Digital Healthcare
Article | November 29, 2023
NIS2 Cybersecurity Rules Approaching: Is Your Organization Prepared? The EU NIS cybersecurity regulations are evolving for 2024, and if you’re not currently aware of how they’ll apply to your organization, now is the time to get up to speed with the desired requirements. Not only is the directive being tightened, but an extended range of healthcare and related organizations will be added to the list of ‘critical entities’ that must comply. These include certain medical device manufacturers, pharmaceutical companies, and organizations that carry out R&D. The Network and Information Systems (NIS) standards were set up in 2016 to protect essential services – such as water, energy, healthcare, transport, and digital infrastructure – from online cyberattacks. The updated legislation, NIS2, will have stricter rules,reporting requirements, and higher penalties for non-compliance. They will apply to medium-sized and large businesses that operate within one or more EU countries. Those based only in the UK can’t sit back; however, the original NIS regulations will still apply as part of British law. What’s more, a UK version of the rules is coming very soon, and it’s likely that the framework will closely resemble the EU’s. What will the requirements cover? There are a number of cyber risk management measures that all organizations that come under the scope of NIS2 will be required to put in place. For instance, they will need to conduct regular security assessments and risk analyses, adopt incident response and handling plans, and appoint a chief information security officer (CISO), among other obligations. The new directive will streamline and strengthen incident reporting requirements. Entities must notify regulators of any incident that has compromised data or had a significant impact on the provision of their services, such as causing severe operational disruption or financial loss. Applying information system security policies and business continuity plans will form part of the obligations, as will conducting cybersecurity testing and training for all staff. The use of multi-factor authentication (MFA) and encryption, wherever appropriate, will also be mandated. There is plenty of focus within the directive on the cornerstones of cybersecurity best practices particularly, the proper control of administrator-level account credentials, privileged access, and endpoints, all of which are prime targets for attackers. Under NIS2, organizations are being separated into ‘critical’ and ‘important’ entities. It’s important to determine which category yours’ will fall under, as each has different requirements. The third-party threat will also be addressed in NIS2 by pulling in managed service providers (MSPs) to the list of ‘critical entities’, with the aim of keeping digital supply chains secure. MSPs are often granted privileged access to clients’ corporate systems and networks, which creates security risks. What are the consequences of non-compliance? Organizations that come under the regulations’ purview will be subject to random checks, regular security audits, on-site inspections, and off-site supervision. For those found to be in breach, sanctions could include warnings, temporary suspension of certain activities, and temporary prohibition to exercise certain managerial functions. Financial penalties could be as high as 10 million Euros or 2% of an organization’s global turnover, whichever is higher. What steps should healthcare organizations take now? Organizations should take action to establish whether the EU or UK NIS2 regulations will apply to them and what their responsibilities will be. Having identified any gaps in existing cybersecurity processes, policies, and practices, they must determine what changes need to be made to address them. As a priority, they must review their incident response plans and incident management and reporting procedures. It’s also a good idea to begin assessing the security posture of partners and third parties in the supply chain and incorporating relevant security requirements into contracts. Given the framework’s focus on protecting privileged admin accounts, organizations should implement controls limiting the number of staff members with these robust credentials. Implementing privileged access management (PAM) will allow IT to control who is granted access to which systems, applications, and services, for how long, and what they can do while using them. Preparing for the introduction of the EU NIS2 regulations should be considered more than just a compliance exercise. By meeting the strengthened requirements, healthcare organizations will be building a foundation of resilience that protects them, their customers, and the essential services they provide.
Read More
Healthtech Security
Article | November 29, 2023
Explore the evolution of healthcare by diving deep into these EHR trends, as they pave the way for the future of EHR. Embrace cutting-edge solutions to enhance patient care and optimize operations.
