University certificate
The world's largest faculty of medicine”
Introduction to the Program
Mediante este Postgraduate diploma 100% online, comprenderás en profundidad la actualización en los mecanismos de acción de los antimicrobianos, y desarrollarás competencias avanzadas para su aplicación”
Los Antibióticos en el Tratamiento de Infecciones Bacterianas han cobrado especial relevancia en los últimos años, convirtiéndose en un recurso esencial para optimizar la respuesta clínica frente a Enfermedades Infecciosas. Por ejemplo, la aplicación de estrategias recientes en la terapéutica antimicrobiana ha permitido establecer pautas más seguras y efectivas en distintos contextos hospitalarios. En este sentido, los médicos requieren disponer de un conocimiento profundo y actualizado sobre los elementos generales y recientes de la terapéutica antimicrobiana, la profilaxis antibiótica y los criterios actuales de la terapéutica antibiótica escalonada, con el fin de intervenir de manera adecuada y favorecer la seguridad y eficacia en el cuidado de los pacientes.
En este contexto, TECH Global University lanza un Postgraduate diploma en Antibiotics in the Treatment of Bacterial Infections. Diseñado por especialistas en el ámbito clínico, el itinerario académico profundizará en los conceptos más novedosos del uso de Antibióticos en la insuficiencia renal, su paso por la barrera hematoencefálica y los progresos en la aplicación de Antibióticos en pacientes con insuficiencia hepática. En sintonía con esto, el temario ahondará en las estrategias más eficaces para ajustar dosis, identificar interacciones y aplicar protocolos de Tratamiento seguros y actualizados. Asimismo, los materiales didácticos ofrecerán a los profesionales múltiples herramientas para evaluar riesgos, optimizar terapias y prevenir efectos adversos en poblaciones vulnerables. De este modo, los egresados desarrollarán competencias avanzadas para gestionar la antibioticoterapia de forma segura y eficaz.
Por otra parte, la titulación universitaria se basa en una flexible modalidad 100% online que permite a los médicos organizar sus tiempos de capacitación como deseen. De hecho, lo único que precisarán es un dispositivo electrónico con conexión a internet. Además, TECH Global University emplea su disruptivo sistema del Relearning, que garantiza que los profesionales interioricen los conceptos clave de forma progresiva y efectiva. En adición, disfrutarán de una amplia gama de recursos multimedia. Así, un célebre Director Invitado Internacional impartirá en exclusiva una serie de rigurosas Masterclasses.
Un prestigioso Director Invitado Internacional ofrecerá exclusivas Masterclasses sobre las últimas tendencias en Antibióticos en el Tratamiento de Infecciones Bacterianas”
Esta Postgraduate diploma en Antibiotics in the Treatment of Bacterial Infections contiene el programa universitario más completo y actualizado del mercado. Sus características más destacadas son:
- El desarrollo de casos prácticos presentados por expertos en Medicina
- Los contenidos gráficos, esquemáticos y eminentemente prácticos con los que están concebidos recogen una información científica y práctica sobre aquellas disciplinas indispensables para el ejercicio profesional
- Los ejercicios prácticos donde realizar el proceso de autoevaluación para mejorar el aprendizaje
- Su especial hincapié en metodologías innovadoras en Antibióticos en el Tratamiento de Infecciones Bacterianas
- Las lecciones teóricas, preguntas al experto, foros de discusión de temas controvertidos y trabajos de reflexión individual
- La disponibilidad de acceso a los contenidos desde cualquier dispositivo fijo o portátil con conexión a internet
La multitud de recursos teórico-prácticos de este programa universitario te ayudarán a identificar los diferentes tipos de monobactámicos y a adaptar tus estrategias de selección”
Incluye en su cuadro docente a profesionales pertenecientes al ámbito del Medicina, que vierten en este programa la experiencia de su trabajo, además de reconocidos especialistas de sociedades de referencia y universidades de prestigio.
Su contenido multimedia, elaborado con la última tecnología educativa, permitirá al profesional un aprendizaje situado y contextualizado, es decir, un entorno simulado que proporcionará un estudio inmersivo programado para entrenarse ante situaciones reales.
El diseño de este programa se centra en el Aprendizaje Basado en Problemas, mediante el cual el alumno deberá tratar de resolver las distintas situaciones de práctica profesional que se le planteen a lo largo del curso académico. Para ello, el profesional contará con la ayuda de un novedoso sistema de vídeo interactivo realizado por reconocidos expertos.
