Diabetes Mellitus—Digital Solutions to Improve Medication Adherence: Scoping Review

: Medication adherence (MA) is a major problem. On average 50% of chronic disease management medications are not taken as prescribed While digital healthcare tools like mobile apps offer beneﬁts such as informative messages and prescription management, they must be personalized and offer support across all medication phases to effectively address individual patient factors and optimize adherence, with room for further improvements. This scoping review examined the impact of digital health technologies on MA in adults with diabetes as well as their beneﬁts and barriers. Using PubMed and Scopus databases, 11 out of 385 studies (2.86%) from January 2017 to August 2023 met the criteria for digital health interventions in diabetes MA, assessed through the Chronic Care Model. The Chronic Care Model (CCM) is a patient-centered, evidence-based framework designed to improve the care and outcomes for chronic illness patients, consisting of six core elements and enhanced by eHealth tools that facilitate self-management and support through digital innovations. The results demonstrate the effectiveness of digital health technology in improving medication adherence among adults with diabetes. Speciﬁc digital interventions, including mobile apps like Gather and Medisafe, SMS text messaging, telemonitoring, and tailored care management have demonstrated effectiveness in enhancing MA. These interventions have shown positive outcomes, including enhanced glycemic control and increased patient engagement. Some of the limitations, which these technologies face, are the poor usability, digital illiteracy among the patients, low rates of sustainability and low accessibility among the elderly population. Digital health technology shows promise in enhancing medication adherence among adults with diabetes, as revealed in this scoping review. However, ongoing research is necessary to ﬁne-tune these interventions for improved outcomes and the overall well-being of individuals with diabetes. Additional improvement of the technologies and adaptation to the diverse population might be a good ﬁeld for exploration.


Introduction
Chronic diseases are the epidemic of twenty-first century.They are common, costly and some of them could be prevented.Primary care providers are looking for new and innovative approaches to prevent chronic diseases.The MedTech industry has been working intensively during the recent years to benefit healthcare with advanced technological solutions.Electronic solutions help patients and physicians in many areas, by controlling physiological indicators, monitoring patient status, improving dosage, enhancing adherence.Self-management, as an important part of chronic illness prevention and management has to include different techniques as this occurs outside the primary healthcare provider.Creating tools to help the individual develop life skills to support self-management will lead to improving the patient outcomes [1].
The Ascertaining Barriers to Compliance (ABC) taxonomy was developed with the aim of systematizing definitions and operationalizations of medication adherence [2].
Medication adherence is the procedure through which patients follow their prescribed medication regimens.It can be broken down into three measurable phases as follows: "Initiation", "Implementation", and "Discontinuation" [3].Medication adherence refers to patients following the prescribed medication's timing, dosage, and frequency, which hinges on their understanding of their health condition and collaboration with healthcare providers [4].The significance of adhering to medication has been acknowledged for a while, yet it was only about 50 years ago that it started receiving proper attention in clinical settings.Originally referred to as "compliance with therapeutic regimen," the concept evolved to "adherence to medication" to emphasize the patient's more active role [5].Over time, it was realized that non-adherence stems from intentional and unintentional factors [6].Implementing the medication adherence concept is delicate; identifying and addressing non-adherence is crucial for enhancing treatment.However, labeling patients as non-adherent doesn't effectively improve adherence rates [4].
Lack of medication adherence (MA) is a common problem, which endangers the effectiveness of healthcare systems.The collaboration of the patients in taking the prescribed medications is highly important for reaching the desired clinical outcomes.While most healthcare systems are able to provide accessible and efficacy medications, the noncompliance remains high [6].
In the International Diabetes Federation (IDF) diabetes Atlas states that 537 million adults (20-79 years) are living with diabetes (1 in 10 persons) and that it is expected to rise to 643 million by 2030 and 783 million by 2045.In Europe 61 million adults are living with diabetes (1 in 11 persons) with the expectation that this number will rise to 67 million by 2030 and 69 million by 2045 [7].
The percentage of diabetic patients who adhere accurately to prescribed oral hypoglycemic therapy varies significantly.Depending on factors like the studied population, treatment plan, and measurement method, the high adherence group can range from 38.5% to 93.1% of patients [8].Several factors influence how well patients with T2DM stick to their medication regimen.The most consistent obstacles to treatment adherence for this condition involve the patient (such as depression and understanding of the disease and treatment), the treatment itself (including experiencing adverse reactions and the complexity of therapy), and the healthcare system (like difficulties in access and high medication costs) [9].
In cases of type 2 diabetes mellitus (T2DM), not taking medication regularly or following the correct schedule harms patients' health.It also raises healthcare costs due to poor control, more medical visits, higher expenses, and increased mortality.Ultimately, it leads to higher outpatient, ER, and hospitalization costs for T2D complications [10][11][12][13].
A systematic review conducted by Cheen and colleagues [14] showed a pooled primary medication non-adherence (PMN) rate of 10% for diabetes mellitus patients, and 12% and 14% for depression and asthma, respectively, which are the lowest compared to 25-43% for newly diagnosed patients with osteoporosis.The lower non-adherence of these patients is a result of the symptoms that are visible after non-compliance to the medication regimen [14].In a study tracking over 11,000 veterans with T2D for at least 5 years, poor medication adherence (with medication possession ratio <80%) was significantly associated with inadequate glycemic control [15].According to the National Health and Wellness Survey involving 1198 patients with T2D, each 1-point decrease in self-reported medication adherence (using the Morisky Medication Adherence Scale) correlated with a 0.21% increase in HbA1c, and increases of 4.6%, 20.4%, and 20.9% in physician visits, ER visits, and hospitalizations respectively [16].
Significantly, poor medication adherence in type 2 diabetes (T2D) has also been tied to higher mortality rates [13].Similarly, Ho et al. found a significant connection between poor medication adherence in T2D and all-cause mortality over time [17].
Simple changes in the lifestyle of individuals could prevent type 2 diabetes.Early diagnosis and prevention could improve the results of the pre-diabetic population.Letting individuals have control over their health and support the self-management of the health with new technologies, would lead not only to the prevention of diabetes but also improve the quality of life [5].
The purpose of this narrative review is to search for evidence for the benefits of the digital health technologies used to improve medication adherence in adults with diabetes.The following questions were asked to guide the review: 1.
Is there evidence that digital health technologies improve medication adherence in adults with diabetes?2.
What are the benefits and barriers of the digital health technology for medication adherence when used by adult patients with diabetes?

