Claims
- 1. A system for applying audible acoustic energy to a targeted body region cause vasodilation and/or to increase tissue perfusion comprising
an audible acoustic energy applicator sized to be placed in acoustic contact with the individual to transcutaneously apply audible acoustic energy to the targeted body region, and an electrical signal generating machine adapted to be coupled to the audible acoustic energy applicator, the electrical signal generating machine including a controller to generate electrical signals to operate the audible acoustic energy applicator during a treatment session to produce audible acoustic energy.
- 2. A system according to claim 1wherein the controller generates audible acoustic energy at a fundamental frequency laying within a range of fundamental frequencies not greater than about 20 kHz.
- 3. A system according to claim 2wherein the range of fundamental frequencies is between about 20 Hz and 20 kHz.
- 4. A system according to claim 2wherein the fundamental frequency is between 15 kHz and 20 kHz
- 5. A system according to claim 1wherein the audible acoustic energy applicator is sized to provide an intensity not exceeding 25 watts/cm2 at a maximum total power output of no greater than 150 watts operating within a range of fundamental frequencies not greater than 20 kHz.
- 6. A system according to claim 5wherein the range of fundamental frequencies is between about 20 Hz and 20 kHz.
- 7. A system according to claim 5wherein the fundamental frequency is between 15 kHz and 20 kHz.
- 8. A system according to claim 1wherein the audible acoustic energy applicator comprises a transducer including an acoustic coupling region having an effective diameter (D) to transcutaneously apply audible acoustic energy at a prescribed fundamental frequency, the transducer having an aperture size (AP) not greater than about 5 wavelengths, wherein AP is expressed as AP=D/WL, where WL is the wavelength of the fundamental frequency.
- 9. A system according to claim 8wherein the controller generates audible acoustic energy at a fundamental frequency laying within a range of fundamental frequencies not greater than 20 kHz.
- 10. A system according to claim 9wherein the range of fundamental frequencies is between about 20 Hz and 20 kHz.
- 11. A system according to claim 9wherein the range of fundamental frequencies is between 15 kHz and 20 kHz.
- 12. A system according to claim 1further including an assembly sized and configured to be affixed to the audible acoustic energy applicator and worn by the individual to stabilize placement of the audible acoustic energy applicator on the individual during transcutaneous application of audible acoustic energy.
- 13. A system according to claim 1wherein the audible acoustic energy applicator includes a transducer and an acoustic coupling media for the transducer.
- 14. A system according to claim 1wherein the audible acoustic energy applicator comprises a transducer and an acoustic coupling region for the transducer that includes a flexible material that forms a contour-conforming interface with skin.
- 15. A system according to claim 14wherein the flexible material presents a generally flat surface for contact with skin.
- 16. A system according to claim 14wherein the flexible material presents a generally convex surface for contact with skin.
- 17. A system according to claim 1wherein the audible acoustic energy applicator comprises a transducer including a radiating surface area and an acoustic coupling region for the transducer, the acoustic coupling region having a surface area that is larger than the radiating surface area.
- 18. A system according to claim 1wherein the audible acoustic energy applicator comprises a transducer including a radiating surface and an acoustic coupling region for the transducer spaced from the radiating surface to space the radiating surface from contact with skin.
- 19. A system according to claim 1wherein the audible acoustic energy applicator comprises a transducer including a radiating surface that is generally flat.
- 20. A system according to claim 19wherein the radiating surface includes a hydrophilic coating.
- 21. A system according to claim 1wherein the audible acoustic energy applicator comprises a transducer including a radiating surface that is generally convex.
- 22. A system according to claim 21wherein the radiating surface includes a hydrophilic coating.
- 23. A system according to claim 1wherein the audible acoustic energy applicator comprises a transducer including a radiating surface, an acoustic coupling media for the transducer, and a well region surrounding the radiating surface and being located at a higher plane than the radiating surface to collect air bubbles forming in the acoustic coupling media.
- 24. A system according to claim 23wherein the radiating surface is generally convex to direct air bubbles toward the well region.
- 25. A system according to claim 23wherein the radiating surface includes a hydrophilic coating to shed air bubbles.
- 26. A system according to claim 1further including a use register sized and configured to be carried by the audible acoustic energy applicator, and wherein the controller includes a use monitoring function adapted and configured to be coupled to the use register and an enablement function that enables operation of the audible acoustic energy applicator when prescribed use criteria are satisfied.
- 27. A system according to claim 1wherein the controller is adapted and configured to execute a tuning function that delivers audible acoustic energy to the audible acoustic energy applicator at an output frequency that varies over time within a range of output frequencies and selects from within the range an operating output frequency for the audible acoustic energy applicator based upon preprogrammed selection rules.
- 28. A system according to claim 1wherein the controller generates electrical signals to operate the audible acoustic energy applicator in pulses.
- 29. A system according to claim 1wherein the electrical signal generating machine is sized and configured to apply audible acoustic energy to the individual while the individual is undergoing transport.
- 30. A method for treating an acute coronary syndrome comprising the step of using the system defined in claim 1 to apply audible acoustic energy to a targeted body region to cause vasodilation and/or increase tissue perfusion.
- 31. A method for treating a heart attack comprising the step of using the system defined in claim 1 to apply audible acoustic energy to a targeted body region to cause vasodilation and/or increase tissue perfusion.
- 32. A method for treating stroke comprising the step of using the system defined in claim 1 to apply audible acoustic energy to a targeted body region to cause vasodilation and/or increase tissue perfusion.
- 33. A method for treating vascular disease comprising the step of using the system defined in claim 1 to apply audible acoustic energy to a targeted body region to cause vasodilation and/or increase tissue perfusion.
- 34. A method for increasing drug uptake comprising the step of using the system defined in claim 1 to apply audible acoustic energy to a targeted body region to cause vasodilation and/or increase tissue perfusion.
- 35. A method comprising the step of using the system defined in claim 1 to apply audible acoustic energy to a targeted body region to cause vasodilation and/or increase tissue perfusion.
- 36. A method for achieving regional systemic therapy in an individual comprising the steps of
administering an agent to the individual, and using the system defined in claim 1 to apply audible acoustic energy to a targeted body region to cause vasodilation and/or increase tissue perfusion to affect an increase in uptake of the agent in the targeted body region before, during or after administration of the agent to the individual.
- 37. A method according to claim 36wherein the agent in an angiogenic material.
RELATED APPLICATIONS
[0001] This application claims the benefit of co-pending U.S. patent application Ser. No. 10/202,447, filed Jul. 24, 2002, entitled “Systems and Methods for Monitoring and Enabling Use of a Medical Instrument.” This application also claims the benefit of co-pending U.S. patent application Ser. No. 09/935,908, filed Aug. 23, 2001, entitled “Systems and Methods for Applying Ultrasonic Energy to the Thoracic Cavity.” This application also claims the benefit of co-pending U.S. patent application Ser. No. 09/645,662, filed Aug. 24, 2000, entitled “Systems and Methods for Enhancing Blood Perfusion Using Ultrasound Energy.”