Disclosed herein are apparatuses, systems, kits, and methods for treating skin, such as skin tightening or for treating diseases, disorders, and conditions that would benefit from tissue area or volume reduction, skin restoration, skin tightening, skin lifting, and/or skin repositioning and/or for generally improving skin function or appearance (e.g., the removal of unwanted skin features or irregularities such as sebaceous glands, sweat glands, hair follicles, necrosis, and fibrosis). Such apparatuses, systems, kits, and methods comprise an apparatus having a handheld main body and a detachably attachable tip comprising one or more needles.

Apparatus and methods for providing a robotic arm cart for transporting, delivering, and securing robotic arms to a surgical table having a tabletop on which a patient can be disposed are described herein. In some embodiments described herein an arm cart can contain multiple robotic arms. A robotic arm can be selected and moved from a storage position within the arm cart to a deployment position in which at least a portion of that robotic arm protrudes from the arm cart. A robotic arm in a deployment position can be coupled to a surgical table and decoupled from the arm cart.

Apparatus and methods for providing a robotic arm cart for transporting, delivering, and securing robotic arms to a surgical table having a tabletop on which a patient can be disposed are described herein. In some embodiments described herein an arm cart can contain multiple robotic arms. A robotic arm can be selected and moved from a storage position within the arm cart to a deployment position in which at least a portion of that robotic arm protrudes from the arm cart. A robotic arm in a deployment position can be coupled to a surgical table and decoupled from the arm cart.

Systems, apparatuses, and methods include an intraocular lens (IOL) cart that may assist with inventory management and may help users identify an IOL for use in a particular surgical application. The IOL cart may include sensors and indicators that provide information to a user and may update IOL inventory automatically whenever the IOL cart is accessed by a user.

Systems, apparatuses, and methods include an intraocular lens (IOL) cart that may assist with inventory management and may help users identify an IOL for use in a particular surgical application. The IOL cart may include sensors and indicators that provide information to a user and may update IOL inventory automatically whenever the IOL cart is accessed by a user.

A swivel device includes a base, a first gear fixed to the base, a tray configured to relatively rotate with respect to the base, a second gear fixed to the tray and engaged with the first gear so as to rotate together with the tray wherein the second gear has a smaller diameter than the first gear, a stopper wheel coaxially fixed to the second gear, and a stopper configured to stop rotation of the stopper wheel to fix a position of the tray.

A swivel device includes a base, a first gear fixed to the base, a tray configured to relatively rotate with respect to the base, a second gear fixed to the tray and engaged with the first gear so as to rotate together with the tray wherein the second gear has a smaller diameter than the first gear, a stopper wheel coaxially fixed to the second gear, and a stopper configured to stop rotation of the stopper wheel to fix a position of the tray.

The disclosure relates to a system for attaching a medical device on a mast, the attachment system including a body equipped with the medical device and from which protrude face-to-face two jaws together delimiting an open engagement housing for the mast ending, at the level of the body, in a bottom which gradually decreases along a frustoconical portion to adapt to masts of different diameters, both jaws being externally threaded by a thread including a tapped ring and a tubular support skirt for the jaws, this tubular skirt extending coaxially inside the tapped ring to allow the engagement of the jaws between the tapped ring and the tubular skirt and the screwing of the tapped ring on these jaws.

The disclosure relates to a system for attaching a medical device on a mast, the attachment system including a body equipped with the medical device and from which protrude face-to-face two jaws together delimiting an open engagement housing for the mast ending, at the level of the body, in a bottom which gradually decreases along a frustoconical portion to adapt to masts of different diameters, both jaws being externally threaded by a thread including a tapped ring and a tubular support skirt for the jaws, this tubular skirt extending coaxially inside the tapped ring to allow the engagement of the jaws between the tapped ring and the tubular skirt and the screwing of the tapped ring on these jaws.

A surgical robotic system including a surgical console including a user input device configured to generate a user input, a movable cart, a surgical robotic arm disposed on the movable cart, the surgical robotic arm including a surgical instrument, and a control tower including a controller having a system monitor configured to synchronize activation or deactivation of the control tower, the surgical console, the movable cart, and the surgical robotic arm. The system monitor includes a communication interface coupled to the control tower, the surgical console, the movable cart, and the surgical robotic arm; and a system monitor state machine operably coupled to the communication interface and configured to interact with the control tower, the surgical console, the movable cart, and the surgical robotic arm to monitor the status and to activate or deactivate the control tower, the surgical console, the movable cart, and/or the surgical robotic arm.