Digital Healthcare
Article | November 29, 2023
Workers in the healthcare industry are among the most burned out demographics following the COVID-19 pandemic. In fact, a report by Medscape on physician burnout and depression in 2022 calculated a five-percentage point increase in burnout overall, from 42% in 2020 to 47% in 2021. Critical care physician burnout was also found to increase from 44% to 51% last year, placing them at the top of Maryville University’s list of physician specialties with the highest cases of burnout. This is closely followed by rheumatology physician burnout, which was 50% in 2021. At the bottom of the list, emergency medicine physician burnout still came in close at a rate of 44%.
Burnout can result in, among other things, exhaustion and a loss of concentration, which can be dangerous in healthcare. With that, advancements in technology have been made to help mitigate stress and reduce the chances of burnout in healthcare.
Maximum Tasks, Minimum Efficiency
Reports show that many technological advancements in the healthcare industry actually aren’t appropriate for managing physician workloads. This is due to the range of tasks physicians need to perform, from creating treatment plans to managing EHRs. Our previous discussion on EHR-Generated Messages highlighted how the misapplication of this algorithm had actually led to these inboxes getting clogged. This has primary care physicians spending more than half their workday interacting with EHRs that only remind physicians to order certain tests, instead of dealing with critical messages from patients or colleagues. This has been counterproductive in terms of efficiency, leading to more burnout symptoms and the tendency to reduce clinical work hours. It is therefore important that technology integrations consistently consider the broader picture of the tasks of physicians.
Tech Developments for Reducing Burnout
Shifts in the industry have thus begun to focus on the quality of efficiency and physician assistance, rather than the quantity of technology available. Here are some notable examples of technology that has become finely integrated within the healthcare industry.
Ambient Technology in Clinical Documentation
Ambient computing streamlines the clinical documentation process by using artificial intelligence to respond to human behavior and needs. This provides front-end speech and computer-assisted documentation, reducing the time needed for physicians to work on admin tasks, and thereby minimizing burnout. Smart hospitals have started leveraging this through sensor-based solutions, and experts from Michigan University believe usage must be made easier and simpler to use for the provider if the healthcare industry is to further leverage ambient computing for CDI. As of 2021, adoption has only started to take off, especially in the revenue cycle.
Computer Modeling in Vaccine Development
The traditional process of designing novel vaccines usually lasts 10 to 15 years and can cost between $200 million and $500 million. However, a feature by News Medical highlights the recent development of COVID-19 vaccines, which uncovered the capabilities of computational modeling systems. This showed an ability to predict which parts of a pathogen may be recognized by the immune system’s B cells and T cells. This allows rapid identification of vaccine targets from a genetic sequence, which reduces the years required for preclinical research. Physicians are thus able to respond faster to vaccine developments, and reduce the overload of health systems during any future pandemics or epidemics in the long term.
Patient Placement Technology
The shortage of physicians is a common setback in the industry, one that staff at the Rice County District Hospital in Lyons, Kansas mitigated using patient placement technology. Patient placement technology coordinated care for patients inside the 25-bed, level 4 hospital, as well as those needing to be transferred to another facility. By integrating local EMS and other transport services with health systems, manual telephone calls were no longer necessary. Hence, physicians were able to quickly and effectively get patients the care they needed while managing time-critical diagnoses. This maximizes the limited resources available without stretching out the workforce. Physicians are able to focus solely on their patients, knowing that the time-consuming logistics are being efficiently handled by technology. The industry needs to continue to look into the practices of reducing burnout among physicians, more so as we continue to recover from the effects of the COVID-19 pandemic. By emphasizing physician wellness and efficient technology, we can continue to assure the health and productivity of healthcare workers into the future.
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Health Technology, AI
Article | July 18, 2023
While many United States healthcare providers are returning to their in-person offices, many others are digging in to offer hybrid telehealth or exclusive telehealth practices moving forward. Understanding the future of telehealth reimbursement is then a pivotal issue. As a hub for telehealth consultants and trainers, the Telebehavioral Health Institute (TBHI) is receiving daily requests for assistance from behavioral health groups and independent practitioners seeking to position themselves for telehealth expansion optimally.
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Health Technology, Digital Healthcare
Article | August 21, 2023
Contents
1. Getting Started with LIMS Software
2. Benefits of Incorporating LIMS Software into Lab Management
3. LIMS Software Classification
4. Selecting the Right LIMS Software: A Comparison of Variants
5. How LIMS Software Revolutionized Laboratory Management
6. Future Scope
1. Getting Started with LIMS Software
Laboratory Information Management System (LIMS) software automates laboratory operations, improves productivity, and ensures the accuracy as well as reliability of laboratory data. It can be implemented in clinical laboratories, research & development labs, and environmental testing labs and tailored to meet specific needs. LIMS software seamlessly integrates with other laboratory systems, such as electronic lab notebooks and scientific data management systems.
