Ultrasonic volume flow measurement for ablation therapy

What is claimed is: 1. A method for using ultrasonic information for ablation treatment of pathology comprising: receiving, at a processor of an ultrasonic imaging system, a treatment planning image of pathology to be treated by ablation and a plurality of blood vessels, the plurality of blood vessels comprising one or more blood vessels supplying blood flow to the pathology and one or more blood vessels carrying away blood flow from the pathology; controlling, by the processor, an ultrasound probe in communication with the ultrasonic imaging system to obtain an ultrasound image representative of the plurality of blood vessels; identifying, by the processor, the pathology to be treated by ablation in the ultrasound image; identifying, by the processor, the plurality of blood vessels in the ultrasound image, wherein the identifying includes placing a surface shape at a region of interest in the ultrasound image, the surface shape intersecting the plurality of blood vessels in the ultrasound image; receiving, at the processor, three dimensional ultrasound Doppler data acquired by the ultrasound probe and representative of the blood flow of the plurality of blood vessels intersecting the surface shape; calculating, by the processor, an amount of blood flowing through the plurality of blood vessels using the ultrasound Doppler data; and determining a heat transport characteristic of the amount of blood flowing through the plurality of blood vessels such that a parameter of an ablation device for treating the pathology is controlled based on at least the heat transport characteristic, wherein the determining is based on untreated blood flow into the pathology and thermally treated blood flow away from the pathology, wherein the placing the surface shape is performed automatically using knowledge of a location of the blood vessels obtained by registration of the ultrasound image with the treatment planning image. 2. The method of claim 1 , wherein receiving three dimensional ultrasound Doppler data further comprises acquiring three dimensional ultrasound Doppler velocity data from the blood flow of an identified vessel. 3. The method of claim 2 , wherein calculating the amount of blood flowing through an identified blood vessel further comprises delineating a surface through the blood flow of a vessel and integrating flow velocity data over an area of the surface. 4. The method of claim 1 , wherein identifying the plurality of blood vessels further comprises identifying the plurality of blood vessels in a three dimensional ultrasound image. 5. The method of claim 1 , wherein identifying the plurality of blood vessels further comprises identifying the plurality of blood vessels in two dimensional biplane ultrasound images. 6. The method of claim 1 , wherein receiving the treatment planning image further comprises acquiring a CT image of pathology and a structure of the plurality of blood vessels; wherein placing the surface shape automatically comprises anatomically registering an ultrasound reference image with the CT image. 7. The method of claim 1 , wherein placing the surface shape comprises placing a three dimensional shape at the region of interest in the ultrasound image such that the three dimensional shape intersects with the plurality of blood vessels in the ultrasound image. 8. The method of claim 1 , wherein placing the surface shape comprises placing a two dimensional shape at the region of interest in the ultrasound image such that the two dimensional shape intersects with the plurality of blood vessels in the ultrasound image. 9. The method of claim 1 , further comprising developing an ablation treatment plan based on the heat transport characteristic, volume blood flow of a vessel of the plurality of blood vessels, and a proximity of the vessel of the plurality of blood vessels to the identified pathology. 10. A system for using ultrasonic information for ablation treatment of pathology, the system comprising: an ultrasound probe; and a processor in communication with the ultrasound probe and an ablation device, the processor operable to: control the ultrasound probe to obtain an ultrasound image representative of a plurality of blood vessels, the plurality of blood vessels comprising one or more blood vessels supplying blood flow to the pathology and one or more blood vessels carrying away blood flow from the pathology; identify a pathology to be treated by ablation in the ultrasound image; identify the plurality of blood vessels in the ultrasound image, wherein the identifying includes placing a surface shape at a region of interest in the ultrasound image, the surface shape intersecting the plurality of blood vessels in the ultrasound image; receive three dimensional ultrasound Doppler data acquired by the ultrasound probe and representative of the blood flow of the plurality of blood vessels intersecting the surface shape; calculate an amount of blood flowing through the plurality of blood vessels using the ultrasound Doppler data; and use a heat transport characteristic of the amount of blood flowing through the plurality of blood vessels to control a graphical display of a treatment region of the ablation device and to control a parameter of the ablation device for treating the pathology, wherein the heat transport characteristic is based on untreated blood flow into the pathology and thermally treated blood flow away from the pathology. 11. The system of claim 10 , wherein the processor is configured to identify pathology to be treated by ablation in a non-ultrasound diagnostic image, and anatomically register the non-ultrasound diagnostic image with an ultrasound image. 12. The system of claim 10 , wherein the ablation treatment further comprises r.f ablation, microwave ablation, HIFU, or cryo-ablation therapy.