (12) comprises a wire (14) having a wire diameter of about 0.010 in. to about 0.032 in. (about 0.25 m to about 0.81 mm). 20. The device (10) as set forth in claim 1 wherein the core (22) has a diameter of about 0.004 in. to about 0.015 in. (about 0.10 mm to about 0.38 mm). 21. The device (10) as set forth in claim 1 wherein the core is of nitinol and has a diameter of about 0.004 in. to about 0.006 in. (about 0.10 mm to about 0.15 mm), and the helical coil has a diameter of about 0.010 in. to about 0.015 in. (0.25 mm to 0.38 mm). 22. The device (10) as set forth in claim 1 wherein the core (22) includes at least one tapered end portion (46). 23. The device (10) as set forth in claim 22 wherein the core (22) includes two tapered end portions (46). 24. The device (10) as set forth in claim 1 wherein the core (22) defines alternating portions o f larger (48) and smaller (50) diameters therealong having even and continuous transitions therebetween. 25. The device (10) as set forth in claim 1 wherein the secondary shape (36) of the coil (12) has a general outer dimension of about 3 mm to about 15 mm. 26. The device (10) as set forth in claim 1 wherein the helical coil (12) is about 2 to about 40 cm long when within a catheter. 27. A vasoocclusion device (10) for establishing an embolus or vascular occlusion in a human or veterinary patient, the device (10) being adapted for introduction into the patient via a catheter (32), and the catheter (32) having a pusher (34) contained therein for deploying the device (10) from the catheter (32); the device (10) comprising: a floppy helical coil (12) having a proximal coil end (16), a distal coil end (18) spaced from the proximal coil end (16) and a coil lumen (20) defined therein extending between the proximal coil end (16) and the distal coil end (18); a core (22) disposed in at least part of the coil lumen (20), the core (22) having a proximal core end (24) and a distal core end (26); and a thrombogenic material (38) connected to or carried by the helical coil (12); wherein one and only one of the proximal core end (24) and the distal core end (26) is directly affixed to a respective one of the proximal coil end (16) and the distal coil end (18), the core extending therefrom to a core free end; wherein the distal core end (26) is directly affixed to the distal coil end (18) by solder (28) or an adhesive; wherein the core (22) comprises nitinol in a superelastic state, being in other than its stress induced, martensitic condition; wherein the thrombogenic material (38) comprises Dacron, cotton, silk, wool or polyester threads (44); wherein the helical coil (12) comprises a wire (14) having a diameter of about 0.010 in. to about 0.032 in. (about 0.25 mm to about 0.81 mm); wherein the core (22) has a diameter of about 0.004 in. to about 0.015 in. (about 0.10 mm to about 0.38 mm); wherein the helical coil (12) is about 2 to about 40 cm long when constrained within a catheter; and wherein the core (22) provides the helical coil (12) with a secondary nonlinear shape, wherein the secondary nonlinear shape of said helical coil (12) is predetermined by the core (22), and an additional force assisting anchoring of the coil (12) in the human or veterinary patient when the helical coil (12) and the core (22) are deployed from the catheter (32). 28. A medical device (40) for establishing an embolus or vascular occlusion in a vessel of a human or veterinary patient, comprising: a floppy helical coil (12) having a proximal coil end (16), a distal coil end (18) spaced from the proximal coil end (16) and a coil lumen (20) defined therein extending between the proximal coil end (16) and the distal coil end (18); a core (22) disposed in at least part of the coil lumen (20), the core (22) having a proximal core end (24) and a distal core end (26); one portion of the core (22) affixed to the helical coil (12) at a selected location, and the core extends from the selected location to a free end that remains unaffixed to the coil; a catheter (32) dimensioned to receive the helical coil (12) and the core (22) therein; and a pusher (34) contained in the, catheter (32), adapted to deploy the coil (12) and the core (22) from the catheter (32); wherein the core (22) provides the helical coil (12) with an anchoring force, and the core (22) provides the helical coil (12) with a secondary nonlinear shape in the vessel when the coil (12) and the core (22) are deployed from the catheter (32), wherein the secondary nonlinear shape of said helical coil (12) is predetermined by the core (22). 29. The device (10) as set forth in claim 28 further comprising a coupling (30) for detachably connecting the helical coil (12) to the pusher (34). 30. In a coil-type vasoocclusion device for establishing an embolus or vascular occlusion in a vesse