LIMS class software enables storing and managing all information in one place, improving day-to-day work. Yet, research reveals that still 40% of industry leaders 'had not embarked on applying digital to research and development or quality control labs'.
(Source: Accenture)
2. Benefits of Incorporating LIMS Software into Lab Management
By implementing LIMS software, laboratories can significantly reduce time spent locating samples and records, entering data, and generating reports.
LIMS software also offers additional advantages when integrated into laboratory management, such as
1. Optimizing: LIMS automates laboratory processes, allowing for a paperless environment and increased productivity. It also ensures accurate test results by preventing the use of outdated instruments.
2. Automating: LIMS facilitates the input of essential sample information, including its source, date, time, and location of the collection as well as processing data.
3. Compliant: LIMS helps labs follow FDA regulations by creating an audit trail that tracks all activities, including record creation, modification, and deletion. It also enables electronic signatures to authenticate key activities and keep data secure and traceable.
4. Collaborative: LIMS streamlines inter-laboratory collaboration through the option to share data access. This allows lab technicians from disparate laboratories to be seamlessly assigned to different projects and obtain the required information without disruption.
5. Security: LIMS systems offer various mechanisms for managing user access, such as an in-built user management system with a unique username and password, integration with LDAP or Active Directory for user authentication, and access through an Identity Server.
3. LIMS Software Classification
Laboratory Information Management System software can be classified based on several criteria, including functionality, deployment model, industry focus, and the laboratory's needs.
Here is a list of critical features that can be considered while classifying LIMS software:
1. Functionality: Different LIMS software may have varying functionality, including sample tracking, data management, instrument integration, quality control, workflow management, and reporting.
2. Deployment Model: LIMS software can be deployed on-premises or in the cloud. On-premises deployment means that the software is installed and run on the laboratory's own servers, while cloud-based deployment means that the software is hosted and maintained by a third-party provider.
3. Industry Focus: LIMS software can be designed for specific industries or applications, such as pharmaceutical research, clinical laboratories, food and beverage testing, environmental testing, and more.
4. Open-Source vs. Proprietary: LIMS software can also be classified as either open-source or proprietary. Open-source software is freely available and can be modified by users, while a company owns proprietary software and requires a license to use it.
5. Scalability: The size of the laboratory and the number of users accessing the LIMS software can also be a factor in classification. Some LIMS software may be more scalable, allowing for easy expansion as the laboratory grows.
6. Integration Capabilities: LIMS software can also be classified based on its ability to integrate with other software or instruments. Some LIMS software may be more flexible and have better integration capabilities than others, allowing for seamless data exchange between different systems.
4. Selecting the Right LIMS Software: A Comparison of Variants
While selecting the most appropriate LIMS variant, the wide range of available options can pose a challenge for laboratory decision-makers. To aid in this selection process, a comprehensive comparative analysis of LIMS variants is presented below:
1. Lab managers can adopt an objective approach for evaluating and comparing different LIMS solutions by creating a grading rubric. This involves designing a table with separate columns for each LIMS vendor and rows listing the desired features as well as functionalities. To provide a more comprehensive evaluation, advanced rubrics may include rating each functionality on a particular LIMS using a scale of 1 to 5.
2. Next, it is crucial to review how LIMS solutions are structured and stored. This includes determining whether the solution is on-premise or cloud-based, either as a platform-as-a-service (PaaS) or software-as-a-service (SaaS). For optimal flexibility in the laboratory's computing structure, choosing a vendor that offers LIMS as a comprehensive solution is advantageous.
3. Data access must be controlled by using unique user IDs and passwords. Furthermore, data security standards such as HIPAA compliance and SSL encryption will likely be mandatory across many laboratory industries. It is thus imperative to carefully consider and ensure the security features of any potential LIMS solution.
4. To assess the level of support that can be expected with a particular LIMS, one effective method is to directly inquire with the software vendor about outages, response time, and plans of action to address any glitches preemptively. Managing expectations around the LIMS requires asking about the frequency of LIMS updates, including how often the platform is updated, how updates are announced and deployed, and the expected duration of any update-related outages.
5. While selecting a LIMS solution, laboratories must establish a target go-live date, especially when implementing the system in response to, or preparation for, an audit. Software vendors should provide a deployment and implementation timeline, which can be used to compare with the laboratory's objectives and goals. This helps to ensure that the LIMS solution is implemented in a timely and efficient manner.
