Multimodal catheter system and method for intravascular analysis

1. An intravascular catheter system comprising:

• a catheter comprising;
  
  at least one optical fiber configured to transmit optical radiation between distal and proximal ends thereof,an optical bench disposed at the distal end of said optical fiber and configured to direct light transmitted from said optical fiber to an arterial wall and to direct light scattered or reflected by the arterial wall into said optical fiber; and
  
  an ultrasound transducer configured to transmit ultrasound energy toward the arterial wall, receive ultrasound energy reflected from the arterial wall, and convert the received ultrasound energy to an electric signala pull back and rotation system operatively coupled to said catheter and configured to impart rotational movement of said catheter about a longitudinal axis of said catheter and axial movement of said catheter along the longitudinal axis of said catheter;
  
  a slip ring/ fiber optic rotary joint (FORJ) assembly including a rotating portion coupled to said catheter and a non-rotating portion and configured to couple electrical signals and optical signals between said rotating and non-rotating portions thereof;
  
  at least one non-rotating source of optical radiation optically coupled to a portion of said optical fiber through said slip ring/FORJ assembly and configured to generate optical radiation to be transmitted by said optical fiber to the arterial wall through said optical bench;
  
  an optical detector disposed on the rotating portion of said slip ring/FORJ assembly and optically coupled to said optical fiber and configured to receive optical radiation transmitted by said optical fiber from the arterial wall and convert the received optical signals to electrical signals that are transmitted over said slip ring/FORJ assembly to a computer to provide spectroscopic data about the arterial wall;
  
  an ultrasound transceiver coupled to said ultrasound transducer and including drive electronics for driving said ultrasound transducer and configured to receive response signals from said ultrasound transducer and convert the received response signals to electronic signals that are transmitted to a computer to provide ultrasound image data for the arterial wall;
  
  a non-rotating interferometer optically coupled to said optical fiber via said slip ring/FORJ assembly and configured to receive optical radiation transmitted by said optical fiber from the arterial wall and to provide an interference signal for sub-surface image data for the arterial wall; and
  
  a user interface configured to present one or more representations of the morphological and chemical structure of the arterial walls based on the spectroscopic data from said optical detector, the ultrasound image data from said ultrasound transceiver, and sub-surface image data from said interferometer.