Abstract: The invention relates to a new and improved pharmaceutical composition and method for delivery of therapeutic agents. The methods and composition of the invention can be used with several therapeutic agents and can achieve site specific delivery of a therapeutic or diagnostic substance. This can allow for lower doses and for improved efficacy with drugs which traditionally reach targeted sites and can result in improved utility for agents such as oligonucleotides and polynucleotides which are plagued with problems with biodistribution.

Abstract: The invention relates to a new and improved pharmaceutical composition and method for delivery of therapeutic agents. The methods and composition of the invention can be used with several therapeutic agents and can achieve site specific delivery of a therapeutic or diagnostic substance. This can allow for lower doses and for improved efficacy with drugs which traditionally reach targeted sites and can result in improved utility for agents such as oligonucleotides and polynucleotides which are plagued with problems with biodistribution.

Abstract: A method for non-invasive detection of vascular endothelial dysfunction using ultrasonic imaging is provided.

Abstract: The invention relates to a new and improved pharmaceutical composition and method for delivery of therapeutic agents. The methods and composition of the invention can be used with several therapeutic agents and can achieve site specific delivery of a therapeutic or diagnostic substance. This can allow for lower doses and for improved efficacy with drugs which traditionally reach targeted sites and can result in improved utility for agents such as oligonucleotides and polynucleotides which are plagued with problems with biodistribution.

Abstract: The invention relates to a new and improved pharmaceutical composition and method for delivery of therapeutic agents. The methods and composition of the invention can be used with several therapeutic agents and can achieve site specific delivery of a therapeutic or diagnostic substance. This can allow for lower doses and for improved efficacy with drugs which traditionally reach targeted sites and can result in improved utility for agents such as oligonucleotides and polynucleotides which are plagued with problems with biodistribution.

Abstract: The invention relates to a new and improved pharmaceutical composition and method for delivery of therapeutic agents. The methods and composition of the invention can be used with several therapeutic agents and can achieve site specific delivery of a therapeutic or diagnostic substance. This can allow for lower doses and for improved efficacy with drugs which traditionally reach targeted sites and can result in improved utility for agents such as oligonucleotides and polynucleotides which are plagued with problems with biodistribution.

Abstract: A new and improved method for inducing or pacing atrial and ventricular arrhythmias in animals Embodiments of the invention involve using microbubbles enhanced with an insoluble gas in combination with low frequency ultrasound for its pacing activity. The methods and compositions can be used to pace patients, convert patients out of atrial fibrillation, and as a diagnostic to assess a patient's risk for arrhythmias.

Abstract: The foregoing invention relates to a new microbubble preparation and thrombolytic therapy which relies on microbubbles and ultrasound for its lytic activity. The pharmaceutical composition of the invention comprises a liquid solution of microbubbles with an internal atmosphere enhanced with the perfluorocarbon gas which cavitate in the presence of an ultrasound field following intravenous injection or infusion of said composition into said host. For thrombolysis the area of a thrombus is exposed to an ultrasound field in the presence of the microbubbles and significant lysis is experienced. The method and pharmaceutical composition of the invention exhibit thrombolytic properties similar to those of other thrombolytic agents such as urokinase and are less toxic and are clot specific in that they do not introduce a systemic lytic state to a said animal.

Abstract: The invention relates to a new and improved pharmaceutical composition and method for delivery of therapeutic agents. The methods and composition of the invention can be used with several therapeutic agents and can achieve site specific delivery of a therapeutic substance. This can allow for lower doses and for improved efficacy with drugs which traditionally reach targeted sites and can result in utility for agents such as oligonucleotides which are plagued with problems in reaching targeted sites in necessary therapeutic levels. The delivery system includes gas-filled microbubbles formed in a nitrogen-free environment. Microbubbles formed through sonication in a nitrogen-free environment are smaller and more stable than microbubbles sonicated in the presence of room air.

Abstract: The foregoing invention relates to a new microbubble preparation and thrombolytic therapy which relies on microbubbles and ultrasound for its lytic activity. The pharmaceutical composition of the invention comprises a liquid solution of microbubbles with an internal atmosphere enhanced with the perfluorocarbon gas which cavitate in the presence of an ultrasound field following intravenous injection or infusion of said composition into said host. For thrombolysis the area of a thrombus is exposed to an ultrasound field in the presence of the microbubbles and significant lysis is experienced. The method and pharmaceutical composition of the invention exhibit thrombolytic properties similar to those of other thrombolytic agents such as urokinase and are less toxic and are clot specific in that they do not introduce a systemic lytic state to a said animal.

Abstract: The invention relates to a new and improved pharmaceutical composition and method for delivery of therapeutic agents. The methods and composition of the invention can be used with several therapeutic agents and can achieve site specific delivery of a therapeutic or diagnostic substance. This can allow for lower doses and for improved efficacy with drugs which traditionally reach targeted sites and can result in improved utility for agents such as oligonucleotides and polynucleotides which are plagued with problems with biodistribution.