5. How LIMS Software Revolutionized Laboratory Management
LIMS software has fundamentally revolutionized the laboratory management system in several ways. Before the advent of LIMS, laboratory operations were often paper-based and highly manual, leading to inefficiencies, errors, and inconsistencies. However, with the implementation of LIMS, laboratories have become more efficient, accurate, and compliant.
LIMS has also improved laboratory productivity, allowing scientists to focus on higher-value tasks like data analysis and interpretation. It has enabled collaboration between different laboratories, facilitating communication and knowledge sharing between scientists, researchers, and analysts, and is also leading to more significant innovation and progress in the field of science and research.
6. Future Scope
The future scope of Laboratory Information Management System software is promising as it continues to evolve and adapt to the changing needs of laboratory management. Potential developments include integrating emerging technologies such as artificial intelligence, machine learning, and robotics, cloud-based solutions for scalability and accessibility, IoT integration for automation and safety, enhanced data analytics for improved decision-making, and mobile applications for on-the-go access. Moreover, with SaaS LIMS, there are no license costs, minimal installation fees, and no need for in-house servers or databanks, resulting in reduced IT maintenance costs for hardware and software.
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Article | December 28, 2020
The recent COVID-19 pandemic in 2020 has changed the way the healthcare industry has been processing. It has transformed the healthcare sector digitally. Healthcare providers have changed services with the latest healthcare technology trends in digital and virtual platforms. Every healthcare provider is updating services by adopting digital advancements in their practices to increase their capacity to engage the maximum number of patients. Still more advancements and updates are needed to address many challenges in the industry such as cybersecurity, effective payment model, telehealth, patient experience, invoicing and payment processing, and big data.
Last year, wearable devices in the healthcare industry were quite popular with the patients. These devices have helped patients be aware of various healthcare metrics. Due to the introduction of the 5G internet, the wearable devices market is expected to have huge scope in 2021. Healthcare technology trends, such as the use of a digital dashboard scheduler or chatbots as a digital assistant, help hospitals and other healthcare organizations to better track appointments, contacts, demography, and make changes more efficiently as these are practical measures for modifying and monitoring patient activities.
Telemedicine, using video conferencing, digital monitoring, etc. have also been very helpful in containing the spread of the pandemic. It has made healthcare accessible for everyone, especially in rural areas. For remote patient care systems, telehealth and teleradiology reporting are very important technological upgrades. Healthcare technology trends of 2020, including patient portals, mobile health applications, remote care via telehealth, and wearable devices, played a major role in tackling the global pandemic situation. Artificial intelligence (AI), Machine Learning (ML), and Robotic Process Automation (RPA) also played a vital part in handling the situation. All the above-mentioned are COVID-19 fueled healthcare technology trends in 2020, which are expected to continue in coming years too.
Here is a detailed look into the healthcare technology trends, which are expected to address the new challenges and revolutionize the healthcare industry in 2021.
Technology Trends that will Revolutionize the Medical Industry in 2021
The digital transformation of the healthcare industry has been fast-forwarded by COVID-19 in 2020. Recognizing the healthcare technology trends, many healthcare providers have readily shifted their operations to the latest trending technologies. Others are also looking forward to setting their operations according to the upcoming trends.
It seems like almost all the healthcare providers genuinely wanted to transform their operating system to engage the maximum number of patients, due to the healthcare technology trends set after the hardest crisis in the healthcare industry virtual reality healthcare. So, before planning your healthcare strategy for 2021, don’t miss to include these healthcare technology trends of 2021 to achieve better healthcare outcomes and stand one step ahead of your competitors.
Patient Engagement Technology
One of the most competitive healthcare technology trends in 2021 will be patient engagement technology. There are countless technologies available in the market for patient engagement, evaluation, and campaigning. Due to high competition in the market, these tools are priced competitively.
Many healthcare organizations have started empowering themselves by achieving consistency in patient engagement with the help of available tools in the market. This also helps them achieve increased ROI. The healthcare technology trends, including remote care via telehealth, patient portals, wearable devices, mobile health applications, and many more, empower patients and increase patient engagement.
Hospitals and other healthcare organizations need to improve patient experience along with engagement. The entire road to patient satisfaction and experience can be changed with these healthcare technology trends in 2021.
Telemedicine
As telemedicine revolutionized the entire healthcare technology in 2020 by playing a vital role in containing the COVID-19 pandemic, it is expected to be one of the healthcare technology trends in 2021 too.
Using the advancement, it possible for healthcare professionals to diagnose and treat any number of patients remotely through phone calls, mobile apps, emails, and even through video calls. Telemedicine can provide patients with better access to all healthcare services, drive up efficiency and revenue, and lower healthcare costs.
