A teat for use with a fluid container comprises a deformable mouthpiece for an infant to suck on during a fluid intake action and an inner core (20) disposed within the mouthpiece. An exterior surface (21) of the inner core (20) is spaced from an interior surface of the mouthpiece at the position of a fluid pocket guiding face (22) of the exterior surface (21) of the inner core (20) so that a fluid duct between the mouthpiece and the inner core (20) is defined which allows the infant to perform a peristaltic fluid intake action. At least one of the interior surface of the mouthpiece and the exterior surface (21) of the inner core (20) has at least one protrusion (23) that is designed to form a fluid barrier between the mouthpiece and the inner core (20) at a position for delimiting the fluid duct at the sides thereof.

A drinking/feeding container and method for delivering fluid to a user at a drinking/feeding temperature which is higher than a storage temperature of the fluid. The container includes a fluid storage compartment, a lid and a heating device. The heating device is positioned between the fluid storage compartment and the lid. The heating device has an inlet which accepts the fluid from the fluid storage compartment, an outlet which dispenses the fluid to the lid and a passageway which extends between the inlet and the outlet. A Peltier device is provided between the inlet and the outlet and cooperates with the passageway to heat the fluid as the fluid moves from the inlet to the outlet. A power source supplies power to the heating device. A pulsing member pulses the power to the heating device whereby the pulsing of the power prevents the heating element from overheating.

A teat for use with a fluid container comprises a deformable mouthpiece for an infant to suck on during a fluid intake action and an inner core disposed within the mouthpiece. An exterior surface of the inner core is spaced from an interior surface of the mouthpiece at the position of a fluid pocket guiding face of the exterior surface of the inner core so that a fluid duct between the mouthpiece and the inner core is defined which allows the infant to perform a peristaltic fluid intake action. At least one of the interior surface of the mouthpiece and the exterior surface of the inner core has at least one protrusion that is designed to form a fluid barrier between the mouthpiece and the inner core at a position for delimiting the fluid duct at the sides thereof.

A nipple for use with an infant drinking cup is disclosed herein. The nipple comprises a domed portion having a central region and an inner surface, a teat portion radially offset from the central region, and a radially-outer wall. The radially-outer wall is joined to the domed portion at a joining location and comprises an inner fluid-flow surface, defining a fluid flow direction. A region of the inner surface of the domed portion at the joining location is substantially parallel to said fluid flow direction, or the inner fluid-flow surface of the teat portion extends radially outwardly, away from said region of the inner surface of the domed portion at the joining location.

A compressible device for use on a drinking container includes a base and at least one spill-proof unit. The base includes a base wall defining a liquid flow passage, and a separation wall connected to the base wall and dividing the liquid flow passage into a liquid inlet zone and a liquid outlet zone. The at least one spill-proof unit includes a through slot formed in the separation wall and communicating with the liquid outlet zone, and a spill-proof seat including a plate body opposite to the through slot and formed with a first slit. When the plate body is compressed and deformed, the first slit is opened to communicate the liquid inlet zone with the liquid outlet zone through the through slot.

A pump-activated feeding container having a handheld container body with a removable top and a flexible straw assembly disposed within the body and exposed outside of the body. The container includes a priming bulb pump assembly directly coupled to at least one of the container body and container top in a watertight configuration and with a flexible and elastically deformable membrane defining a membrane cavity. The membrane is operably configured to have a membrane depression translation path 306 inducing a pressurized flow of liquid through a second enclosed straw channel of the straw assembly and an upper straw opening and to have a membrane release translation path 400 inducing a vacuum and flow of liquid through a first enclosed straw channel of the straw assembly and an upper straw opening.

A baby bottle, an insert for a baby bottle, a baby bottle including an insert, and a method of feeding an infant that serves to pace the infant's feeding rhythm. Generally, these devices and methods will be of use for a preterm infant who lacks coordination of the suck-swallow-breathe synchrony, but can also be used with full term infants who can benefit from rigid control of the flow of milk from a bottle, this includes, but is not limited to, infants with gastroesophageal reflux who can require pacing of feeds to allow for gastric emptying. The device generally cues the infant to swallow and breathe after each 1-4 sucks by stopping the flow of the fluid from the bottle after the infant has sucked sufficiently or a predetermined period of time has passed. Once the baby breathes or a period of time passes, the bottle resets for the next repetition. The device also serves to consistently slow the flow of milk during oral feeding.

An apparatus including artificial nipple for feeding a baby who has a cleft in its palate region. The artificial nipple includes a palate region to define a region facing the baby's palate during use, and the nipple having a tongue region to define a region facing the baby's tongue during use. The palate region is less compliant than the tongue region to both mimic the hard palate and reduces unwanted movement of the nipple, making it easier for the infant to use his or her tongue to expel fluid from the nipple. The tongue region includes a feeding slit, which maybe U or V shaped, from which liquid maybe discharged without risking nasal congestion. The tongue region may further include a soft protrusion, that assists the peristaltic like tongue movement helping the baby feed, and may extend laterally to reduce the risk of nasal congestion.

The breastfeeding device comprises a suction assembly that attaches to one of the mother's breasts, a pump assembly that provides suction to express milk from the mother's breast and collect it in a reservoir, a pacifier that allow a baby to feed on collected breast milk, and interconnecting flexible tubing. In some embodiments, the breastfeeding device may also comprise a breastfeeding garment which may allow the mother to use the suction assembly while wearing clothing and which may help to hold the suction assembly in place. A shutoff valve on the outlet of the pump assembly may allow the pacifier and associated tubing to be disconnected without loss of breast milk when the baby is not feeding.

The present invention relates to a feeding bottle device (100) comprising at least one air vent valve (140) for allowing the passage of air from outside the feeding bottle device (100) to within a container volume (125) when the feeding bottle device (100) is assembled, a confined volume forming component (150) for defining a confined volume (155) within a container volume (125) of a container component (120) of the feeding bottle device (100), wherein the confined volume (155) is configured to provide a controlled opening (165) for air entering through the air vent valve (140) into the container volume (125), and an optional duct forming component (170) for forming a guidance duct (175) from the at least one air vent valve (140) to the confined volume (155). The feeding bottle device (100) reduces the risk of colic-like symptoms for an infant.