Process for the treatment of atherosclerotic lesions
First Claim
1. A process for the treatment of atherosclerotic lesions comprising the steps of:
- determining the resonant absorption frequencies of said lesions,generating an electromagnetic field,tuning said electromagnetic field to said absorption frequencies of said lesions,exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, andsaid biophysical alteration including the stimulation of intracellular production of interferon.
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Accused Products
Abstract
A process for the treatment of atherosclerotic lesions by the application of external electromagnetic energy capable of achieving biophysical alterations in the intracellular structure of the lesions, including stimulation of intracellular production of interferon. The process accomplishes these biophysical alterations by tuning an external electromagnetic energy to the resonant energy absorption frequencies of the intracellular structure of the lesions and then exposing the subject to this tuned electromagnetic energy field. Alternatively, the field can be tuned to the frequency which has been calculated to be closest to the resonant frequency of the lesions and furtherest from the resonant frequency of the normal vascular cells. The process may be further enhanced by the intracellular absorption of selected materials designed to alter the magnetic susceptibility and therefore the resonant energy absorption frequency of the intracellular structure.
53 Citations
20 Claims
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1. A process for the treatment of atherosclerotic lesions comprising the steps of:
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determining the resonant absorption frequencies of said lesions, generating an electromagnetic field, tuning said electromagnetic field to said absorption frequencies of said lesions, exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, and said biophysical alteration including the stimulation of intracellular production of interferon. - View Dependent Claims (2, 3, 4)
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5. A process for the treatment of atherosclerotic lesions comprising the steps of:
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determining the resonant absorption frequencies of said lesions, determining the resonant absorption frequencies of the normal vascular cells of said subject, calculating the frequency closest to said resonant frequency of said lesions and furtherest from said resonant frequency of said normal vascular cells, generating an electromagnetic field, tuning said electromagnetic field to said calculated frequency, exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, and said biophysical alteration including the stimulation of intracellular production of interferon. - View Dependent Claims (6, 7, 8, 9)
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10. A process for the treatment of atherosclerotic lesions comprising the steps of:
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determining the resonant absorption frequencies of the lesions, generating an electromagnetic field, tuning said electromagnetic field to said absorption frequencies of said lesions, and exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, including the intracellular heat rise of said lesions.
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11. A process for the treatment of atherosclerotic lesions comprising the steps of:
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determining the resonant absorption frequencies of the lesions, generating an electromagnetic field external of the subject, tuning said electromagnetic field to said absorption frequencies of said lesions, and exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, including the stimulation of intracellular production of interferon.
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12. A process for the treatment of atherosclerotic lesions comprising the steps of:
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determining the resonant absorption frequencies of the lesions, generating an electromagnetic field, tuning said electromagnetic field to said absorption frequencies of said lesions, exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, and intravenously injecting into said tissue metabolic and activity varying substances to alter the biophysical characteristics of the intracellular structure of said lesions, including the magnetic susceptibility of said intracellular structure and therefore the resonant absorption frequency.
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13. A process for the treatment of atherosclerotic lesions comprising the steps of:
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determining the resonant absorption frequencies of the lesions, determining the resonant absorption frequencies of the normal vacular cells of said subject, calculating the frequency closest to said resonant frequency of said lesions and furtherest from said resonant frequency of said normal vascular cells, generating an electromagnetic field, tuning said electromagnetic field to said calculated frequency, and exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, including the intracellular heat rise of said lesions.
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14. A process for the treatment of atherosclerotic lesions comprising the steps of:
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determining the resonant absorption frequencies of the lesions, determining the resonant absorption frequencies of the normal vascular cells of the subject, calculating the frequency closest to said resonant frequency of said lesions and furtherest from said resonant frequency of said normal vascular cells, generating an electromagnetic field external of said subject, tuning said electromagnetic field to said calculated frequency, and exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, including the stimulation of intracellular production of interferon.
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15. A process for the treatment of atherosclerotic lesions comprising the steps of:
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determining the resonant absorption frequencies of the lesions, intravenously injecting into the subject metabolic and activity varying substances to alter the biophysical characteristics of the intracellular structure of the normal vascular cells, said biophysical characteristics including the magnetic susceptibility of said intracellular structure and therefore the resonant energy absorption frequency, determining the resonant absorption frequencies of the normal vascular cells of said subject, calculating the frequency closest to said resonant frequency of said lesions and furtherest from said resonant frequency of said normal vascular cells, generating an electromagnetic field, tuning said electromagnetic field to said calculated frequency, and exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, including the stimulation of intracellular production of interferon.
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16. A process for the treatment of atherosclerotic lesions comprising the steps of:
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intravenously injecting into the tissue of the subject metabolic and activity varying substances to alter the biophysical characteristics of the intracellular structure of the lesions, including the magnetic susceptibility of said intracellular structure and therefore the resonant absorption frequency, determining the resonant absorption frequencies of said lesions, determining the resonant absorption frequencies of the normal vascular cells of said subject, calculating the frequency closest to said resonant frequency of said lesions and furtherest from said resonant frequency of said normal vascular cells, generating an electromagnetic field, tuning said electromagnetic field to said calculated frequency, and exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, including the stimulation of intracellular production of interferon.
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17. A process for the treatment of atherosclerotic lesions comprising the steps of:
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determining the resonant absorption frequencies of the lesions, injecting into the subject particles capable of being absorbed intracellularly to enhance the determination of the resonant absorption frequencies, determining the resonant absorption frequencies of the normal vascular cells of the subject, calculating the frequency closest to said resonant frequency of said lesions and furtherest from said resonant frequency of said normal vascular cells, generating an electromagnetic field, tuning said electromagnetic field to said calculated frequency, and exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, including the stimulation of intracellular production of interferon.
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18. A process for the treatment of atherosclerotic lesions comprising the steps of:
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injecting into the subject particles capable of being absorbed intracellularly to enchance the determination of the resonant absorption frequencies of the lesions, determining the resonant absorption frequencies of said lesions, generating an electromagnetic field, tuning said electromagnetic field to said absorption frequencies of said lesions, and exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures, including the stimulation of intracellular production of interferon.
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19. A process for the treatment of atherosclerotic lesions comprising the steps of:
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determining a resonant absorption frequency of the lesions, generating an electromagnetic field, tuning said electromagnetic field to said absorption frequency of said lesions, and exposing the subject to said tuned field to achieve biophysical alteration in said lesions'"'"' intracellular structures.
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20. A process for the treatment of atherosclerotic lesions comprising the steps of:
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determining a resonant absorption frequency of said lesions, placing the subject within the effective range of an electromagnetic field, and generating said electromagnetic field tuned to said resonant absorption frequency, and thereby exposing the subject to the field to achieve biophysical alteration in the intracellular structures of said lesions.
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Specification