This disclosure relates to tracking blood glucose levels and other information for the management of medical conditions.
Managing a patient's blood glucose levels can be challenging. Generally, a patient must provide a blood sample to a meter multiple times each day and must self-assess based on the blood glucose measurements and associated trends, along with other factors he/she thinks may be influencing the measurements. The patient typically provides the blood sample by lancing his/her finger (or other body part) with a lancing device, applying the blood sample to a separate test strip, and introducing the test strip to the meter—three separate components are required. This arrangement often means patients are less likely to test their blood glucose levels as often as recommended and that any conclusions drawn from the measurement are based on incomplete information. Moreover, it can be difficult to provide relevant blood glucose information to others for whom accessing such information may be beneficial.
Embodiments described herein enable more effective management of diabetes. A diabetes management application running on a patient's mobile device can strategically prompt the patient to take one or more specific actions (e.g., take a blood glucose measurement, take in insulin and/or carbohydrates, exercise, etc.) to manage his/her blood glucose. The prompts can be triggered in the diabetes management application based on a variety of factors, such as information in the mobile device or accessible by the mobile device that bears on the patient's diabetes or management thereof.
In some embodiments, the diabetes management application receives a blood glucose measurement from the patient via an associated blood glucose monitor and collects context-related information corresponding to the blood glucose measurement. The context-related information can shed light on what the patient was doing in the time surrounding the blood glucose measurement. The context-related information can, in some cases, provide the historical backdrop for the patient and the blood glucose measurement. The diabetes management application can package the blood glucose measurement together with the context-related information for further investigation and analysis. In many embodiments, the diabetes management application can provide the packaged blood glucose measurement and context-related information to a remote server for storage and analysis by others.
In some embodiments, the remote server can receive diabetes information from a variety of patients in many different environments. In embodiments in which the server receives packages of blood glucose measurements and context-related information from patients, the server can categorize the patients into diabetes risk categories. In preferred embodiments, the diabetes risk categorization can be based on blood glucose measurements, the frequency with which patients provide blood glucose measurements, and various context-related information. A caregiver can instruct the server to display information associated with all the patients for whom he/she is providing care or only information associated with a selected subset of patients (e.g., only patients in a certain diabetes risk category). The server can also monitor trends, such as when a patient moves from one diabetes risk category to another or moves specified degrees within a diabetes risk category.
In many embodiments, patients can measure their blood glucose levels using a single piece of equipment: a blood glucose monitor coupled to a mobile electronic device. The blood glucose monitor can wirelessly communicate blood glucose measurements to an application on the mobile device, and the blood glucose measurements can be displayed to the patient on the mobile device. In many embodiments, the diabetes management application can perform a variety of analyses on the blood glucose measurements. The diabetes management application can ask the patient context-related questions based on one or more of the analyses it performs. In some embodiments, such questions can be posed to the patient in a manner that allows the patient to provide answers easily (e.g., via yes/no slider bars). In many instances, information from patients' answers to such context-related questions can lead to more robust conclusions concerning management of the patients' blood glucose levels. In some embodiments, the diabetes management application can provide incentives to the patient to encourage the patient to test their blood glucose levels as often as recommended. In some embodiments, the diabetes management application can provide educational information to the patient to help inform ongoing blood glucose management.
Embodiments described herein enable communication between the diabetes management application and a wider automated collaborative care system (ACC system). The ACC system can include a server that receives blood glucose measurements and other information from the diabetes management application and provides relevant feedback to the diabetes management application. In some embodiments, analyses of blood glucose information are performed on the diabetes management application, and analyzed information is provided to the ACC server. In some embodiments, the diabetes management application provides un-analyzed information to the ACC server, and the ACC server analyzes the information. In some embodiments, the diabetes management application and the ACC server share analytical responsibility. For example, the diabetes management application or the ACC server or both can determine which context-related questions to pose to a patient based on analyses of the patient's blood glucose measurement information.
Embodiments described herein enable patients to provide relevant information about their blood glucose levels to other interested parties. In some embodiments, patients can authorize healthcare providers and other caregivers (among others) to access their blood glucose information to enhance management of their blood glucose levels. In many instances, the other interested parties can access such information as part of the ACC system.
