University certificate
The world's largest faculty of pharmacy”
Description
Attend pre-recorded classes without schedules and enjoy the content as many times as you need with a Virtual Campus available 24 hours a day”
The discovery of penicillin was, without a doubt, a historical milestone that marked a before and after in the clinical and pharmaceutical field. The ability to treat infections and increase the chances of survival opened the door to a long but fruitful path, in which constant research and findings in microbiology have served as a weapon in the fight against multiple diseases. Therefore, the pharmaceutical field has developed a fundamental role, not only in the detection of organisms and in the knowledge of the consequences of their application, but also in the design of new therapies to alleviate antibiotic resistance.
Therefore, it is a field that is constantly being updated and in which being up to date is essential. For this reason, TECH and a team of experts specialized in Microbiology and Biomedicine have developed this program in New Antimicrobial Molecules. It is an innovative, complete and dynamic program that will serve pharmacists as a guide to get up to date on the mechanisms of action of the antimicrobial spectrum, therapeutic uses and adverse effects of the organisms discovered in recent years On the other hand, the content included in the program will allow them to be updated in the differentiation of molecules among the families of antibiotics penicillins, cephalosporins, carbapenemics, glycopeptides, macrolides, tetracyclines, aminoglycosides, quinolones, etc., in a dynamic and exhaustive way.
And all this through a 100% online program that will allow them to design their study schedule, without schedules or face-to-face classes. In addition, the syllabus is complemented by hours of diverse complementary material (videos, diagrams, summaries, news and much more) so that they can expand each section in a personalized way. Therefore, TECH responds to the demand for an innovative and top level degree that allows, in a comfortable and flexible way, to update in the field of knowledge of antimicrobial molecules in just 6 weeks and from the hand of an international institution recognized by Forbes as “the best online university in the world”.
A program that includes the latest trends in antimicrobial molecule management through this diverse content”
This Postgraduate certificate in New Antimicrobial Molecules contains the most complete and up-to-date scientific program on the market. The most important features include:
- The development of practical case studies presented by experts in pharmaceutical management in relation to antimicrobial applications
- The graphic, schematic and eminently practical contents with which it is conceived gather scientific and practical information on those disciplines that are indispensable for professional practice
- Practical exercises where the self-assessment process can be carried out to improve learning
- Its special emphasis on innovative methodologies
- Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
- Content that is accessible from any fixed or portable device with an Internet connection
Get up to speed on the challenges and opportunities in the development of New Antimicrobial Molecules with TECH and this program”
The program’s teaching staff includes professionals from the sector who contribute their work experience to this specializing program, as well as renowned specialists from leading societies and prestigious universities.
The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive education programmed to learn in real situations.
This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise during the course. For this purpose, students will be assisted by an innovative interactive video system created by renowned and experienced experts.
You will be able to perfect the most innovative methods in the study of new molecules with multidisciplinary materials"
Would you like to investigate the innovations of new penicillins? Then this study is perfect for you"
Syllabus
For the design of the content of this program, the teaching team has worked for months to bring together all the information necessary to update comprehensively (and in less than 6 weeks) in the field of New Antimicrobial Molecules. In addition, all the material has been adapted to a 100% online format, which will provide the graduate with flexibility and convenience during the course of the program. All this with additional multidisciplinary material that can also be downloaded for offline consultation (videos, images, diagrams, news, summaries and much more).
