Use of endovascular hypothermia in organ and/or tissue...

Surgery: light – thermal – and electrical application – Light – thermal – and electrical application – Thermal applicators

Reexamination Certificate

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C128S898000, C604S113000

Reexamination Certificate

active

06692519

ABSTRACT:

FIELD OF THE INVENTION
This invention relates generally to methods for human or veterinary medical treatment and more particularly to a) the endovascular application of hypothermia to beating heart donors prior to harvesting of organ(s) and/or tissue(s) for transplantation to avoid hypoxic damage to the organ(s) and/or tissue(s) and b) the endovascular (e.g., intravascular) application of hypothermia to transplant recipients during and/or after transplantation of organ(s) and/or tissue(s) to reduce acute inflammatory response and help avoid acute transplant rejection and/or other complications.
BACKGROUND OF THE INVENTION
In the early days of organ transplantation, all cadaveric (non-living) organ donors were pronounced dead by loss of heart function or “cardiac death” criteria. However, in the late 1960's and early 1970's “brain death” criteria were developed that allowed organs to be harvested from donors who's hearts were still beating but who had been pronounced dead based on the irreversible cessation of all brain activity. Additionally, it was learned that organ transplantation was more successful in cases where the donor's respiration and circulation were supported by artificial means (e.g., the use of mechanical ventilation and the administration of pharmacologic or mechanical support of cardiac activity) after brain death had occurred until the organs could be removed for transplantation. This “beating heart donor” technique enables oxygenated blood to continue to flow through the organs until immediately before they are harvested from the donor, thereby enhancing the organs' viability.
Every day, approximately ten people die in the United States while awaiting an organ transplant, simply because suitable donor organs are not available for them in time. Various approaches have been proposed for making transplantable organs more readily available to patients in need of transplants. For example, research is underway to develop genetically or immunologically modified animals who's organs may be suitable for xenotransplantation (i.e., transplantation of an organ or tissue from one species of animal into another species of animal) in humans. However, it remains uncertain as to whether xenotransplantation research will ultimately give rise to universally useable organs of all needed types and even if the current research is successful, the potential clinical implementation of xenotransplantation techniques remains many years away. Another approach has been to obtain some types of organs from human cadaveric donors who have been declared dead by traditional cardiac death criteria as opposed to brain death criteria. However, a number of important transplantable organs (e.g., hearts) can not typically be harvested from cadaveric donors more than just a few minutes after the cardiac death has occurred because the viability of the organ is lost.
On Jan. 6,2001 The United Network for Organ Sharing (UNOS) national patient waiting list for organ transplant included the following:
Patients Waiting
Type of Transplant
for Transplant
kidney transplant
47,689
liver transplant
16,815
pancreas transplant
1,033
pancreas islet cell transplant
178
kidney-pancreas transplant
2,457
intestine transplant
147
heart transplant
4,152
heart-lung transplant
206
lung transplant
3,676
*Total Patients Total
*73,989
However, because of the shortage of suitable donor organs, the number of organ transplants that will actually be performed during the year 2001 is likely to be substantially lower than the number of patients on the waiting list. During the year 2000, the number of transplants actually performed in the United States were as follows:
Type of Transplant
Number
kidney alone transplants
13,290
(5,227 were living donors)
liver transplants
4,934
pancreas alone transplants
436
kidney-pancreas transplants
914
intestine transplants
79
heart transplants
2,197
heart-lung transplants
48
lung transplants
956
Total
22,854
Apart from the fact that the pool of potential organ donors is relatively small compared to the demand for transplantable organs, the shortage of organs is further exacerbated by the fact that sometimes, even after a potential donors family has agreed to organ donation, that donor's organs are lost because the donors cardiac activity can not be maintained for sufficient time to allow the necessary testing to establish and certify brain-death and to arrange for the arrival of the team of surgeons who are trained to remove the desired organ(s) from the donor's body. In view of these facts, there remains a need in the art for the development of new techniques to facilitate the harvesting of viable organs for transplantation so that more organs may be made available.
SUMMARY OF THE INVENTION
The present invention provides methods for decreasing the potential for hypoxic damage to transplantable organs in brain dead “beating heart” organ donors. The present invention also provides methods for preventing or treating episodes of acute transplant rejection in patients who have received organ or tissue transplants.
In accordance with one embodiment of the present invention, a heat exchange apparatus is inserted into the vasculature of a potential organ donor who is believed to be brain dead, but who has not yet been declared brain dead. The heat exchange apparatus is then used to cool the blood flowing through the potential donor's vasculature, thus cooling all of a portion of the donor's body to a desired temperature below normothermia (e.g., from about 37° C. to about 35° C. or less, often as low as 30°), thereby decreasing the oxygen demand of the tissues or organs to be transplanted and thus decreasing the likelihood that such tissues or organs will suffer hypoxic damage as a result of a hypoxic event while the patient is undergoing the necessary evaluation of his/her suitability as an organ donor, during the performance of testing necessary to confirm brain death (i.e., the “brain death work-up”) and until such time as brain death has been certified and any organs deemed suitable for transplantation have been harvested from the donor's body. The types of hypoxic events that may occur during this period of time include periods of cardiac arrest where the donor's heart ceases to beat for a period of time, periods of extreme hypotension or periods where the mechanical ventilation is inadvertently or purposely interrupted.
Further in accordance with the present invention, a heat exchange apparatus is may be inserted into the vasculature of a potential organ donor who has already been declared brain dead but from whose body the organs or tissues desired for transplantation have not yet been harvested. The heat exchange apparatus is then used to cool the blood flowing through the potential donor's vasculature, thus cooling all of a portion of the donor's body to a desired temperature below normothermia (e.g., from about 37° C. to about 35° C. or less), thereby decreasing the oxygen demand of the tissues or organs to be transplanted and thus decreasing the likelihood that such tissues or organs will suffer hypoxic damage as a result of a hypoxic event while the patient is undergoing the necessary evaluation of his/her suitability as an organ donor and until such time as brain death has been certified and any organs deemed suitable for transplantation have been harvested from the donor's body. The types of hypoxic events that may occur during this period of time include periods of cardiac arrest where the donor's heart ceases to beat for a period of time, periods of extreme hypotension or periods where the mechanical ventilation is inadvertently or purposely interrupted.
Still further in accordance with the present invention, the heat exchange apparatus may be a pliable or flexible structure that is formed or mounted and configured to expand when filled with thermal exchange fluid. One or more lumens may extend through the catheter to permit infusion or circulation of thermal exchange fluid through the heat exchange appar

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