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.

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 fluid dispensing catheter includes an inner member defining a first passage and an outer member defining a second passage. The inner member is disposed within the second passage. The fluid dispensing catheter also includes a plug having a proximal section positioned within the first passage and a distal section extending distally from the proximal section. The distal section is positioned outside of the first passage and within the second passage.

A single-use or reusable cap or an objective head to a scope can be used for integrating a laser fiber within the objective head but outside a working channel of the scope. The endoscope maintains an attached or embedded permanent laser fiber to ablate particulates that are suctioned into the endoscope assembly via a suction conduit. With such integration, there is no need to manipulate the laser fiber into a working channel; rather, a practitioner, e.g., physician, can move the medical device, including the laser fiber, as an entire unit into the patient toward the target stone and allow for suction of the stone through a working channel without blocking of the working channel by the laser fiber.

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.

Endoscope apparatus includes: a tube unit coupled to a rotary shaft to which a rotational force is transmitted so as to be rotatable, the tube unit being formed to extend in one direction; steering unit having one end installed at one end of the tube unit to rotate with respect to the tube unit so that a direction thereof facing forward is adjusted, the steering unit rotating together with the tube unit by the rotational force transmitted from the tube unit; an end effector installed inside the steering unit to rotate together with the steering unit due to the rotation of the steering unit, the end effector being disposed to face forward; and shaft-fixing tube body installed at the end effector, wherein the direction of the steering unit facing forward and relative rotation of the steering unit with respect to the end effector are adjustable.

An insertion apparatus includes: a tube in which a water feeding communication hole opens on an outer peripheral surface of the tube; a tube connector in which a water feeding branch conduit which allows an inner surface of a tube insertion hole to communicate with an outside is formed, and a second stopper portion which protrudes toward the inside of the tube insertion hole is formed; an O ring which is positioned by contacting with the second stopper portion; a spacer which is positioned by contacting with the O ring, and in which a communication hole which allows an inner surface side and an outer surface side of a wall portion to communicate with each other is formed; and an O ring which is positioned by contacting with the spacer.

There are provided an endoscope and a treatment tool elevating mechanism capable of achieving improvement in accessibility of a cleaning brush, prevention of wear of a distal-end-portion main body, and prevention of slipping of a treatment tool into the lower side of an operating wire. When viewed in a second direction perpendicular to both the longitudinal axis of the distal-end-portion main body and a first direction perpendicular to the longitudinal axis, a wire distal end portion of the operating wire connected to a wire connection portion of a treatment tool elevator is positioned on the other direction side with respect to an elevator main body portion of the treatment tool elevator. A second wall portion of an elevator-housing-space forming member has a first wall surface at least a portion of which has a shape along the trajectory of the wire connection portion that rotates about a rotary shaft, and a second wall surface provided at a position on one direction side of the first direction with respect to the first wall surface and having a shape extending along the trajectory of the elevator main body portion that rotates about the rotary shaft. When viewed in the second direction, the second wall surface overlaps at least a portion of the wire distal end portion in the first direction.

A face mask (90) comprises an instrument shielding apparatus (91) which comprises an instrument shielding device (92) which is connected to the face mask (90) by an adapter (89). The adapter (89) comprises an instrument accommodating housing (15) through which an instrument bore (25) extends therethrough. The instrument accommodating housing (15) terminates at one end in a first main port (20) engageable with an instrument port (7) of the face mask (90), and in the other end in a second main port (23). The instrument shielding device (92) comprises a shielding sleeve (95) a first end (96) of which is secured by a coupling ring (98) to the second main port (23) of the adapter (89), and a second end (97) of which is secured in a storage chamber (94) of a sleeve storing housing (93) of the instrument shielding device (92). The sleeve storing housing (93) is sealably engageable with a proximal end (58) of an endoscope (10), and the shielding sleeve extends from a collapsed stored state in the storage chamber (94) to the adapter (89) for shielding the endoscope (10).

A forceps valve is provided at a forceps port of the endoscope. An endoscope forceps valve cover includes a cover body, a drape, and a fluid suppression member. The cover body is mounted on the forceps valve. The drape is provided integrally with the cover body and covers at least a part of a user who operates the endoscope. The fluid suppression member suppresses leakage of a fluid from the forceps valve to an outside of the endoscope in a case where the cover body is mounted on the forceps valve.