A flexible and convenient program that will allow you to update your knowledge in the field of antimicrobial molecules from wherever you want”
Module 1. New Antimicrobial Molecules
1.1. New Antimicrobial Molecules
1.1.1. The Need for New Antimicrobial Molecules
1.1.2. Impact of New Molecules on Antimicrobial Resistance
1.1.3. Challenges and Opportunities in the Development of New Antimicrobial Molecules
1.2. Methods of Discovery of New Antimicrobial Molecules
1.2.1. Traditional Discovery Approaches
1.2.2. Advances in Screening Technology
1.2.3. Rational Drug Design Strategies
1.2.4. Biotechnology and Functional Genomics
1.2.5. Other Innovative Approaches
1.3. New Penicillins: New Drugs, their Future Role in Anti-Infective Therapeutics
1.3.1. Classification
1.3.2. Mechanism of Action
1.3.3. Antimicrobial Spectrum
1.3.4. Therapeutic Uses
1.3.5. Adverse Effects
1.3.6. Presentation and Dosage
1.4. Cephalosporins
1.4.1. Classification
1.4.2. Mechanism of Action
1.4.3. Antimicrobial Spectrum
1.4.4. Therapeutic Uses
1.4.5. Adverse Effects
1.4.6. Presentation and Dosage
1.5. Carbapenemics and Monobactams
1.5.1. Classification
1.5.2. Mechanism of Action
1.5.3. Antimicrobial Spectrum
1.5.4. Therapeutic Uses
1.5.5. Adverse Effects
1.5.6. Presentation and Dosage
1.6. Cyclic Glycopeptides and Lipopeptides
1.6.1. Classification
1.6.2. Mechanism of Action
1.6.3. Antimicrobial Spectrum
1.6.4. Therapeutic Uses
1.6.5. Adverse Effects
1.6.6. Presentation and Dosage
1.7. Macrolides, Ketolides and Tetracyclines
1.7.1. Classification
1.7.2. Mechanism of Action
1.7.3. Antimicrobial Spectrum
1.7.4. Therapeutic Uses
1.7.5. Adverse Effects
1.7.6. Presentation and Dosage
1.8. Aminoglycosides and Quinolones
1.8.1. Classification
1.8.2. Mechanism of Action
1.8.3. Antimicrobial Spectrum
1.8.4. Therapeutic Uses
1.8.5. Adverse Effects
1.8.6. Presentation and Dosage
1.9. Lincosamides, Streptogramins and Oxazolidinones
1.9.1. Classification
1.9.2. Mechanism of Action
1.9.3. Antimicrobial Spectrum
1.9.4. Therapeutic Uses
1.9.5. Adverse Effects
1.9.6. Presentation and Dosage
1.10. Rifamycins and other Developmental Antimicrobial Molecules
1.10.1. Rifamycins: Classification
1.10.1.2. Mechanism of Action
1.10.1.3. Antimicrobial Spectrum
1.10.1.4. Therapeutic Uses
1.10.1.5. Adverse Effects
1.10.1.6. Presentation and Dosage
1.10.2. Antibiotics of Natural Origin
1.10.3. Synthetic Antimicrobial Agents
1.10.4. Antimicrobial Peptides
1.10.5. Antimicrobial Nanoparticles
Opt for an avant-garde course and don't miss the opportunity to update yourself with TECH and this complete program”
Postgraduate Certificate in New Antimicrobial Molecules
This Postgraduate Certificate in New Antimicrobial Molecules developed by TECH Global University is an advanced training designed for health professionals, researchers and scientists seeking to specialize in the development and application of new antimicrobial agents. This program, delivered in 100% online mode, offers a detailed and up-to-date overview of innovations in the field of antimicrobials, providing essential tools to combat bacterial resistance and improve the treatment of infections. During the course, you will explore the process of discovery and development of new antimicrobial molecules, from the identification of promising compounds to their clinical evaluation. In addition, key topics such as drug design techniques, chemical synthesis of new molecules and the preclinical or clinical trials required for approval will be addressed. Strategies to overcome the barriers of antimicrobial resistance will be discussed and success stories and failures in antimicrobial development will be analyzed. An outstanding feature of this course is its focus on the practical application of scientific and technological knowledge. Thus, you will learn how to use advanced bioinformatics, molecular modeling and drug screening tools to discover and optimize new antimicrobial molecules.
Analyze new antimicrobial molecules
The online mode of the course offers flexibility and accessibility, allowing you to access the content from any location and at convenient times. Through an advanced educational platform, you will benefit from interactive resources and up-to-date teaching materials in pharmaceutical chemistry and microbiology. The course is led by a team of professionals with extensive experience in antimicrobial research and development. Their practical experience and up-to-date knowledge guarantee a high quality training, relevant to the current needs in the field of health and pharmacology. Thus, you will master innovative methods such as antimicrobial peptide engineering and the use of combination therapies to improve the efficacy of treatments. Enrolling in this Postgraduate Certificate is a strategic decision for healthcare professionals, researchers and scientists who wish to be at the forefront in the development of innovative treatments against bacterial infections. This advanced program provides the tools and knowledge necessary to effectively address the challenge of antimicrobial resistance and contribute to the advancement of medical science and the improvement of public health.