Bachelor of Health Sciences in Medical Laboratory Sciences

The Bachelor of Health Sciences in Medical Laboratory Sciences aims to provide qualifying learners with

• The minimum requirements for registration with the Health Professions Council of South Africa (HPCSA) as Medical Laboratory Scientists.
• Access to employment in public, private and research health care laboratories.
• The qualification which equips the learner with the expertise to perform and integrate laboratory tests with pathophysiological conditions (Pathology).
• The expertise to organise laboratory operations in clinical diagnostic laboratories and related fields in compliance with statutory requirements for ethics, safety and quality assurance.
• Supervisory, management and research skills.

Upon completion of the qualification, qualifying learners will have developed

• The ability to integrate laboratory tests with pathophysiological conditions (Pathology) in a specific field of specialisation in accordance with statutory and operations requirements. These fields of specialisation are:

> Medical Microbiology.

> Virology.

> Clinical Chemistry.

> Haematology.

> Clinical Pathology.

> Immunohaematology (Blood Transfusion Technology).

> Histopathology.

> Cytopathology.

> Cytogenetics.

> Immunology.

> Pharmacology.

> Forensic Medicine.

• The ability to critically evaluate current and new trends in technology to improve practices and to solve problems in a variety of contexts.
• The ability to evaluate new information, concepts and evidence from a range of sources and develop the academic skills, values and attributes necessary to undertake independent research in the field of Medical Laboratory Sciences, in compliance with legislated and ethical research principles.
• The ability to apply management and entrepreneurial skills in the context of Medical Laboratory Sciences.

Rationale

Medical Technologists are currently known as Medical Laboratory Scientists and they form part of an integral healthcare team of any country. Qualified Medical Laboratory Scientists are specialised health professionals who provide vital information about patients' state of health. The Scientist input is necessary in the diagnosis, monitoring and treatment of diseases. The analytical and diagnostic services provided by Medical Laboratory Scientists require them to have advanced scientific knowledge and skills, superior reasoning ability and empathy for humankind. The professional Degree has been structured to produce graduates with strong scientific knowledge, good reasoning ability and research skills through the development of higher level cognitive skills and competencies.

Although the standard of the current training of Medical Technologists is highly regarded in the international arena, a professional degree is required for international benchmarking. A qualification of international recognition and standing will also attract international learners and academics. In order to fulfil this need, the Medical Technology fraternity which encompasses both practitioners and academia, investigated the need for a professional degree in South Africa, as well as a name change to Medical Laboratory Scientist, in order to bring South Africa in line with international trends.

The qualification is currently offered at academic institutions accredited for training with the Health Professions Council of South Africa (HPCSA). In addition a 12 month internship at an accredited training laboratory must be completed followed by the writing of the National Board Examination in their chosen field of specialisation before they can register as qualified Medical Technologists.

The content of the qualification reflects the latest advances in scientific knowledge and technology. The National Board Examination will be incorporated into the professional Degree. This will be learners' final integrated summative assessment (FISA) which they will need to pass in order to graduate.

Recognition of Prior Learning (RPL)

This Qualification can be achieved in part through the Recognition of Prior Learning. An RPL process may also be used to credit learners with credits in which they have developed the necessary competency because of workplace and work-integrated learning, for example, people currently holding the HPCSA specialisation certificates could be awarded credits towards the qualification based on RPL assessment.

An RPL process may also be used to credit learners with credits in which they have developed the necessary competency because of workplace and work-integrated learning, for example, people currently holding the Health Professions Council of South Africa (HPCSA) specialisation certificates could be awarded credits towards the qualification based on RPL assessment.

Learners submitting themselves for RPL should be thoroughly briefed prior to the assessment, and may be required to submit a Portfolio of Evidence in the prescribed format to be assessed for formal recognition.

Access to the Qualification

• National Senior Certificate, National Qualifications Framework (NQF) Level 4 with Mathematics, Life Sciences and Physical Sciences.

Or

• Senior Certificate, NQF Level 4 with LBiology, Physical Science and Mathematics.

This qualification consists of compulsory modules at NQF Levels 5, 6, 7 and 8 totalling 502 Credits.

Compulsory Modules, Level 5: 66 Credits

• Integrative Medical Sciences I, 46.5 Credits.
• Introduction to Medical Laboratory Sciences I 19.5 Credits.

Compulsory Modules Level 6: 174 Credits

• Human Anatomy, Physiology and Disease I, 30 Credits.
• Cell Biology I, 12 Credits.
• Immunology I, 12 Credits.
• Clinical Chemistry II, 24 Credits.
• Medical Microbiology II, 24 Credits.
• Haematology II, 24 Credits.
• Immunohaematology II, 12 Credits.
• Histology II, 12 Credits.
• Cytology II, 12 Credits.
• Cytogenetics II, 12 Credits.

Compulsory Modules, 125 Credits

• Clinical Chemistry III, 12 Credits.
• Medical Microbiology III, 12 Credits.
• Haematology III, 12 Credits.
• Cytology III, 12 Credits.
• Integrative Medical Laboratory Sciences III (includes Clinical Practice Theory III and Clinical Practice III), 69 Credits.
• Research Methods III, 8 Credits.

