A system for storing breast milk includes a container having a top opening and a bottom recess extending into an interior of the container towards the top opening. A container cap is configured to attach to the container and cover the top opening. The container cap includes a probe thermometer having a sensing tip positioned above the bottom recess when the container cap is attached to the container. A non-insulated cooling base has a protrusion configured to mate within the recess when the container is resting on the base. An insulated shell assembly includes a top and bottom configured to connect to each other, wherein the shell assembly is configured to at least partially encapsulate the container, the container cap and the cooling base.

A combined infant feeding and pacifier retention device is an apparatus used to retain and distribute breastmilk or other fluids. The apparatus is also configured to store a pacifier for selective use. The apparatus comprises a liquid retention chamber, a pacifier retaining mechanism, and a feeding spout. The liquid retention chamber is a contained volume that enables transportation of inserted liquids, particularly milk or breastmilk. The pacifier retaining mechanism is a unit that enables storage of any of a variety of pacifiers. The feeding spout is a unidirectional valve that enables fluid transfer from the liquid retention chamber. The feeding spout is preferably made of any of a variety of soft, bisphenol A-free (BPA-free) materials that effectively operates when utilized as a mouthpiece for an infant. The general configuration of the aforementioned components allows the apparatus to efficiently and effectively store and distribute fluids to users.

The Orbit Baby Bottle Measurement comprises a diagonal measurement of the liquid within a feeding apparatus while said apparatus is in an angled position. Upon the feeding apparatus being diagonal, angled, or otherwise tilted, the volume measurement markings on the bottle align with the liquid therein, to provide accurate measurement of the remaining contents without the bottle needing to be in the upright position.

The Orbit Baby Bottle Measurement comprises a diagonal measurement of the liquid within a feeding apparatus while said apparatus is in an angled position. Upon the feeding apparatus being diagonal, angled, or otherwise tilted, the volume measurement markings on the bottle align with the liquid therein, to provide accurate measurement of the remaining contents without the bottle needing to be in the upright position.

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.

The present invention is directed to systems, apparatuses, computer readable media, and methods implementing a wirelessly-enabled liquid container that can be remotely and dynamically configured to facilitate use-based messaging for a particular consumer of the contents of the liquid container. By way of example, a wirelessly-enabled baby bottle is provided that can be dynamic configured to facilitate use-based educational messaging for a particular child consumer of the contents of the liquid container.

The present invention is directed to systems, apparatuses, computer readable media, and methods implementing a wirelessly-enabled liquid container that can be remotely and dynamically configured to facilitate use-based messaging for a particular consumer of the contents of the liquid container. By way of example, a wirelessly-enabled baby bottle is provided that can be dynamic configured to facilitate use-based educational messaging for a particular child consumer of the contents of the liquid container.

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.

A feeding bottle includes a bottle enclosure defining a hollow bottle chamber, wherein the enclosure defines a feeding outlet at a first end and an attachment structure 26 at a second end. A bottom housing defines an instrument compartment extending between a closed exterior portion of the bottom housing and a separation surface within the bottom housing, wherein the bottom housing is configured for detachable connection to the attachment structure 26 of the bottle enclosure. A relief valve is positioned within the separation surface of the bottom housing. A pressure sensor is positioned adjacent the separation surface of the bottom housing and connected by a passageway to the instrument compartment in the bottom housing, wherein the pressure sensor is configured to detect changes of pressure in the bottle enclosure.

The production of a protein free synthetic polyisoprene which has both low levels of chemical impurities and good physical properties has yet to be realized. It has now been envisioned that the use of neodymium catalyzed polyisoprene will offer the combined advantages of both a clean, as well as, high cis-1,4 polymer. Synthesis of polyisoprene rubber using a neodymium based catalyst system is described. Characterization of the material shows the absence of an ultra high molecular weight fraction and the presence of very high cis-1,4-microstructure. Gum stock and black filled compound studies comparing neodymium polyisoprene with natural rubber, titanium polyisoprene, and lithium polyisoprene have been performed. Results indicate that polyisoprene rubber synthesized using a neodymium catalyst system (NdPI) has similar stress-strain and tear properties as synthetic titanium polyisoprene. Analysis of residual volatile, extractable, and oligomer levels indicates NdPI is indeed a clean source of high cis synthetic polyisoprene.