In one aspect of the present disclosure, a sterilization mat is provided that is configured to receive non-sterile surgical instruments, rolled to a rolled configuration, and sterilized while in the rolled configuration. In accordance with another aspect of the present disclosure, a specialized surgical supply kit includes a package that retains surgical supplies having at least one surgical supply identified as a preferred surgical supply by the hospital or surgeon that is to perform the surgery. The surgical supplies are further arranged in a spatial arrangement based on the surgeon who is to perform the surgery.

A system for charging an onboard battery of a medical device prior to use of the medical device may include a package configured to accommodate the medical device therein. A power source may be disposed relative to the package and may be capable of charging the onboard battery of the medical device prior to use of the medical device. The system may be capable of being subjected to a sterilization process with the power source disposed within the second cavity. In some instances, the power source is uncharged during sterilization. In some cases, the power source is encapsulated or otherwise sealed during sterilization.

A surgical instrument is configured to consist of two separable parts. The first part includes a disposable end effector unit, including an electrosurgical end effector and mechanical drive componentry. The second part includes a reusable electronics unit, containing the RF electronic circuitry of the instrument. A user-releasable complementary interface is provided on each part, allowing the parts to be connected in use. Providing a division of components in this manner improves the sterility of the device, providing easier cleaning of the reusable part of the instrument.

An electromechanical surgical assembly includes a surgical device, an adapter, and a filter. The surgical device includes a connecting portion having a distal facing recess including an electrical plug. The adapter includes a proximal facing cap configured to mate with the recess of the surgical device, the proximal facing cap including an electronic assembly including a plurality of electrical contact pins configured for electrical connection with the electrical plug. The filter is removably positioned within the recess of the surgical device. The plurality of electrical contact pins extend through the filter when the adapter is connected to the surgical device.

Generally, a system for use in a robotic surgical system may be used to determine an attachment state between a tool driver, sterile adapter, and surgical tool of the system. The system may include sensors used to generate attachment data corresponding to the attachment state. The attachment state may be used to control operation of the tool driver and surgical tool. In some variations, one or more of the attachment states may be visually output to an operator using one or more of the tool driver, sterile adapter, and surgical tool. In some variations, the tool driver and surgical tool may include electronic communication devices configured to be in close proximity when the surgical tool is attached to the sterile adapter and tool driver.

The present invention concerns a control system (1) for a micro-motor for dental or surgical use comprising a control box (10) provided with an adjustment knob (2), mounted in a way rotatable about a rotational axis (A-A). The adjustment knob (2) is made up of a control support (20) integral with an encoder (3) integrated in the said box (10), and a sterilizable button (21) coupled in a removable way to the said control support (20).

The present disclosure discloses and describes a vapocoolant dispenser. Specifically, the dispenser comprises a housing and container of vapocoolant, the dispenser configured to receive a sterilizable dose of high energy radiation and to provide a sterile, hermetically sealed vapocoolant dispenser.

A jig for determining a patient-adapted implant size of a femoral implant of a knee endoprosthesis. The jig has a main body, a probe part movable relative to the main body along a measuring direction. The probe part has an arm with a tip placeable on an anterior reference point of the femur's distal end, two contact pieces for placing on and referencing the medial and lateral posterior condyle of the femur's distal end, and at least one scale and pointer for indicating the probe part's position in the measuring direction relative to the contact pieces. The distance of the probe tip from the contact pieces is adjustable such that the distance is different with respect to the two contact pieces and, for each contact piece, a dedicated scale and an associated pointer are provided for the indication of the probe part's position relative to the respective contact piece.

The present disclosure discloses a control end of a surgical instrument, which comprises a housing and a power assembly, the housing comprises a first body and a second body, a first cavity for accommodating the power assembly is provided between the first body and the second body, and the power assembly is detachably mounted in the first cavity.

A portable device and method of supplying power to the portable device may provide a sterile environment that may protect the health and safety of patients on whom the device is employed. The portable device may be charged inside of the sterile environment. The portable device may be charged using at least one chargeable battery that may be arranged internal and/or external to a portion of the portable device, or internal and/or external to the portable device. A power supply may be connected to the at least one chargeable battery and power the portable device for use. The portable device may be charged up to 100% and/or or fully charged prior to opening the sterile environment.