TCAREKIT HEALTH Toronto, Canada “Carekit Health Technology Prototype” Noor Fatima & Padmasiri Wickramasinghe George Brown College Author Note Noor Fatima & Padmasiri Wickramasinghe, School of Computer Technology (Casa Loma Campus), George Brown College. This Research Study supports in part of a curriculum of Applied Practicum Course (HLTH 1105) for Health Informatics Program. Correspondence for this project report may be contacted to Noor Fatima & Padmasiri Wickramasinghe, School of Computer Technology (Casa Loma Campus), George Brown College. Contact: drnoorjeo@yahoo.com, pkwickrama@gmail.com Carekit Health Technology Prototype 1- Letter of Transmittal 2- …show more content…
Although CareKit Health Toronto, Canada has built a powerful platform for care coordination and home healthcare that integrates wearable, sensors, voice technology and intuitive mobile apps and desktop interfaces for patients, clinicians and healthcare administrators, the following are the successful metrics to precede our project’s service model: Understanding the “Main hardware” Understanding the target group with chronic diseases Understanding the Competitors in the market We are looking forward to working with Morpho Synthesis Inc. to bring a successful completion of this project that will increase efficiency in improving the quality of care for all our customers. We are ready to deliver a complete evaluation and operation model plan in the form of a complete “written project report” in the allocated period of time (two months), starting from October 10, 2015 and ending to December 09, 2015. Our approach is organized into three phases: Planning (October 10, 2015 – October 17, 2015) Evaluation and Decision Making (October 18, 2015 – October 26, 2015) Operations model development (October 27, 2015 – December 09, 2015) The total estimate cost of this project is between $ abc00 to xyz00 CAD. A detailed cost of every individual product is attached to this document. Overall, CareKit Health Toronto, Canada allows complex patients to receive high quality care at home, improving health outcomes, enhancing quality of life for
The use of mobile technology in the healthcare industry has exploded in the last ten years. Mobile health or mHealth, provides an entire new aspect of the relationship between patients and their doctors and other medical providers. Mobile devices place important and critical information into a medical professional’s hands in real-time. Doctors can monitor a patient’s condition more frequently, allowing them to make better and more informed decisions and diagnoses.
Mhealth has reached the poorest of communities (U.S. Department of Health and Human Services, n.d.). More than 9 million patients email their physician in 2009 (Digital Health Care, 2010), because patients’ busy lifestyles do not allow time for an office visit for non-emergent health conditions. . In recent years, the expansion of mobile health (mhealth) technologies, including health text messaging, mobile phone applications, remote monitoring, and portable sensors, have changed the way health care is being delivered in the U.S. and globally (U.S. Department of Health and Human Services, n.d.). Patients like the convenience of communicating with his or her physician through advanced technology.
As consumers utilize smartphones, tablets, and other devices for other functions like social media and email, they are starting to look at these features to assist them with their healthcare. Mobile body area network devices will be a growing trend in the coming years as a way to get patients engaged in their healthcare and also to give providers routine updates on the status of patients with chronic conditions. As DeGaspari (2014) indicates, these devices can lead to improved functionality for other devices used in hospitals, such as sensors for monitoring patients that might get up and wander or be a fall risk. Telemedicine will continue to grow as payers, providers, and patients all start to realize the mutual benefits that can be
Carecloud is great for long hours of the day, making your time more efficient. CloudCare allows you to view how long a patient has been waiting for and what rooms are open. In the initial conversation with the staff from the UMUC clinic, the first complaint was the amount it time it took to check a patient in and the inconvenience of having to run around to notify the provider. With the CareCloud, allergies are acknowledged and will let the provider know if a patient should not take a certain medication. Carecloud also lets you discontinue medications.
The author has been employed in the healthcare field for over fifteen years that has allowed the time to observe the transformation of the primary care practice. This paper will examine the industry using Aspirus, Inc. as the reference point; however encompassing an examination of other healthcare institutions. Evidence suggests the Patient Centered Medical Home (PCHM) model, also known as the medical come, of care can offer many benefits, including improved quality in the patient experience and disease management and lower costs to the patient and system because of reduced emergency room visits or hospital admissions. The main objective of this paper is to highlight the challenges and explore what the PCMH model will be like in five years within the primary care setting of a healthcare organization.
