A system for detecting disposal of metallic objects into an opening of a medical waste container, including: an indicator for indicating passage of metallic objects through the opening, a pair of receive coils and a transmit coil spaced therebetween shaped for receiving waste therethrough adjacent to the opening, and a controller in electrical communication with the coils. The controller generates and communicates a transmit signal to the transmit coil, which generates a magnetic field that induces voltage in each of the receive coils, which each generate a receive signal. The controller generates a waveform based on the receive signals with a baseline corresponding to absence of metallic objects, and analyzes the waveform with respect to opposite first and second thresholds. The controller activates the indicator in response to metallic objects passing through the coils when the waveform first exceeds the first threshold and then subsequently exceeds the second threshold.

A biological property testing device includes a base comprising a primary surface extending in a base plane, and a first lancet station supported by the base. A first test strip channel provided in the base can have a main channel portion extending generally parallel with the base plane, and an angled channel portion that forms an angle with the main channel portion between 5 degrees and 90 degrees. The first test strip channel can house a biological test strip oriented so that a meter connecting end of the biological test strip is adjacent to the main channel portion and a sample end of the biological test strip is adjacent to the angled channel portion.

A tray used during endovascular surgery includes an upper tray and a lower tray. The upper and lower trays are removably attachable from one another and each includes a first forward side, a second rear side, a third lateral side and a fourth lateral side. The upper tray includes a saline reservoir and the lower tray includes a wire cavity, a wire path and a sponge. The wire path connects the wire cavity with one or more apertures in the first side of the lower tray and the sponge is located within the wire path such that wires can be inserted into any of the one or more apertures, pass through the sponge, along the wire path and into the wire cavity where the wires will coil.

A surgical staple comprising a substrate and one or more coatings which delay the bioabsorption of the substrate. The coating can be selected so as to affect the environment surrounding the staple once the staple is implanted in the patient. The effect on the environment can cause the bioabsorption to occur within a desired time frame.

A staple cartridge assembly includes a cartridge body with a deck, a longitudinal slot defined in the deck, and staple cavities defined in the deck. The staple cartridge assembly includes staples removably stored in the staple cavities, wherein the staples are deployable from the staple cavities into tissue of a patient, and wherein the staples comprise substrates comprised of metal that degrades when exposed to a degradation source in the patient. The staple cartridge assembly includes an implantable adjunct, wherein the staples are configured to hold the implantable adjunct to the tissue, and wherein the implantable adjunct is configured to delay an initiation of the degradation of regions of the metal in contact with the implantable adjunct in the patient, and wherein the implantable adjunct is configured to modify a local environment surrounding the staples to control a degradation rate of the staples after the initial delay.

A staple cartridge comprising staples that are lubricated before they are loaded into the staple cartridge and after they have been loaded into the staple cartridge is disclosed.

Staple cartridges including bioabsorbable staples are disclosed. The staples are configured such that they are bioabsorbable within a desired time frame.

Staple systems and methods for implementing the staple systems are disclosed.

Bioabsorbable staples are disclosed that have sufficient mechanical properties throughout a healing window of patient tissue.

Staple cartridges comprising absorbable staples having sufficient mechanical properties to be deployed into patient tissue, clench the patient tissue, and then dissolve within a desired time frame.