A canister stand suitable for holding at least one dispensing canister in a system for removal, delivery and/or transplantation of body tissues and other substances in medical procedures may include a canister stand frame. A frame panel may be carried by the canister stand frame. At least one overhang may be formed by the canister stand frame. At least one canister opening may be provided in the frame panel at the at least one overhang. The at least one canister opening may be suitably sized and configured to accommodate the at least one dispensing canister.

A medical suction apparatus may include a wand having a proximal end and a distal end. The apparatus may further include a lumen defined within the wand, the lumen configured to couple to a suction source. The apparatus may also include a mouth defined at the distal end of the wand and placing the lumen in communication with an exterior of the wand, where the mouth has an upper edge and a lower edge, where the mouth is elongated horizontally between the upper edge and the lower edge, and where at least the upper edge or the lower edge is beveled to enable scraping of a surface.

The present disclosure provides a handpiece for trans-canal delivery of a therapeutic substance to the inner ear. The handpiece can be inserted into the middle ear via a surgical tympanotomy approach. The handpiece can be integrated with a micropump and a fluid reservoir. The handpiece can enable a controlled injection of a therapeutic substance directly through the round window membrane and into the inner ear. The direct delivery of the therapeutic substance to the inner ear can enable the delivery of a precise amount of therapeutic substance into the inner ear. The micropump can include a self-contained fluid reservoir that can provide predetermined volumes of fluid to precise areas of the patient.

An ergonomic medical device handle which allows for multiple type grip styles and reduces operator fatigue by balancing the weight of the device about a fulcrum point. More particularly a laparoscopic suction irrigation device having its tubing centrally located to allow the handle to rest comfortably and balanced on the hand in any of the commonly used grips. This dramatically reduces the fatigue associated with holding devices for long periods of time.

Disclosed herein are systems, devices, and methods for the removal of objects from the body. The device may be a urethral catheter configured to aspirate kidney stones from the urinary tract through one or more aspiration ports at the distal face or along a lateral side of the catheter. The catheter may include one or more irrigation ports at the distal face or along the lateral side of the catheter for dislodging kidney stones. The device may be steerable. The spatial arrangement of the one or more irrigation ports with respect to the one or more aspiration ports may vary. The device may include an irrigation tube and/or a shield member configured to spatially confine the kidney stones adjacent the catheter. Various temporal patterns of aspiration and irrigation are disclosed for optimizing removal of kidney stones.

Described herein are devices and methods for irrigating and suctioning fluids from the lumens or cavities of a mammalian body. The devices include a malleable irrigation tube and a suction tube that is slidably mounted upon the irrigation tube.

A vibrational injection apparatus suitable for use in a system for removal, delivery and/or transplantation of body tissues and other substances in medical procedures may include an apparatus housing. A vibration mechanism may be provided in the apparatus housing. A material injector may be provided in the apparatus housing and mechanically coupled to the vibration mechanism. An injection cannula may be disposed in fluid communication with the material injector.

A self-contained ocular surgery instrument, including a power module having a body presenting a mating coupler and including a compressed gas supply; a fluid reservoir; an aspiration pump; an aspirated material reservoir and a control panel. The mating coupler is structured to receive and couple to at least one module that facilitates performance of an eye surgery task. The compressed gas supply is coupled to the aspiration pump and the aspirated material reservoir is in fluid communication with the aspiration pump to receive aspirated material from the mating coupler. The fluid reservoir is in fluid communication with the mating coupler such that fluid is supplied under pressure to the mating coupler and thus to the at least one module that facilitates performance of an eye surgery task. The control panel is in controlling communication with the compressed gas supply, the aspiration pump and the aspirated material reservoir.

Multilayer tubing balances the property of improved kink resistance, reduces post occlusion surge, and reduces pump pulsations after surge. A multilayer construction is provided for tubing for phacoemulsification systems. Multilayer tubing includes multiple layers having an inner layer and an outer layer, wherein the material of the inner layer is harder or stiffer than the material of the outer layer.

A vacuum aspiration control system for use with a vacuum source and an aspiration catheter includes a connecting tube configured to connect the vacuum source with a lumen of an aspiration catheter. An on-off valve is operatively coupled to the connecting tube, and a sensing unit is configured to detect flow within the connecting tube and provide a signal representative of flow. A controller receives the signal to decide whether to open or close the valve. The controller may automatically close the valve to stop flow when flow through the connecting tube is unrestricted, or according to a predetermined timing sequence. The controller can further periodically open a closed valve to determine whether flow has entered an acceptable range. The controller can still further engage pulsed aspiration with a pressure manipulation assembly when flow is restricted or occluded.