Users requiring medical care, typically will find the nearest facility providing the services they require, and must contact the clinic to initiate an appointment request. Once the individual has arrived to attend the appointment, instead of promptly receiving care, the individual must fill out many forms to meet the protocol that all patients must be expected to complete. Research from the International Journal of Computer Science and Information Security Research, studied the lacking functionality of the current healthcare system, the authors studied the effectiveness of a mobile program.“The current system is
This Network is dedicated towards providing a truly interactive patient care experience where the patient, family and their partners in care are active, engaged and empowered participants in their care continuum. By engaging the patient throughout their care, we improve: patient satisfaction, quality and safety, and finance & operations. It allows patients and their families to take a more active role in the care process by learning more about their condition, communicating with caregivers, preparing for discharge and caring for themselves at
In this report I will explain the purpose and design of the curriculum proposal. I will then review the feedback obtained from the validating panel and the changes made. Professional values will also be explained and the importance they have in the lifelong learning sector. In addition, I will explain how the course will be evaluated providing a summary of how records are currently being used. Finally, I will create an action plan highlighting development needs to the course design.
Choosing your platform: With many diverse styles of computer systems found with a health care facility finding an application that can integrate across multiple healthcare organizations is
Technology infrastructure can be defined as the hardware and functioning software that permits the computing of data within a health care system (Englebardt & Nelson, 2002). The infrastructure includes but not limited to computers, mainframe computers, mid-range computers, workstations, portable computers, handheld devices, communication networks, and peripherals. The designated area for review and research is the technology infrastructure for the home telehealth department within the Veterans Administration (VA) Health care facility in Durham, North Carolina (NC). The VA defines home telehealth as the methodical application of health information technologies in the management of chronic disease, health promotion, and disease prevention in an at-risk population (Darkins, Ryan, Kobb, Foster, Edmonson, Wakefield, & Lancaster, 2008). The goal of
Medical Equipment Interoperability. The project team evaluated the five primary types of medical equipment systems that were determined that interoperability would be critical by NICU clinicians for effective communication. Ouellette (2017) investigated critical medical equipment to determine the feasibility for integration with alarm management middleware and mobile applications. The NICU clinical team identified the Phillips patient monitoring, pumps, incubator, ventilator and the nurse call as medical equipment that is vital to their workflow.
LifeStat, developed by SaskTel, is a device that serves the purpose of fulfilling the communication gap between patients and their caregivers. It allows SaskTel’s clients to examine their own blood pressure, glucose levels, and heart rate levels without having to physically go to the hospital. The information gathered by the client is then transmitted to SaskTel’s data center where a professional caregiver or physician is able to monitor the client’s personal health at anytime of the day. SaskTel’s executive committee recently approved a proposal to launch LifeStat into the Canadian healthcare market place. Pat Tulloch, senior director of marketing for SaskTel, was given the task
At Christchurch Hospitals, Vital PAC got together clinical knowledge and technological innovation to improve healthcare outcomes. Their systems put real-time information in the hands of doctors, nurses and senior managers to enable them to take better, more informed decisions. Their digital system acts as an electronic personal assistant for clinicians and other staff, making information instantly available at bed, ward and whole hospital level. It has a bed and capacity management tool, which gives operations teams real time visibility across the hospital, of patient location, clinical status and progress towards discharge.
As the population ages, the demand for medical care will increase. Health care providers recognize that with the use of technology enables them to provide remote services. According to Tan, & Payton (2010), The goal of the SAPHIRE project is to create a health monitoring and health decision support system to tackle the problems of increase patient load (p.144). One benefit of interoperability is physicians are now able to monitor various patients remotely which will improve the quality of care. Aforementioned allows them to recognize any potential issues that may arise and this gives them the chance to reach out to patients who may need immediate care. This type of service is an asset especially for patients who me not be able to identify the
While software selection criteria were not in scope for this effort, it does warrant discussion on the overall availability of specialty software for the medical industry on iOS, Android and Windows platforms. Currently, most of the “MCA’s” or Medical Clinical Assistant platforms operate in a Windows-only environment, as do most of the key medical records and billing platforms in the medical field. The cost of custom software development to build a mobile solution is far beyond the budget of most local hospitals and not an endeavor to be undertaken lightly.