Materials and Methods
This scoping review follows five stages: (1) problem identification, (2) literature search, (3) data evaluation, (4) data analysis, and (5) presentation [18].A literature search was conducted to find relevant studies published from January 2017 to August 2023.
For inclusion in this review, studies were required to explore a digital health technology intervention for medication adherence among patients with diabetes mellitus.The inclusion criteria encompassed the following: (1) randomized controlled trials (RCTs) that were peer-reviewed and conducted in English language, employing quasi-experimental, observational, or qualitative designs; (2) studies that involved digital health interventions aimed at enhancing adherence to prescribed medications among individuals aged 18 years or older; and (3) studies that specifically concentrated on diabetes type 1 and T2D.
On the other hand, studies were excluded if they met the following criteria: (1) lack of data regarding medication adherence; or (2) were classified as pilot studies.The process involved evaluating titles and abstracts to determine their relevance.Then, the selected studies were reviewed as full text publications.
In this scoping review, the Chronic Care Model (CCM) was employed to assess the utilization of digital health technology for enhancing medication adherence in diabetes.The MA interventions were categorized according to the CCM.We categorized the various MA interventions based on the components of the CCM.This aligned each intervention with the relevant CCM elements.
The Chronic Care Model (CCM) (Table 1) is a well-established framework focused on compassionate care for chronic illness patients.It emphasizes improving functionality and clinical outcomes.This patient-centered, evidence-based framework aims to reshape outpatient care and enhance healthcare results for those with chronic conditions [19][20][21][22][23].

Chronic Care Model Components Description
Self-management support To empower patients to manage their health and cope with their condition.

Decision support
To promote clinical care that is consistent with scientific evidence and patient preferences.

Clinical information systems
To organize patient and population data to facilitate efficient and effective care.

Delivery system design
To ensure that care is coordinated, proactive, and patient-centered.

Community support
To mobilize community resources to meet the needs of patients.

