A surgical incision drape, comprises a flexible substantially flat areal substrate having an upper side and an opposing tissue-facing side, having a longitudinal axis and a pressure sensitive adhesive disposed on the tissue-facing side; at least one hollow microtubular compartment containing a flowable medical agent, said hollow microtubular compartment positioned to intersect the longitudinal axis and embedded into the substrate or positioned on the substrate.

A surgical incision drape, comprises a flexible substantially flat areal substrate having an upper side and an opposing tissue-facing side, having a longitudinal axis and a pressure sensitive adhesive disposed on the tissue-facing side; at least one hollow microtubular compartment containing a flowable medical agent, said hollow microtubular compartment positioned to intersect the longitudinal axis and embedded into the substrate or positioned on the substrate.

A surgical incision drape, comprises a flexible substantially flat areal substrate having an upper side and an opposing tissue-facing side, having a longitudinal axis and a pressure sensitive adhesive disposed on the tissue-facing side; at least one hollow microtubular compartment containing a flowable medical agent, said hollow microtubular compartment positioned to intersect the longitudinal axis and embedded into the substrate or positioned on the substrate.

A surgical incision drape, comprises a flexible substantially flat areal substrate having an upper side and an opposing tissue-facing side, having a longitudinal axis and a pressure sensitive adhesive disposed on the tissue-facing side; at least one hollow microtubular compartment containing a flowable medical agent, said hollow microtubular compartment positioned to intersect the longitudinal axis and embedded into the substrate or positioned on the substrate.

A robotic surgical assembly includes a slave manipulator with an actuator, a pushing device connected to the actuator, a sensor detecting a contact force on the pushing device, a position sensing system, and a control unit. A surgical instrument is detachable to the slave manipulator and separated from the slave manipulator by a sterile barrier. The surgical instrument includes a frame; an articulated link; a tendon associated with the actuator, having proximal and distal portions secured to the link. A transmission device in contact with the tendon proximal portion exerts a traction action. The transmission device has one degree of freedom of motion relative to the frame. The pushing device releasably and selectively connects with the transmission device to transmit a pushing action to the transmission device through the sterile barrier. An elastic device biases the transmission device to exert a traction action on the tendon.

A robotic surgical assembly includes a slave manipulator with an actuator, a pushing device connected to the actuator, a sensor detecting a contact force on the pushing device, a position sensing system, and a control unit. A surgical instrument is detachable to the slave manipulator and separated from the slave manipulator by a sterile barrier. The surgical instrument includes a frame; an articulated link; a tendon associated with the actuator, having proximal and distal portions secured to the link. A transmission device in contact with the tendon proximal portion exerts a traction action. The transmission device has one degree of freedom of motion relative to the frame. The pushing device releasably and selectively connects with the transmission device to transmit a pushing action to the transmission device through the sterile barrier. An elastic device biases the transmission device to exert a traction action on the tendon.

A cover for a probe 12, such as an ultrasonic probe, the cover comprising a flexible elongate pouch 1 and a mouth portion 2 for inserting the probe 12 into the pouch, the mouth portion 2 comprising sealing means to enable the mouth portion to be formed into sealing engagement with a proximal end 11 of the probe. Also, a method of preventing a decontaminated ultrasonic probe from contamination comprising the step of, immediately after disinfection, inserting the ultrasonic probe 12 into a cover comprising a flexible elongate pouch 1 and a mouth portion 2 for inserting the probe 12 into to pouch, the mouth portion 2 comprising a deformably rigid portion 3, and deforming the mouth portion 2 into a sealing engagement with a proximal end 11 of the probe, wherein no undisinfected portion of the probe 12 enters the pouch 1.

A cover for a probe 12, such as an ultrasonic probe, the cover comprising a flexible elongate pouch 1 and a mouth portion 2 for inserting the probe 12 into the pouch, the mouth portion 2 comprising sealing means to enable the mouth portion to be formed into sealing engagement with a proximal end 11 of the probe. Also, a method of preventing a decontaminated ultrasonic probe from contamination comprising the step of, immediately after disinfection, inserting the ultrasonic probe 12 into a cover comprising a flexible elongate pouch 1 and a mouth portion 2 for inserting the probe 12 into to pouch, the mouth portion 2 comprising a deformably rigid portion 3, and deforming the mouth portion 2 into a sealing engagement with a proximal end 11 of the probe, wherein no undisinfected portion of the probe 12 enters the pouch 1.

A medical robotic work station includes a frame and a robotic manipulator mounted on the frame for performing a treatment procedure on a patient seated in a chair adjacent the frame. The patient is in a seating posture and support locations are provided on the frame for resting bony members of the patient. Sensors track movement and position of the body members of the patient during performance of the treatment procedure by the robotic manipulator. The robotic manipulator is adapted to perform at least one of a medical, a dental, an ophthalmic and an orthopedic treatment procedure. A physician sits at a display monitor of a physician's work station for programming, monitoring and verifying a robot program for controlling the robotic manipulator to perform the treatment procedure.

A medical robotic work station includes a frame and a robotic manipulator mounted on the frame for performing a treatment procedure on a patient seated in a chair adjacent the frame. The patient is in a seating posture and support locations are provided on the frame for resting bony members of the patient. Sensors track movement and position of the body members of the patient during performance of the treatment procedure by the robotic manipulator. The robotic manipulator is adapted to perform at least one of a medical, a dental, an ophthalmic and an orthopedic treatment procedure. A physician sits at a display monitor of a physician's work station for programming, monitoring and verifying a robot program for controlling the robotic manipulator to perform the treatment procedure.