Abstract: Antibiotics are administered in a surgical site subcutaneously via a small or stab incision in the surgical field. Transcutaneous ultrasonic vibrations are applied across the surgical field, which is then opened in the usual manner, to thereby provide a surgical field which contains a vastly higher and more effective level of antibiotic. At the same time the underlying tissue is hydrated.

Abstract: According to some embodiments herein, systems for delivering therapeutic agents and/or methods of using such systems are provided. The systems can be configured to administer solution comprising therapeutic agent to a subject, and can further comprise an ultrasound applicator for applying ultrasound energy to the subject.

Abstract: An ultrasound applicator designed to turn off an ultrasound system when an application area has reached too high of a temperature may include an ultrasound head; and a temperature sensor operatively attached to the ultrasound head and to the ultrasound delivery system. When the temperature sensor senses a temperature above a predetermined value, the ultrasound system may shuts off. The ultrasound applicator may additionally include an electronic module, wherein the temperature sensor is operatively connected to the electronic module which is operatively connected to the ultrasound deliver unit, and the electronic module includes a temperature controlled switch designed to turn off power to the ultrasound delivery unit when the temperature sensor senses the temperature above the predetermined value.

Abstract: According to some embodiments herein, systems for delivering therapeutic agents and/or methods of using such systems are provided. The systems can be configured to administer solution comprising therapeutic agent to a subject, and can further comprise an ultrasound applicator for applying ultrasound energy to the subject.

Abstract: According to some embodiments herein, systems for delivering therapeutic agents and/or methods of using such systems are provided. The systems can be configured to administer solution comprising therapeutic agent to a subject, and can further comprise an ultrasound applicator for applying ultrasound energy to the subject.

Abstract: Therapeutic agents, diagnostic agents and other compositions can be effectively delivered to target tissues using ultrasonic dispersion. For example, a therapeutic agent in solution may be injected subcutaneously in the vicinity of a target tissue in a patient. External ultrasound is used to disperse the therapeutic agent in the target tissue. The disclosed methods provide increased concentrations of therapeutic agents in tissue relative to traditional delivery methods, thereby improving therapeutic outcomes while reducing costs. In addition the methods can be used to deliver effective concentrations of therapeutic agents to tissues with limited blood supply.

Abstract: Therapeutic agents, diagnostic agents and other compositions can be effectively delivered to target tissues using ultrasonic dispersion. For example, a therapeutic agent in solution may be injected subcutaneously in the vicinity of a target tissue in a patient. External ultrasound is used to disperse the therapeutic agent in the target tissue. The disclosed methods provide increased concentrations of therapeutic agents in tissue relative to traditional delivery methods, thereby improving therapeutic outcomes while reducing costs. In addition the methods can be used to deliver effective concentrations of therapeutic agents to tissues with limited blood supply.

Abstract: Antibiotics are administered in a surgical site subcutaneously via a small or stab incision in the surgical field. Transcutaneous ultrasonic vibrations are applied across the surgical field, which is then opened in the usual manner, to thereby provide a surgical field which contains a vastly higher and more effective level of antibiotic. At the same time the underlying tissue is hydrated.

Abstract: According to some embodiments herein, systems for delivering therapeutic agents and/or methods of using such systems are provided. The systems can be configured to administer solution comprising therapeutic agent to a subject, and can further comprise an ultrasound applicator for applying ultrasound energy to the subject.

Abstract: According to some embodiments herein, systems for delivering therapeutic agents and/or methods of using such systems are provided. The systems can be configured to administer solution comprising therapeutic agent to a subject, and can further comprise an ultrasound applicator for applying ultrasound energy to the subject.

Abstract: Therapeutic agents, diagnostic agents and other compositions can be effectively delivered to target tissues using ultrasonic dispersion. For example, a therapeutic agent in solution may be injected subcutaneously in the vicinity of a target tissue in a patient. External ultrasound is used to disperse the therapeutic agent in the target tissue. The disclosed methods provide increased concentrations of therapeutic agents in tissue relative to traditional delivery methods, thereby improving therapeutic outcomes while reducing costs. In addition the methods can be used to deliver effective concentrations of therapeutic agents to tissues with limited blood supply.

Abstract: According to some embodiments herein, systems for delivering therapeutic agents and/or methods of using such systems are provided. The systems can be configured to administer solution comprising therapeutic agent to a subject, and can further comprise an ultrasound applicator for applying ultrasound energy to the subject.

Abstract: Therapeutic agents, diagnostic agents and other compositions can be effectively delivered to target tissues using ultrasonic dispersion. For example, a therapeutic agent in solution may be injected subcutaneously in the vicinity of a target tissue in a patient. External ultrasound is used to disperse the therapeutic agent in the target tissue. The disclosed methods provide increased concentrations of therapeutic agents in tissue relative to traditional delivery methods, thereby improving therapeutic outcomes while reducing costs. In addition the methods can be used to deliver effective concentrations of therapeutic agents to tissues with limited blood supply.

Abstract: Antibiotics are administered in a surgical site subcutaneously via a small or stab incision in the surgical field. Transcutaneous ultrasonic vibrations are applied across the surgical field, which is then opened in the usual manner, to thereby provide a surgical field which contains a vastly higher and more effective level of antibiotic. At the same time the underlying tissue is hydrated.

Abstract: Antibiotics are administered in a surgical site subcutaneously via a small or stab incision in the surgical field. Transcutaneous ultrasonic vibrations are applied across the surgical field, which is then opened in the usual manner, to thereby provide a surgical field which contains a vastly higher and more effective level of antibiotic. At the same time the underlying tissue is hydrated.

Abstract: Antibiotics are administered in a surgical site subcutaneously via a small or stab incision in the surgical field. Transcutaneous ultrasonic vibrations are applied across the surgical field, which is then opened in the usual manner, to thereby provide a surgical field which contains a vastly higher and more effective level of antibiotic. At the same time the underlying tissue is hydrated.

Abstract: Antibiotics are administered in a surgical site subcutaneously via a small or stab incision in the surgical field. Transcutaneous ultrasonic vibrations are applied across the surgical field, which is then opened in the usual manner, to thereby provide a surgical field which contains a vastly higher and more effective level of antibiotic. At the same time the underlying tissue is hydrated.

Abstract: Therapeutic agents, diagnostic agents and other compositions can be effectively delivered to target tissues using ultrasonic dispersion. For example, a therapeutic agent in solution may be injected subcutaneously in the vicinity of a target tissue in a patient. External ultrasound is used to disperse the therapeutic agent in the target tissue. The disclosed methods provide increased concentrations of therapeutic agents in tissue relative to traditional delivery methods, thereby improving therapeutic outcomes while reducing costs. In addition the methods can be used to deliver effective concentrations of therapeutic agents to tissues with limited blood supply.

Abstract: Antibiotics are administered in a surgical site subcutaneously via a small or stab incision in the surgical field. Transcutaneous ultrasonic vibrations are applied across the surgical field, which is then opened in the usual manner, to thereby provide a surgical field which contains a vastly higher and more effective level of antibiotic. At the same time the underlying tissue is hydrated.

Abstract: Antibiotics are administered in a surgical site subcutaneously via a small or stab incision in the surgical field. Transcutaneous ultrasonic vibrations are applied across the surgical field, which is then opened in the usual manner, to thereby provide a surgical field which contains a vastly higher and more effective level of antibiotic. At the same time the underlying tissue is hydrated.