A mobile health application that supports a patient centered approach to cardiovascular risk management

Introduction

Cardiovascular disease remains the leading cause of mortality worldwide1. Cardiovascular risk factor management, including the treatment of hypertension, dyslipidemia, and diabetes, along with lifestyle modifications such as eating a healthy diet, regular physical activity, and smoking cessation, are critical to preventing adverse cardiovascular events2. However, long-term adherence to optimal lifestyle and medical management of cardiovascular risk factors can be challenging for patients due to inadequate health education, insufficient motivation, and/or financial challenges, among other factors3.

Digital health interventions may help patients overcome those barriers via self-empowerment, allowing patients to take a more active role in managing their chronic conditions4. Recently, Ullrich and colleagues conducted a clinical trial to evaluate the PreventiPlaque mobile health application, designed to support the patient-centred management of cardiovascular risk factors5. In this article, we highlight key findings from Ullrich et al.’s study and discuss the potential for digital health interventions to empower patients in managing their chronic diseases.

The PreventiPlaque mobile health application

As described by Ullrich and colleagues, PreventiPlaque is an application that patients can use on their own smartphones5. It compiles up-to-date ultrasound images of patients’ carotid plaques captured during routine clinical follow-up visits. Carotid plaque burden is highlighted on the images, allowing patients to monitor the progression of their atherosclerotic disease5. Carotid plaques were likely chosen as the focal point because they generally provide a good representation of a patient’s overall atherosclerotic burden and are relatively easy to capture longitudinally and non-invasively through ultrasound6. Additionally, PreventiPlaque enables patients to track their physical activity, diet, medication adherence, and smoking habits5. Patients, generally in consultation with their clinicians, set daily goals for each category and once all the tasks are completed, there is a colour change from red to green, which incentivizes them to reach their goals in an interactive, game-like format5. This may motivate patients to take a more active approach in optimizing their lifestyle habits to reduce their atherosclerotic burden, thereby improving their cardiovascular health5.

Key findings from the PreventiPlaque clinical trial

Ullrich and colleagues performed a single-centre randomized controlled trial in Germany to evaluate the impact of PreventiPlaque usage on cardiovascular risk profiles5. The authors recruited 240 patients with atherosclerotic cardiovascular disease, including coronary, peripheral, and cerebrovascular disease5. Ultrasound evidence of carotid atherosclerotic plaque was required for study inclusion5. The authors randomly allocated 121 patients to the intervention group and 119 patients to the control group5. The intervention group was given access to PreventiPlaque and received instructions on using the application, while the control group did not have access to PreventiPlaque5. Both groups received optimal guideline-directed medical treatment and underwent carotid ultrasound examinations at their 3-, 6-, 9-, and 12 month follow-up visits, a routine practice at the study centre5. The primary outcome was the change in patients’ cardiovascular risk profiles over a 12-month period, as measured by Systematic Coronary Risk Evaluation 2 (SCORE2)7. SCORE2 estimates the 10-year risk of cardiovascular disease by considering multiple factors, including the patient’s age, sex, smoking habits, cholesterol levels, and systolic blood pressure7. The authors found that SCORE2 risk decreased significantly over the study period in the intervention group but not the control group5. In the intervention group, the authors also found a significant decrease in low-density lipoprotein cholesterol and systolic blood pressure and an increase in medication adherence and quality of life5.

Implications of PreventiPlaque

The combination of visually-depicted personalized health information and goal-directed tracking of lifestyle habits is a unique advantage of digital health applications like PreventiPlaque5. Specifically, the image depicted is simply an ultrasound image of a patient’s carotid plaque with the plaque burden highlighted; however, the consistent and real-time access to this image along with tracking of daily habits likely contributed to the high level of patient engagement and behaviour change associated with PreventiPlaque. In essence, PreventiPlaque can be described as a multimodal patient engagement application with both a visual depiction of progress and interactive tracking of daily habits. By demonstrating a significant reduction in SCORE2 risk over a 12-month period associated with the use of PreventiPlaque, Ullrich and colleagues highlight the important potential for this technology to empower patients to improve their cardiovascular health5. Notably, many papers report the development of a digital health intervention, but few rigorously evaluate their clinical impact8. Through a randomized controlled trial, the authors provide convincing evidence of the efficacy of a mobile health application in improving cardiovascular risk profiles5. This study represents a significant advancement in digital health research.

Limitations of PreventiPlaque

Although PreventiPlaque has important potential for clinical impact, several limitations should be acknowledged5.