Augmented Reality (AR) and Virtual Reality (VR)
The arrival of both AR and VR solutions has made way to witness meaningful advancements in the healthcare industry and technology. Advancements that could only be dreamt of a decade back, have become realities and been implemented. These two healthcare technology trends offer some serious promise to the world of healthcare, including educating patients before a treatment procedure.
AR offers one of the latest and most spontaneous options in the healthcare industry. AR allows doctors and surgeons to experience 3D effects on real-world scenes. This healthcare technology trend permits the professionals to stay grounded on actual procedures with access to all the data through various other emerging technologies. This makes doctors compare data, in the virtual world, to understand what the patient is experiencing and make a flawless diagnosis and suggest healthcare procedures.
Chatbots
It is either impossible or expensive for patients to get answers from specialists for their routine queries. But, chatbots make it easier and comfortable for healthcare service providers to answer questions of patients cost-effectively. Though chatbots are currently in the experimental phase to be used in healthcare solutions, they are most likely to have the necessary access to clinical scenarios by the beginning of 2021. It is expected to be one of the progressive healthcare technology trends in 2021.
As a digital assistant, chatbots allow healthcare providers to keep a track of contacts and appointments and make changes, when necessary. Chatbots are going to revolutionize the clinical processes and business, providing practical as well as clear measures for modifying and monitoring patient activities.
Big Data and 5G
5G is about to sweep the world in the coming months. With the extraordinary intensification in transmission bandwidth of 5G, users will construct a huge amount of data. With 5G, the Internet of Things (IoT) will be used largely to send and receive data. In the next three years, the global wearables market is expected to reach an annual turnover of US$52 billion. This can be attributed to the introduction of 5G wireless technology, one of the healthcare technology trends.
Healthcare providers will have the access to a huge amount of accurate data when data from wearable devices and other initiatives are added together. This is going to change the way providers collect data and the way doctors and patients communicate.
Thus, while you plan to upgrade your healthcare technology for 2021, don’t forget that you will be receiving a huge amount of data from patients, which can be attributed to one of the important healthcare technology trends of 2021, big data and 5G.
Artificial Intelligence
Artificial Intelligence (AI), one of the prominent healthcare technology trends of 2021, is developed to mimic human thought processes. GNS Healthcare AI system and IBM Watson are some of the most popular examples for the active use of AI in the healthcare process. This trend is going to rule healthcare processes and revolutionize medical care in 2021.
To improve healthcare professionals’ and hospitals’ care delivery to patients, Google’s DeepMind has built mobile apps and AI. The AI healthcare market is expected to reach US$7988.8 million in 2022 from US$667.1 million in 2016. This healthcare technology trend is expected to take the healthcare industry to a new realm by increasing patient engagement and experience in 2021.
Cloud Computing
Cloud computing is one of the major healthcare technology trends in 2021 that is going to change the industry. Attributed to the recent development of various healthcare technology trends, the cloud computing market is expected to reach US$35 billion in 2022 from US$20.2 billion in 2017.
This tremendous growth is attributed to the need of storing a high volume of data for healthcare organizations at a lower cost. In the healthcare domain, the main use of big data is in Electronic Health Record systems (EHR). It allows secure storage of various digital documentation such as demographics, medical history, diagnoses, and laboratory results. Cloud computing, an important healthcare technology trend, is expected to make the healthcare process smooth and flawless in 2021.
The biggest trend of 2021 in the healthcare industry is the holistic technological transformation of healthcare firms. Whether AI, ML, RPA, telemedicine, big data, chatbots, or cloud computing, almost everything related to data management and monitoring will peak in 2021. These healthcare technology trends will rule healthcare in 2021. Moreover, targeted and personalized care for critical diseases is expected to be another trend in the coming years.
Frequently Asked Questions
What are the technology trends in healthcare?
Trending healthcare technologies are AI, ML, RPA, cloud computing, big data, chatbots, telemedicine, etc. AI, the life-changing technology is going to completely transform the healthcare industry in the coming years starting from 2021.
What are the most important trends in healthcare technology?
Augmented and virtual reality, Artificial Intelligence, the Internet of Medical Things, Machine Learning, chatbots, cloud computing, telemedicine, etc. are the most important technology trends in the healthcare industry.
What are the current technological trends in healthcare?
Artificial Intelligence (AI) and Machine Learning (ML), Internet of Medical Things (IoMT), Augmented Reality (AR) and Virtual Reality (VR), Electronic Health Records (EHR), Blockchain and data security, health-tracking apps, therapeutic apps, and telehealth are the major current technological trends in the healthcare industry.
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