Abstract: A system is provided that includes a Q3D endoscope disposed to image a field of view and a processor that produces a Q3D model of a scene and identifies target instruments and structures. The processor is configured to display the scene from a virtual field of view of an instrument, to determine a no fly zone around targets, to determine a predicted path for said instruments or to provide 3D tracking of said instruments.

Abstract: A method comprises advancing a medical instrument and a catheter toward a target tissue within a patient anatomy. The instrument includes a distal sheath marker and is slidably received within the catheter. The distal sheath marker includes a channel and an identification feature. A portion of the instrument is slidably received within the channel. The method further comprises depositing the distal sheath marker at a location at or near the target. The distal sheath marker indicates a farthest advancement point of the instrument within the patient anatomy. The method further comprises: after depositing the distal sheath marker, withdrawing the instrument away from the target; determining an orientation of the distal sheath marker based on the identification feature; and, after withdrawing the instrument, using the location and orientation of the deposited distal sheath marker to determine a trajectory of a distal end of the instrument at or near the target.

Abstract: A system is provided to provide haptic feedback during a medical procedure comprising: a quantitative three-dimensional (Q3D) endoscope; a surgical instrument disposed to deform a tissue structure; a haptic user interface device configured to provide an indication of tissue structure deformation in response to information indicative of the measure of tissue structure deformation; and a processor configured to produce a Q3D model that includes information indicative of a measure of tissue structure deformation and to provide the information indicative of the measure of tissue structure deformation to the haptic user interface device.

Abstract: An anatomical probe system comprises an elongated flexible body and an operational component extending within a channel of the flexible body. The system also comprises a support member at a distal end of the elongated flexible body. The support member includes a fluid director adapted to direct a fluid from the channel toward the operational component. The fluid may be automatically directed towards the operational component in response to detecting a material obstruction of an image.

Abstract: A system is provided to provide haptic feedback during a medical procedure comprising: a quantitative three-dimensional (Q3D); a surgical instrument disposed to deform a tissue structure; a haptic user interface device configured to provide an indication of tissue structure deformation in response to information indicative of the measure of tissue structure deformation; and a processor configured to produce a Q3D model that includes information indicative of a measure of tissue structure deformation and to provide the information indicative of the measure of tissue structure deformation to the haptic user interface device.

Abstract: A system is provided that includes a Q3D endoscope disposed to image a field of view and a processor that produces a Q3D model of a scene and identifies target instruments and structures. The processor is configured to display the scene from a virtual field of view of an instrument, to determine a no fly zone around targets, to determine a predicted path for said instruments or to provide 3D tracking of said instruments.

Abstract: A method comprises advancing a surgical instrument toward a target tissue. The surgical instrument includes a marker that is deposited at a location at or near the target tissue. After depositing the marker, the surgical instrument is withdrawn away from the target tissue. After withdrawing the surgical instrument, the location of the deposited marker is used to determine a trajectory of a distal end of the surgical instrument at or near the target tissue.

Abstract: An anatomical probe system comprises an elongated flexible body and an operational component extending within a channel of the flexible body. The system also comprises a support member at a distal end of the elongated flexible body. The support member includes a fluid director adapted to direct a fluid from the channel toward the operational component. The fluid may be automatically directed towards the operational component in response to detecting a material obstruction of an image.

Abstract: Disclosed is a lens mechanism made of a flexible support with a lens positioned on the support. A sensor is positioned below the lens so that it senses photons passing through the lens. At least one actuator is positioned around the lens such that a change in an electric charge on the actuator causes the lens to move. In one embodiment, the lens moves along its optical axis. In another embodiment, the lens moves so that its optical axis tips from the original orientation. In yet another embodiment, the lens moves due to a change in electric charge on an electrostatic charge layer that is substantially coincident with the lens. Embodiments of the invention can provide a dynamic actuator mechanism for positioning a small lens.