Compulsory Modules, Level 8 worth 17 Credits

• Research Project IV, 12 Credits.
• Laboratory Management, 5 Credits.

Elective Module, Level 8: 120 Credits (Choose one module)

• Clinical Chemistry IV, 120 Credits.
• Haematology IV, 120 Credits.
• Microbiology IV, 120 Credits.
• Immunohematology IV, 120 Credits.
• Cytology IV, 120 Credits.
• Histology IV, 120 Credits.
• Immunology IV, 120 Credits.
• Virology IV, 120 Credits.
• Forensic Sciences IV, 120 Credits.
• Pharmacology IV, 120 Credits.
• Cytogenetics, 120 Credits.

1. Demonstrate knowledge and understanding of fundamental concepts and principles applicable to Medical Laboratory Scientists.
2. Demonstrate thorough knowledge and understanding of vital aspects and ethics in Medical Laboratory Scientists' responsibilities.
3. Introduce the theory and laboratory techniques in areas of Bacteriology and Mycobacteriology.
4. Demonstrate an understanding of a range of research methods, techniques and technologies and appropriately make a selection for a particular research problem in an area of specialisation.
5. Identify, analyse and deal with complex and/or real world problems and issues using evidence-based solutions and theory-driven arguments.
6. Present and communicate academic professional work effectively, catering for a range of audiences by using a range of different genres appropriate to the context.

Associated Assessment Criteria for Exit Level Outcome 1

• The core concepts and principles of the discipline are identified, described and explained.
• The relationships among the core concepts and principles are demonstrated.
• The range and limits of applicability of the core concepts and principles are identified.
• The core concepts and principles are applied to standard problems.

Associated Assessment Criteria for Exit Level Outcome 2

• Equipment is set-up and operated.
• Routine investigations are performed according to Standard Operating Practices.
• An in-depth understanding of protocols regarding laboratory injuries and accidents prevention, control and management of laboratory acquired infections is demonstrated.
• Ethical, professional and legal principles and together with rules in the laboratory are applied.
• Laboratory results are interpreted and correlated with clinical data and other laboratory tests.

Associated Assessment Criteria for Exit Level Outcome 3

• Safety, prevention and control in the microbiology laboratory are demonstrated.
• Microbes are identified and classified.
• Host-parasite relationships are explained.
• Understanding of principles and concepts of quality control and laboratory statistics, quality assurance and safety in specimen handling are demonstrated.
• Investigative procedures in the laboratory are explained and demonstrated.
• Serological tests in the laboratory are demonstrated and explained.

Associated Assessment Criteria for Exit Level Outcome 4

• The library, internet and other data storage and retrieval facilities are used to access information.
• Scientific reasoning is used to evaluate the quality of information.
• Information from a variety of sources, which may be contradictory or divergent, is synthesised.
• Appropriate forms of enquiry are conducted by applying standard procedures within the discipline such as experimental or computational techniques, or deductive reasoning.
• Data are collected and recorded accurately, truthfully and in appropriate formats.
• Data and scientific evidence are analysed and valid arguments and conclusions are presented from such analysis.

Associated Assessment Criteria for Exit Level Outcome 5

• Concrete and abstract problems, in familiar and unfamiliar contexts, are formulated, analysed and solved.
• The knowledge of theory is applied to particular real-world contexts.
• Knowledge is integrated, e.g. from various disciplines or modes of enquiry, in solving scientific problems.

Associated Assessment Criteria for Exit Level Outcome 6

• Practical reports are presented in the form of a scientific/academic paper.
• Verbal skills and the ability to argue logically are assessed though debates.
• Oral presentations which will be aided by effective and well-designed computer-based presentations are managed.
• Scientific language is used correctly to produce clear and coherent written documents, which follow appropriate scientific conventions.
• Scientific information is presented verbally to others.
• Appropriate referencing conventions are used, plagiarism is avoided and intellectual property is respected.
• Non-verbal forms of representation are used correctly and appropriately.

Integrated Assessment

Assessment as an integral part of the teaching and learning process is systematically and purposefully used to generate data for grading, ranking, selecting and predicting. Assessment also provides timely feedback on Learner performance that should inform teaching methods and curriculum design. Integrated assessment will be conducted collaboratively in accordance with the requirements of the HPCSA as well as the higher education institutions offering the qualification.

Assessment activities will include the following

• Observation of real or simulated tasks, e.g. practical sessions/demonstrations, role-plays, presentations.
• Evaluation of a product after a task has been completed, e.g., projects, assignments, case studies, portfolios, posters, log books, reflective journals.
• Questions, oral or written, used either separately or in combination with tests /examinations, including short or long questions, essays, and multiple choice questions.

Learning, teaching and assessment are inextricably aligned. Whenever possible, the assessment of knowledge, skills, attitudes and values shown in the Exit Level Outcomes will be integrated through the practical application of diagnostics, technology and research in a specified medical laboratory sciences speciality.