Abstract: The invention is a device for transmitting acoustical energy through the surface of the skin of a patient, coupled with the administration of a compound, for example an acne medication, for the purpose of temporarily expanding the patient's pore size and enhancing the delivery of the compound to the patient's pores. The ultrasonic transducer emits a sonic transmission of variable intensity and frequency for the purpose of enhancing the absorption of compounds that have first been deposited onto the surface of the skin and into skin pores that have been expanded by the ultrasound transmission.

Abstract: Ultrasound generation produces in general an acoustic field, characterized by both inertial and non-inertial acoustic cavitation, a process by which non-linear oscillation of a microbubble and its associated micro streaming and radiation force generated by ultrasound can lead to intense heating effects in a material, solution or biological cell which comes into contact with a conventional ultrasound transmission. Typically an ultrasound signal contains both an acoustic vibration effect, a resonance effect where a material receiving the ultrasound transmission resonates in response to the transmission, and unfortunately in many applications a damaging cavitation effect and a damaging thermal effect. This invention is both a method and an apparatus to reduce the damaging effects of ultrasound in both the thermal and mechanical effects and to provide a safer ultrasonic process which can be used in sonochemistry applications, material science and for biological or medical applications.