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Bachelor of Science in Applied Computer Science - Health Informatics

Winnipeg

 

INTAKE: Jan, May & Sept

Program Overview

The Bachelor of Science in Applied Computer Science with a concentration in Health Informatics at the University of Winnipeg is designed to prepare students for careers at the intersection of healthcare, technology, and data science. The Bachelor of Science in Applied Computer Science with a concentration in Health Informatics program at the University of Winnipeg offers a comprehensive and specialized education that prepares students for rewarding careers in the rapidly growing field of health informatics. With a strong foundation in computer science principles, specialized knowledge in health informatics, and practical experience in healthcare settings, graduates are well-equipped to make significant contributions to improving healthcare delivery, patient outcomes, and population health using technology solutions.

Curriculum:

  1. Core Computer Science Curriculum: The program begins with a comprehensive foundation in computer science principles, including programming languages, data structures, algorithms, software engineering, and computer architecture. Students acquire essential skills in software development, data analysis, and problem-solving, laying the groundwork for their specialization in health informatics.

  2. Specialized Health Informatics Courses: In addition to the core computer science curriculum, students take specialized courses focusing on health informatics. These courses cover topics such as healthcare data standards, electronic health records (EHR), health information systems, clinical decision support systems, and healthcare data analytics. Students learn how to design, develop, and implement technology solutions to address challenges in healthcare delivery, patient care, and clinical research.

  3. Interdisciplinary Approach: The program adopts an interdisciplinary approach, integrating concepts from computer science, healthcare, and data science. Students gain insights into healthcare systems, medical terminology, and regulatory requirements, enabling them to develop technology solutions that meet the unique needs of the healthcare industry. They collaborate with healthcare professionals, researchers, and stakeholders to understand real-world challenges and opportunities in health informatics.

  4. Practical Experience: The program emphasizes hands-on learning experiences to reinforce theoretical concepts and develop practical skills. Students engage in programming assignments, software development projects, and laboratory exercises focused on healthcare applications. They work with healthcare datasets, analyze clinical data, and develop prototype systems to address healthcare challenges such as patient monitoring, disease surveillance, and healthcare quality improvement.

  5. Healthcare Internships or Co-op Placements: Students have the opportunity to gain practical work experience through internships or co-op placements in healthcare settings, technology companies, or research organizations. They apply their knowledge and skills in real-world environments, working on projects related to electronic health records, telemedicine, health data analytics, or health information exchange. Internships provide valuable industry experience, networking opportunities, and insights into career paths in health informatics.

  6. Ethical and Regulatory Considerations: The program covers ethical and regulatory considerations in health informatics, including privacy, security, confidentiality, and compliance with healthcare regulations such as the Health Insurance Portability and Accountability Act (HIPAA) and the Personal Health Information Act (PHIA). Students learn about ethical principles, data governance, and best practices for protecting sensitive healthcare information in digital environments.

  7. Industry Partnerships: The University of Winnipeg may have partnerships with healthcare organizations, hospitals, clinics, or government agencies to provide students with experiential learning opportunities and industry connections. These partnerships facilitate internships, research collaborations, and guest lectures by healthcare professionals, allowing students to gain firsthand experience and insights into the healthcare industry.

  8. Capstone Project: In their final year of study, students typically complete a capstone project in health informatics, where they apply their knowledge and skills to develop a significant technology solution or application for healthcare. The capstone project allows students to demonstrate their proficiency, creativity, and problem-solving abilities in addressing real-world challenges in health informatics.

  9. Preparation for Certification Exams: The program may prepare students for professional certification exams in health informatics or related fields, such as the Certified Health Data Analyst (CHDA) or Certified Professional in Healthcare Information and Management Systems (CPHIMS) exams. Certification credentials enhance students' credentials and competitiveness in the job market, validating their expertise in health informatics.

  10. Career Development Support: The University of Winnipeg provides career development support services to help students transition from academic study to professional employment in health informatics. Services may include resume writing assistance, interview preparation workshops, career fairs, networking events, and job placement assistance in healthcare organizations, technology companies, or research institutes.

Pollster Education

Location

Winnipeg

Pollster Education

Score

IELTS: 6.5

Pollster Education

Tuition Fee

CAD 19544

Entry Requirements for Undergraduate Programs

Application Fees : CAD$ 120

Academic Qualifications: Students must have completed their secondary education (12th standard) from a recognized Indian educational board with a minimum overall 75%.  

English Language Proficiency: IELTS (International English Language Testing System) overall 6.5 with no band less than 6 is required, TOEFL (Test of English as a Foreign Language) overall score of 86 with no band less than 20 is required. PTE score of 58 and DET score of 120 is required.

The University of Winnipeg offers a range of scholarships and awards to support international students in their academic pursuits. These scholarships recognize academic excellence, leadership potential, and contributions to the community. 

President's Scholarship for World Leaders: This prestigious scholarship is awarded to international students entering the University of Winnipeg's undergraduate programs. It covers full tuition fees for the duration of the program and includes a living allowance.