The following detailed description is exemplary in nature and is not intended to limit the scope, applicability, or configuration of the invention in any way. Rather, the following description provides practical illustrations for implementing exemplary embodiments of the present invention. Examples of constructions, materials, dimensions, and manufacturing processes may be provided for selected elements, and all other elements employ that which is known to those of skill in the field of the invention. Those skilled in the art will recognize that many of the examples provided have suitable alternatives that can be utilized.
Mobile device 20 may include various components or features. Components or features may include hardware, software, and combinations thereof. The scope of components and features on a mobile device will be recognized by those learned in the art. For example, mobile devices may include hardware and software to enable phone calls, SMS services, and cameras. In some embodiments, mobile device 20 includes diabetes management application 30. Mobile device 20 may include one or more of the following: a calendar application; an activity tracking application; a nutrition tracking application; or an image recognition application. Mobile device 20 may include system software, such as an operating system or firmware.
ACC system 1 may include a server 40 of ACC system 1. Server 40 may be remotely located from the mobile device 20. Server 40 may permit ACC system 1 to connect to a number of mobile devices 20 and to a number of provider devices located in remote locations. Server 40 may perform processes that are too complex for a mobile device 20 or require more data than mobile device 20 may reasonably store or access.
In some embodiments, ACC system 1 includes a display 50. Display 50 may comprise a tablet, smart phone, computer, or other device. Display 50 may comprise a browser or application capable of being viewed on a number of different devices. Server 40 may communicate with display 50 remotely.
According to some embodiments, diabetes-related information 300 includes patient-provided answers to a context-related question subset. In some embodiments, the context-related information includes patient-provided answers to one or more context-related questions. In some of these embodiments, the patient-provided answers include an explanation of the previous frequency of blood glucose measurements of the patient. Further information relating to context-related questions are described further herein.
Diabetes management application 30 may include one or more predetermined prompt criteria (400 of
Referring again to
Diabetes management application 30 may make a comparison of the received diabetes-related information 300 to one or more predetermined prompt criteria 400. (240) In some embodiments, diabetes management application 30 may identify a blood glucose management action prompt condition. (250) A prompt condition may be identified based on the comparison of diabetes-related information 300 to predetermined prompt criteria 400. For example, if diabetes-related information 300 includes calendar information and predetermined criteria includes a calendar appointment type, diabetes management application 30 may analyze the received calendar information to determine whether it includes calendar appointments of the specified type.
Diabetes management application 30 may generate a blood glucose management action prompt. (260) A prompt may be based on the blood glucose management action prompt condition. In some embodiments, diabetes management application 30 presents the blood glucose management action prompt to a patient via the user interface of a mobile device 20. (270) The blood glucose management action prompt may comprise a prompt to take a blood glucose measurement, a prompt to take in carbohydrates, a prompt to take in insulin, a prompt to exercise, or any combination thereof. Prompts may be presented using a prompt tone based on patient age or maturity level. Using different tones based on the patient may be utilized to increase patient engagement.
In some embodiments, ACC system 1 can collect context-related information 700 concerning the blood glucose measurement. (520) The context-related information can provide context for the corresponding blood glucose measurement, which can allow for more informed diabetes management decisions and actions, along with better overall diabetes care. Context-related information 700 may be collected with the diabetes management application 30. Diabetes management application 30 may collect context-related information 700 from a variety of sources, including by using components and functions of mobile device 20.
According to some embodiments, context-related information 700 includes patient-provided answers to a context-related question subset, or combinations thereof.
ACC system 1 may select a context-related question subset from a context-related question set. (800) Selection may be performed by diabetes management application 30. In some embodiments, a context-related question subset is selected based on the received blood glucose measurement of the patient. In some embodiments, a context-related question subset is selected using a frequency of receiving blood glucose measurements of the patient. A context-related question subset may be selected based on a time of day of the received blood glucose measurement, or in some embodiments, based on previous answers to context-related questions and/or previous blood glucose measurements. (810)
Context-related questions may include health- and behavior-related questions. Context-related questions may include questions related to the diet, behavior, health, and/or symptoms of the patient. Context-related questions may include questions about the frequency of receiving blood glucose measurements of the patient and/or time of day of the received blood glucose measurement. Examples include:
In some embodiments, the context-related question subset includes a personal question unrelated to health measurements. Questions may be presented using a question tone based on patient age or maturity level. Including questions unrelated to health measurements and using different tones based on the patient may be utilized to increase patient engagement.
