RECORDING OPENINGS AND CLOSINGS

Technical Field

The present invention pertains to a reusable watertight medicine cap. In particular, the reusable watertight medicine cap includes means for detecting and recording the opening and closing of the cap. More particular, there may be included compliance means for motivating the user to comply with medication instructions. Background

Medication vial and bottle caps are widely used in the containment of tablets, capsules, powders, liquids and other medication forms. It is widely accepted that patients are poorly compliant in taking medication according to the recommended dosing schedule, and that such noncompliance can have serious consequences for the patient's health. Further, it is known that one large component of patient noncompliance is forgetting. Patients simply get too busy and fail to follow the medication schedule.

The idea of having a medication vial cap to remind patients to take their medication on schedule is well known. Basic to the reminder function is the requirement to monitor openings and closings of the vial as a means of inferring the patient's compliance with the prescribed regimen. This in turn requires a means of determining when the vial cap is removed. Such means are widely taught in the form of switches that determine when the cap is removed. Such switches are typically integrated into or applied to the cap. Devices to determine bottle openings and closings are typically mechanical or electromechanical, and require means integrated in the cap to detect rotation of the cap relative to the vial. There are limitations to such devices in that they are complex, expensive to manufacture, and are not robust having limited number of open-close cycles due to their mechanical nature and moving parts. A further limitation is that most such caps are limited to the containment of capsules, tablets and other compressed solid formats and cannot be used for powders or liquids. Vial and bottle caps generally comprise a screw-on component that houses an internal seal. Those designed to monitor patient compliance typically have two parts to the shell the upper of which contains the required electronics and is attached atop the lower component housing a snap-in clear plastic insert with screw threads for connecting to the vial and a sealing surface. Because of the requirement for a means of detecting the rotation of the cap relative to the vial and the interference of such means with the integrity of the cap's insert and/or sealing surface, such caps are not suitable for vials of liquids or powders due to the possibility of leakage.

SUMMARY OF THE INVENTION

In accordance with one aspect of the present invention there is provided a cap having sealing means for engaging a rim of a bottle opening and detection means for detecting the presence or absence of the bottle opening within the cap. The cap also may comprise electronic circuitry for controlling operation of the cap.

In accordance with another aspect of the present invention there is provided a cap wherein the detection means comprises a transmitter and a receiver located on opposing internal sides of the cap.

In accordance with another aspect of the present invention there is provided a cap wherein the detection means comprises at least two metal plates located on opposing internal sides of the cap and forming a capacitor therewith.

In accordance with another aspect of the present invention there is provided a cap wherein the detection means periodically polls for detection of the presence or absence of the bottle opening. In accordance with another aspect of the present invention there is provided a cap wherein the receiver periodically polls for a signal from the transmitter. In another aspect, the electronic circuitry periodically polls for a change in capacitance across the at least two metal plates.

In accordance with another aspect of the present invention there is provided a cap further comprising an alert to indicate full closure of the cap on the bottle opening.

In accordance with another aspect of the present invention there is provided a cap further comprising a switch to detect downward pressure. In a further aspect, detection of downward pressure by the switch initiates polling for the detection of the presence or absence of the bottle opening.

In accordance with another aspect of the present invention there is provided a cap wherein the electronic circuitry comprises a computer readable medium storing statements and instructions thereon that when executed by a processor track compliance of a user. In a further aspect, compliance means motivate the user to comply with medication instructions. In yet a further aspect, the compliance means further comprises one or more of a numeric display, a pattern of LEDs, a pattern of LCDs, a colour change of an OLED, or a display of symbols. In again a further aspect, the compliance means warns the user of non-compliance through alert means.

In accordance with another aspect of the present invention there is provided a cap further comprising transmission means to transmit data pertaining to compliance of the user to an external device. In a further aspect, the external device is selected from the group consisting of a tablet, a smart phone and a computer. In yet a further aspect, the transmission means is selected from the group consisting of a USB, a wired protocol, a wireless protocol, Wi-fi and GSM. In accordance with another aspect of the present invention there is provided a cap wherein the sealing means comprises an interior insert having screw threads that mate with screw threads on the bottle opening. In a further aspect, the electronic circuitry further comprises a power source and a memory for storing compliance data.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 shows a cross-sectional view of a cap in accordance with the present invention; Figure 2 shows a top view of the cap;

Figure 3 shows a front view of the cap; and

Figure 4 shows a bottom view of the cap.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

The present invention relates to a cap that detects openings and closings of any standard medication vial or bottle without recourse to mechanical or electromechanical switches, while providing a watertight seal for the contents.

The cap is self-contained, has no electromechanical moving parts, has a high degree of reliability and is therefore robust in terms of use cycles, and does not interfere with the sealing and resealing of the vial or bottle when the cap is replaced thus allowing for use with liquid or powder contents.

The device comprises a lower plastic housing 2 that contains an industry standard clear or translucent plastic insert 3 having screw threads for attaching to a vial 17 or bottle. The insert snaps into the housing and also has a seal 16 that mates 18 with the rim of the vial 17 when the cap is screwed in place to seal the contents in the vial 17. The cap also has an upper plastic housing with a well 1 in its upper aspect to contain its electronics mounted on a circular PCB 6 shaped to fit snugly in the well 1 by adhesive or friction fit. The electronics may comprise various surface mounted components 9 and may include a power source, CPU 7, memory, and optional display, reminder and control features including but not limited to visual LED 20 (light emitting diode) and OLED (organic light emitting diode), auditory and tactile devices and switches (buttons) 22. For example, the switches 22 enable a user to reset the cap. The well 1 is covered by a snap or glue on cover 4 designed around the desired reminder, display 21 and control features.