Con TECH Global University, podrás afianzar tus conocimientos sobre los carbapenémicos, desarrollando habilidades para seleccionar y aplicar de manera segura y eficaz estas terapias antibióticas”
Un programa universitario 100% online, con el que podrás analizar los cetólidos y su aplicación práctica en el manejo de Infecciones Bacterianas desde cualquier lugar”
Syllabus
The educational program has been created by a group of professors and medical professionals from various medical specialties, with extensive medical, research and teaching experience in several countries in Europe, Africa, Central and South America, interested in integrating the latest and most current scientific knowledge of antibiotics in the treatment of bacterial infections to ensure training and professional development to improve the daily clinical practice of professionals who care for patients or populations with infectious diseases.
A unique academic experience, key and decisive to boost your professional development"
Module 1. Antimicrobials: General Aspects
1.1. History and the Development of Antimicrobials
1.1.1. Emergence and Development of Antimicrobial Treatments
1.1.2. Impact on Morbidity and Mortality of Infectious Diseases
1.2. Classifications: Practical and Future Use of Each Class
1.2.1. Chemical Classification
1.2.2. Classification by Antimicrobial Action
1.2.3. Classification According to their Antimicrobial Spectrum
1.3. Update on the Mechanisms of Action of Antimicrobials
1.3.1. Main Antimicrobial Mechanisms of Action
1.4. General and Latest Elements of Antimicrobial Treatments
1.4.1. General and Recent Concepts in the Use of Antimicrobials
1.4.2. New Developments in the Use of Antimicrobial Combinations
1.4.3. Interactions between Antimicrobials
1.5. Antibiotic Prophylaxis: Its Current Role in Surgical Morbidity and Mortality
1.5.1. Concept
1.5.2. Objectives
1.5.3. Types of Antibiotic Prophylaxis
1.5.4. Perioperative Antibiotic Prophylaxis
1.6. Phased Antibiotic Treatment: Current Criteria
1.6.1. Concept
1.6.2. Principles
1.6.3. Objectives
1.7. Latest Concepts in the Use of Antibiotics in Renal Failure
1.7.1. Renal Excretion of Antibiotics
1.7.2. Renal Toxicity of Antibiotics
1.7.3. Dose Modification in Renal Failure.
1.8. Antibiotics and the Blood-Brain Barrier: Recent Findings
1.8.1. The Passage of Antibiotics through the Blood-Brain Barrier
1.8.2. Antibiotics in Central Nervous System Infections
1.9. Antibiotics and Liver Failure: Progress and Future Challenges
1.9.1. Hepatic Metabolism of Antibiotics
1.9.2. Hepatic Toxicity of Antimicrobials
1.9.3. Dose Adjustment in Hepatic Insufficiency
1.10. Antibiotic Use in the Immunosuppressed: The New Paradigm
1.10.1. Immune Response to Infection
1.10.2. Main Opportunistic Germs in the Immunosuppressed
1.10.3. Principles for the Choice and Duration of Antibiotic Therapy in the Immunosuppressed
1.11. Antibiotics in Pregnancy and Lactation: The Safety of their Use According to the Latest Scientific Findings
1.11.1. The Passage of Antibiotics through the Placenta
1.11.2. Antibiotics and Breast Milk
1.11.3. Teratogenicity of Antibiotics
Module 2. Antibiotics I
2.1. Advances in the Knowledge of the Synthesis and Structure the Beta-Lactam Ring
2.1.1. Structure of the Beta-Lactam Ring
2.1.2. Drugs that Act on the Synthesis of the Beta-Lactam Ring
2.2. Penicillins: New Drugs and their Future Role in Anti-Infection Treatments
2.2.1. Classification
2.2.2. Mechanism of Action
2.2.3. Antimicrobial Spectrum
2.2.4. Pharmacokinetics and Pharmacodynamics
2.2.5. Therapeutic Uses
2.2.6. Adverse Effects
2.2.7. Presentation and Dosage
2.3. Antistaphylococcal Penicillins: From Old to New and their Practical Implications
2.3.1. Classification
2.3.2. Mechanism of Action
2.3.3. Antimicrobial Spectrum
2.3.4. Pharmacokinetics and Pharmacodynamics
2.3.5. Therapeutic Uses
2.3.6. Adverse Effects
2.3.7. Presentation and Dosage
2.4. Antipseudomonal Penicillins: Current Resistance Challenge
2.4.1. Classification
2.4.2. Mechanism of Action
2.4.3. Antimicrobial Spectrum
