Magnetic resonance surgery using heat waves produced with a laser fiber
First Claim
1. A magnetic resonance (MR) surgery system that comprises:
- a) an invasive device having a tip adapted for being inserted into a patient, the invasive device capable of transmitting optical energy at an application point proximate to the tip;
b) an optical source for applying heat waves by pulsing optical energy through the tip of the invasive device at a frequency f and amplitude Q at the application point to create a heated region having a temperature distribution T(r,t) around the application point described by;
space="preserve" listing-type="equation">T(r,t)=Q/ρ
c Exp[-kr]cos(2π
ft-kr)/r [4]where Q is the amplitude of heat provided;
r is the radius from the center of the heated region;
t is time;
ρ
is density of the heated region;
c is specific heat of the heated region; and
k=Sqrt (ω
/2D), where D is the thermal diffusity of the tissue in the heated region;
c) MR compatible positioning means, connected to the invasive device, for positioning the tip of the invasive device such that the application point is positioned to cause a selected tissue within the patient to have the desired temperature distribution T(r,t);
d) an MR imaging means adapted for creating fast scan MR images of the temperature distribution T(r,t) around the application point during surgery using a temperature sensitive pulse sequence; and
e) display means, coupled to the MR imaging means, for interactively displaying the temperature sensitive images to an operator to allow the operator to control the temperature distribution T(r,t).
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Accused Products
Abstract
Surgery is performed with pulsed heat means that selectively destroys tissue in a region within a patient. The size of the region destroyed is dependent upon the frequency of the pulses of the pulsed heat means and thermal conductivity of the tissue of the patient. The pulsed heat means can be a coherent optical source that is guided by laser fiber to the tissue to be destroyed. In another embodiment the pulsed heat means is a focussed ultrasound transducer that dissipates ultrasonic energy at a focal point within the region of tissue to be destroyed. A magnetic resonance imaging system employing a temperature sensitive pulse sequence creates an image of the tissue and the region being heated to allow a surgeon to alter the position of the pulsed heat means or vary the pulse frequency.
181 Citations
3 Claims
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1. A magnetic resonance (MR) surgery system that comprises:
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a) an invasive device having a tip adapted for being inserted into a patient, the invasive device capable of transmitting optical energy at an application point proximate to the tip; b) an optical source for applying heat waves by pulsing optical energy through the tip of the invasive device at a frequency f and amplitude Q at the application point to create a heated region having a temperature distribution T(r,t) around the application point described by;
space="preserve" listing-type="equation">T(r,t)=Q/ρ
c Exp[-kr]cos(2π
ft-kr)/r [4]where Q is the amplitude of heat provided; r is the radius from the center of the heated region; t is time; ρ
is density of the heated region;c is specific heat of the heated region; and k=Sqrt (ω
/2D), where D is the thermal diffusity of the tissue in the heated region;c) MR compatible positioning means, connected to the invasive device, for positioning the tip of the invasive device such that the application point is positioned to cause a selected tissue within the patient to have the desired temperature distribution T(r,t); d) an MR imaging means adapted for creating fast scan MR images of the temperature distribution T(r,t) around the application point during surgery using a temperature sensitive pulse sequence; and e) display means, coupled to the MR imaging means, for interactively displaying the temperature sensitive images to an operator to allow the operator to control the temperature distribution T(r,t). - View Dependent Claims (2)
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3. A method of performing heat surgery on a patient, as guided by a magnetic resonance (MR) imaging apparatus capable of producing temperature sensitive MR images, comprising the steps of;
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a) determining a position of a selected tissue to be destroyed in said patient with said MR imaging apparatus, b) positioning a tip of an optical fiber at an application point near the selected tissue within said patient; c) determining a desired temperature distribution T(r,t); d) pulsing optical energy at a frequency f and amplitude Q in order to create a heated region having the desired temperature distribution around the application point, such that;
space="preserve" listing-type="equation">T(r,t)=Q/ρ
c Exp[-kr]cos(2π
ft-kr)/r [4]where Q is the amplitude of heat provided; r is the radius from the center of the heated region; t is time; ρ
is density of the heated region;c is specific heat of the heated region; and k=Sqrt (ω
/2D), where D is the thermal diffusity of the tissue in the heated region;e) monitoring the temperature distribution T(r,t) with said MR imaging apparatus; and f) adjusting the frequency f, the amplitude Q and the location of the application point.
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Specification