Systems, kits and methods for preparing an injection system and/or treating target lesions with a selective internal radiation therapy which includes a double-barrel syringe loaded with a two-component tissue glue and radioisotope loaded microspheres. The microspheres are loaded into the syringe based on the size of the target location and are administered with a needle or dual-lumen catheter. Dosing regimens for treating breast cancer lesions or surgical beds up to 130 mm in diameter and hepatocellular carcinoma lesions up to 50 mm are included.

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.

A staple cartridge comprising absorbable staples having co-operate and/or antagonistic coatings is disclosed.

A method and apparatus of adaptively controlling a surgical stapling instrument are disclose. The method includes identifying a staple cartridge type, configuring the surgical stapling instrument based on the identified staple cartridge, and adaptively controlling, by a control circuit, operation/functionality of the surgical stapling instrument based on the configuration of the surgical stapling instrument loaded with the identified staple cartridge type. The apparatus includes a control circuit including a microcontroller and a memory coupled to the microcontroller. The memory stores machine executable instructions that when executed by the microcontroller cause the microcontroller to execute the above method.