Entrance Scholarships: The University of Winnipeg offers several entrance scholarships for international students based on their academic achievements. These scholarships range from partial to full tuition fee waivers and are available for both undergraduate and graduate students.

Manitoba Graduate Scholarships (MGS): The MGS program provides scholarships to international students pursuing a master's or doctoral degree at the University of Winnipeg. These scholarships are awarded based on academic excellence and research potential.

In-Course Scholarships: The University of Winnipeg also offers scholarships for international students who are already enrolled in a program. These scholarships recognize academic achievements and are available at various levels of study.

Indigenous Award of Excellence: This scholarship is specifically available for international students of Indigenous descent. It supports their academic journey at the University of Winnipeg and encourages their cultural engagement and leadership.

Donor-Funded Scholarships: The University of Winnipeg receives generous contributions from donors who establish scholarships for specific criteria. These scholarships may target international students based on their country of origin, field of study, or community involvement.

It's important to note that scholarship availability, criteria, and application deadlines may vary each year. It is recommended that international students visit the official website of the University of Winnipeg and the scholarship-specific pages for the most up-to-date and detailed information on eligibility, application procedures, and deadlines.

Graduates with a Bachelor of Science in Applied Computer Science with a concentration in Health Informatics from the University of Winnipeg possess a unique skill set that opens up a wide range of promising career opportunities in the rapidly expanding field of healthcare technology. The Bachelor of Science in Applied Computer Science with a concentration in Health Informatics program at the University of Winnipeg equips graduates with the knowledge, skills, and practical experience needed to excel in diverse and rewarding careers at the intersection of healthcare and technology. With the growing demand for healthcare IT professionals and the increasing adoption of digital health solutions, graduates are well-positioned to make significant contributions to improving healthcare delivery, patient outcomes, and population health using technology-driven approaches.

  1. Healthcare IT Specialist: Graduates can pursue careers as healthcare IT specialists, working within healthcare organizations to design, implement, and maintain information systems and technology solutions. They collaborate with healthcare professionals to ensure that technology meets the needs of clinicians, improves patient care, and enhances operational efficiency.

  2. Health Data Analyst: With their expertise in data analysis and healthcare systems, graduates may work as health data analysts, analyzing clinical data, electronic health records (EHRs), and healthcare datasets to derive insights and inform decision-making. They utilize statistical techniques, data visualization tools, and predictive analytics to identify trends, patterns, and opportunities for quality improvement in healthcare delivery.

  3. Clinical Informatics Specialist: Graduates may specialize in clinical informatics, focusing on the integration of technology into clinical workflows, decision support systems, and patient care processes. They work closely with clinicians to optimize EHR systems, develop clinical pathways, and implement health information exchange (HIE) solutions that support evidence-based practice and patient safety.

  4. Healthcare Software Developer: Graduates with strong programming skills can pursue careers as healthcare software developers, designing and developing software applications, mobile apps, and web platforms tailored to the needs of healthcare providers, patients, and caregivers. They may specialize in electronic medical record (EMR) systems, telemedicine platforms, remote patient monitoring solutions, or health data analytics tools.

  5. Health Information Manager: Graduates may work as health information managers, overseeing the collection, storage, and dissemination of healthcare data and information within healthcare organizations. They ensure compliance with regulatory requirements, manage health information systems, and implement policies and procedures to safeguard patient privacy and confidentiality.

  6. Telehealth Specialist: With the increasing adoption of telehealth and virtual care technologies, graduates can pursue careers as telehealth specialists, facilitating remote consultations, telemedicine visits, and digital health interventions. They design and implement telehealth platforms, coordinate virtual care services, and train healthcare providers and patients on telehealth tools and workflows.

  7. Healthcare Systems Analyst: Graduates may work as healthcare systems analysts, assessing organizational needs, evaluating existing technology systems, and recommending technology solutions to improve healthcare delivery and efficiency. They conduct requirements analysis, system testing, and user training to ensure the successful implementation and adoption of technology solutions.

  8. Healthcare Project Manager: Graduates with strong project management skills can transition into roles as healthcare project managers, leading technology implementation projects, software development initiatives, or process improvement initiatives within healthcare organizations. They oversee project timelines, budgets, and resources to ensure that projects are delivered on time and within scope.

  9. Health Informatics Consultant: Graduates may work as health informatics consultants, providing expert advice and guidance to healthcare organizations on technology strategy, system selection, and implementation planning. They assess organizational needs, conduct technology assessments, and develop strategic roadmaps to help healthcare organizations leverage technology to achieve their business objectives.

  10. Research and Development (R&D) Specialist: Graduates interested in research may pursue careers as R&D specialists in healthcare technology companies, research institutes, or academic institutions. They contribute to the development of new technologies, algorithms, and tools for healthcare applications, conducting experiments, analyzing data, and publishing findings in peer-reviewed journals.

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