Abstract: A topical treatment composition for treating muscle cramps, muscle stiffness, muscle pain or muscle spasms. The treatment composition includes a middle (mid) chain fatty acid (MCFA). A method of making the topical treatment composition is also disclosed herein.

Abstract: Microbial growth inhibiting solutions and methods of employing the microbial growth inhibiting solutions in flushing and coating medical devices are disclosed. In alternative embodiments, the microbial growth inhibiting solutions include combinations of a chelating agent with a C4-C9, C10 or C12 carboxylate antimicrobial agent, for example, such as n-capric, n-lauric, or n-octanoic acid. Methods of using these microbial growth inhibiting solutions for coating a medical device and for inhibiting catheter infection are also disclosed.

Abstract: Microbial growth inhibiting solutions and methods of employing the microbial growth inhibiting solutions in flushing and coating medical devices are disclosed. In alternative embodiments, the microbial growth inhibiting solutions include combinations of a chelating agent with a C4-C12 carboxylate antimicrobial agent, for example, such as n-capric, n-lauric, or n-octanoic acid. Methods of using these microbial growth inhibiting solutions for coating a medical device and for inhibiting catheter infection are also disclosed. Methods of using these microbial growth inhibiting solutions, or portions thereof, as leaching treatment solutions to treat polymer syringes and the treated syringes are also disclosed.

Abstract: Microbial growth inhibiting solutions and methods of employing the microbial growth inhibiting solutions in flushing and coating medical devices are disclosed. In alternative embodiments, the microbial growth inhibiting solutions include combinations of a chelating agent with a C4-C9 carboxylate antimicrobial agent, for example, such as n-octanoic acid. Methods of using these microbial growth inhibiting solutions for coating a medical device and for inhibiting catheter infection are also disclosed.

Abstract: A topical treatment composition for treating muscle cramps, muscle stiffness, muscle pain or muscle spasms. The treatment composition includes a middle (mid) chain fatty acid (MCFA). A method of making the topical treatment composition is also disclosed herein.

Abstract: Microbial growth inhibiting solutions and methods of employing the microbial growth inhibiting solutions in flushing and coating medical devices are disclosed. In alternative embodiments, the microbial growth inhibiting solutions include combinations of a chelating agent with a C4-C9 carboxylate antimicrobial agent, for example, such as n-octanoic acid. Methods of using these microbial growth inhibiting solutions for coating a medical device and for inhibiting catheter infection are also disclosed.

Abstract: Microbial growth inhibiting solutions and methods of employing the microbial growth inhibiting solutions in flushing and coating medical devices are disclosed. In alternative embodiments, the microbial growth inhibiting solutions include combinations of a chelating agent with a C4-C9, C10 or C12 carboxylate antimicrobial agent, for example, such as n-capric, n-lauric, or n-octanoic acid. Methods of using these microbial growth inhibiting solutions for coating a medical device and for inhibiting catheter infection are also disclosed.

Abstract: Microbial growth inhibiting solutions and methods of employing the microbial growth inhibiting solutions in flushing and coating medical devices are disclosed. In alternative embodiments, the microbial growth inhibiting solutions include combinations of a chelating agent with a C4-C12 carboxylate antimicrobial agent, for example, such as n-capric, n-lauric, or n-octanoic acid. Methods of using these microbial growth inhibiting solutions for coating a medical device and for inhibiting catheter infection are also disclosed. Methods of using these microbial growth inhibiting solutions, or portions thereof, as leaching treatment solutions to treat polymer syringes and the treated syringes are also disclosed.

Abstract: Microbial growth inhibiting solutions and methods of employing the microbial growth inhibiting solutions in flushing and coating medical devices are disclosed. In alternative embodiments, the microbial growth inhibiting solutions include combinations of a chelating agent with a C4-C9 carboxylate antimicrobial agent, for example, such as n-octanoic acid. Methods of using these microbial growth inhibiting solutions for coating a medical device and for inhibiting catheter infection are also disclosed.

Abstract: Microbial growth inhibiting solutions and methods of employing the microbial growth inhibiting solutions in flushing and coating medical devices are disclosed. In alternative embodiments, the microbial growth inhibiting solutions include combinations of a chelating agent with a C4-C9 carboxylate antimicrobial agent, for example, such as n-octanoic acid. Methods of using these microbial growth inhibiting solutions for coating a medical device and for inhibiting catheter infection are also disclosed.

Abstract: Compositions and methods of employing compositions in flushing and coating medical devices are disclosed. The compositions include combinations of a chelating agent, anticoagulant, or antithrombotic agent, with a C4-C9 carboxylate antimicrobial agent, such as octanoic acid. Methods of using these compositions for coating a medical device and for inhibiting catheter infection are also disclosed. Particular combinations of the claimed combinations include, for example, octanoic acid or other C4-C9 carboxylate antimicrobial agent together with EDTA, EGTA, DTPA, heparin and/or hirudin in a pharmaceutically acceptable diluent.

Abstract: A surgical staple line reinforcement device for use with a variety of surgical staplers having a pivoted connection between stapler arms or jaws, such as endoscopic stapler devices. The device comprises a pair of tubes of bio-implantable material connected together at a hinge. The device can be quickly and easily applied to a surgical stapler by a surgical team to provide tissue reinforcement. The hinged connection of the device provides both for secure attachment of the device to the surgical stapler, and for a barrier to protect the pivot connection from contamination by migrating tissue during operation. Preferably, tear lines are provided on each of the tubes to assist in removing excess material following attachment of staples. The device allows for fast and safe staple reinforcement and rapid stapler separation and removal following installation.

Abstract: A surgical staple line reinforcement device for use with a variety of surgical staplers to protect against tissue damage from surgical staples. The device comprises a tube of bio-implantable material that can be quickly and readily applied by a surgical team to provide tissue reinforcement. The device preferably comprises a stretched or expanded polytetrafluoroethylene (PTFE) with pre-established tear lines therein. The device allows for fast and safe staple reinforcement and rapid stapler separation and removal following installation.