2.4.4. Pharmacokinetics and Pharmacodynamics
2.4.5. Therapeutic Uses
2.4.6. Adverse Effects
2.4.7. Presentation and Dosage
2.5. Cephalosporins: Present and Future
2.5.1. Classification
2.5.2. Mechanism of Action
2.5.3. Antimicrobial Spectrum
2.5.4. Pharmacokinetics and Pharmacodynamics
2.5.5. Therapeutic Uses
2.5.6. Adverse Effects
2.5.7. Presentation and Dosage
2.6. Oral Cephalosporins: New Developments in their Outpatient Use
2.6.1. Classification
2.6.2. Mechanism of Action
2.6.3. Antimicrobial Spectrum
2.6.4. Pharmacokinetics and Pharmacodynamics
2.6.5. Therapeutic Uses
2.6.6. Adverse Effects
2.6.7. Presentation and Dosage
2.7. Monobactams
2.7.1. Classification
2.7.2. Mechanism of Action
2.7.3. Antimicrobial Spectrum
2.7.4. Pharmacokinetics and Pharmacodynamics
2.7.5. Therapeutic Uses
2.7.6. Adverse Effects
2.7.7. Presentation and Dosage
2.8. Carbapenems
2.8.1. Classification
2.8.2. Mechanism of Action
2.8.3. Antimicrobial Spectrum
2.8.4. Pharmacokinetics and Pharmacodynamics
2.8.5. Therapeutic Uses
2.8.6. Adverse Effects
2.8.7. Presentation and Dosage
2.9. Batalactamases: Recent Discovery of Strains and their Role in Resistance
2.9.1. Classification
2.9.2. Action on Beta-Lactams
2.10. Beta-Lactamase Inhibitors
2.10.1. Classification
2.10.2. Mechanism of Action
2.10.3. Antimicrobial Spectrum
2.10.4. Pharmacokinetics and Pharmacodynamics
2.10.5. Therapeutic Uses
2.10.6. Adverse Effects
2.10.7. Presentation and Dosage
Module 3. Antibiotics II
3.1. Glycopeptides: The New Drugs for Gram-Positive Germs
3.1.1. Classification
3.1.2. Mechanism of Action
3.1.3. Antimicrobial Spectrum
3.1.4. Pharmacokinetics and Pharmacodynamics
3.1.5. Therapeutic Uses
3.1.6. Adverse Effects.
3.1.7. Presentation and Dosage
3.2. Cyclic Lipopeptides: Recent Advances and Future Role
3.2.1. Classification
3.2.2. Mechanism of Action
3.2.3. Antimicrobial Spectrum
3.2.4. Pharmacokinetics and Pharmacodynamics
3.2.5. Therapeutic Uses
3.2.6. Adverse Effects
3.2.7. Presentation and Dosage
3.3. Macrolides: Their Immunomodulator Role in the Respiratory System
3.3.1. Classification
3.3.2. Mechanism of Action
3.3.3. Antimicrobial Spectrum
3.3.4. Pharmacokinetics and Pharmacodynamics
3.3.5. Therapeutic Uses
3.3.6. Adverse Effects
3.3.7. Presentation and Dosage
3.4. Ketolides
3.4.1. Classification
3.4.2. Mechanism of Action
3.4.3. Antimicrobial Spectrum
3.4.4. Pharmacokinetics and Pharmacodynamics
3.4.5. Therapeutic Uses
3.4.6. Adverse Effects
3.4.7. Presentation and Dosage
3.5. Tetracyclines: Old and New Indications According to the Most Recent Advances in Emerging Diseases
3.5.1. Classification
3.5.2. Mechanism of Action
3.5.3. Antimicrobial Spectrum
3.5.4. Pharmacokinetics and Pharmacodynamics
3.5.5. Therapeutic Uses
3.5.6. Adverse Effects
3.5.7. Presentation and Dosage
3.6. Aminoglycosides: Facts and Realities of their Current and Future Utilization
3.6.1. Classification
3.6.2. Mechanism of Action
3.6.3. Antimicrobial Spectrum
3.6.4. Pharmacokinetics and Pharmacodynamics
3.6.5. Current Therapeutic Uses and Future Trends
3.6.6. Adverse Effects
3.6.7. Presentation and Dosage
3.7. Quinolones: All Generations and Practical Use
3.7.1. Classification
3.7.2. Mechanism of Action
3.7.3. Antimicrobial Spectrum
3.7.4. Pharmacokinetics and Pharmacodynamics
3.7.5. Therapeutic Uses
3.7.6. Adverse Effects
3.7.7. Presentation and Dosage
3.8. Respiratory Quinolones: Latest Recommendations on their Use
3.8.1. Classification
3.8.2. Mechanism of Action
3.8.3. Antimicrobial Spectrum
3.8.4. Pharmacokinetics and Pharmacodynamics
3.8.5. Therapeutic Uses
3.8.6. Adverse Effects
3.8.7. Presentation and Dosage
3.9. Streptogramins
3.9.1. Classification
3.9.2. Mechanism of Action
3.9.3. Antimicrobial Spectrum
3.9.4. Pharmacokinetics and Pharmacodynamics
3.9.5. Therapeutic Uses
3.9.6. Adverse Effects
3.9.7. Presentation and Dosage
Module 4. Antibiotics III
4.1. Oxazolinones
4.1.1. Classification
4.1.2. Mechanism of Action
4.1.3. Antimicrobial Spectrum
4.1.4. Pharmacokinetics and Pharmacodynamics
4.1.5. Therapeutic Uses
4.1.6. Adverse Effects