Personal questions may relate to activities or items that the patient enjoys. For example, a question may be presented on whether a user has a pet or has a favorite sports team. Future questions or content may be added based on answers to personal questions. For example, future questions may inquire into a pets name if a patient indicates that he or she has a pet. Similarly, future questions may ask about recent games of a favorite sports team.
The tone of questions may be varied based on the patient's age or maturity level. For example, for young children simple sentence structures may be used and the tone of the questions can become friendlier or more enthusiastic. Conversely, for an older patient or patient who wishes to have a more “removed” experience, formal language and forms of address may be used.
Methods to increase patient engagement are important in the area of diabetes management. One of the most important factors in keeping a patient's diabetes under control is simply ensuring that they continue to monitor their health and blood glucose measurements. Customizing content and language to a patient's needs can assist in keeping patients engaged and interested in tracking their health measures.
ACC system 1 may present the context-related question subset to the patient. (820) The diabetes management application 30 may present the selected context-related question subset to the patient on a user interface of the mobile device 20.
Referring again to
Referring now to
The packaged context-related information 700 and blood glucose measurements of the patient may be provided to a server 40. (540) The diabetes management application 30 may provide the packaged context-related information 700 to server 40. Server 40 may be remotely located.
In some embodiments, mobile device 20 includes or utilizes a user interface.
In many embodiments, each package of patient diabetes information comprises a blood glucose measurement and context-related information 700 of a patient. As is depicted in
In many embodiments, the diabetes management application 30 can send additional information with the context-related information 700 and the blood glucose measurement, such as the time of day, activity level, GPS location, weather, home automation data, shopping lists and other information created by internet connected personal assistants such as Amazon Echo, and other information. In some situations, such additional information can constitute context-related information. This transmission can be via Wi-Fi, telephone connection, or other suitable communication channel. The transmission can be in an encrypted form. The ACC server can verify the transmitted information according to the patient's serial number, index the information to the patient, and store the information according to the patient's clinic on server databases. In some systems, the diabetes management application 30 can gather the blood glucose measurement, the context-related information 700, and the above-referenced additional information from the patient and can function independently of any ACC server to help the patient manage his/her blood glucose levels.
In ACC system 1, both the diabetes management application 30 and server 40 can be configured to perform a variety of analyses. The server 40 may compare the packages of patient diabetes information with one or more previously received packages of patient diabetes information. The server 40 may determine a blood glucose measurement frequency for each patient using the comparison.
The server 40 may categorize the plurality of patients into various diabetes risk categories. The categorization of each patient may be based on the patient's package of patient diabetes information, the patient's one or more previously received packages of patient diabetes information, and the patient's blood glucose measurement frequency. The categories may comprise five diabetes risk categories.
Returning to
Server 40 analysis may include projecting an A1C level for at least one patient and presenting the projected A1C level on the display. The A1C level is a measurement used to identify a patient's three month average plasma glucose concentration.
Patient information for at least some of the patients may be presented on a display of the ACC system 1 with the server 40. (910) Patient information displayed may include identity information for the patient, blood glucose measurement information for the patient, and the patient's diabetes risk category.
As
Together,
Referring to
The diabetes management application 30 shown in
One type of display is educational information for the patient on various topics. Examples of such educational information include when or how often to take blood glucose measurements, when or how often to eat or exercise, when or how much insulin or medications to take, and links to additional online health information.
A type of display may include tailored advertisements and coupons related both to specific healthcare items (e.g., drugs, lotions, fitness items, etc.) and to general items (e.g., food products). Advertisements may be based on information obtained from blood glucose monitor 10, such as information that blood glucose monitor 10 has a low number of items used for testing blood glucose levels.
One type of display is rewards.
As shown, the diabetes management application 30 can allow the patient to manage who is able to access his/her account. The diabetes management application 30 can enable the patient to input information on caregivers and grant those caregivers access rights to the patient's information accessible via ACC caregiver software. Upon the patient granting new access rights, the diabetes management application 30 can send the entered information to the server 40, which can store the information. The diabetes management application 30 can offer the patient the option to send invitations to potential caregiver-users. Upon the patient selecting the option to send an invitation, the diabetes management application 30 can send an email or other message to the caregiver with information on how to download the ACC caregiver software.
Referring to
As is discussed further herein, server 40 may be able to provide information to a variety of users. In some instances, the server 40 can provide information to a patient only if a predetermined condition is met—e.g., if a blood glucose measurement is above a certain threshold. In some instances, the ACC server can provide information to a patient whenever analysis is completed—e.g., full blood glucose measurement information can be provided to the diabetes management application 30 or software of a patient's healthcare provider after each analysis.