  1. 1.

    It is unclear how PreventiPlaque influenced patient behaviours and improved SCORE2 risk5. For example, PreventiPlaque usage was not associated with increased self-reported physical activity levels5. Future qualitative studies are needed to assess patients’ experiences with the technology, including how they used the application and how it influenced their behaviours. This may help identify key elements of digital health interventions that significantly impact patients’ behaviours and outcomes9.

  2. 2.

    A key component of PreventiPlaque is a visual depiction of the patient’s carotid plaque burden5. Although carotid plaque is associated with systemic atherosclerosis, it may not be fully correlated with plaque severity in other arterial beds10. For example, a patient may have low carotid plaque burden, but significant coronary plaque burden, putting them at elevated risk of heart attacks10. PreventiPlaque may falsely reassure such a patient; therefore, it would be prudent for future mobile health applications of this type to capture plaque burden in multiple arterial beds11. Additionally, visual interpretation of the carotid plaque by the patient may be subjective. Similarly, most of the behavioural tracking, including physical activity, is self-reported, leading to another potential avenue for bias. Therefore, incorporation of more objective tracking methods, including the use of wearable technologies that can accurately track quantifiable measures such as step counts, may increase the objectivity of the tool.

  3. 3.

    PreventiPlaque is in German and requires patients to have smartphones to use it5. These barriers may limit accessibility, which could be addressed through translation to other languages and technological interfaces such as computers, televisions, and other devices.

  4. 4.

    The real-time transfer of carotid plaque images from ultrasound reports to PreventiPlaque likely requires integration with electronic medical records (EMR). However, there are over 50 different EMR’s used in Germany and many more globally12. This may make the routine use of PreventiPlaque challenging. Digital health applications of this nature require careful consideration of EMR integration strategies to increase their potential for broad, real-world impact13. Specifically, these applications should be designed to function across different EMR systems13.

  5. 5.

    The clinical trial demonstrated robust efficacy over a 12-month follow-up period; however, it is important to note the potential for effect decay over time with patient engagement interventions14. Given that the management of chronic diseases generally requires a lifelong commitment to behavioural changes, it will be important to continue studying the long-term effectiveness of PreventiPlaque.

Conclusions

Through a randomized controlled trial, Ullrich and colleagues provide evidence of the efficacy of PreventiPlaque in improving cardiovascular risk profiles5. This study highlights the potential for digital health applications to provide patients with personalized health information and empower them to take actionable steps to improve their cardiovascular health5. Although potential improvements could be made to PreventiPlaque’s utility, accessibility, and explainability, this technology and its robust evaluation represents a significant step forward in supporting the routine use of digital health technologies to facilitate patient-centred management of their chronic diseases.

Related Articles

The dual role of motivation on goals and well-being in higher vocational education students: a self-determination theory perspective

Students’ well-being has received increasing international attention. However, research on well-being among higher vocational education (HVE) students, particularly in non-WEIRD contexts, remains limited. This study addresses this gap by investigating the relationships between goals, motivation, and well-being for HVE students in China through the lens of self-determination theory. A survey was administered to 1106 HVE students at a vocational college in China to collect data on their goal content, motivation, and well-being. Quantitative analyses revealed that motivation plays a dual role, acting as both a mediator and a moderator in the relationship between goals and well-being. This dual role is crucial for understanding not only how goals influence well-being but also under what conditions different types of goals promote or hinder well-being. Specifically, intrinsic goals, when paired with autonomous motivation, were found to significantly predict increased well-being. While extrinsic goals combined with controlled motivation also reliably predicted well-being, this relationship should be interpreted cautiously within the specific cultural context of the study. Furthermore, positive relationships between extrinsic goals and well-being, as well as between amotivation and well-being, were observed, contrasting findings from ‘WEIRD’ contexts. This study provides novel insights into how motivation functions as both a moderator and mediator in the goal-well-being relationship within a ‘non-WEIRD,’ specifically Chinese, HVE context. These findings underscore the importance of supporting students in pursuing goals to enhance their well-being. Further research is needed to explore these relationships in diverse cultural settings.

The risk effects of corporate digitalization: exacerbate or mitigate?