Health systems
To create a culture and organization that promote high-quality care.
The eHealth-enhanced CCM (eCCM) integrates digital health tools into chronic condition self-management.It assesses digital health innovations, extending beyond the traditional CCM by including eHealth tools and a broader definition of eCommunity, which covers various digital health support and education.The CCM and eCCM are interconnected, emphasizing the importance of eHealth [19].
Each digital technology for MA used in patients with diabetes was analyzed from the perspective of the CCM.

Overview
Of the 385 abstracts, 11 articles (2.86%) that used a digital health intervention to promote medication adherence to prescribed medications for diabetes were selected in full text (Appendix A) and evaluated with the Chronic Care Model (see Table 2).Studies included eight RCTs, and three observational studies.Two studies were conducted in the USA, two in India, two in Spain, one in the United Kingdom, one in China, one in Singapore, one in Saudi Arabia, one in the United Arab Emirates.Medication adherence findings for the intervention and data extraction categories, including the study objective, design, sample, intervention length, and participant age, are included in Appendix A.
Strategies used to improve medication adherence included three primary approaches: SMS text messaging, telemonitoring and/or tailored care management, and web-based software.The subheadings in this section under "Utilization of the Chronic Care Model" consist of progressively interdependent components of the Chronic Care Model that influence patient-centered, evidence-based care and are designed to improve health outcomes by changing the routine delivery of care (ie, self-management support, decision support, clinical information systems, delivery system design, community support, and health systems) [25].
The examined research papers are shown in Appendix A, aiming to classify results according to components of the CCM, facilitating an evaluation of digital health interventions' impact on medication adherence.A summary of CCM elements used in each study is outlined in Table 2 [26][27][28][29][30][31][32][33][34][35][36].The objective of self-management support is to educate patients and families, providing training and health-related guidance to encourage self-care [25].Additionally, the electronic Chronic Care Model (eCCM) introduces 24/7 accessibility, convenience, reminders, and notifications [19].In a study conducted by Kleinman and colleagues [26], a m-Health app-Gather was found to improve medication adherence (39.0% vs. 12.8%;) and increase frequency of blood glucose (BG) self-testing (39.0% vs. 10.3%).The Gather m-Health platform offers a solution for individuals with diabetes, aiding in self-management and results in enhanced diabetes self-management [26].In study by Huang and colleagues [27], the Medisafe app was evaluated and showed that the reduced obstacles to medication adherence in the intervention group.Although no improvement in HbA1c levels was observed, the app facilitated self-management and support in medication management, and it is likely to result in short-term enhancements in medication adherence [27].In a study conducted by Alamer and colleagues [30], one-way automated SMS (OASMS) was assessed to study the effects of diabetes self-care messages delivered through non-tailored one-way automated SMS (OASMS) on managing blood sugar levels in type 2 diabetes).The study results revealed that the baseline HbA1c values were 10.2% in the intervention group vs. 9.9% in the control group.When adjusting for baseline HbA1c levels and age using an ANCOVA model, it was estimated that there was a reduction in HbA1c of −0.97% in favor of the intervention group.The study demonstrated the feasibility of using SMS for self-care messages in managing blood sugar levels, which again showed short-term improvement [29].Similarly, RCT conducted by Katz and colleagues [32], aimed to showcase the effectiveness of the OneTouch (OT) Verio Flex glucose meter when used along with a Spanish-language version of the OT Reveal mobile app.The goal was to enhance diabetes care and enhance blood sugar control within an underserved Hispanic population dealing with type 2 diabetes.Over a period of 12 weeks, the individuals in the test group experienced a notable average decrease in A1C levels of 1.0%, which was considerably larger than the reduction seen in the control group).This improvement in A1C persisted during the following 12 weeks as well.Even those who switched to using the meter and mobile app showed significant enhancements in A1C.The intervention enhanced diabetes care, blood sugar control, and self-management within an underserved Hispanic population [32].Another study conducted by Lee and colleagues [33] evaluated the impact of a mobile application that is integrated with an electronic medical record system, designed for personalized diabetes self-management.The focus of the assessment was on how this app affected glycemic control in individuals with type 2 diabetes mellitus, specifically in terms of self-monitoring of blood glucose levels and making lifestyle adjustments.The main measure of interest was the alteration in HbA1c levels after 26 weeks.Furthermore, the study also examined self-confidence in managing diabetes, engagement in self-care practices, and user satisfaction with the iCareD system after the intervention.The average reduction in HbA1c levels showed a significant decrease in HbA1c levels post-intervention.Furthermore, there was a substantial reduction in average blood glucose levels without an increase in hypoglycemic events The app supported self-monitoring of blood glucose levels and lifestyle adjustments, empowering individuals with type 2 diabetes [33].Another study, an ambispective study (retrospective and prospective) was conducted by Orozco-Beltrán and colleagues [34] to examine how a home-based digital tool for patient empowerment and communication, known as the DeMpower App, impacts metabolic control of individuals with inadequately controlled type 2 diabetes mellitus (T2DM) over a 54-week period.The DeMpower app group showed a noticeable trend towards a higher proportion of patients reaching the study's glycemic target (46% vs. 18%).This trend became statistically significant when considering the target of HbA1c ≤ 7.5% (64% vs. 24%) or HbA1c ≤ 8% (85% vs. 53%).Additionally, improvements in other cardiovascular risk factors, medication adherence, and satisfaction were observed as well.The app empowered individuals with inadequately controlled type 2 diabetes for better self-management [34].Finally, Heald and colleagues [36] conducted a RCT to assess how the Haelum app improved health outcomes and patient quality of life among patients with T2D over a 6-month period as well as if the app improved the patient's engagement levels [36].Over 6 months, the treatment group's average HbA1c dropped by −7.4%, while the control group only saw a 1.8% decrease.Similarly, the treatment group's average BMI decreased by −0.7%, whereas the control group's average BMI reduction was −0.2%.A greater percentage of the active treatment group achieved reductions in both HbA1c and BMI compared to the control group.In terms of HbA1c, 72.4% of the active treatment group lowered their levels, while only 41.5% of the control group did Patients in the active treatment group also experienced an improvement in self-measured quality of life (QoL), as indicated by an average increase of 0.0464 in their EQ-5D-5L rating from pre-trial to post-trial.These results highlight that offering personalized care plans, along with support and education through a mobile app, can lead to reductions in HbA1c and BMI among individuals with T2D.The utilization of a patient management app, coupled with tailored care plans, also contributed to an enhancement in patient-reported quality of life (QoL) and engagement [36].These studies emphasize the contribution of using digital technologies to medication adherence and self-management, key aspects of the Chronic Care Model in diabetes.

