An input device for a robotic surgical system includes a body, a light source, and control interfaces. The body is configured to couple to a user interface. The control interfaces are each associated with a function of the robot system. The light source is configured to selectively illuminate each of the control interfaces independent of one another.

A detector and a method of its use with a guidewire to reduce the incidence of guidewires accidently being left inside patients during the placement of central venous (and other) catheters. In particular, an electronic detector detects whether a catheter has been placed over a guidewire and whether the guidewire has been removed thereafter. In addition, the distance the guidewire has progressed out the patient side of the detector housing which will correspond to the length of guidewire actually inside the patient and any time may be provided.

A mobile cart that holds a bag for receiving solid waste generated during a medical or surgical procedure. The cart includes a sensor that monitors whether or not an object containing metal is placed in the bag. A processor monitors the signal output by the sensor. If the sensor signal indicates that an object with a minimal amount of metal is placed in the bag, the processor momentarily asserts an audible alarm and continuously asserts a light alarm. The light alarm remains asserted until turned off. If, while the light alarm is on, the sensor signal indicates a second object with the minimal amount of waste is placed in the container, the processor again momentarily asserts the audible alarm. This provides notice that it may be necessary to investigate the contents of the bag to determine if not one but two or more objects were inadvertently discarded.

Certain embodiments may relate to apparatuses and methods for performing surgical procedures. For example, a method may comprise initiating detection and tracking of at least one surgical instrument (including associated surgical material) within a surgical area. The method may further comprise performing a surgical procedure with the at least one surgical instrument and material and ending detection and tracking of the at least one surgical instrument and material within the surgical area. The method may further comprise displaying at least one indication of location status of the at least one surgical instrument.

Systems and methods are provided for counting sharps returned to a container. An example method of counting sharps returned to a container having at least two layers of penetrable conductive material includes periodically checking a plurality of circuits formed by the first and second layers of material to determine if each circuit is open or closed, and keeping a count of the number of closed circuits.

Medical procedure related objects (e.g., instruments, supplies) tagged with transponders are accounted for in a medical procedure environment via a medical object accounting system using a number of antennas, and optional readers. A first set of antennas is configured to interrogate sterile fields and/or non-sterile fields which do not encompass a body of a patient to account for the objects proximate a start and an end of a medical procedure. Readers (e.g., symbol, RFID) may be employed. A database is maintained with information including a current status of each instrument or supply, for instance as checked in or checked out. On notification of a discrepancy, a handheld antenna and/or second set of antennas interrogate a volume encompassing a body of a patient for retained instruments or supplies. The system is automatically configured (e.g., loading appropriate software) on communicative coupling of a device (e.g., antenna, reader, peripheral device).

Medical procedure related objects (e.g., instruments, supplies) tagged with transponders (e.g., RFID transponders, dumb transponders) are accounted for via an accounting system using a number of antennas and interrogators/readers. The antennas and interrogators/readers are included on a cannula of the trocar so the tagged medical procedure related objects passing through the cannula are detected. A first set of antennas and RFID interrogator(s) interrogate a first portion of the cannula, such as proximate a proximal end at which the medical procedure related objects are introduced to the cannula. A second set of antennas and RFID interrogator(s) interrogate a second portion of the cannula, such as proximate a distal end at which objects exit the cannula for use in a medical procedure. A data store may maintain information including a current status or count of each supply, for instance, as entering or exiting the cannula.

Modulated light therapy devices for treatment of dermatological disorders of the scalp are provided. An exemplary device includes a flexible printed circuit board (FPCB) supporting at least one light emitting device having an emitter height. The FPCB includes multiple interconnected panels and bending regions defined in and between at least some of the interconnected panels as to allow the FPCB to be configured in a concave shape to cover at least a portion of a cranial vertex of the patient. At least one light-transmissive layer proximate to the FPCB is configured to transmit (e.g., incoherent) light emissions generated by at least one light emitting device. At least one standoff is configured to be arranged between the FPCB and the scalp of the patient, wherein the at least one standoff includes a standoff height that exceeds the emitter height.

Systems and methods are provided for improving medical instruments and devices. One system includes a surgical instrument associated with an instrument identifier, and an electrosurgical generator operably coupled to the surgical instrument. The electrosurgical generator is associated with a generator identifier and is configured to receive and store data associated with an operating mode of the surgical instrument, receive data associated with the instrument identifier from the surgical instrument, generate a unique identifier based on a time and date at which the surgical instrument is operably coupled with the electrosurgical generator for the first time, the generator identifier of the electrosurgical generator, and the instrument identifier, and associate the unique identifier with the stored data associated with the operating mode of the surgical instrument.

A power system, for powering a surgical instrument including an end effector and a motor configured to generate at least one motion to effectuate the end effector, includes a primary power source configured to supply a first power to operate the surgical instrument, wherein the primary power source is detachable from the surgical instrument, a secondary power source configured to supply a second power to operate the surgical instrument when the primary power source is detached from the surgical instrument, wherein the secondary power source is rechargeable, and wherein the primary power source is configured to charge the secondary power system, and a power management circuit configured to selectively transmit the first power from the primary power source and the secondary power from the secondary power source to operate the surgical instrument.