6 importance of technology in healthcare in 2023
Technology’s prevalence in healthcare continues to expand, helping streamline processes for more effective outcomes.
Physicians now spend less time on administrative duties and more on patient care, which allows them to build personal relationships with their patients and focus on what really matters.
Technology is revolutionizing all areas of healthcare – from diagnostics to managing diseases – while revolutionizing all facets of patient care.
1. Electronic Health Records
EHRs (Electronic Health Records), digitalized versions of traditional patient charts, enable medical professionals to communicate efficiently in real-time. Physicians can easily update information quickly while patient files travel seamlessly among clinicians or specialists involved with treatment for continuity. Continuity of care helps save patients time as they move between locations or providers.
This system also removes the need for large storage facilities and reduces administrative staff costs associated with retrieving paper charts from storage. Furthermore, it reduces risks related to lost paperwork while improving legibility – as well as making it simpler for doctors to code billing and insurance claims.
Additionally, an EHR can enhance healthcare practitioners’ efficiency and productivity as they see more patients per day. This can be accomplished by eliminating manual data entry tasks, decreasing paperwork requirements, minimizing error rates and permitting speech recognition software usage.
Physicians can use EHRs to enter patient orders and prescriptions without needing a prescription pad, saving time and money while improving accuracy of orders. Many of these systems come equipped with templates tailored specifically for different specialties that can be personalized according to each physician’s workflow; some even come equipped with artificial intelligence capabilities that assist physicians with diagnosis as well as providing historical records for each patient.
2. Artificial Intelligence (AI)
Artificial Intelligence, or AI, employs machine learning to process massive data sets in healthcare applications like reading medical images and X-rays, diagnosing illness and creating treatment plans. Furthermore, AI technology can assist and support healthcare professionals while also improving patient services by helping individuals understand their health better. Wearable healthcare technology that incorporates AI such as FitBits or smartwatches may also use this type of artificial intelligence technology in healthcare settings.
At present, numerous Big Tech companies are investing heavily in healthcare-related AI. One particularly lauded achievement involves using deep learning to solve an age-old challenge related to protein folding: predict which shape proteins will fold into from their amino acid sequences – essential information when drug development.
Other applications involve natural language processing (NLP) and predictive analytics to assist healthcare providers in communicating more easily with patients, and ultimately improve overall care and outcomes. This may involve scheduling an appointment, providing driving directions to a hospital or suggesting whether a patient should fast before an exam.
AI can not only improve patient services but can also cut costs by automating time-consuming tasks and helping eliminate human error – which is often responsible for medical errors. AI technology also facilitates more accessible telemedicine solutions which make health care available to people who cannot afford travel or don’t live close to a doctor’s office.
3. Machine Learning (ML)
Machine learning (ML), an area of artificial intelligence, has the power to revolutionize healthcare delivery systems. Medical professionals can utilize it to increase diagnostic accuracy, customize care plans for individual patients and discover innovative solutions to decades-old problems. Furthermore, ML technologies may streamline administrative processes while cutting costs.
AI algorithms can leverage existing data to detect patterns and abnormalities in images, helping radiologists make accurate diagnoses that improve patient outcomes. Furthermore, ML can validate doctors’ reasoning and decisions through predictive algorithms while also identifying high-risk patients and forecasting disease outbreaks quickly enough for medical professionals to respond swiftly and prevent the spread of infectious disease outbreaks.
ML can aid the creation of new pharmaceuticals and medicines. Furthermore, it can analyze patient records to measure response to medications or treatments and allow medical companies to customize treatments for individuals. Furthermore, ML can perform complex tasks that humans cannot, such as data entry and processing – freeing up time for physicians and administrators to focus on more important tasks.
Machine learning (ML) can be combined with emerging technologies like IoT devices, blockchain and robotics to enhance patient care and streamline administrative processes. For example, it could automatically input patient data into an electronic health record system while automating manual tasks like data entry or scheduling appointments – thus saving healthcare workers from computer fatigue and potential burnout.
4. Remote Monitoring
Remote monitoring is one of the key telehealth technologies that enables healthcare providers to monitor the vital signs and symptoms of their patients at home, thereby decreasing the need for in-person visits, by helping doctors recognize an impending health issue before it escalates to emergency levels and even helping prevent hospitalizations altogether.
Health IT refers to devices that record and transmit both physiological and no physiologic data directly to healthcare providers for analysis. Healthcare providers then review this information in order to assess a patient’s health status and prescribe treatments accordingly.
Wearables, fitness trackers and biosensors can be used as remote monitoring devices to measure key physiological information such as blood pressure, heart rate, body temperature, weight and respiration rate. When connected to apps on smartphones or tablets these devices can send this data directly into a healthcare provider’s database or display alarms when readings exceed normal range.
Remote monitoring can be an invaluable asset to healthcare providers looking to improve health outcomes, yet there are a few challenges they must address first and foremost. They must make their remote monitoring programs user-friendly with intuitive equipment and user interfaces that are easy for patients and clinicians alike to adopt; as well as ensure it remains secure and reliable for use. Lastly, healthcare providers must prioritize digital health equity so underserved populations have equal access to remote monitoring programs as well.
Telemedicine is an innovative virtual healthcare service that connects patients to physicians via various communication technologies like live video conferencing and mobile health apps, as well as “store and forward” electronic transmission to transmit their data remotely.
Telemedicine may not be new, but thanks to advancements in technology and an increase in demand it’s becoming easier for patients and physicians alike to utilize. Telemedicine has proven invaluable during the COVID-19 pandemic; more hospitals, medical groups and private practitioners are adopting it into their services.
Telemedicine can be beneficial to many, particularly those who have difficulty travelling or chronic conditions such as diabetes or heart disease. Telemedicine allows patients to avoid unnecessary trips to emergency rooms, lower hospital-acquired infections risk, and minimize medication errors by giving all care providers access to your current medications and diagnoses.
Although telemedicine offers many advantages, there can be drawbacks as well. Technology glitches may make navigation challenging; to be on the safe side and prepare for potential difficulties ahead of an appointment it is advisable to test both internet connections and devices prior to participating in any telemedicine visit and contact your insurance provider about eligible reimbursements so that you receive adequate care.
6. Wearable Technology
Wearable technology has become part of our everyday lives; from wrist trackers and smartwatches, to fitness bands and earbuds. Wearable devices have quickly become part of people’s daily lives as a means of monitoring health conditions, tracking activity, and sleeping better. Popularity aside, wearable devices have also proven useful in healthcare professionals’ practices; healthcare workers utilizing medical-grade wearable devices collect biometric data that alert them of potential health issues before they become life-threatening – thus decreasing staff workload, improving patient satisfaction/teamwork collaboration as well as improved outcomes.
These devices can be particularly beneficial to patients with chronic health conditions who must see their physician regularly, enabling doctors to analyse data and come up with an accurate treatment plan at exactly the right time for each individual patient. Furthermore, these devices reduce hospital readmission rates and optimize reimbursement rates from insurance providers.
Photo plethysmography (PPG), which uses a light sensor to monitor blood flow and heart rate, can help identify irregularities in the cardiovascular system and identify irregularities such as those responsible for cardiac arrest or anticoagulation therapy efficacy. PPG has been demonstrated to significantly decrease risk of cardiac arrest while increasing efficacy. PPG is also an easy and portable monitoring solution suitable for monitoring various conditions and illnesses including hypertension and congestive heart failure as well as alerting circle caregivers or 911 in real time when falls occur in older adults – perfect for monitoring health conditions or illnesses such as hypertension or congestive heart failure! PPG technology careers include software development, nursing, applied health sciences.