Magnetic resonance surgery using heat waves produced with a laser fiber

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).