Decision Support
Decision support focuses on enhancing medical decision-making for healthcare providers and patients, with the aim of granting access to up-to-date care guidelines based on evidence [25].Furthermore, eCCM covers topics like prompts and informational cues [19].A study conducted by Shamanna and colleagues [31], examined the difference in hemoglobin A1c (HbA1c) in 64 patients with diabetes type 2 over a 3-month period using the Twin Precision Nutrition (TPN) program.The TPN machine learning algorithm utilized data from daily continuous glucose monitors (CGM) and food intake to offer personalized recommendations.These guidelines aimed to help patients steer clear of foods that led to spikes in blood glucose, suggesting alternatives that didn't cause spikes.In the 90-day follow-up, the program resulted in significant improvements in decision-making and glycemic control.HbA1c levels decreased from 8.8% to 6.9%, weight decreased, and fasting blood glucose levels improved.Physicians used the CGM data to make informed medication adjustments [31].The ambispective study by Orozco-Beltrán and colleagues [34] for the DeMpower app implies that utilizing home digital tools for patient empowerment could have a meaningful impact on metabolic control.This app served as a home-based digital tool for patient empowerment, offering decision support for individuals with inadequately controlled type 2 diabetes.It helped patients make informed choices about their diabetes management.The study suggested that using home digital tools, like the DeMpower app, had a significant impact on metabolic control.This type of decision support is particularly valuable during situations like the COVID-19 pandemic and within the context of digital health advancements [34].

