Robotic medical systems may perform concomitant procedures. A robotic system can include a first robotic arm configured to manipulate a flexible instrument and a second robotic arm configured to manipulate a rigid instrument. The robotic system can include a first arm support for supporting the first robotic arm and a second arm support, distinct from the first arm support, for supporting the second robotic arm. The robotic system can include a display for displaying feedback from the flexible instrument and the rigid instrument.

Modular automated dispensing systems for dispensing secured medications in a medical environment are provided. The system includes a compact enclosure configured to be disposed in a medical treatment area without taking up valuable floor space. The system includes lockable drawers having one or more compartments for storing and dispensing medications or medical supplies. The system is unlocked by use of an access control interface internally or externally connected directly to the system, or networked to the system through a medical center network.

A cart for medical equipment includes a base having one or more wheels, a column supported by the base, and a platform supported on the column and opposite the base. The platform is configured to mount a piece of medical equipment to the cart. The cart also includes an adapter plate securable to the piece of medical equipment and configured to releasably couple to the platform. The adapter plate includes a locking assembly having one or more handles that upon actuation releases the adapter plate from the platform.

An equipment cart for medical equipment, such as medical disinfection equipment, includes a base with a support surface for securing the equipment and casters that allow the equipment cart to be moved. A mechanical locking mechanism for the equipment may be provided. The equipment cart has an upright support connected to the base, and a work surface supported by the upright support and spaced from the base. A power system, including an uninterruptible power supply, is provided onboard the equipment cart and supplies AC power to one or more electrical outlets on the equipment cart in the form of generally sinusoidal AC power.

Disclosed herein is an apparatus for facilitating managing multiple biological fluid containers. Accordingly, the apparatus may include a base configured to be stationarily and movably disposed on a surface for allowing a movement of the apparatus on the surface. Further, the allowing of the movement facilitates the managing of the biological fluid containers. Further, the apparatus may include a stand extending between a first end and a second end in relation to the base. Further, the apparatus may include a fluid holder tray attached to an upper portion of the stand proximal to the second end of the stand. Further, the fluid holder tray extends laterally away from the stand. Further, the fluid holder tray may be configured for holding biological fluid containers. Further, the fluid holder tray may include a plurality of receptacles.

A robot includes a mobile robot provided with driving wheels, a frame provided in the mobile robot, a housing having an opening formed therein, a drawer guide having a fixed bracket installed in the housing and a moving bracket moving along the fixed bracket and drawable out through the opening, and a drawer mounted on the moving bracket to be inserted into the housing or drawn out of the housing.

Examples of a module for housing unrelated electronic and electromechanical equipment for use during surgery. The module can include a lower section and a tower-like upper section. The lower section can house unrelated electronic and electromechanical equipment. The tower-like upper section can be located on top of the lower section. A water-resistant cowling can enclose at least a portion of the lower section and the tower-like upper section. A cartridge containing one or more ultraviolet-C producing lights can be protectively housed within the tower-like upper section. The cartridge containing one or more ultraviolet-C producing lights can be configured to emerge upward from a top of the tower-like upper section to substantially seat itself on the top of the tower-like upper section when activated allowing the ultraviolet-C light to disinfect the patient and staff-contacting upper surfaces of the equipment in the operating room.

An energy conversion system for converting kinetic energy into electrical energy and for supplying electricity to at least one electric component of a medical device, which may be a transport and/or storage device for sterile goods, such as a cabinet carriage, a shelf carriage, a supply table or a removal carriage. The electrical energy is generated from movement of at least one part of the medical device and/or the entire medical device. The energy conversion system can be used to convert kinetic energy into electrical energy for making a medical device available. The medical device can include at least one electric component and a monitoring system a sterile goods cycle.

Disclosed is a portable rehabilitation apparatus and method for use of the apparatus by a user or patient. The apparatus is adapted for transitioning between a collapsed state to facilitate the mobility of the rehabilitation robot (e.g., using wheels) and an open state for operation of the rehabilitation robot by the user. The apparatus includes the rehabilitation robot that is contained within a compartment defined by a housing which is made up of moveable portions. The apparatus also includes a mast assembly adapted to form a gap between the moveable housing portions in order to provide the user with access to the rehabilitation robot. The mast assembly is further adapted to collapse, thereby eliminating the gap and closing off the compartment when the rehabilitation robot is not in use.

Examples of a module for housing unrelated electronic and electromechanical equipment for use during surgery. The module can include a lower section and a tower-like upper section. The lower section can house unrelated electronic and electromechanical equipment. The tower-like upper section can be located on top of the lower section. A water-resistant cowling can enclose at least a portion of the lower section and the tower-like upper section. A cartridge containing one or more ultraviolet-C producing lights can be protectively housed within the tower-like upper section. The cartridge containing one or more ultraviolet-C producing lights can be configured to emerge upward from a top of the tower-like upper section to substantially seat itself on the top of the tower-like upper section when activated allowing the ultraviolet-C light to disinfect the patient and staff-contacting upper surfaces of the equipment in the operating room.