1. Introduction
2. Significance of EHR Trends
3. Top 10 EHR Trends Shaping the Healthcare Industry
3.1 EHR Interoperability
3.2 Patient-reported Outcome
3.3 Patient Portals
3.4 Generative AI
3.5 Cloud-based EHR
3.6 Voice-enabled EHRs
3.7 Predictive Analytics
3.8 Robotic Process Automation
3.9 Telehealth-EHR Integration
3.10 Blockchain for EHR Data Integrity
4. Future Scope
1. Introduction
Electronic health records (EHRs) have transformed the medical industry by revolutionizing how medical information is recorded, accessed, and utilized. This article focuses on the EHR trends and innovations that have reshaped the healthcare field, paving the way for a more efficient and patient-centric future.From enhanced interoperability to cutting-edge technologies, professionals can unravel the key trends propelling future of EHR toward a new era of healthcare delivery.
2. Significance of EHR Trends
The importance of EHR software technology trends is highlighted by their transformative influence on the healthcare sector. This transformation was further expedited by the impact of the COVID-19 pandemic, which played a critical role in the increased adoption of telehealth services. As the pandemic necessitated alternatives to in-person visits, the demand for efficient and remote medical services surged, propelling telehealth to the forefront. Yet, looking beyond pandemic responses, the ongoing adoption of EHR trends in healthcare can significantly reshape how healthcare functions. Embracing these EHR trends enhances efficiency, facilitates personalized care, improves data exchange, drives data-driven insights, and empowers patient engagement. Irrespective of global events, it remains essential for healthcare facilities to stay abreast of these trends to remain adaptable and deliver optimized care, ultimately benefiting both providers and patients.
3. Top 10 EHR Trends Shaping the Healthcare Industry
Recognizing significant industry trends becomes crucial in a field that is constantly subject to technological advancement and global change. From adopting advanced technologies to prioritizing sustainability and customer-centric approaches, these EHR trends hold the power to bring about significant transformations across the healthcare sector.
3.1 EHR Interoperability
EMRs face a notable limitation in their ability to integrate with other systems, whereas EHRs offer robust interoperability, enabling seamless data exchange among healthcare facilities. As the demand for interoperability grows, the distinction between EMRs and EHRs becomes increasingly blurred, with vendors referring to products as EMRs that closely resemble what was initially known as EHRs. In response to this trend, developers and IT specialists continually update EHR systems to comply with interoperability policies, making EHRs more appealing for organizations seeking comprehensive and connected healthcare records.
3.2 Patient-reported Outcome
Patient-reported outcome or PRO EHR integration involves incorporating patient-reported outcome measures into electronic health record systems. PROs gather information directly from patient records about their health status, symptoms, and quality of life. These insights provide valuable subjective data for healthcare providers. For orthopedic patients at the clinic, completing surveys on their smartphones via a mobile link is easy. Clinicians can access patient responses during or after appointments to offer tailored care recommendations based on survey readings. Access to patient-reported outcome data empowers clinicians to deliver patient-centered care, fostering greater patient involvement in their treatment journey.
3.3 Patient Portals
Patient portals in EHRs are pivotal in modern healthcare practices as the industry embraces digital transformation. Patient portals within EHR systems are crucial to empowering individuals and facilitating communication between patients and healthcare professionals. These portals enable patients to access their personal health information securely. Patients can schedule appointments, ask questions, and even have virtual consultations, making healthcare more accessible and patient-centered. With improved communication and engagement, patient portals bridge the gap between individuals and healthcare professionals.
3.4 Generative AI
Integrating generative AI tools with Electronic Health Record systems holds immense promise for advancing healthcare industry. Generative AI can significantly enhance EHR software precision and overall technology, resulting in streamlined daily workflows and enabling healthcare providers to prioritize patient care. By utilizing patterns and structures from existing data to create new content resembling the training data, generative AI brings valuable improvements to EHR systems. These benefits include efficiently filling in missing data, enhancing clinical decision support, automating documentation and coding processes, and ensuring billing accuracy, thereby alleviating the burden on healthcare providers.