In one variant the cap's cover 4 is translucent to allow light indicators to show through or to accommodate an OLED display on its surface.

On the underside of the PCB 6 at the respective extremities of one diameter are mounted an infrared (IR) or other frequency spectrum transmitter 11 and an associated receiver 12. Each of the IR devices communicates with a vertical lightproof tunnel 13 having its aperture 15 located at its lower extremity and facing the other aperture 15 across the neck 19 of the opaque vial 17 or bottle for which it is designed.

When no vial is present between the apertures 15 the IR transmitter's signal can cross from the transmitter aperture to the receiver aperture and thence to the receiver 12. When the cap is screwed on to an opaque vial or bottle the IR beam is interrupted and the receiver 12 does not detect a signal, indicating the bottle closed state.

As power is limited for the self-contained devices, in one embodiment the device saves power by having the IR or other receiver poll the transmitter's signal at intervals the frequency of which is inversely correlated with power use.

In a further variation the CPU interrupts polling if a continuous cap-off pattern exceeds a specified interval. In a further power-saving example the cap incorporates a highly sensitive mechanical vibration sensor to indicate if the cap and vial are being handled or not. If there is no vibration due to handling, the receiver does not poll for a signal, conserving power.

In another embodiment the apertures 15 of the light tunnels 13 incorporate angled reflectors or lenses 14 to focus and enhance the IR beam in the direction of the receiver's tunnel 13 and thence to the receiver allowing for the use of a lower powered IR source. In one embodiment the cap gives a tactile (vibration), visual (LED) or auditory (beep) alert when the cap is fully closed to indicate to the user that it has been reset as closed. In another embodiment the IR or other signal comprises a coded data protocol to prevent spurious opening reports as a result of external light sources.

A further embodiment is designed for child resistant (CR) cap applications that require downward pressure on the cap to open it. A switch (not shown) is incorporated in the cap to detect such opening pressure as a means of inferring an opening event and thus medication usage.

In a further embodiment the CR requiring downward pressure on the cap for opening also functions as a switch to control the CPU's polling. When downward pressure is applied to the cap a switch incorporated in the cap turns on the polling process. This avoids unnecessary polling and thus power consumption when the cap is not in active use.

In another embodiment the cap housing has two identical curved conductive metal plates 23 attached at the internal extremities of one diameter. The plates form a capacitor with the vial or bottle neck 19 acting as a dielectric. Removing the cap 24 from the bottle changes the capacitance which change is detected and recorded as an opening event by the CPU.

In one embodiment the cap's CPU is programmed with dosing intervals or other pharmacokinetic (PK) information. The use data collected by opening events are compared to the PK data to determine the extent to which the use data are consistent with the PK data.

In a further embodiment the cap's CPU is programmed with an algorithm to track the patients compliance and the cap can display this by way of motivating the patient's behavior as, for example, continually updating, rating and displaying the patient's medication-taking level of compliance.

In a further example, the cap can display compliance data numerically, by patterns of LEDs or LCDs (liquid crystal display), by colour changes via OLEDs and/or by symbols or other means.

In another embodiment the cap's CPU is programmed to continually compare the most recent opening to previous openings using a dynamic algorithm and to compare the patient's compliance pattern to a preprogrammed ideal PK pattern. Using regression analysis or other widely taught trend analytical techniques the CPU develops a dynamic algorithm to predict problematic trends in the patient's compliance. Warnings can then be provided using the cap's output visual, auditory or tactile devices to alert the user to maladaptive medication-taking trends and potential problems.

In another embodiment the cap is additionally equipped with the ability to be plugged into a computer using USB or other wired protocol. The compliance data can be summarized and displayed in graphic format to motivate the patient. In a further embodiment, the cap incorporates means of emitting an RF signal that permits communication with an external smart device such as a tablet or phone using RFID, Bluetooth, NFC, sigFox, qual2 or other data transmission protocol. These devices can be used to display reminders, compliance summaries or other information via apps. In a further embodiment the cap can incorporate the ability to communicate by GSM

(Groupe Special Mobile) to devices which can be used to display reminders, compliance summaries or other information via graphic user interfaces or apps.

In a variant, other parties of interest other than the user may be given permission to access the cap's data via apps on smart devices or computers in the interests of monitoring the user's compliance with prescribed medication and detecting maladaptive patterns of use.

In another embodiment the cap can communicate wirelessly by Wi-Fi or GSM to an app forming part of a larger iHealth network from which the user and her designate(s) can access the data to receive motivational feedback and warnings about maladaptive medication-taking patterns and assessing the need for early intervention to prevent health deterioration. The cap is reusable and can be returned to the pharmacy for reuse or retained to be reused on a subsequent refill of the same medication for the same patient. Any power source (e.g. battery 8) can be replaced as required.

It will be appreciated by one skilled in the art that variants can exist in the above- described arrangement and application of the cap. The specific examples provided herein relate to a reusable watertight cap for a medication vial or bottle without recourse to a mechanical switch; however the materials, methods of application and arrangements of the invention can be applied to other types of packaging and contents. The scope of the claims should not be limited by the preferred embodiments set forth in the examples, but should be given the broadest interpretation consistent with the description as a whole.