Clinical Information Systems
Clinical information systems serve the purpose of gathering, managing, and applying healthcare-related information, including patient registries and electronic medical records [18].Furthermore, eCCM highlights the creation of patient portals, utilization of the Internet, mHealth, mobile phones, wearable devices, and patient health records [19].Digital health technology enables potential integration of secure messaging, virtual appointments, remote monitoring with feedback, health risk assessment with feedback, prescription refills, personalized interventions, and connections to community initiatives [37].The RCT conducted by Kleinman and colleagues [26], investigated the Gather app (m-Health diabetes platform) and the impact on the clinical outcomes, patient-reported outcomes, patient and provider satisfaction, and app usage.From the clinical information systems perspective of the Chronic Care Model, the Gather app serves as a tool that enhances information flow and communication between patients and providers.It offers the potential to improve access to high-quality care and empower patients to actively manage their condition.The study's positive outcomes suggest that such clinical information systems can contribute significantly to effective chronic disease management.[26].A retrospective study in Saudi Arabia by Al-Mutari and colleagues [35] examined the impact of telemedicine on glycemic control (measured by HbA1c levels) in patients with type 2 diabetes during a specific period, particularly the COVID-19 lockdown.Telemedicine, as a component of clinical information systems, played a critical role in maintaining patient care during challenging times like the lockdown.It facilitated remote monitoring and communication between patients and healthcare providers, enabling the assessment of glycemic control.While the average HbA1c levels increased slightly, the study highlighted that a significant proportion of patients (63.1%) maintained or improved their glycemic control through telemedicine.The gender-based differences in outcomes also suggested that tailoring telemedicine interventions based on patient characteristics can be important.However, persistent elevated HbA1c levels in some patients may indicate the influence of other factors beyond telemedicine, such as lifestyle and comorbidities [35].Both studies demonstrate the value of clinical information systems, including mobile apps and telemedicine, in supporting chronic care management.These systems enhance information exchange, patient-provider interactions, and monitoring, aligning with the Chronic Care Model's emphasis on proactive, well-informed, and collaborative care for chronic diseases like diabetes.

Delivery System Design
Delivery system design encompasses the significance of interdisciplinary clinical teams and the cooperation between patients and multiple healthcare providers [25].Bluetoothenabled devices and the utilization of chat, voice, and video communication enable the healthcare team to offer many aspects similar to a conventional in-person appointment.The incorporation of advanced technology offers an affordable and adaptable way to complement formal healthcare practices [37].Ran and colleagues [28], conducted a study to evaluate the effectiveness of the EpxDiabetes automated phone calls or text messages as an intervention for patients with type 2 diabetes.The study assessed patient engagement and changes in HbA1c levels between the intervention group and the control group.The study demonstrated that the EpxDiabetes intervention led to increased patient engagement, with 58% of the intervention group actively responding to ≥25% of texts or calls over 4 weeks.This high level of engagement indicates that the delivery system design effectively reached and involved patients in their diabetes management.The intervention group showed an absolute reduction of 0.69% in HbA1c levels, particularly among patients with a baseline HbA1c level greater than 8%, where there was a significant decrease of 1.17%.In contrast, the control group had minimal HbA1c reductions.These findings highlight the effectiveness of the EpxDiabetes intervention in improving clinical outcomes, especially for patients with uncontrolled diabetes.The EpxDiabetes intervention's success in reducing HbA1c levels suggests that it promotes effective communication between patients and healthcare providers.This aligns with the delivery system design aspect of the Chronic Care Model, emphasizing the importance of well-organized, coordinated care delivery to achieve positive outcomes.Overall, Ran and colleagues' study showcases the value of a delivery system designed to facilitate automated communication with patients.It not only enhances patient engagement but also leads to significant improvements in clinical outcomes, particularly for those with uncontrolled diabetes.This approach aligns well with the Chronic Care Model's emphasis on organized, proactive care delivery to effectively manage chronic conditions [28].