3.5 Cloud-based EHR
Cloud computing is gaining traction as medical organizations explore the benefits of outsourcing administrative and clinical services, including medical billing, reporting, lab integration, and more. With the increasing adoption of EHR systems, the advantages of easy access to patient data have become crucial. As the patient population continues to grow, the complexity of data rises, demanding solutions that ensure secure storage and accessibility. Embracing cloud-based infrastructure becomes imperative in this scenario, granting healthcare professionals the flexibility to access data using tablets or smartphones safely. This integration empowers clinicians to enhance their productivity in the clinical environment, laying the groundwork for long-term success by offering mobility solutions that cater to evolving healthcare demands.
3.6 Voice-enabled EHRs
Integrating voice recognition technology with EHR systems is a significant advancement for clinicians. By allowing hands-free input of information and patient data, voice recognition technology reduces inaccuracies and speeds up information recording. Additionally, with the support of AI, EHRs equipped with voice recognition can assist doctors in recognizing historical patient trends and making accurate diagnoses. As companies strive to incorporate AI into EHRs through voice-enabled technology, physicians can effortlessly access patient data and inquire about specific health parameters, such as the last recorded iron levels from a blood test. This streamlined approach improves efficiency and enhances the overall healthcare experience and decision-making process.
3.7 Predictive Analytics
Predictive analytics applications have become a significant driving force within the healthcare industry, yielding profound impacts on diverse areas, including cancer treatments and emergency staffing optimization. As the field continues to evolve, the adoption of predictive analytics technology is expected to expand further. Specialized healthcare app development services utilize AI-powered analytic methods, such as statistics, data mining, and modeling, in conjunction with AI capabilities to offer clinical outcome predictions based on real-time device data and electronic health records. This integration aims to elevate the patient experience and improve care delivery, equipping healthcare professionals with valuable insights to make more informed and proactive care decisions.
3.8 Robotic Process Automation
Robotic Process Automation (RPA) is driving the expansion of the automated data capture market for electronic health records worldwide, owing to its ability to enhance workflows and ensure increased accuracy. By automating data capture through robot-based processes, RPA eliminates the need for manual data entry, leading to improved precision. In the healthcare industry, RPA serves as an effective technique to address EHR flaws without requiring a complete system redesign, permitting the utilization of digital labor to preserve efficient processes while resolving underlying issues. By employing system algorithms and programs, RPAs efficiently automate tasks typically carried out by human resources, accelerating the digitization of medical facilities and promptly addressing imperfections.
3.9 Telehealth-EHR Integration
Integrating EHR systems with telehealth platforms revolutionizes healthcare by facilitating remote care and streamlining clinical workflows. This alliance will enable medical organizations to deliver high-quality patient care from a distance while ensuring the swift and secure transfer of patient information between systems and interfaces. The combined power of telehealth and EMR systems enhances virtual care activities, automates data entries, and synchronizes insurance information in a single window, thus optimizing efficiency and productivity for healthcare providers and their staff. Moreover, this integration strengthens patient-physician engagement and fosters seamless collaboration among healthcare teams.
3.10 Blockchain for EHR Data Integrity
While blockchain technology gained prominence through its association with cryptocurrency, its application in healthcare is steadily gaining momentum. By utilizing cryptography, blockchain ensures the utmost security and integrity of EHR data, limiting access to authorized individuals only. In healthcare, blockchain brings value, from validating clinical trials and verifying claim results to monitoring medicine distribution, authenticating prescriptions, and combating insurance fraud. Additionally, smart contracts leverage blockchain to automate actions based on predetermined outcomes, reducing the need for extensive human involvement. Although the adoption of blockchain in healthcare technology is still in its early stages, several EHR systems have already incorporated it to enhance security, scalability, and confidentiality measures.