As shown, server 40 can provide information to the patient. The patient can receive information when a number of different conditions are met. If server 40 determines that reward conditions (discussed in greater detail elsewhere herein) are met, server 40 can send a message to the patient's diabetes management application 30 or send a text message to the patient's phone number stating that the patient has met a goal or achieved a reward. In some instances, server 40 can send messages to the patient's diabetes management application 30 or send a text message offering incentives for encouraging behavior changes. In some instances, server 40 can send content for the diabetes management application 30 to display advertisements, coupons, and educational materials, as discussed elsewhere herein. In some instances, server 40 can be configured to add or delete questions from those stored on the diabetes management application 30, as discussed elsewhere herein.
Server 40 can provide information to healthcare professionals. Such healthcare professionals can communicate with server 40 via ACC healthcare professionals software. The server 40 can send healthcare professionals clinical patient data, including test results, time of day, and other information. The server 40 can send healthcare professionals a message when a patient has received a health alert from the ACC system 1. The server 40 can analyze the data collected from all of a healthcare professional's patients who use ACC system 1 and send information based on the data analysis to healthcare professional. Such information can include recommendations for how healthcare professionals can improve the care available to their overall patient population. The ACC healthcare professionals software can include features to make patient data sortable and presentable according to any of a variety of categories of data (e.g., day of test, answer to specific questions, time of test, etc.).
The server 40 can send healthcare professionals various messages. Such messages can include coaching tips and explanations of individual patient data and blood glucose measurements for the healthcare professional to convey to the patient's diabetes management application 30. Such messages can include other information for healthcare professionals to convey to patients. In some instances, server 40 can provide a healthcare professional tailored advertisements and coupons. The server 40 can inform healthcare professionals of trends related to total patient population care and related tips on caring for the healthcare professional's overall patient population. In some instances, server 40 can provide alerts on which patients need additional care, along with printouts to aid in appointments and research study analysis.
As shown, server 40 can provide information to caregivers (e.g., through ACC caregivers software). Such information can include coaching tips and messages for the caregiver to relay to the patient. In some instances, the caregiver can relay messages to the patient via direct messages that are viewable in the patient's diabetes management application 30.
The server 40 can provide information to payers (e.g., via ACC payers software). The server 40 can be configured to analyze overall patient data to generate subscriber population trends and analysis and can send such information to the payer. In some instances, server 40 can compute comparisons of patient populations by clinic or by healthcare provider and can send such comparison information to the payer. In some instances, server 40 can send messages to the payer related to research study analysis.
As shown, server 40 can provide information to various business entities. For example, an ACC administrator or other business can access information from the ACC server to conduct market analysis. An ACC administrator or other business can generate and deliver prompts to patients (e.g., supplies based on tests completed by the patients). In some instances, an ACC administrator or other business may be interested in learning the level of reward and/or the health success level of patients by population. In some instances, the ACC server can provide information.
The server 40 can provide information to government entities. The server 40 can be configured to analyze overall patient data to generate subscriber population trends and analysis and can send such information to a government entity. In some embodiments, server 40 can be configured to compute comparisons of patient populations by clinic or by healthcare provider and can send such comparison information to a government entity. In some instances, server 40 can send messages to the payer related to research study analysis.
The diabetes management application 30 and ACC software can allow in-app/in-software messaging between the patient and other users.
In the foregoing detailed description, the invention has been described with reference to specific embodiments. However, it may be appreciated that various modifications and changes can be made without departing from the scope of the invention as set forth in the appended claims. Thus, some of the features of preferred embodiments described herein are not necessarily included in preferred embodiments of the invention which are intended for alternative uses.
This application is a continuation of U.S. patent application Ser. No. 16/523,278, filed Jul. 26, 2019, which is a continuation of U.S. patent application Ser. No. 15/149,119, filed May 7, 2016, which claims the benefit of U.S. Provisional Application No. 62/158,953, filed May 8, 2015, the entire contents of all of which are incorporated herein by reference.
Number | Date | Country | |
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62158953 | May 2015 | US |
Number | Date | Country | |
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Parent | 16523278 | Jul 2019 | US |
Child | 17306183 | US | |
Parent | 15149119 | May 2016 | US |
Child | 16523278 | US |