4.1.7. Presentation and Dosage
4.2. Sulfas
4.2.1. Classification
4.2.2. Mechanism of Action
4.2.3. Antimicrobial Spectrum
4.2.4. Pharmacokinetics and Pharmacodynamics
4.2.5. Therapeutic Uses
4.2.6. Adverse Effects
4.2.7. Presentation and Dosage
4.3. Lincosamides
4.3.1. Classification
4.3.2. Mechanism of Action
4.3.3. Antimicrobial Spectrum
4.3.4. Pharmacokinetics and Pharmacodynamics
4.3.5. Therapeutic Uses
4.3.6. Adverse Effects
4.3.7. Presentation and Dosage
4.4. Rifamycins: Practical Use in TB and Other Infections Today
4.4.1. Classification
4.4.2. Mechanism of Action
4.4.3. Antimicrobial Spectrum
4.4.4. Pharmacokinetics and Pharmacodynamics
4.4.5. Therapeutic Uses
4.4.6. Adverse Effects
4.4.7. Presentation and Dosage
4.5. Antifolates
4.5.1. Classification
4.5.2. Mechanism of Action
4.5.3. Antimicrobial Spectrum
4.5.4. Pharmacokinetics and Pharmacodynamics
4.5.5. Therapeutic Uses
4.5.6. Adverse Effects
4.5.7. Presentation and Dosage
4.6. Antibiotics for Leprosy: Recent Advances
4.6.1. Classification
4.6.2. Mechanism of Action
4.6.3. Antimicrobial Spectrum
4.6.4. Pharmacokinetics and Pharmacodynamics
4.6.5. Therapeutic Uses
4.6.6. Adverse Effects
4.6.7. Presentation and Dosage
4.7. Antituberculosis Drugs: Latest Recommendations for their Use
4.7.1. Classification
4.7.2. Mechanism of Action
4.7.3. Antimicrobial Spectrum
4.7.4. Pharmacokinetics and Pharmacodynamics
4.7.5. Therapeutic Uses
4.7.6. Adverse Effects
4.7.7. Presentation and Dosage
4.8. Parenteral Antibiotic Use in Outpatients: Latest Recommendations
4.8.1. Main Indications for Parenteral Antibiotics in Outpatients
4.8.2. Monitoring Outpatients Receiving Parenteral Antibiotic Treatment
4.9. The Latest on Antibiotics for Multidrug-Resistant Bacteria
4.9.1. Antibiotics for Multidrug-Resistant Gram-Positive Bacteria
4.9.2. Antibiotics for Multidrug-Resistant Gram-Negative Bacteria
Make the most of this opportunity to learn about the latest advances in this subject to apply it to your daily practice"
Postgraduate Diploma in Antibiotics in the Treatment of Bacterial Infections.
In the fight against bacterial infections, antibiotics play a fundamental role. If you are passionate about health and want to become an expert in the proper use of these drugs, TECH Global University has the perfect program for you. Our Postgraduate Diploma in Antibiotics in the Treatment of Bacterial Infections will provide you with the knowledge you need to understand the different classes of antibiotics, their mechanism of action and their proper use in the treatment of bacterial infections. And best of all, you will be able to do it through our online classes, from the comfort of your home or office. This program lasts 6 months, during which you will explore in depth the world of antibiotics and their clinical application. You will learn about prescription guidelines, bacterial resistance and strategies to combat it, as well as the management of complications associated with the use of these drugs.
Specialize in antimicrobial therapy and contribute to the fight against bacterial infections.
At TECH Global University, we are proud to have a highly trained teaching team, composed of experts in the field of antimicrobial therapy. Our interactive online classes will provide you with an enriching educational experience, where you will be able to interact with professors and classmates, and participate in real-time discussions. The program encourages hands-on learning. Throughout the Postgraduate Certificate, you will have the opportunity to analyze clinical cases and participate in activities that will allow you to apply your acquired knowledge in practical situations. This will provide you with the confidence and skills necessary to make informed decisions in the management of bacterial infections and ensure responsible antibiotic use. Upon successful completion of our Postgraduate Diploma in Antibiotics in the Treatment of Bacterial Infections, you will receive a certificate, which will support your expertise and open doors to new career opportunities.