In many parts of the world, a course is a program of study that prepares students for their chosen careers. Courses are found both online and in traditional classroom settings, and they range in duration from six months to several years.
What is a course in medical microbiology? This course of study focuses on infectious diseases, microbes and parasites and their effects on the human body at a cellular level. This program is suitable for those seeking a degree in medicine or medical research, as it typically prepares students to deal with a wide range of human illnesses as well as how to detect the symptoms and provide appropriate treatments. Students can expect to complete lab requirements and participate in scientific writing as part of the curriculum. Classes in infectious diseases, medicine, biology, mathematics and statics are usually required as well.
Graduates with a background in medical microbiology are generally sought after as new strains of diseases develop. Employment opportunities and competitive salaries are just some of the benefits students may receive after program completion.
Tuition and fees are different for every school. The length of the course, the country the school is located in and any available scholarships affect how much a student can expect to pay, so it is best to contact the desired school for up-to-date financial information.
With the skills to identify, study and treat infectious diseases and parasites, graduates usually have no problem finding employment in the medical field. Disease control agencies for government, medical branches of various militaries, and hospitals are always looking for expert biological technicians and technologists, microbiologists and medical scientists. Students can also focus in areas such as epidemiology and biochemistry to land much sought after specialized employment in medical science research.
Whether you want to stay in your hometown or venture across the world, there is a school waiting for you. Make sure to choose one that fits your goals. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
Can chemistry help to feed a growing population, or overcome increasing bacterial resistance?
Find out how the Penicillin class of antibiotics has been a breakthrough in the treatment of patients. However, with bacteria developing efficient ways of resisting antibiotic treatment, discover how scientists are treating patients with infections resulting from resistant bacteria.
The world’s population is approaching eight billion people, putting increasing strain on our ability to feed everybody. Explore the strategies currently being developed, and the role that chemistry plays in finding solutions to food security.
What topics will you cover?
The origins of penicillin and the research behind antibiotic development.
The way in which penicillins kill bacteria.
Introduction to the molecular structure of the penicillins and how their structure underpins their antibacterial properties.
How some bacteria types can become resistant to antibiotics.
The clinical research of a consultant in infectious and travel medicine.
The challenges behind educating people in the proper use of antibiotics.
How chemists are making contributions to overcoming the problem of bacterial resistance.
The ethical issues associated with powerful medicines, and the appropriate uses of them.
Assignment: prepare interview questions to demonstrate an understanding of the ethical issues behind a scientific topic.
The uses of chemistry in addressing the challenges of feeding a growing population.
The role of chemical crop protection agents and the development of agrochemicals.
The way agrochemical products are discovered and designed.
The discovery of the World’s most widely used fungicidal agent, Azoxystrobin.
The multidisciplinary nature of the discovery of new biologically active molecules.
The uses of natural crops and their genetically-modified alternatives.
Gram-negative bacteria (GNB) are a group of bacteria that can cause infection and toxic reaction in patients, yet are difficult to differentiate and treat with antibiotic
Gram-negative bacteria (GNB) are a group of bacteria that can cause infection and toxic reaction in patients, yet are difficult to differentiate and treat with antibiotics due to their structure.
This online course - led by experts from the British Society for Antimicrobial Chemotherapy (BSAC) - looks at this challenge. You’ll explore the microbiology of gram-negative bacteria, and find out how to identify, classify, diagnose and treat GNB infections.
You’ll also look at occurrences of GNB and antibiotic resistance worldwide, and understand the impact they have on health and economic outcomes.
What topics will you cover?
The microbiology of Gram-Negative Bacteria to enable diagnosis of infections
The identification and classification of clinical infections associated with common Gram-Negative Bacteria
The occurrence of resistance - epidemiology and basic mechanisms of resistance, locally and globally
The key objectives and principles of treatment, including negative consequences
The appropriateness of treatment agents
The burden and impact of GNB infections on health and economic outcomes
What will you achieve?
Demonstrate a basic understanding of the microbiology of Gram-Negative Bacteria
Assess the occurrence of resistance - epidemiology and basic mechanisms of resistance locally and globally
Identify and classify clinical infections associated with common Gram-Negative Bacteria
Evaluate the burden and impact of Gram-Negative Bacterial infections on health and economic outcomes
Compare the key objectives and principles of the treatment options available including the negative consequences
Explore the basic microbiology requirements to diagnose GNB infections
Evaluate the appropriateness of treatment agents - stewardship for GNB infections
Summarise the current...