Community Support
Community support connects patients to nearby resources and offers a chance for organizational leaders to forge new connections and broaden their reach.Within the eCCM framework, eHealth education is integrated as part of the eCommunity element, covering message training, health education, technology instruction, numeracy, literacy, usability, and security [19].In the randomized two-arm parallel interventional study conducted by Omar and colleagues [29] over a 6-month period, a self-management education through social media network application (i.e., WhatsApp) was assessed.The study aimed to evaluate how a patientcentered diabetes education program, delivered via WhatsApp, influenced glycosylated hemoglobin (HbA1c) levels.Additionally, the research aimed to examine whether there was a correlation between health literacy, numeracy, and the outcomes of the intervention.This study aligns with the community support aspect of the Chronic Care Model by leveraging a social media network application (WhatsApp) to deliver diabetes self-management education.WhatsApp serves as a digital platform that can foster community-like interactions among participants.The use of WhatsApp for self-management education had a beneficial impact on glycemic control, as evidenced by a 0.7% reduction in HbA1c levels on average.This suggests that the intervention provided valuable support to individuals with diabetes in managing their condition.One noteworthy aspect is that the positive influence of social media on HbA1c levels remained consistent across patients with varying levels of health literacy and numeracy skills.This implies that the intervention was accessible and inclusive, addressing the needs of a diverse patient population.Overall, Omar et al.'s study demonstrates the potential of leveraging digital platforms like WhatsApp to provide community support for diabetes self-management.The positive impact on glycemic control, regardless of patients' literacy and numeracy skills, emphasizes the value of such interventions within the Chronic Care Model's community support framework [29].

Health Systems
The healthcare system establishes a context where organizational initiatives enhance patient care [25].No studies were found that addressed the organization of healthcare and health systems.

Benefits and Barriers of Medication Adherence by Digital Health Technology 2
The second aim of this review was to determine the benefits and barriers of MA technology studied in adults with diabetes.Overall, the strongest benefit of digital health technologies to measure medication adherence involves patient engagement in diabetes and hypertension self-management through either one-way or two-way interactive reminders or educational information.Barriers to digital health technology for medication adherence in diabetes encompass limited smartphone access, staffing requirements, user engagement challenges, HbA1c level improvements, holiday season disruptions, digital literacy gaps, complex relationships between response rates and glucose levels, patient perceptions, message burden, scalability issues, time-limited interventions, age-related differences, one-way reminders, dietary maintenance difficulties, high costs, language and cultural barriers, legal concerns, patient experience, information access, low literacy (especially in the elderly), and training needs.The benefits and barriers are listed in Table 3.

•
The usage of smartphones is not among all the population • There should be an additional staff member, whose responsibilities will be to run the system in the hospitals

•
Users may become bored to using the application within the course of their treatment The results of this scoping review provide substantial evidence supporting the notion that digital health technology can significantly improve medication adherence among adults with diabetes.Several studies [26][27][28]30,[32][33][34][35][36] demonstrated positive outcomes in terms of medication adherence through the use of various digital interventions.These interventions included mobile applications (e.g., Gather app, Medisafe app, iCareD system), SMS text messaging, telemonitoring, and tailored care management.
For instance, the Gather app [26] resulted in a substantial improvement in medication adherence, with a 39.0% adherence rate compared to 12.8% in the control group.Similarly, the EpxDiabetes intervention [28] led to increased patient engagement, with 58% of the intervention group actively responding to ≥25% of texts or calls over 4 weeks, and a significant reduction in HbA1c levels.The OneTouch OT Verio Flex glucose meter [32] demonstrated the effectiveness of the Spanish-language version of the OT Reveal mobile app in enhancing medication adherence and blood sugar control within an underserved Hispanic population.
The DeMpower app [34] showcased a noticeable trend toward improved metabolic control and medication adherence, with significant reductions in HbA1c levels.Furthermore, the Healdum Collaborative Care Planning Software and App [36] demonstrated improvements in HbA1c levels and patient-reported quality of life (QoL), highlighting the positive impact of digital interventions on medication adherence and overall well-being.
These findings collectively indicate that digital health technology can play a pivotal role in enhancing medication adherence among adults with diabetes, offering tailored solutions that range from reminders to self-monitoring tools, personalized care plans, and access to health information.

