Verifying the opacity of an inflatable membrane includes tests to measure the contribution of a background to the noise in the fluorescence signal as an inflatable membrane is stretched. For example, if the inflatable membrane fluoresces red and green light in response to illumination with visible blue light, the ratio of red to green fluoresced light is measured when the membrane is not stretched and then stretched while the membrane sits over a background that is half black and half red. When the change in the ratio of intensities of the two wavelengths of fluoresced light increases more for measurements taken over one portion of the background than the other, then the inflatable membrane is considered transparent to the wavelengths of fluoresced light, and if it increases a similar amount for measurements taken no matter which portion of the background the membrane covered, then the inflatable membrane is considered opaque.

An instrument includes a handle assembly, a shaft, a dilation catheter, and a position sensor. The shaft extends distally from the handle assembly. The shaft includes a distal end that is configured to be introduced into an anatomical passageway within a head of a human. The dilation catheter includes an expandable dilator and is configured to advance distally relative to the shaft. The position sensor is configured to generate signals indicating a position of the position sensor within the head. The position sensor is configured to advance distally between at least first and second positions. The position sensor is disposed adjacent the distal end of the shaft in the first position, and is configured to be carried further distally by the dilation catheter to the second position. In the second position, the position sensor is separated a distance from the distal end of the shaft.

A medical control device includes: a captured image acquisition unit configured to acquire a captured image generated by an image sensor capturing a subject image introduced by an endoscope; a luminance calculation unit configured to calculate a luminance level of the subject image included in the captured image; and a dimming controller configured to control a light amount of irradiation light onto a subject and an electronic shutter of the image sensor based on the luminance level, and execute first dimming control of narrowing the electronic shutter before reducing the light amount as the luminance level increases.

A medical control device includes: a captured image acquisition unit configured to acquire a captured image generated by an image sensor capturing a subject image introduced by an endoscope; a luminance calculation unit configured to calculate a luminance level of the subject image included in the captured image; and a dimming controller configured to control a light amount of irradiation light onto a subject and an electronic shutter of the image sensor based on the luminance level, and execute first dimming control of narrowing the electronic shutter before reducing the light amount as the luminance level increases.

A speculum having an elongated portion with two hinged jaws. In a first mode, the jaws are positioned adjacent each other and in a second mode, the jaws are spaced apart. The speculum is designed such that another identical speculum can be stacked on the original speculum.

A speculum having an elongated portion with two hinged jaws. In a first mode, the jaws are positioned adjacent each other and in a second mode, the jaws are spaced apart. The speculum is designed such that another identical speculum can be stacked on the original speculum.

A diagnostic tool, such as an otoscope or other hand-held diagnostic device features a handle, a head portion and a circuit. The handle includes a controller and the head portion includes one or more optical spectroscopy (OS) components including at least one light detection element. The circuit includes one or more portions configured to be contorted at acute through reflex angles while maintaining electrical connectivity between the controller and the one or more OS components. The circuit includes a first contact area for the at least one light detection element.

A diagnostic tool, such as an otoscope or other hand-held diagnostic device features a handle, a head portion and a circuit. The handle includes a controller and the head portion includes one or more optical spectroscopy (OS) components including at least one light detection element. The circuit includes one or more portions configured to be contorted at acute through reflex angles while maintaining electrical connectivity between the controller and the one or more OS components. The circuit includes a first contact area for the at least one light detection element.

A device for visualizing and providing suction for a surgical procedure in an ear may include a handle, a main shaft extending from the handle, an imaging sensor at a distal end of the main shaft, a light source at the distal end of the main shaft, and a suction shaft extending from the handle. The device may also include a spring coupled with the suction shaft and/or the handle, such that when the suction shaft is advanced in a distal direction and then released, the suction shaft retracts automatically. The suction shaft may have a distal curved portion, and the device may have a thumb depress portion that allows a user to spin the suction shaft to suction in different directions. Some embodiments may include a suction shaft with a sharp distal tip that is configured for placing an ear tube in the tympanic membrane.

A device for visualizing and providing suction for a surgical procedure in an ear may include a handle, a main shaft extending from the handle, an imaging sensor at a distal end of the main shaft, a light source at the distal end of the main shaft, and a suction shaft extending from the handle. The device may also include a spring coupled with the suction shaft and/or the handle, such that when the suction shaft is advanced in a distal direction and then released, the suction shaft retracts automatically. The suction shaft may have a distal curved portion, and the device may have a thumb depress portion that allows a user to spin the suction shaft to suction in different directions. Some embodiments may include a suction shaft with a sharp distal tip that is configured for placing an ear tube in the tympanic membrane.