Leveraging Social Media for Cardio-Oncology

The Digital Revolution in Medicine: Applications in Cardio-Oncology

Purpose of review

A critical evaluation of contemporary literature regarding the role of big data, artificial intelligence, and digital technologies in precision cardio-oncology care and survivorship, emphasizing innovative and groundbreaking endeavors.

Recent findings

Artificial intelligence (AI) algorithm models can automate the risk assessment process and augment current subjective clinical decision tools. AI, particularly machine learning (ML), can identify medically significant patterns in large data sets. Machine learning in cardio-oncology care has great potential in screening, diagnosis, monitoring, and managing cancer therapy-related cardiovascular complications. To this end, large-scale imaging data and clinical information are being leveraged in training efficient AI algorithms that may lead to effective clinical tools for caring for this vulnerable population. Telemedicine may benefit cardio-oncology patients by enhancing healthcare delivery through lowering costs, improving quality, and personalizing care. Similarly, the utilization of wearable biosensors and mobile health technology for remote monitoring holds the potential to improve cardio-oncology outcomes through early intervention and deeper clinical insight. Investigations are ongoing regarding the application of digital health tools such as telemedicine and remote monitoring devices in enhancing the functional status and recovery of cancer patients, particularly those with limited access to centralized services, by increasing physical activity levels and providing access to rehabilitation services.

Summary

In recent years, advances in cancer survival have increased the prevalence of patients experiencing cancer therapy-related cardiovascular complications. Traditional cardio-oncology risk categorization largely relies on basic clinical features and physician assessment, necessitating advancements in machine learning to create objective prediction models using diverse data sources. Healthcare disparities may be perpetuated through AI algorithms in digital health technologies. In turn, this may have a detrimental effect on minority populations by limiting resource allocation. Several AI-powered innovative health tools could be leveraged to bridge the digital divide and improve access to equitable care.

Emerging Educational and Networking Platforms in Interventional Cardiology: Expanding Beyond Traditional Social Media

With ubiquitous use of smartphones and other Internet-enabled devices, clinicians have access to a plethora of multimedia platforms that enable them to network, share educational content, and learn. Several platforms also enable resources that support clinical decision making. Traditional social media has been used extensively by cardiologists for several years and now extends to the entire care team including trainees, advanced practitioners, nurses and technologists. Numerous challenges include concerns about patient privacy and security, lack of peer-review and organization, and chances of propagating misinformation. More recently, newer networking platforms have emerged within cardiology to overcome several of the limitations of traditional social media. Additionally, mobile applications have emerged as an educational tool that provides clinicians with easy access to the latest information including guidelines, consensus documents, risk estimators and treatment algorithms. These point-of-care learning and decision-making tools are especially relevant and impactful in a procedural field like interventional cardiology. While professional societies are major drivers of these emerging platforms, there are also other stakeholders including educational institutions and the medical device industry. In this review article, we examine the role of traditional social media and describe newer networking platforms as well as mobile applications applicable to interventional cardiology with a discussion about their relative advantages and disadvantages.

The Use of Social Media to Express and Manage Medical Uncertainty in Dyskeratosis Congenita: Content Analysis

BACKGROUND

Social media has the potential to provide social support for rare disease communities; however, little is known about the use of social media for the expression of medical uncertainty, a common feature of rare diseases.

OBJECTIVE

This study aims to evaluate the expression of medical uncertainty on social media in the context of dyskeratosis congenita, a rare cancer-prone inherited bone marrow failure and telomere biology disorder (TBD).

METHODS

We performed a content analysis of uncertainty-related posts on Facebook and Twitter managed by Team Telomere, a patient advocacy group for this rare disease. We assessed the frequency of uncertainty-related posts, uncertainty sources, issues, and management and associations between uncertainty and social support.

