An apparatus for heating beverages is disclosed. The apparatus includes a base and a container for holding liquids. The base has a heater plate that is heated by one or more heater elements attached to the heater plate. A power source in the base provides electricity to the heater elements. The base is removably attachable to the container. The container has an inner cup that sits inside a chassis. The inner cup is made of metal and has an open top for receiving liquid, a circumferential wall, and a closed bottom. The chassis has an open top for receiving a liquid, a circumferential wall, and an open bottom. When the container is attached to the base, the closed bottom of the inner cup is configured to contact the heater plate and receive heat from the heater plate.

A self-warming bottle assembly includes a bottle that may contain a fluid. The bottle has a chamber that is fluidly discrete from an interior of the bottle. A warming media is positioned within the chamber. Thus, the warming media selectively warms the fluid in the bottle. A sleeve is removably positioned around the bottle and the sleeve may be manipulated. The sleeve inhibits the warming media from warming the fluid.

A device for heating and concomitantly administering a liquid includes a body having at opposite ends a base and a neck connectable to liquid suction means, and liquid heating means. The body has an inner housing configured to receive and completely enclose a liquid container. The inner housing has fluidic connection means. The neck has one or more tubes adapted to fluidically connect the fluidic connection means to the liquid suction means. The liquid heating means are adapted to heat at least partially the one or more tubes, and the fluidic connection means have one or more sharp spouts for puncturing of a predetermined region of the liquid container and for fluidic connection to the liquid container. A liquid container and a sanitizing system of the device are also provided.

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.

A beverage formula container for use with a beverage receptacle, the beverage formula container including a container body extending from a first open end configured for dispensing a beverage to a second open end configured for attachment to a beverage receptacle body of the beverage receptacle, the container body including a flared section and an at least partially deformable section in proximity of the flared section and a sealing member configured to be inserted into the second end so as to sealingly engage an inner surface of the container body proximate the flared section so as to form a chamber between the sealing member and the first end, the chamber being configured to receive beverage formula therein, and wherein deformation of the deformable section allows the sealing member to disengage the inner surface of the container body and pass through the flared section and the second end, thereby releasing beverage formula through the second end into an attached beverage receptacle body.

A nursing simulator system, includes a nursing body with a torso and a plurality of limbs; an access panel; a bladder with nipple attachment points that protrude through apertures in the nursing body; nipples that attach to the nipple attachment points; and a thermostat controlled heating system with a heating element, a temperature display, and control buttons. The limbs are flexible and adjustable, such that the limbs are positionable to hold a nursing infant.

A container assembly includes a container body, a container capable of being received within the container body, and a collar. The container body includes an upper end having a first compression surface. The container includes a first flange configured to engage the first compression surface. The collar is capable of being releasably secured to the container body. The collar includes a second compression surface. A dispensing portion includes a second flange configured to engage the second compression surface. When securing the collar to the container body, the first compression surface engages the first flange and the second compression surface engages the second flange to cause the first flange to sealingly engage the second flange.

Described herein are inserts for reducing sloshing in a bottle. The insert may be integrally formed in an outer shell of the bottle or removably insertable into the outer shell. The insert may include an elongate body extending between a first end opposite a second end; and an aperture defined by the elongate body and extending longitudinally through the elongate body between the first and second ends. The elongate body has an uncompressed state when removed from an outer shell and a compressed state when positioned in the outer shell. A diameter of the elongate body in the compressed state is less than or equal to a smallest diameter of the liquid retention compartment. The insert has a durometer between about 40 A and about 70 A. A volume of the insert is less than about 10% of a volume defined by the outer shell. The insert includes a compressible mesh material.