A portable, reusable medication dispensing assembly which has communication capability to improve medication adherence is disclosed. An electromechanical apparatus sequentially delivers dosage form packages from a compartment in a housing to a dose-ready area in the housing. A microprocessor-based controller is reprogrammable with contact and prescription data. The controller controls the electromechanical apparatus to sequentially deliver the dosage form packages at prescribed times or time intervals to the dose-ready area based on the prescription data. The controller generates and stores a set of event data based on when the dosage form packages are ready to be released in the dose-ready area and whether and when the dosage form packages have been released in the dose-ready area. Communication apparatus is capable of wirelessly transmitting the event data via a publicly-accessible network to a remote database and to wirelessly transmit event notifications via the network based on the prescription and contact data.

A tamper-proof container for medication that enables self-destruction of contents upon tampering comprising an outer housing having a lid that permit insertion of pills, an inner medication chamber for holding discrete quantities of said pills, a dispensing section to provide timed dispensing of pills from said inner medication chamber according to a timing device preprogrammed according to a dosage regime, a pill destruction section to destroy and/or adulterate said pills upon activation, a pressurized double-walled bladder forming an annular chamber surrounding the medication chamber, and medication destruction section being operative to depressurize and activate destruction of pills upon tampering with the device.

A dispenser (10) including a base (12) having a plurality of compartments (16) to hold product. The dispenser (10) further includes a lid (14) operatively associated with the base (12) and adapted to be pivotally secured to the base (12). The lid (14) includes a lid opening (24) which is adapted to be aligned with a single compartment (16) of the base (12) upon rotation of the lid (14) so that a user can access product held within the single compartment (16). The dispenser (10) includes aa sub-lid assembly (38) operatively adapted to control pivotal movement of the lid (14) relative to the base (12) thus controlling access to the compartments (16).

An apparatus and method for holding a container comprising of a carriage and timing mechanism. The apparatus is comprised of a lever with at least two positions relative to the carriage, a timer, and a timer reset mechanism such that when the lever is in the first position, the timer will start counting time. When the lever is moved to the second position, the timer reset mechanism will modify the timer such as by resetting the amount of time that has been counted. The user thus knows how much time has passed since the user last changed the position of the lever.

A controlled dosing container can include a container body having an interior volume. The interior volume can be divided into individual dosing volumes sized to receive a unit dose by a divider. The container can further include a rotatable inner cap fixed to the container body. The rotatable inner cap can have an opening sized to allow a unit dose to be dispensed there-through and adapted to rotate such that the opening is aligned sequentially with each dosing volume on a fixed dosing schedule.

A point of care device for securely dispensing medication includes an enclosure sized to contain medication containers, a holding element accessible from outside the enclosure to receive medication containers from the enclosure, a dispenser to dispense medication from the enclosure to the holding element, and a securable panel configured to provide access to the enclosure for retrieval or replenishment of the medication containers within the enclosure, and a computing device operable to control the dispenser to dispense medication to the holding element based on various conditions. Specifically, the point of care device can be configured to dispense medication based on detecting that an authorized user is accessing the device, based on a timer in conjunction with known medication regimen, or based on patient or physician demand, or based on biometric information concerning the user.

A bin assembly, bin identification system and method are disclosed. A container bin assembly includes a bin body, a latching mechanism, and controller. A method includes receiving, via a communication interface, an authenticated request to access the smart container, actuating an electromechanical latch to disengage a fastening hook, thereby initiating a mechanical movement of an access component to make an internal compartment accessible, outputting, via an audiovisual element, an alert to identify the container, confirming that the electromechanical latch has re-engaged with the fastening hook, thereby securing the internal compartment, determining a change in a local inventory, and updating the local inventory in a non-volatile data store according to the change.

Methods, systems and apparatuses are provided for controlling and tracking patient access to medicaments. A patient is provided with medication in locked pill containers that must be unlocked before the patient can access medication. The patient is forced through an interactive session periodically with a master system, via a communicative intermediary, in order to obtain a valid passcode for each batch of medications. The patient may be assessed during each interaction with the master system. That assessment may include questions about status codes displayed on each medication container. These status codes may encode detail about the patient's pattern of accessing medication. A rate of medication usage can also be deduced from the rate at which the patient contacts the master system. After patient assessment, the master system may elect to not provide the patient with an access code, such as if the assessment indicates overuse of the medication.

Dispensing devices and systems for oral transmucosal administration of small volume drug dosage forms to the oral mucosa are provided. The dispensing device may be a single dose applicator (SDA), or an electromechanical device comprising a means for patient identification such as a wrist worn RFID tag and annular bidirectional antenna together with a lock-out feature.

Methods and apparatuses for opioid overdose prevention are described. The apparatus comprises a memory and at least one processor coupled to the memory. The processor is configured to receive one or more measurements related to one or more vitals of a user, and cause, based on the one or more measurements, administration of a first dose of an overdose prevention medication to the user.