Abstract: An ultrasonic imaging technique is disclosed which uses microbubbles as echo contrast agents. In general the method employs maitenance of an ultrasound signal while the contrast agent is intravenously injected into a mammal. Once all the contrast agent has been injected and transmission of the signal is suspended for a period of time sufficient for the microbubbles perfuse the organ of interest. Transmission of the ultrasound signal is then resumed and peak contrast images are obtained which rival more complicated imaging procedures such as nuclear resonance imaging.

Abstract: The foregoing invention relates to a new microbubble preparation and thrombolytic therapy which relies on microbubbles and ultrasound for its lytic activity. The pharmaceutical composition of the invention comprises a liquid solution of microbubbles with an internal atmosphere enhanced with the perfluorocarbon gas which cavitate in the presence of an ultrasound field following intravenous injection or infusion of said composition into said host. For thrombolysis the area of a thrombus is exposed to an ultrasound field in the presence of the microbubbles and significant lysis is experienced. The method and pharmaceutical composition of the invention exhibit thrombolytic properties similar to those of other thrombolytic agents such as urokinase and are less toxic and are clot specific in that they do not introduce a systemic lytic state to a said animal.

Abstract: This invention relates to a new and improved pharmaceutical composition and method for delivery of therapeutic or bioactive agents. The methods and composition of the invention can be used with several therapeutic or bioactive agents and can achieve site-specific delivery of a therapeutic or biologically-active substance. This can allow for lower doses and for improved efficacy with drugs, particularly agents such as oligonucleotides which are plagued with problems in achieving therapeutic levels at targeted sites.

Abstract: An ultrasonic imaging technique is disclosed which uses microbubbles as echo contrast agents. In general the method employs maitenance of an ultrasound signal while the contrast agent is intravenously injected into a mammal. Once all the contrast agent has been injected and transmission of the signal is suspended for a period of time sufficient for the microbubbles perfuse the organ of interest. Transmission of the ultrasound signal is then resumed and peak contrast images are obtained which rival more complicated imaging procedures such as nuclear resonance imaging.

Abstract: The invention relates to a new ultrasound contrast agent of the type which relies on microbubbles for echogenicity. The new contrast agent comprises microbubbles with an internal atmosphere enhanced with a perfluorobutane gas which is effective for visually detecting myocardial uptake upon echocardiogram following peripheral intravenous injection of said agent into a host. The contrast agent of this invention is unique in that it makes possible the non-invasive visual detection of myocardial uptake. In addition, the contrast agent of this invention makes feasible safe and consistent, non-invasive methods for visually assessing, qualitatively or quantitatively, not only myocardial perfusion, but renal and hepatic perfusion, and for detecting severity of coronary arterial stenosis.

Abstract: The invention relates to a new ultrasound contrast agent of the type which relies on microbubbles for echogenicity. The new contrast agent comprises microbubbles with an internal atmosphere enhanced with a perfluorocarbon gas which is effective for visually detecting myocardial uptake upon echocardiogram following peripheral intravenous injection of said agent into a host. The contrast agent of this invention is unique in that it makes possible the non-invasive visual detection of myocardial uptake. In addition, the contrast agent of this invention makes feasible safe and consistent, non-invasive methods for visually assessing, qualitatively or quantitatively, not only myocardial perfusion, but renal and hepatic perfusion, and for detecting severity of coronary arterial stenosis.

Abstract: An ultrasonic imaging technique is disclosed which uses microbubbles as echo contrast agents. In general the method employs maintenance of an ultrasound signal while the contrast agent is intravenously injected into a mammal. Once all the contrast agent has been injected and transmission of the signal is suspended for a period of time sufficient for the microbubbles perfuse the organ of interest. Transmission of the ultrasound signal is then resumed and peak contrast images are obtained which rival more complicated imaging procedures such as nuclear resonance imaging.

Abstract: The foregoing invention relates to a new microbubble preparation and thrombolytic therapy which relies on microbubbles and ultrasound for its lytic activity. The pharmaceutical composition of the invention comprises a liquid solution of microbubbles with an internal atmosphere enhanced with the perfluorocarbon gas which cavitate in the presence of an ultrasound field following intravenous injection or infusion of said composition into said host. For thrombolysis the area of a thrombus is exposed to an ultrasound field in the presence of the microbubbles and significant lysis is experienced. The method and pharmaceutical composition of the invention exhibit thrombolytic properties similar to those of other thrombolytic agents such as urokinase and are less toxic and are clot specific in that they do not introduce a systemic lytic state to a said animal.

Abstract: This invention provides a new ultrasound contrast agent which is safe and can reach the left side of the heart in adequate amounts to determine blood flow to the muscle of the heart. The contrast agent comprises a simple sonicated mixture of a protein the body normally makes (albumin) combined with a naturally occurring sugar (dextrose). This mixture upon sonication contains small bubbles (microbubbles) and can be used following an intravenous injection to study blood flow to the muscle of the heart (myocardium) without the need of invasive catheters or radiation. In another embodiment, there is provided an inexpensive test to study blood flow in the heart using echocardiography, thus avoiding the more expensive nuclear procedures that are presently employed to determine blood flow in the heart muscle, and eliminating the risk of radiation.