RESULTS

Across all TBD social media platforms, 45.98% (1269/2760) of posts were uncertainty related. Uncertainty-related posts authored by Team Telomere on Twitter focused on scientific (306/434, 70.5%) or personal (230/434, 53%) issues and reflected uncertainty arising from probability, ambiguity, or complexity. Uncertainty-related posts in conversations among patients and caregivers in the Facebook community group focused on scientific (429/511, 84%), personal (157/511, 30.7%), and practical (114/511, 22.3%) issues, many of which were related to prognostic unknowns. Both platforms suggested uncertainty management strategies that focused on information sharing and community building. Posts reflecting response-focused uncertainty management strategies (eg, emotional regulation) were more frequent on Twitter compared with the Facebook community group (χ21=3.9; P=.05), whereas posts reflecting uncertainty-focused management strategies (eg, ordering information) were more frequent in the Facebook community group compared with Twitter (χ21=55.1; P<.001). In the Facebook community group, only 36% (184/511) of members created posts during the study period, and those who created posts did so with a low frequency (median 3, IQR 1-7 posts). Analysis of post creator characteristics suggested that most users of TBD social media are White, female, and parents of patients with dyskeratosis congenita.

CONCLUSIONS

Although uncertainty is a pervasive and multifactorial issue in TBDs, our findings suggest that the discussion of medical uncertainty on TBD social media is largely limited to brief exchanges about scientific, personal, or practical issues rather than ongoing supportive conversation. The nature of uncertainty-related conversations also varied by user group: patients and caregivers used social media primarily to discuss scientific uncertainties (eg, regarding prognosis), form social connections, or exchange advice on accessing and organizing medical care, whereas Team Telomere used social media to express scientific and personal issues of uncertainty and to address the emotional impact of uncertainty. The higher involvement of female parents on TBD social media suggests a potentially greater burden of uncertainty management among mothers compared with other groups. Further research is needed to understand the dynamics of social media engagement to manage medical uncertainty in the TBD community.

Social Media and Cardiovascular Health: Implications for Women

PURPOSE OF REVIEW

Cardiovascular disease (CVD) is the leading cause of mortality in adult women in the USA, yet CVD is underrecognized in women. Disparities in care are further pronounced in women of racial/ethnic minority backgrounds. In this review, we discuss the role of social media (SoMe) as a tool to (i) promote women's cardiovascular (CV) health and (ii) address and potentially reduce gaps in care, particularly in general cardiology (targeting atherosclerotic cardiovascular disease), cardio-oncology, and cardio-obstetrics. We also briefly discuss women's CV health as a common, although not unique, focus of women in cardiology on SoMe.

RECENT FINDINGS

Studies have suggested the utility of social media to help advance subspecialties of cardiology. Leaders within general cardiology, cardio-oncology, and cardio-obstetrics have curated social media strategies to advance their respective fields and call attention to cardiovascular health disparities in female populations and racial/ethnic minorities. In addition to these types of uses, women in cardiology also frequently use SoMe to encourage a career in cardiology and to share experiences, challenges, and resources for support and career advancement as healthcare professionals; men in cardiology and especially those who are allies for sex and racial/ethnic minorities also use SoMe for these means. Herein, we highlight the role and myriad applications of social media in the promotion of women's cardiovascular health. We discuss five primary roles of social media: increasing public awareness, disseminating medical literature in a rapid and accessible fashion, facilitating professional networking, serving as a platform for medical conferences, and empowering patients. These core strategies are discussed through the lens of general cardiology, cardio-oncology, and cardio-obstetrics. We also demonstrate how these applications can be leveraged to increase representation of women in cardiology, also supporting an increased focus on women's cardiovascular health.

MiR-522-3p Targets Transcription Factor 4 to Overcome Cisplatin Resistance of Gastric Cells