4. Future Scope
The convergence of IoT devices and big data technology is set to revolutionize the healthcare experience, offering unprecedented digitization and patient engagement. The disruptions brought on by the COVID-19 pandemic have underscored the need for healthcare institutions to adapt and embrace technological advancements. Careful selection of the right EHR system is crucial for healthcare organizations, and a structured approach that involves key stakeholders, requirements definition, vendor evaluation, and implementation planning is essential for successful EHR implementations. The ultimate goal remains to enhance patient care, streamline workflows, and achieve operational efficiencies. While EHRs have already made significant strides in the industry, the future of electronic health records holds even more excellent benefits and technological impact, with healthcare mobile app developers playing a vital role in the value-based healthcare model and preparing for EHR optimization.
Read More
Healthtech Security
Article | August 31, 2023
Technology in the 21st century is the fuel that drives innovation and ease in almost every industry today. The healthcare sector isn’t far behind. In fact, the medical industry has taken the concept of the Internet of Things and took it to a new level altogether to reimagine the use of medical technology.
Imagine multiple devices like phones, cameras, GPS sensors, and computers interacting with each other through a seamless transfer of data. Now consider wearable medical devices. The exchange of critical medical information through a web of real-time data networks activates near instantaneous responses from doctors, nurses, and medical services. The aim is to anticipate the need for medical attention long before it is needed and remedy the concerns before they reach a critical stage.
That is exactly how the future of the Internet of Medical Things (IoMT) is shaping out to be.
How IoMT is Redefining Everyday Health?
IoMT is a next-generation solution that embeds cutting-edge monitoring and analysis of individual healthcare journeys through medical devices. The smart watch is the most recognizable wearable medical device that is used by millions of people daily to keep tabs on their vitals.
For instance, the Apple Watch series 6 maps blood oxygen levels, sleep patterns, ECG levels, and also reminds the user to wash their hands after returning home.
The market for healthcare IoT products is vast and is constantly expanding. The Tango Belt is a leading example of smart wearable technology that is revolutionizing elderly and disability care. The belt is designed to sense falls and deploy airbags to soften the impact. In addition, it alerts caregivers in the event of a fall. The belt also uses data analytics by collecting mobility data that is then synced to a smartphone app for displaying metrics.
Technologies that Empower IoMT
With the diverse tasks that medical devices must perform, applications exist across a wide spectrum, from artificial intelligence to 5G networks to the cloud.
Consider a pacemaker, for instance. Modern pacemakers are embedded with a multitude of technologies that communicate with each other to send critical patient data to physicians. A pacemaker is a bioelectronic implant that is placed in the chest to control the heartbeat. But a smart pacemaker goes a step further. It is equipped with wireless bluetooth technology that communicates with the patient’s wearable medical device. The smart device or phone will then transfer this data to physicians for check-ups and even alert doctors in the case of anomalies.
To Round It Off
IoMT will subsequently power all medical devices and usher in a future where technology forms the backbone of healthcare service delivery. Although wearable medical technology has been around for decades, the development of a streamlined communication channel between them has redefined their use. Smart medical devices are no longer just an aid but a source of vital individual medical data as well as a way to anticipate care and medical attention.
Read More
Article | April 13, 2020
With their speed and maneuverability, drones have long captured attention for their potential to deliver shopping orders and photograph the world from above. But the machines can also serve a medical purpose by shuttling drugs, defibrillators and other equipment to emergency sites or care facilities. Improvements in battery life, GPS navigation and artificial intelligence functions are making drones a more practical option in healthcare, says Dr. Daniel Kraft, faculty chair for medicine and neuroscience at Singularity University, an executive education program that also serves as a business incubator and consultancy service. Theft is also a concern, says Will Stavanja, chief technical officer at AirBox Technologies, which is testing its DroneX fleet for medical deliveries in the Caribbean. “Right now, most drones land, drop the package and leave,” says Stavanja, whose team has developed smart mailboxes for secure delivery. Addressing that risk will be key to determining whether drones can handle sensitive cargo. “You want a very high degree of certainty,” Kraft says. “It’s one thing if you lose a urine sample or a blood sample; you can get another one. It’s another to lose an organ.”
Read More