MICROWAVE BODY HEATING SYSTEM
This invention relates to systems enabling the controlled application of radiated microwave energy to achieve warming of a subject body portion and, more particularly, to the heating of the entire body of a subject on an incremental sequential scanning basis.
BACKGROUND OF THE INVENTION
In various situations it may become desirable to warm or heat a body portion of a subject on a relatively rapid, but controlled basis, in order to achieve a predetermined level of warming. While various methods and approaches have been available for such purposes, they have tended to be slow, ineffective or not readily controllable as to the degree of warming or heating achieved. It has also been difficult to control the positional application and effects to selected areas, relative to other body portions. Certain other mediums, such as x-rays, are difficult to contain and potentially injurious to equipment operators. Also, many potential approaches and mediums capable of providing body heating are not amenable to heating of a subject's entire or substantially entire body on a readily controllable basis.
It is therefore an object of the present invention to provide new and improved systems and methods for heating body portions, and such systems utilizing controlled application of microwave energy, which may be applied on an incremental sequential basis under computer control.
SUMMARY OF THE INVENTION
In accordance with the invention, a system, to heat body portions using controlled microwave energy, includes a support unit arranged to support a subject body portion and having transverse and longitudinal dimensions. A microwave power assembly is arranged to be variably positionable relative to the support unit and to
radiate at least one focused directional beam of microwave frequency energy at a controllable power level to irradiate section transverse to the support unit. A position adjustment element is arranged to controllably relatively position the microwave power assembly and the support unit longitudinally. The system also includes a central processor unit coupled to the position adjustment element, arranged to control longitudinal positioning of the microwave power assembly and also arranged to control at least one of the following: the power level, the beam focus and the beam direction of a beam of microwave frequency energy radiated by the microwave power assembly. Also in accordance with the invention, a method, to heat body portions using controlled microwave energy, comprises the steps of:
(a) positioning a subject body portion on a support unit having transverse and longitudinal dimensions;
(b) irradiating a section transverse to the support unit by a focused directional beam of microwave frequency energy at a controllable power level radiated by a variably positionable microwave power assembly;
(c) controllably relatively positioning the microwave power assembly and the support unit longitudinally; and
(d) controlling at least one of the power level, the beam focus and the beam direction of the beam of microwave frequency energy radiated by the microwave power assembly.
For a better understanding of the invention, together with other and further objects, reference is made to the accompanying drawings and the scope of the invention will be pointed out in the accompanying claims.
BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 illustrates, in side view, an embodiment of the microwave heating system in accordance with the invention;
Fig. 2 is a plan view of portions of Fig. 1 system;
DESCRIPTION ON THE INVENTION
Fig. 1 illustrates an embodiment of a microwave heating system, arranged to use controlled microwave energy to heat one or more body portions of a subject on a controlled basis, in accordance with the invention. For present purposes, a subject's blood is defined as a body portion. The Fig. 1 system includes a support unit 10, arranged to support the body of a human subject in a prone position. Support unit 10 may typically take the form a table-type structure of suitable dimensions of non-metallic or other appropriate construction. Support unit 10 may be arranged to directly support a sensor array 12 arranged to absorb all or a portion of incident microwave energy while providing a positional indication subject to interpretation as to the level of microwave energy incident upon discrete areas of the array. Sensor array 12 may comprise sections of energy absorptive material with associated thermocouple or other temperature sensing elements arrange to sense power levels on the basis of temperature rise, or other appropriate sensor devices. A suitable form of mattress or other body support element 14 is also provided to meet stability, comfort, sanitary and other direct body support considerations. Support element 14 is desirably of a construction substantially transparent to microwave energy. Straps or other body retention or restraint elements may also be provided.
The Fig. 1 system also includes a microwave power assembly 20, which is variably positionable relative to the support unit 10. The word "microwave" is nominally defined with reference to wavelengths from one to one hundred centimeters. Microwave power assembly 20 typically includes a transverse linear array of magnetron or other suitable microwave power supply devices 22 with appropriate local control circuitry, a single such device arranged for controlled scanning transversely across the surface of support element 14, or a combination thereof. As illustrated, the power assembly 20 is supported via longitudinal structural members 24 and includes a position adjustment element, shown as motor unit 26. Structural members 24 may be elongated steel rails held up by supports (not shown) extending from the ceiling, floor or support unit 10. The motor unit 26 is arranged to move the power assembly along members 22 to preselected positions or continuously
or incrementally in a controlled manner.
As illustrated, the Fig. 1 system further includes a central processor unit (CPU) 30 coupled to the microwave power assembly 20. As shown, associated with CPU 30 are memory unit 32, keyboard unit 34 and display unit 36, together with such additional computer components and programming as may suitably be provided by skilled persons. CPU 30 is arranged to control at least one of (a) the power level of the microwave frequency radiated energy, (b) the focus of the beam or beams of microwave frequency radiated energy and (c) the direction of radiation of the beam of microwave frequency energy provided by microwave power assembly 20. In other embodiments, the frequency or one or more additional characteristics of the microwave frequency energy may also be controlled.
In application of the invention it will generally be desirable to carry out experimental tests to determine the power and duration of local application of microwave energy for a particular purpose. Thus, it is known that strains of viruses can be killed if the medium in which they exist is heated to a particular temperature. It is also know that microwave energy (e.g., as applied in a microwave oven) is usable to heat a medium having a water content to any desired temperature up to some maximum temperature. In application of the present invention, in a presently preferred implementation either a narrow fan beam of radiated microwave frequency energy or a laterally scanned spot type beam is caused to irradiate a narrow transverse section of a subject's body. The beam is then caused to move in controlled fashion longitudinally down the length of the subject's body. On the basis of energy input requirements experimentally predetermined for given body weight, or sensing of energy absorption and body temperature, narrow transverse incremental sections of the subject's body are sequentially heated to a temperature adequate for a purpose such as killing viruses in a continuous sequential process of one or more complete longitudinal scans enabling cooling to take place promptly after desired heating is achieved, so as to minimize permanent or temporary bodily injury. It will be appreciated, however, that in treatment of a fatal condition, some level of localized bodily damage or injury may be acceptable to the subject involved, in view of overall results which may be achievable.
With an understanding of the invention, persons skilled in relevant fields will be able to implement systems using the invention in a variety of forms. For example, techniques for the production, control and focusing of microwave energy pursuant to computer programming are well established in applications as diverse as microwave ovens and magnetron usage in radar applications. Also, scanning, monitoring, control and interpretation of results achieved are well established in various types of medical scanning and interpretation systems already in wide usage.
In certain implementations the microwave power assembly may include at least one magnetron type device positioned in one or more of the following locations relative to the support unit: above the support unit, below a body portion support surface of the support unit, to the left of the support unit, and to the right of the support unit, in order to heat all or substantial portions of the body of a subject. Alternatively, in killing tumorous cells or other localized matter, a single focused beam may need to be moved only a small distance in order to achieve a desired result. It will also be appreciated that in other embodiments in implementation of the invention the position adjustment element, shown above as motor unit 26, may be arranged to move the support unit 10 (or portions thereof) in order to controllably relatively position the microwave power assembly 20 and the support unit 10 longitudinally. While there have been described the currently preferred embodiments of the invention, those skilled in the art will recognize that other and further modifications may be made without departing from the invention and it is intended to claim all modifications and variations as fall within the scope of the invention.