Gastric cancer (GC) is a malignancy originating from gastric epithelial tissue. Chemoresistance to cisplatin (DDP) often leads to chemotherapy failure in GC. Previously, miR-522 was found to be associated with chemoresistance in GC cells. Thus, we attempted to clarify miR-522-3p's role underlying chemoresistance of GC cells. RT-qPCR measured the miR-522-3p levels in untreated and DDP-treated AGS cells. RT-qPCR and Western blotting detected transcription factor 4 (TCF4) mRNA and protein levels in GC cells. AGS and AGS/DDP cell proliferation were detected by the colony formation assay. Flow cytometry analysis detected AGS and AGS/DDP cell apoptosis. Bioinformatics and dual luciferase reporter assays predicted and verified the relationship between miR-522-3p and TCF4. Rescue experiments further clarified the regulatory patterns of miR-522-3p/TGF4 in GC cells. miR-522-3p presented a downregulation in GC cells and was positively affected by DDP. TCF4 presented elevation in GC cells and was negatively affected by DDP. Mechanistically, miR-522-3p targeted TCF4 to suppress TCF4 gene expression. miR-522-3p overexpression suppressed GC cell proliferation and resistance to DDP and GC cell apoptosis was facilitated. TCF4 overexpression facilitated GC cell proliferation and resistance to DDP while repressing GC cell apoptosis. TCF4 elevation rescued changes in GC cell proliferation, apoptosis, and chemoresistance due to miR-522-3p overexpression. To sum up, miR-522-3p suppresses GC cell malignancy and resistance to DDP via targeting TCF4. Our research may provide a new biomarker for GC diagnosis and a novel direction for GC chemotherapy.

Media competencies for nurses: A Delphi study

BACKGROUND

Media raises awareness of important health issues, provides guidance to promote health, and shapes health policies. However, nurses are poorly represented in media.

PURPOSE

To propose competencies that can be used to advance nurses' knowledge and skills in using media to advance health.

METHODS

A Delphi study design of three successive surveys was employed. The Round 1 survey was sent to 70 nurse media leaders, and 28 (40%) responded. Seventeen respondents (61%) participated in Round 2. The Round 3 survey was not needed.

DISCUSSION

These competencies provide direction for academia, healthcare organizations, nursing associations and others who seek to develop the leadership and population health skills of nurses. Ways the competencies can be used are outlined.

CONCLUSION

There is an urgent need to improve population health outcomes by reducing disparities and promoting equity in health and health care. Media engagmeent is an importnat strategy for promoting population health. Additionally, promotion of better media representation of nurses and improved media engagement by nurses and nursing organizations all speak to the importance of advancing media competence.

Training and Career Development in Cardio-Oncology Translational and Implementation Science

Cardiovascular disease is a leading cause of death in cancer survivors, after recurrence of the primary tumor or occurrence of a secondary malignancy. Consequently, the interdisciplinary field of cardio-oncology has grown rapidly in recent years to address the cardiovascular care needs of this unique population through clinical care and research initiatives. Here, the authors discuss the ideal infrastructure for training and career development in cardio-oncology translational and implementation science and emphasize the importance of the multidisciplinary cardiovascular team for both research and patient care. Cardio-oncology training opportunities in general cardiology, hematology/oncology, and specialized cardio-oncology clinical and research fellowships are also considered.

The Role and Impact of Social Media in Cardio-oncology During the COVID-19 Pandemic

PURPOSE OF REVIEW

To give an overview of the role of social media (SoMe) in cardio-oncology during the COVID-19 pandemic.

RECENT FINDINGS

SoMe has been critical in fostering education, outreach, awareness, collaboration, dissemination of information, and advocacy in cardio-oncology. This has become increasingly evident during the COVID-19 pandemic, during which SoMe has helped share best practices, community, and research focused on the impact of COVID-19 in cardiology and hematology/oncology, with cardio-oncology at the interface of these two subspecialty fields. A strength of SoMe is the ability to amplify a message in real-time, globally, with minimal investment of resources. This has been particularly beneficial for the emerging field of cardio-hematology/cardio-oncology, a field focused on the interplay of cancer and cardiovascular disease. SoMe field especially during the COVID-19 pandemic. We illustrate how social media has supported innovation (including telemedicine), amplification of healthcare workers' voice, and illumination of pre-existing and continued health disparities within the field of cardio-oncology during the pandemic.

