Device for inspecting a cavity of a patient comprising a retractor body, extending along a longitudinal axis between a distal end and a proximal end, and a handle applied or fixed to the proximal end of the retractor body.

The retractor body has a distal portion having a substantially tubular shape and a proximal portion extending from the distal portion in a diverging fashion. The distal portion defines a retraction zone of an internal cavity of a patient and internally delimits an internal volume accessible from a rear access opening made on the proximal portion, wherein said distal portion of the retractor body has at least one front and/or lateral opening to allow access to the mucosa or tissue of the patient from said internal volume. The device further comprises at least one support seat arranged in the proximal region of the retractor body and configured to supportingly receive a front surface of a laser head, said at least one support seat being arranged in a radially external position with respect to an external profile of the proximal portion.

Device for inspecting a cavity of a patient comprising a retractor body, extending along a longitudinal axis between a distal end and a proximal end, and a handle applied or fixed to the proximal end of the retractor body, and an adapter body.

The retractor body has a distal portion having a substantially tubular shape and a proximal portion extending from the distal portion in a diverging fashion, wherein the distal portion defines a retraction zone of an internal cavity of a patient and internally delimits an internal volume accessible from a rear access opening made on the proximal portion, wherein said distal portion of the retractor body has at least one front and/or lateral opening to allow access to the mucosa or tissue of the patient from said internal volume. Said adapter body being removably applicable, in use, to said retractor body and in particular to said proximal portion.

The device further comprises at least one support seat arranged on the retractor body and configured to supportingly receive a front surface of a laser head.

Device for inspecting a cavity of a patient comprising a retractor body, extending along a longitudinal axis between a distal end and a proximal end, and a handle applied or fixed to the proximal end of the retractor body.

The retractor body has a distal portion having a substantially tubular shape and a proximal portion extending from the distal portion in a diverging fashion, wherein the distal portion defines a retraction zone of an internal cavity of a patient and internally delimits an internal volume accessible from a rear access opening made on the proximal portion, wherein said distal portion of the retractor body has at least one front and/or lateral opening to allow access to the mucosa or tissue of the patient from said internal volume.

The device further comprises at least one support seat arranged on the retractor body and configured to receive in support a front surface of a laser head and wherein said support housing is defined by a stop wall in the form of a spherical dome having a central opening, said stop wall being configured to accommodate with spherical mobility said front surface of the laser head.

A system includes a uterine manipulator having a shaft. The uterine manipulator is coupled with the robotic arm. An imaging instrument is operable to provide an image of an exterior of the uterus of the patient. A console includes a display screen and is configured to provide a view from the imaging instrument of the exterior of the uterus of the patient, on the display screen. The console is further configured to provide an indicator on the view from the imaging instrument, on the display screen, the indicator indicating a location of a predefined anatomical structure, the indicator being provided as an overlay on the predefined anatomical structure.

A system includes a uterine manipulator having a shaft. The uterine manipulator is coupled with the robotic arm. An imaging instrument is operable to provide an image of an exterior of the uterus of the patient. A console includes a display screen and is configured to provide a view from the imaging instrument of the exterior of the uterus of the patient, on the display screen. The console is further configured to provide an indicator on the view from the imaging instrument, on the display screen, the indicator indicating a location of a predefined anatomical structure, the indicator being provided as an overlay on the predefined anatomical structure.

The present invention features a method for automated image-based prediction of physiologic and pathologic conditions of a vaginal wall of a patient using optical coherence tomography. In some embodiments, the method may comprise capturing, by a functional optical coherence tomography imaging probe, one or more images of the vaginal wall. The method may further comprise constructing a computing device a visualization of the vaginal wall, discretizing the visualization of the vaginal wall in to a discrete model, measuring a plurality of objective attributes from the discrete model, generating, based on the plurality of objective attributes, a Vaginal Health Index (VHI), generating an associated risk value based on the VHI and a plurality of patient attributes, reconstructing the visualization of the vaginal wall based on the associated risk value, and mapping the associated risk value to the visualization of the vaginal wall such that one or more at-risk areas are highlighted.

The present invention features a method for automated image-based prediction of physiologic and pathologic conditions of a vaginal wall of a patient using optical coherence tomography. In some embodiments, the method may comprise capturing, by a functional optical coherence tomography imaging probe, one or more images of the vaginal wall. The method may further comprise constructing a computing device a visualization of the vaginal wall, discretizing the visualization of the vaginal wall in to a discrete model, measuring a plurality of objective attributes from the discrete model, generating, based on the plurality of objective attributes, a Vaginal Health Index (VHI), generating an associated risk value based on the VHI and a plurality of patient attributes, reconstructing the visualization of the vaginal wall based on the associated risk value, and mapping the associated risk value to the visualization of the vaginal wall such that one or more at-risk areas are highlighted.

The present invention provides medical devices comprising at least one visualization device sealed to, attached to or otherwise combined with at least one of the following second devices: an oral airway, ventilating mask, urinary catheter, trocar, a tool tube, and a medical glove. The present invention also provides methods for rapid and accurate placement of a medical device in a patient and continuous real time monitoring, including a remote monitoring, of the patient after the placement.

The present invention provides medical devices comprising at least one visualization device sealed to, attached to or otherwise combined with at least one of the following second devices: an oral airway, ventilating mask, urinary catheter, trocar, a tool tube, and a medical glove. The present invention also provides methods for rapid and accurate placement of a medical device in a patient and continuous real time monitoring, including a remote monitoring, of the patient after the placement.

A system includes an endoscope configured for insertion into an internal body cavity and a fluid management system. The fluid management system includes a pump configured to pump fluid through the endoscope into the internal body cavity and a controller configured to determine a pressure within the internal body cavity based upon a current feedback signal received from the pump. A method includes supplying a drive signal to a pump to pump fluid into an internal body cavity, receiving a current feedback signal from the pump, and determining a pressure within the internal body cavity based on the current feedback signal.