This study elaborates on the risk effects of corporate digital transformation (CDT). Using the ratio of added value of digital assets to total intangible assets as a measure of CDT, this study overall reveals an inverse relationship between CDT and revenue volatility, even after employing a range of technical techniques to address potential endogeneity. Heterogeneity analysis highlights that the firms with small size, high capital intensity, and high agency costs benefit more from CDT. It also reveals that advancing information infrastructure, intellectual property protection, and digital taxation enhances the effectiveness of CDT. Mechanism analysis uncovers that CDT not only enhances financial advantages such as bolstering core business and mitigating non-business risks but also fosters non-financial advantages like improving corporate governance and ESG performance. Further inquiries into the side effects of CDT and the dynamics of revenue volatility indicate that CDT might compromise cash flow availability. Excessive digital investments exacerbate operating risks. Importantly, the reduction in operating risk associated with CDT does not sacrifice the potential for enhanced company performance; rather, it appears to augment the value of real options.

Clinical practice recommendations for the diagnosis and management of X-linked hypophosphataemia

X-linked hypophosphataemia (XLH) is a rare metabolic bone disorder caused by pathogenic variants in the PHEX gene, which is predominantly expressed in osteoblasts, osteocytes and odontoblasts. XLH is characterized by increased synthesis of the bone-derived phosphaturic hormone fibroblast growth factor 23 (FGF23), which results in renal phosphate wasting with consecutive hypophosphataemia, rickets, osteomalacia, disproportionate short stature, oral manifestations, pseudofractures, craniosynostosis, enthesopathies and osteoarthritis. Patients with XLH should be provided with multidisciplinary care organized by a metabolic bone expert. Historically, these patients were treated with frequent doses of oral phosphate supplements and active vitamin D, which was of limited efficiency and associated with adverse effects. However, the management of XLH has evolved in the past few years owing to the availability of burosumab, a fully humanized monoclonal antibody that neutralizes circulating FGF23. Here, we provide updated clinical practice recommendations for the diagnosis and management of XLH to improve outcomes and quality of life in these patients.

Iron homeostasis and ferroptosis in muscle diseases and disorders: mechanisms and therapeutic prospects

The muscular system plays a critical role in the human body by governing skeletal movement, cardiovascular function, and the activities of digestive organs. Additionally, muscle tissues serve an endocrine function by secreting myogenic cytokines, thereby regulating metabolism throughout the entire body. Maintaining muscle function requires iron homeostasis. Recent studies suggest that disruptions in iron metabolism and ferroptosis, a form of iron-dependent cell death, are essential contributors to the progression of a wide range of muscle diseases and disorders, including sarcopenia, cardiomyopathy, and amyotrophic lateral sclerosis. Thus, a comprehensive overview of the mechanisms regulating iron metabolism and ferroptosis in these conditions is crucial for identifying potential therapeutic targets and developing new strategies for disease treatment and/or prevention. This review aims to summarize recent advances in understanding the molecular mechanisms underlying ferroptosis in the context of muscle injury, as well as associated muscle diseases and disorders. Moreover, we discuss potential targets within the ferroptosis pathway and possible strategies for managing muscle disorders. Finally, we shed new light on current limitations and future prospects for therapeutic interventions targeting ferroptosis.

Type 2 immunity in allergic diseases

Significant advancements have been made in understanding the cellular and molecular mechanisms of type 2 immunity in allergic diseases such as asthma, allergic rhinitis, chronic rhinosinusitis, eosinophilic esophagitis (EoE), food and drug allergies, and atopic dermatitis (AD). Type 2 immunity has evolved to protect against parasitic diseases and toxins, plays a role in the expulsion of parasites and larvae from inner tissues to the lumen and outside the body, maintains microbe-rich skin and mucosal epithelial barriers and counterbalances the type 1 immune response and its destructive effects. During the development of a type 2 immune response, an innate immune response initiates starting from epithelial cells and innate lymphoid cells (ILCs), including dendritic cells and macrophages, and translates to adaptive T and B-cell immunity, particularly IgE antibody production. Eosinophils, mast cells and basophils have effects on effector functions. Cytokines from ILC2s and CD4+ helper type 2 (Th2) cells, CD8 + T cells, and NK-T cells, along with myeloid cells, including IL-4, IL-5, IL-9, and IL-13, initiate and sustain allergic inflammation via T cell cells, eosinophils, and ILC2s; promote IgE class switching; and open the epithelial barrier. Epithelial cell activation, alarmin release and barrier dysfunction are key in the development of not only allergic diseases but also many other systemic diseases. Recent biologics targeting the pathways and effector functions of IL4/IL13, IL-5, and IgE have shown promising results for almost all ages, although some patients with severe allergic diseases do not respond to these therapies, highlighting the unmet need for a more detailed and personalized approach.

Responses

Your email address will not be published. Required fields are marked *