Abstract: The present invention relates to a system for skin cancer treatment using low intensity ultrasound. The system comprises an ultrasound transducer, a temperature sensing unit, and a control unit. The temperature sensing unit measures the temperature of the skin being exposed to ultrasound and provides temperature data to the control unit, which controls the ultrasound transducer accordingly.

Abstract: The present invention relates to a system for skin cancer treatment using low intensity ultrasound. The system comprises an ultrasound transducer, a temperature sensing unit, and a control unit. The temperature sensing unit measures the temperature of the skin being exposed to ultrasound and provides temperature data to the control unit, which controls the ultrasound transducer accordingly.

Abstract: A device for providing hyperthermia treatment includes an ultrasound energy generator configured to apply low intensity ultrasound to target tissue. The low intensity ultrasound energy induces therapeutic heating in the tissue at or below the surface of the skin. In order to control the temperature of the tissue during therapy, a microwave radiometer, such as a Dicke radiometer, can be used to measure the temperature of the tissue and feed back the temperature measurement to the ultrasound energy generator to control ultrasonic energy produced and control the temperature of the target tissue.

Abstract: A device for providing hyperthermia treatment includes an ultrasound energy generator configured to apply low intensity ultrasound to target tissue. The low intensity ultrasound energy induces therapeutic heating in the tissue at or below the surface of the skin. In order to control the temperature of the tissue during therapy, a microwave radiometer, such as a Dicke radiometer, can be used to measure the temperature of the tissue and feed back the temperature measurement to the ultrasound energy generator to control ultrasonic energy produced and control the temperature of the target tissue.

Abstract: The present invention relates to a system for skin cancer treatment using low intensity ultrasound. The system comprises an ultrasound transducer, a temperature sensing unit, and a control unit. The temperature sensing unit measures the temperature of the skin being exposed to ultrasound and provides temperature data to the control unit, which controls the ultrasound transducer accordingly.

Abstract: The present invention relates to a system for skin cancer treatment using low intensity ultrasound. The system comprises an ultrasound transducer, a temperature sensing unit, and a control unit. The temperature sensing unit measures the temperature of the skin being exposed to ultrasound and provides temperature data to the control unit, which controls the ultrasound transducer accordingly.

Abstract: Disclosed herein are ultrasonic systems for applying low-intensity ultrasound to a sample (e.g., a cell culture or tissue). Further disclosed are methods for applying low-intensity ultrasound to a sample (e.g., a cell culture or tissue) or inducing apoptosis in a cell using the ultrasonic systems.

Abstract: The present invention relates to a system for skin cancer treatment using low intensity ultrasound. The system comprises an ultrasound transducer, a temperature sensing unit, and a control unit. The temperature sensing unit measures the temperature of the skin being exposed to ultrasound and provides temperature data to the control unit, which controls the ultrasound transducer accordingly.

Abstract: The present disclosure relates to methods of treating skin cancer using low intensity ultrasound. Low intensity ultrasound can selectively kill skin cancer cells. In some embodiments, the low intensity ultrasound can be continuous and focused.