A nipple-shield mounted sensor with associated electronic interface and interconnect for measurement and display of milk flow and volume during breastfeeding. The sensor is mounted in the tip of the nipple-shield in order to minimise intrusion between mother and child. The dimensions of the sensor and associated cabling are such that the device does not appear substantially different to a nipple-shield alone, thereby having minimal impact on the feeding session. Microlitre flow levels are measured directly by the sensor in order to relay accurate, real-time information on milk volume back to the feeding mother. The electronics unit amplifies the sensor input and digitally processes the data with software algorithms to determine the fluid volume.

Devices for controlling delivery of a breast milk supplement are described which include a housing sized for placement on a surface near a breast region of a lactating female, the housing including one or more supplement reservoirs, at least one of the supplement reservoirs including a port with a controllable valve, a data storage component including a breast milk supplement regimen, and a control unit including a microprocessor and circuitry, the control unit operably coupled to the data storage component and to the controllable valve, the circuitry including actuation circuitry configured to actuate the controllable valve based on the breast milk supplement regimen; and at least one delivery tube having a first end and a second end, the first end of the at least one delivery tube in fluid communication with the port, the second end of the at least one delivery tube configured for placement in proximity to a nipple of the lactating female.

Devices for controlling delivery of a breast milk supplement are described which include a housing sized for placement on a surface near a breast region of a lactating female, the housing including one or more supplement reservoirs, at least one of the supplement reservoirs including a port with a controllable valve, a data storage component including a breast milk supplement regimen, and a control unit including a microprocessor and circuitry, the control unit operably coupled to the data storage component and to the controllable valve, the circuitry including actuation circuitry configured to actuate the controllable valve based on the breast milk supplement regimen; and at least one delivery tube having a first end and a second end, the first end of the at least one delivery tube in fluid communication with the port, the second end of the at least one delivery tube configured for placement in proximity to a nipple of the lactating female.

The present invention relates to a system device and method for monitoring infant oral motor kinetics (OMK), which can be used to assess the functional significance of the different sucking components, i.e., the plasticity of infant sucking skills in relation to their oral feeding performance, at a particular time, during the developmental period and/or during preventive or therapeutic intervention programs. It is a unique system and apparatus that provides a means to study the nonnutritive and/or nutritive sucking skills, i.e., the Suction and/or Expression components of sucking, of infants in the natural setting, i.e., during a normal feeding session. OMK sensors, tracked in real-time by the monitoring system, include miniature pressure transducers, or pressure sensitive pads, attached to the nipple for measuring intraoral pressure pulses during Suction, and for measuring compression/stripping pressure pulses during Expression; and a miniature flow sensor for measuring fluid flow rate, which can be integrated over time to determine the volume of milk removed (bolus) per suck. Other signals, such as respiration, swallowing, thermal, optical, and acoustic signals can be recorded and compared along with the instrumented-nipple signals, in an OMK monitoring system.

The present invention relates to a system device and method for monitoring infant oral motor kinetics (OMK), which can be used to assess the functional significance of the different sucking components, i.e., the plasticity of infant sucking skills in relation to their oral feeding performance, at a particular time, during the developmental period and/or during preventive or therapeutic intervention programs. It is a unique system and apparatus that provides a means to study the nonnutritive and/or nutritive sucking skills, i.e., the Suction and/or Expression components of sucking, of infants in the natural setting, i.e., during a normal feeding session. OMK sensors, tracked in real-time by the monitoring system, include miniature pressure transducers, or pressure sensitive pads, attached to the nipple for measuring intraoral pressure pulses during Suction, and for measuring compression/stripping pressure pulses during Expression; and a miniature flow sensor for measuring fluid flow rate, which can be integrated over time to determine the volume of milk removed (bolus) per suck. Other signals, such as respiration, swallowing, thermal, optical, and acoustic signals can be recorded and compared along with the instrumented-nipple signals, in an OMK monitoring system.

A breast flange has a cup portion shaped to receive a lactating female breast, a funnel portion coupled to the cup portion and shaped to receive areola and nipple regions of the lactating female breast and to be in contact with the areola region, and a neck portion coupled to the funnel portion and configured to be coupled directly to a breast pump fitting. At least the funnel portion is made of a pliable and resilient material, the material having a thickness. The funnel portion has a set of windows, each window defined by a reduction in thickness of the material and configured to deflect in the presence of suction so as to mimic action of a tongue of a nursing baby.

A breastshield unit for use in a device for expressing human breastmilk employing underpressure with a breastshield body and a media separation device which separates expressed milk from an underpressure source arranged in the breastshield body, the media separation device having a through-channel which connects first and second openings of the breastshield body. The through-channel has a through-opening, which is enlargeable when subjected to an underpressure from outside. The through-opening is formed by walls which, when subjected to an underpressure from outside, are movable away from each other, largely without stretching, in order to enlarge the through-opening. The breastshield unit permits media separation with minimal dead volume, and with optimized comfort for the mother.

A hands-free breast pump system is disclosed. A breast shield having an adhesive inner surface for adhering to a woman's breast is disclosed. The breast shield may be connected to an adapter for transferring a vacuum generated by a pump to the breast. The adapter also allows milk expressed from the breast to drain from the adapter to a container. In the alternative, the breast shield may form part of a breast shield adapter system which is connected to a conventional breast shield by a drain line so that a conventional breast pump system is used to supply a vacuum and to collect the milk.

A hands-free breast pump system is disclosed. A breast shield having an adhesive inner surface for adhering to a woman's breast is disclosed. The breast shield may be connected to an adapter for transferring a vacuum generated by a pump to the breast. The adapter also allows milk expressed from the breast to drain from the adapter to a container. In the alternative, the breast shield may form part of a breast shield adapter system which is connected to a conventional breast shield by a drain line so that a conventional breast pump system is used to supply a vacuum and to collect the milk.

The present invention relates to a system device and method for monitoring infant oral motor kinetics (OMK), which can be used to assess the functional significance of the different sucking components, i.e., the plasticity of infant sucking skills in relation to their oral feeding performance, at a particular time, during the developmental period and/or during preventive or therapeutic intervention programs. It is a unique system and apparatus that provides a means to study the nonnutritive and/or nutritive sucking skills, i.e., the Suction and/or Expression components of sucking, of infants in the natural setting, i.e., during a normal feeding session. OMK sensors, tracked in real-time by the monitoring system, include miniature pressure transducers, or pressure sensitive pads, attached to the nipple for measuring intraoral pressure pulses during Suction, and for measuring compression/stripping pressure pulses during Expression; and a miniature flow sensor for measuring fluid flow rate, which can be integrated over time to determine the volume of milk removed (bolus) per suck. Other signals, such as respiration, swallowing, thermal, optical, and acoustic signals can be recorded and compared along with the instrumented-nipple signals, in an OMK monitoring system.