Systems and methods for credit-based usage of surgical instruments include one or more surgical instruments having associated therewith a usage amount, a pre-determined maximum usage amount, and an available usage credit amount that is less than the pre-determined maximum usage amount. The systems implement and the methods include comparing the usage amount to the pre-determined maximum usage amount and inhibiting further use of the at least one reusable component when the usage amount is equal to the pre-determined maximum usage amount, and identifying the available usage credit amount and inhibiting further use of the at least one reusable component when there is no available usage credit remaining.

A medical device for carrying out internal examination, such as laryngoscopes, has a body including a transmitter and receiver, and a blade portion including a receiver and transmitter. The transmitters and receivers are used to provide an indication of whether or not a particular blade portion has already been attached to a body portion previously.

One aspect comprises a laryngoscope assembly with a handle and a blade, the blade including a cavity housing a lighting system, and a cover locked in place over the cavity via a snap-latch, wherein at least the blade is molded from a semi-crystalline polymer. Another aspect comprises a laryngoscope assembly with a handle and a blade extending from the handle, the blade including a cavity, and a lighting system housed within the cavity and including a light source, power source, activation device, and switch, wherein at least the blade is molded from polyarylamide.

The cleaning valves (or valves) of the current disclosure are generally single-use devices (SUDs) and therefore disposable. Reusing SUDs can be disadvantageous, as single-use devices are not designed to be reusable. Accordingly, valves for medical devices, such as endoscopes, disclosed may be configured to transition from a first state to a second state for indication of utilization of the valve, e.g., via exposure to a valve well. The transition from the first state to the second state may prevent reuse valves of the present disclosure. In embodiments, the valve may be made from a limited number of components and materials.

A single use medical device can include a single use medical device module configured for use within a body of a subject receiving a medical procedure. It can also include an electronic component having a one-time programmable (OTP) component that is configured to render the single use medical device module unusable after being used in the medical procedure in the subject.

Systems and methods for credit-based usage of surgical instruments include one or more surgical instruments having associated therewith a usage amount, a pre-determined maximum usage amount, and an available usage credit amount that is less than the pre-determined maximum usage amount. The systems implement and the methods include comparing the usage amount to the pre-determined maximum usage amount and inhibiting further use of the at least one reusable component when the usage amount is equal to the pre-determined maximum usage amount, and identifying the available usage credit amount and inhibiting further use of the at least one reusable component when there is no available usage credit remaining.

Scenes captured with an endoscope (201) of a teleoperated surgical system (200) and displayed on a display unit (251) maintain a consistent brightness even though optical output power of an illuminator (210) changes, and working distance (204) between tissue (203) and the distal tip of the endoscope changes. Teleoperated surgical system (200) also automatically detects when endoscope (201) contacts tissue (203) and adjusts the output optical power of illuminator (210) so that tissue damage does not occur.

A cordless endoscope assembly includes a housing, an endoscope tube and an eyepiece. Electronics are housed in the housing and operable to operate one or more light sources in the endoscope, the electronics including one or more batteries and a printed circuit board. The housing includes a connector configured to removably couple with a cannula connector of a cannula when the endoscope tube is inserted through the cannula. The cordless endoscope is a disposable single use endoscope that can optionally be sterilized with an ethylene oxide (EtO) sterilization process.

A system may comprise a catheter including a wall having an inner surface defining a main lumen. The system may also comprise a device including an elongate flexible shaft configured to be slideably inserted within the catheter main lumen and a structure disposed around an outer surface of the elongate flexible shaft. The structure may be configured to engage with a plurality of flat surfaces comprising a portion of the inner surface to prevent rotation of the device within the main lumen.

Various examples are directed to systems and methods for servicing a medical device comprising an onboard memory device. An interface computing system may establish a communication link with the medical device. Usage history data describing the medical device may be obtained via the communication link. Service history data describing at least one repair for the medical device may be obtained. Age data describing an age of the medical device may be obtained. Status data for the medical device may be determined using the usage history data, the age data, and the service history data. A medical device servicer system may initiate a service activity for the medical device based at least in part on the status data.