Endothelium preserving microwave treatment for atherosclerosis
First Claim
1. A method for thermally heating an atherosclerotic lesion in an artery to treat atherosclerosis while preserving an endothelial layer of said artery, comprising:
- providing a catheter with a microwave radiator at one end thereof;
selecting a frequency of operation for said microwave radiator within a frequency range of from about 2 Gigahertz to about 300 Gigahertz;
selecting a microwave power level of operation, time duration of radiation, and frequency of operation such that a heat rise due to energy deposition in said endothelial layer is limited by a blood flow rate and a specific heat of said blood to within a selected temperature rise less than an amount that will damage said endothelial layer.
4 Assignments
0 Petitions
Accused Products
Abstract
Method and apparatus are provided to treat atherosclerosis wherein the artery is partially closed by dilating the artery while preserving the vital and sensitive endothelial layer thereof Microwave energy having a frequency from 3 GHz to 300 GHz is propagated into the arterial wall to produce a desired temperature profile therein at tissue depths sufficient for thermally necrosing connective tissue and softening fatty and waxy plaque while limiting heating of surrounding tissues including the endothelial laser and/or other healthy tissue, organs, and blood. The heating period for raising the temperature a potentially desired amount, about 20° C., within the atherosclerotic lesion may be less than about one second. In one embodiment of the invention, a radically beveled waveguide antenna is used to deliver microwave energy at frequencies from 25 GHz or 30 GHz to about 300 GHz and is focused towards a particular radial sector of the artery. Because the atherosclerotic lesions are often asymmetrically disposed, directable or focussed heating preserves healthy sectors of the artery and applies energy to the asymmetrically positioned lesion faster than a non-directed beam. A computer simulation predicts isothermic temperature profiles for the given conditions and man be used in selecting power, pulse duration, beam width, and frequency of operation to maximize energy deposition and control heat rise within the atherosclerotic lesion without harming healthy tissues or the sensitive endothelium cells.
142 Citations
9 Claims
-
1. A method for thermally heating an atherosclerotic lesion in an artery to treat atherosclerosis while preserving an endothelial layer of said artery, comprising:
-
providing a catheter with a microwave radiator at one end thereof; selecting a frequency of operation for said microwave radiator within a frequency range of from about 2 Gigahertz to about 300 Gigahertz; selecting a microwave power level of operation, time duration of radiation, and frequency of operation such that a heat rise due to energy deposition in said endothelial layer is limited by a blood flow rate and a specific heat of said blood to within a selected temperature rise less than an amount that will damage said endothelial layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
-
Specification