Abstract: An embodiment of the invention provides a method to measure fluid within a body cavity where data is received with an interface (210), the data being received from an ultrasound transducer. A three-dimensional sonographic image is generated with an image generator (220) connected to the interface (210), the three-dimensional sonographic image being generated from the data from the ultrasound transducer. The body cavity is identified in the three-dimensional sonographic image with an image processor (230) connected to the image generator (220); and, an area of fluid in the body cavity in the three-dimensional sonographic image is identified with the image processor (230). The volume of the area of fluid is calculated using the three-dimensional sonographic image and a stacked crescents process, a spherical fill process, a convex hull process, and/or a triangulation process.

Abstract: An embodiment of the invention provides a method to measure fluid within a body cavity where data is received with an interface 210, the data being received from an ultrasound transducer. A three-dimensional sonographic image is generated with an image generator 220 connected to the interface 210, the three-dimensional sonographic image being generated from the data received from the ultrasound transducer. The body cavity is identified in the three-dimensional sonographic image with an image processor 230 connected to the image generator 220; and, an area of fluid in the body cavity in the three-dimensional sonographic image is identified with the image processor 230. The volume of the area of fluid is calculated using the three-dimensional sonographic image and a stacked crescents process, a spherical fill process, a convex hull process, and/or a triangulation process.

Abstract: An embodiment of the invention provides a method including obtaining ultrasonic images of one or more vessel to be catheterized with an ultrasonic imaging device 212 and identifying the center(s) of the vessel(s) with the ultrasonic images. One of the vessels is punctured with a needle 220 based on the identifying of the center of the vessel. A guide wire 230 is inserted into the vessel and maneuvered with guide wire ultrasonic feedback control. The guide wire ultrasonic feedback control includes obtaining ultrasonic images of the vessel and the guide wire 230 in the vessel, and displaying the ultrasonic images of the vessel and the guide wire 230 in the vessel to a user. A catheter sheath 240 is inserted over the guide wire 230 and maneuvered with sheath ultrasonic feedback control. The guide wire 230 is removed and a catheter 250 is inserted into the catheter sheath 240 and maneuvered with catheter ultrasonic feedback control.

Abstract: An embodiment of the invention provides a method to measure fluid within a body cavity where data is received with an interface (210), the data being received from an ultrasound transducer. A three-dimensional sonographic image is generated with an image generator (220) connected to the interface (210), the three-dimensional sonographic image being generated from the data from the ultrasound transducer. The body cavity is identified in the three-dimensional sonographic image with an image processor (230) connected to the image generator (220); and, an area of fluid in the body cavity in the three-dimensional sonographic image is identified with the image processor (230). The volume of the area of fluid is calculated using the three-dimensional sonographic image and a stacked crescents process, a spherical fill process, a convex hull process, and/or a triangulation process.

Abstract: An embodiment of the invention provides a method including obtaining ultrasonic images of one or more vessel to be catheterized with an ultrasonic imaging device 212 and identifying the center(s) of the vessel(s) with the ultrasonic images. One of the vessels is punctured with a needle 220 based on the identifying of the center of the vessel. A guide wire 230 is inserted into the vessel and maneuvered with guide wire ultra-sonic feedback control. The guide wire ultra-sonic feedback control includes obtaining ultrasonic images of the vessel and the guide wire 230 in the vessel, and displaying the ultrasonic images of the vessel and the guide wire 230 in the vessel to a user. A catheter sheath 240 is inserted over the guide wire 230 and maneuvered with sheath ultrasonic feedback control. The guide wire 230 is removed and a catheter 250 is inserted into the catheter sheath 240 and maneuvered with catheter ultrasonic feedback control.