Cardio-oncology Training in the COVID-19 Era

Cardio-oncology is a field dedicated to the prevention, diagnosis, and management of cardiovascular disease in cancer patients before, during, and after cancer therapy. It is an emerging field with limited opportunities for structured education and training. In the year 2021, we cannot define the requirements of cardio-oncology training without acknowledging the impact of the global coronavirus disease 19 (COVID-19) pandemic. While this pandemic poses significant health risks to patients with cancer and cardiovascular disease as well as the providers who care for them, it also allows novel opportunities for the nascent field of cardio-oncology to readily adapt. In this article, we detail how the COVID-19 pandemic has impacted all aspects of cardio-oncology training, how programs and trainees can adapt to these challenges, and how lessons learned from the COVID-19 era can continue to positively impact cardio-oncology training for the foreseeable future.

The Democratization of Scientific Conferences: Twitter in the Era of COVID-19 and Beyond

Purpose of Review

The coronavirus disease 2019 (COVID-19) pandemic has had profound impacts upon scientific discourse in our field, most prominently through the abrupt transition of malignant hematology conferences to all-digital formats. These virtual components will likely be incorporated into future iterations of these conferences even as in-person attendance is reincorporated. In this review, we discuss ways in which usage of the social networking platform Twitter has expanded in the past year during virtual conferences as a method to facilitate—and, in some ways, democratize—information flow and professional networking.

Recent Findings

Emerging Twitter-based tools in malignant hematology include presenter-developed #tweetorials, conference-specific “poster walks,” and disease-specific online journal clubs. Twitter is also increasingly being used for networking across institutional and international lines, allowing for conversations to continue year-round as a first step toward multicenter collaborations as well as in-person #tweetups at subsequent meetings.

Summary

The ability of Twitter to enable uninterrupted information exchange has reinforced its central role in medical and scientific communication in a way that will certainly outlive the COVID-19 pandemic.

Tweeting from the Bench: Twitter and the Physician-Scientist Benefits and Challenges

Purpose of Review

Social media platforms such as Twitter are increasingly utilized to interact, collaborate, and exchange information within the academic medicine community. However, as Twitter begins to become formally incorporated into professional meetings, educational activities, and even the consideration of academic promotion, it is critical to better understand both the benefits and challenges posed by this platform.

Recent Findings

Twitter use is rising amongst healthcare providers nationally and internationally, including in the field of hematology and oncology. Participation on Twitter at national conferences such as the annual meetings of American Society of Hematology (ASH) and American Society of Clinical Oncology (ASCO) has steadily increased over recent years. Tweeting can be used advantageously to cultivate opportunities for networking or collaboration, promote one’s research and increase access to other’s research, and provide efficient means of learning and educating. However, given the novelty of this platform and little formal training on its use, concerns regarding patient privacy, professionalism, and equity must be considered.

Summary

These new technologies present unique opportunities for career development, networking, research advancement, and efficient learning. From “tweet ups” to Twitter journal clubs, physician-scientists are quickly learning how to capitalize on the opportunities that this medium offers. Yet caution must be exercised to ensure that the information exchanged is valid and true, that professionalism is maintained, that patient privacy is protected, and that this platform does not reinforce preexisting structural inequalities.

#CardioOncology: Twitter chat as a mechanism for increasing awareness of heart health for cancer patients

Consideration of heart health for cancer survivors is increasingly important, as improved cancer survivorship has resulted in a growing number of survivors affected by cardiovascular disease. However, there is limited knowledge of cardio-oncology among both patients and a variety of health professionals. Thus, efforts are needed to increase awareness about cardio-oncology. Social media represents one potential opportunity to disseminate information about cardio-oncology to a large audience. We highlight one example of a social media educational/advocacy campaign conducted on Twitter (a "Twitter Chat") that garnered nearly 1.2 million impressions (views by Twitter users) in just 24 h. We provide both quantitative and qualitative data to support the efficacy of using Twitter for such educational/advocacy campaigns, and describe key features that contributed to its success. Twitter Chats inexpensively utilize innovative technology to provide education and foster community. Long-term studies are needed to understand whether Twitter Chats can change knowledge and behavior related to cardio-oncology.