A robotic catheter system including a first drive mechanism configured to interact with an elongated medical device to cause the elongated medical device to move along its longitudinal axis. A wiper assembly includes a first wiping surface moving toward and away from the longitudinal axis. A controller provides a signal to a motor to move the first wiping surface toward the longitudinal axis when the elongated device is being withdrawn from a patient.

A Sodium Bicarbonate Catheter Lock Solution that prevents clot formation inside the catheter lumen and ensures patency of the catheter and also eliminates bleeding and other complications caused through the use of anticoagulants and other solutions as a catheter locking solution. Said lock solution may be used with or without other components such as antimicrobials/antibiotics and/or anti-coagulants/anti-clotting agents.

A subdural drainage device includes a subdural drainage housing defining a drainage passageway. The drainage passageway has a A subdural drainage device includes a subdural drainage housing defining a drainage passageway. The drainage passageway has a lower opening configured to connect to a subdural space of a patient and an upper opening. A blockage removal unit is in the housing, and the blockage removal unit has an end portion that is configured to reduce or remove blockages adjacent the lower opening of the drainage passageway that is movable between a retracted position in which the end portion is in the subdural drainage housing and an extended position in which the end portion of the blockage removal unit extends away from the subdural drainage housing via the lower opening of the drainage passageway. At least one side delivery port is in the housing and in fluid communication with the drainage passageway.

A laparascope and endoscope cleaning and defogging device with a port located horizontally that is used to warm the scope prior to insertion into the body cavity/surgical site. The scope punctures the initial membrane and enters the cavity between two bodies of absorbent material that contain fluid. The absorbent material is arranged such that the passage of a scope would be accommodated for different sizes of surgical scopes. A circuit board is located on the bottom of the chamber that has a design element used to warm the liquid to a temperature equal to or greater than the temperature of the proposed surgical environment. When the scope is located between the two absorbent bodies, the heat generated by the circuit board is transferred via the liquid and contacts the scope, warming it in preparation for surgery.

Methods and apparatus for cleaning a central venous catheter port are disclosed. An apparatus includes a body, a coupling configured to connect the body to the hub, a cleaning cap coupled to the body, and an actuator disposed within the body for rotating and translating the cap relative to the hub. The cleaning cap includes a cap body defining a cavity and a cleaning member disposed within the cavity, the cleaning member having threads that engage with the threads on the hub.

Disclosed herein are systems and methods directed to an assisted fluid drainage system including one or more ejector vacuum pumps disposed in-line with the drainage tube. The one or more pumps can use a venturi effect vacuum pump to draw a fluid in and urge the fluid through the drainage tube to prevent the formation of dependent loops. Dependent loops can form within fluid drainage tubes when slack portions of tube create a positive incline. These dependent loops trap fluid and can create a retrograde flow, leading to various complications such as catheter associated urinary tract infections (“CAUTI”). Advantageously, the pumps can operate while the drainage lumen remains in fluid communication with the catheter. As such the pumps can operate continuously to prevent dependent loops from establishing.

The present invention includes a catheter locking solution having both antimicrobial and anticoagulant properties including a local anesthetic and a viscosifying agent. The local anesthetic of the present invention may be an amino amide; an amino ester; an aminoacylanilide; an aminoalkyl benzoate; an amino carbonate; an N-phenylamidine compound; an N-aminoalkyl amid; an aminoketone, or combinations and mixtures thereof. In a particular embodiment of the present invention, the local anesthetic is tetracaine or dibucaine.

A method involves positioning a housing in an ureteral access sheath that is positioned in a lumen in a living body, moving the housing toward calculus located in the ureteral access sheath, positioning the housing in the ureteral access sheath adjacent the calculus in the ureteral access sheath, drawing the calculus in the ureteral access sheath through the inlet and into the housing by suction in the interior of the housing, and removing the housing from the ureteral access sheath while the calculus remains in the housing.

Various embodiments relate to catheter locking solutions and catheter locking therapies with use of trisodium citrate and ethyl alcohol, and in particular 4.0 to 15.0 weight/volume % trisodium citrate as an anticoagulant component and/or an antibacterial component and 15.0 to 25.0 volume/volume % ethyl alcohol as an antibacterial component. Use of the catheter locking solution and catheter locking therapy can reduce treatment failure during medical procedures that may employ catheters to supply treatment by at least significantly reducing the risks associated with bloodstream infections, catheter system malfunction, emboli formation, patient discomfort, and patient illness. These benefits can be partially due to the synergistic antibacterial effects of the trisodium citrate and ethyl alcohol in solution, generating an effective catheter locking solution with minimal concentrations of ethyl alcohol.

A reusable urinary catheter assembly comprises a storage container defining a cavity, a hydration liquid and a reusable urinary catheter. The hydration liquid includes a disinfection medium and a hydrophilic polymer. The viscosity of the hydration liquid is 40 cP or lower. The reusable urinary catheter includes a shaft, and at least a part of the shaft is provided with a hydrophilic surface. During storage, the shaft is enclosed within the cavity in a storage position. The hydration fluid hydrates and regenerates the hydrophilic surface and disinfects the catheter. The catheter is configured to be repeatedly inserted into and removed from the storage container.