Other Similar Studies
In comparison to similar research studies, our scoping review contributes to the growing body of evidence supporting the use of digital health technology to improve medication adherence in diabetes patients.While previous reviews [38,39] have explored digital interventions' impact on medication adherence, our review utilizes the Chronic Care Model (CCM) framework to categorize and assess these interventions comprehensively.CCMbased interventions, even without digital tools, effectively enhance clinical, behavioral, psychological, and diabetic knowledge outcomes, including medication adherence in diabetes patients [40].Malaysia has successfully implemented the CCM, leading to improved patient outcomes and enhanced practice-centered care delivery [41].
This is a continuation of the integrative review performed by Conway et al. [37] which covered studies published in the period between January 2006 and October 2016.This review examined various digital health technologies aimed at improving medication adherence in adults aged 18 and older with diabetes type 1 and type 2. These technologies included IVR, SMS text messaging, telehealth, and web-based software.In some cases, interventions involved one-way communication to the patient or two-way communication between patients and healthcare providers, often involving the timely reporting of monitored results like blood glucose and blood pressure.The study found that digital health technologies were diverse, and the populations studied varied in size, ethnicity, and age range.There is considerable potential for further improving patient-provider communication through emerging mobile and electronic media, particularly in populations accustomed to mobile phones, tablets, and similar devices.
Overall, our review corroborates and expands upon existing research by categorizing digital interventions within the CCM framework, offering a structured perspective on how these interventions align with established models of chronic care and improve medication adherence in diabetes patients.

Limitations and Strengths of This Research
This research paper has several limitations that warrant consideration.Firstly, the inclusion criteria limited studies to those published in English between January 2017 and August 2023 which is the period after the research conducted by Conway et al. [37] which covered studies published in the period between January 2006 and October 2016.Consequently, relevant studies in other languages or published before this timeframe may have been omitted, potentially introducing language and publication bias.
Additionally, while efforts were made to identify studies focused on diabetes, the exclusion of pilot studies and those lacking data on medication adherence rates could have excluded valuable insights.Furthermore, the heterogeneity of interventions and outcome measures across the selected studies may limit the ability to make direct comparisons between interventions.
On the positive side, this research paper adhered to a structured scoping review methodology based on the CCM framework, providing a comprehensive overview of digital interventions for medication adherence in diabetes.By categorizing interventions within the CCM, this research paper offers a novel perspective on how digital solutions align with established models of chronic care.
The selected studies collectively contribute to the evidence base supporting the efficacy of digital health technology in improving medication adherence among adults with diabetes.The positive outcomes reported in terms of medication adherence, glycemic control, and patient satisfaction highlight the strengths of these interventions in enhancing diabetes care.

Future Research Directions
Future research directions in the field of digital health interventions for medication adherence for patients with diabetes encompass several key areas to enhance their effectiveness and accessibility.Diverse populations: Future research should explore the impact of digital health interventions on medication adherence in diverse populations, including those with varying levels of health literacy, numeracy, and cultural backgrounds.This will help ensure that interventions are accessible and effective for all segments of the population.
Long-term effects: Investigating the long-term effects of digital interventions on medication adherence and clinical outcomes is essential.Studies with extended followup periods can provide insights into the sustainability of improvements and potential challenges over time.
Integration with healthcare system: Future research should explore strategies for the seamless integration of digital health interventions into existing healthcare systems.This includes addressing issues related to scalability, healthcare provider feedback, and the coordination of care.
Comparative studies: Comparative studies that directly compare different types of digital interventions (e.g., mobile apps, SMS, telemonitoring) can help identify which approaches are most effective for improving medication adherence in specific patient populations.
Cost-effectiveness: Evaluating the cost-effectiveness of digital interventions is crucial for healthcare decision-makers.Future research should include economic analyses to assess the value of these interventions in relation to their impact on medication adherence and health outcomes.
Patient-centered research: Engaging patients in the design and evaluation of digital interventions is essential.Future studies should prioritize patient-centered research approaches to ensure that interventions align with patient preferences and needs.

Conclusions
In conclusion, digital health technology holds great promise for improving medication adherence in adults with diabetes.While this scoping review provides valuable insights into the effectiveness of these interventions, continued research is needed to further refine and optimize digital solutions to enhance medication adherence and, ultimately, the overall health and well-being of individuals living with diabetes.The active treatment group had significant reductions in HbA1c (− 7.4%) and BMI (− 0.7%) compared to the control group (−0.2%).A higher percentage of the active treatment group improved their HbA1c and BMI, and quality of life also improved by an average of 0.0464.

Table 1 .
Chronic Care Model components and descriptions.

Table 3 .
Benefits and barriers of digital health technology for medication adherence.