Abstract: A method is provided for site specific delivering therapeutic or diagnostic agents to a region in a fluid-filled cavity, vessel or tissue using an agent-loaded microbubble population. The population has controlled fragility characterized by a uniform wall thickness to diameter ratio which defines the discrete threshold intensity value of ultrasonic power where microbubble rupture occurs in the population. The location of the microbubble population may be monitored by ultrasound to determine its presence at the region prior to application of the ultrasonic power to rupture to microbubbles.

Abstract: A method is provided for site specific delivering therapeutic or diagnostic agents to a region in a fluid-filled cavity, vessel or tissue using an agent-loaded microbubble population. The population has controlled fragility characterized by a uniform wall thickness to diameter ratio which defines the discrete threshold intensity value of ultrasonic power where microbubble rupture occurs in the population. The location of the microbubble population may be monitored by ultrasound to determine its presence at the region prior to application of the ultrasonic power to rupture to microbubbles.

Abstract: A composition for ultrasonic imaging is described having a microbubble population of controlled fragility. The microbubbles comprise an outer shell and a hollow core. The ratio of shell thickness to microbubble diameter is substantially similar across the population of microbubbles. A method of using such composition for imaging a fluid filled cavity, vessel or tissue is described.

Abstract: A composition for ultrasonic imaging is described having a microparticle population of controlled fragility. A method of using such composition for imaging a fluid filled cavity, vessel or tissue is described.

Abstract: A method is provided for site specific delivering therapeutic or diagnostic agents to a region in a fluid-filled cavity, vessel or tissue using an agent-loaded microbubble population. The population has controlled fragility characterized by a uniform wall thickness to diameter ratio which defines the discrete threshold intensity value of ultrasonic power where microbubble rupture occurs in the population. The location of the microbubble population may be monitored by ultrasound to determine its presence at the region prior to application of the ultrasonic power to rupture to microbubbles.

Abstract: A method is provided for measuring real time ambient pressure at a region of interest in a fluid-filled body cavity by introducing into the cavity a composition of gas-containing microbubbles having a predetermined fragility threshold correlating to the rupture response of their capsules to the ambient fluid pressure and/or applied acoustic pressure. An ultrasonic signal is applied at the region of interest at a power level sufficient to destroy the microbubble population having a fragility threshold below the applied power level. The ultrasound backscatter response is detected from the population of intact and disintegrating microbubbles remaining at the region of interest and this backscatter signal is correlated to predetermined acoustic response properties to determine the ambient pressure at the region of interest.

Abstract: A method is provided for measuring real time ambient pressure at a region of interest in a fluid-filled body cavity by introducing into the cavity a composition of gas-containing microbubbles having a predetermined fragility threshold correlating to the rupture response of their capsules to the ambient fluid pressure and/or applied acoustic pressure. An ultrasonic signal is applied at the region of interest at a power level sufficient to destroy the microbubble population having a fragility threshold below the applied power level. The ultrasound backscatter response is detected from the population of intact and disintegrating microbubbles remaining at the region of interest and this backscatter signal is correlated to predetermined acoustic response properties to determine the ambient pressure at the region of interest.

Abstract: A sculpting medium is provided comprising a filler of polymeric microspheres and optionally, a fibrous filler, a thixotropic hydrogel binder and water, all blended in a proportion such that the color of the medium is due primarily to the color(s) of the polymeric medium.

Abstract: A syntactic foam product having a desired configuration is set forth. The product comprises a plurality of rigid gas filled bubbles arranged in the desired configuration. The bubbles are defined by respective individual and discrete substantially spherical shells preferably formed of a biodegradable shell material. The shells abut one another. They define open spaces where they are not abutting. Attaching material attaches the abutting shells to one another. The open spaces between the shells are not filled by the attaching material. The attaching material is environmentally degradable. It releases the bubbles under ambient conditions after a selected time interval. The shells are in contact with their surroundings and can relatively rapidly biodegrade.

Abstract: Solar heat exchange panel manufactured by a high speed rotogravure or heat sealing process wherein two elongated sheets of flexible plastic film are laminated together along lines defining inlet and outlet manifolds and a plurality of flow passages. The manifolds extend substantially the entire length of the sheets, and the flow passageways are arranged in groups to form individual heat exchanger sections which are served by the manifold. Mounting loops are provided along the lateral edges of the panel and adapted for receiving elongated rods by which the panel can be tethered or secured to another such panel.