Surgery – Means for introducing or removing material from body for... – Treating material introduced into or removed from body...
Reexamination Certificate
2000-12-06
2004-04-13
Bennett, Henry (Department: 3743)
Surgery
Means for introducing or removing material from body for...
Treating material introduced into or removed from body...
Reexamination Certificate
active
06719723
ABSTRACT:
CROSS REFERENCE TO RELATED APPLICATIONS
Not Applicable
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT
Not Applicable
BACKGROUND OF THE INVENTION
1. Field of the Invention
The current invention relates to cooling or warming of the body of a patient, or selective cooling or warming of a selected organ, by cooling or warming the blood in a major artery, or cooling or warming the blood flowing into the selected organ. This thermal treatment can protect the tissue from injury caused by anoxia or trauma, or it can achieve other purposes.
2. Background Information
Organs of the human body, such as the brain, kidney, and heart, are maintained at a constant temperature of approximately 37° C. Cooling of organs below 35° C. is known to provide cellular protection from anoxic damage caused by a disruption of blood supply, or by trauma. Cooling can also reduce swelling associated with these injuries.
Hypothermia is currently utilized in medicine and is sometimes performed to protect the brain from injury. Cooling of the brain is generally accomplished through whole body cooling to create a condition of total body hypothermia in the range of 20° to 30° C. This cooling is accomplished by immersing the patient in ice, by using cooling blankets, or by cooling the blood flowing externally through a cardiopulmonary bypass machine.
Some physicians have immersed the patient's head in ice to provide brain cooling. There are also cooling helmets, or head gear, to perform the same. This approach suffers from the problems of slow cool down and poor temperature control due to the temperature gradient that must be established externally to internally. It has also been shown that complications sometimes associated with total body cooling, such as arrhythmia and decreased cardiac output, can also be caused by cooling of the face and head only.
Selective organ hypothermia has also been attempted by perfusing the organ with a cold solution, such as saline or perflourocarbons. This is commonly done to protect the heart during heart surgery and is referred to as cardioplegia. This procedure has a number of drawbacks, including limited time of administration due to excessive volume accumulation, cost and inconvenience of maintaining the perfusate, and lack of effectiveness due to temperature dilution from the blood. Temperature dilution by the blood is a particular problem in high blood flow organs such as the brain. For cardioplegia, the blood flow to the heart is minimized, and therefore this effect is minimized.
Intravascular hypothermia, created by cooling the blood flowing in a selected artery, avoids many of the aforementioned complications. First, because the blood is cooled intravascularly, or in situ, problems associated with external circulation of blood are eliminated. Second, only a single puncture and arterial vessel cannulation is required, and it can be performed at an easily accessible artery such as the femoral, subclavian, or brachial. Third, cold perfilsate solutions are not required, thus eliminating problems with excessive fluid accumulation. This also eliminates the time, cost, and handling issues associated with providing and maintaining cold perfusate solution. Fourth, rapid cooling can be achieved. Fifth, precise temperature control is possible.
One important factor related to catheter development for hypothermia is the small size of the artery in which the catheter may be placed, and the need to prevent a significant reduction in blood flow when the catheter is placed in the artery. A significant reduction in blood flow would result in ischemic organ damage. This situation is exacerbated if, for instance, cooling of the blood in an artery results in the constriction of the artery in the area where cooling is applied.
BRIEF SUMMARY OF THE INVENTION
The cooling achieved by the present invention is accomplished by placing a substantially coaxial cooling catheter into the feeding artery of the selected organ, or into a major artery. Cold saline solution is circulated through the catheter. In the catheter, a fluid supply lumen would carry the saline solution to a distal heat transfer element where cooling would occur. A preferred heat transfer element would be flexible and axially compressible. Cooling of the catheter tip to the desired temperature results in cooling of the blood flowing in the artery.
It is important for the catheter to be flexible in order to successfully navigate the arterial path, and this is especially true of the distal end of the catheter. So, the distal end of the catheter should have a flexible heat transfer element, which is composed of a material which conducts heat better than the remainder of the catheter. The catheter body material could be nylon or PBAX, and the heat transfer element could be made from a material having higher thermal conductivity, such as nitinol, nickel, copper, silver, or gold. Ideally, the heat transfer element is formed with a maximized or convoluted surface area, which can for example include a bellows or helically shaped ridges and grooves.
To counteract any tendency of the artery to constrict upon cooling, an exit port is formed in the catheter, to allow a very small flow of the cooling saline solution to exit the catheter in the proximity of the heat transfer element. A vaso-dilator, such as papaverine, is mixed with the saline solution, resulting in a dual purpose treatment fluid. The papaverine in the saline solution acts upon the artery to prevent it from constricting. Alternatively, the medicament, such as a vaso-dilator, can be delivered to the exit port via a separate lumen, rather than being mixed with the saline solution.
The novel features of this invention, as well as the invention itself, will be best understood from the attached drawings, taken along with the following description, in which similar reference characters refer to similar parts, and in which:
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Bennett Henry
Dagostino Sabrina
Innercool Therapies, Inc.
Spinks Gerald W.
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