An assembly for nasal irrigation for the handheld irrigation of a user's nasal cavity comprising a housing with a refill chamber containing irrigating fluid, an applicator, an actuator for forcing irrigating fluid from the refill chamber through the applicator into the user's nasal cavity during operation, and a solution port for refilling the refill chamber. Some embodiments of the present invention may further comprise a system for nasal irrigation that includes the assembly for nasal irrigation or handheld irrigator, as well as a solution assembly structured for dispensing irrigating fluid to the handheld irrigator, a docking station for removably housing the handheld irrigator, a solution assembly and a refill control, including a check valve.

A system for applying a lavage fluid to a surface, the system having a body configured to house a lavage fluid, an application member in fluid communication with the body, the application member being configured to dispense the lavage fluid, and a warming component configured to communicate with the body so as to transfer energy from the warming component to the body sufficient to warm the lavage fluid housed in the body.

A system for applying a lavage fluid to a surface, the system having a body for housing a lavage fluid, an application member in fluid communication with the body, the application member being configured to dispense the lavage fluid along a flow path, and a venting component, the venting component having a fluid channel configured to provide fluid communication between the body and an external environment, and at least one filter provided relative to the fluid channel sufficient to filter gas, such as air, passing through the fluid channel, at least a portion of the fluid channel being separate from the flow path.

Sampling systems and methods for non-invasive sampling of inner-colonic microbiome and its potential derivatives are provided. The sampling systems may operate in fluid communication with a large intestine cleansing system and comprise an electromechanical sampling device configured to collect at least a part of large intestine contents drained by the cleansing system. The electromechanical sampling device may comprise a collection unit configured to collect at least one sample from the contents, and an electromechanical robotic unit configured to move the collection unit to and from a sampling position and to manipulate the collection unit into a respective casing, to deposit the sample(s). Sampling methods may comprise optically monitoring drained contents of the large intestine, characterizing the optically-monitored (and possibly spectrally analyzed) drained contents to determine sampling times, and sampling the drained contents according to the characterization.

An oral-hydration system may include a dispenser, and a port carried by the dispenser and the port enables a fluid under positive-pressure to be dispersed within the patient's mouth from the dispenser. The system may also include a positioner that positions the dispenser adjacent a premolar, adjoining a cheek, and away from an incisor.

A medical device for the treatment and irrigation of a sinus opening is described. The device allows for single-handed operation to access, dilate and irrigate a sinus opening. The device includes a sinus guide catheter, a guiding element, a balloon dilation catheter, a balloon catheter movement mechanism and a guiding element movement mechanism. A method for treating a sinus opening and irrigating a sinus is also described.

An oral irrigator has a removable reservoir defining a reservoir cavity, a base unit housing a motor and a pump, and a handle for directing fluid flow from the pump removably connected to the base unit and fluidly coupled to the pump by a hose. The handle has a housing defining a slot formed in an outer wall of the housing. The slot is bounded by two opposing walls spaced apart from each other and a transverse wall at a terminal interior end of the opposing walls. The outer wall of the housing is open to the slot at lateral sides of the two opposing walls and at a base end of the opposing walls opposite the transverse wall.

Systems and methods for cleaning a colon or other portion of an intestine include optional use of sensors to detect conditions of blockage of flow of materials within an evacuation channel used to remove fecal material from the body; and devices and methods for purging such blockages from the evacuation channel.

Provided is a container for connection to a device for suctioning bodily fluids and for supplying a fluid substance to a human or animal body said container comprising an interior which is divided into a first region for collecting the suctioned bodily fluids and into a second region for providing the fluid substance The first region of the interior is separated from the second region by means of a flexibly realized partition wall

A fluid infusion system includes an air pump connected to an accumulator tank to produce pressurized air that is stored in the accumulator tank. The system can include one or more fluid bag chambers wherein each fluid bag chamber includes an inflatable bladder positioned inside the fluid bag chamber to apply pressure on the fluid bag supported inside the chamber. The fluid bag can be connected by a tube set to deliver fluid from the fluid bag to a surgical tool at a surgical site. The fluid can, for example, be irrigation fluid or distention fluid. The system can include a controller connected to the pump to control the pump to produce the pressurized air and an adjustable pressure regulator can be connected between the accumulator tank and the inflatable bladder to control the pressure of air delivered to the inflatable bladder and the pressure that the fluid is delivered to the surgical tool. A pressure sensor can be connected between the adjustable pressure regulator and the inflatable bladder to measure the air pressure delivered to the inflatable bladder and send the air pressure measurements to the controller. The controller can configure the system display to show the air pressure measured by the pressure sensor.