Introduction to the Program

Gracias a esta Postgraduate diploma 100% online, usarás las técnicas más avanzadas de Diagnóstico Molecular para la identificación rápida y precisa de Bacterias Multirresistentes”

Un nuevo estudio realizado por la Organización Mundial de la Salud estima que cada año fallecen más de 20.000 personas por infecciones que no responden a los antibióticos. Frente a este escenario, la entidad insta a los enfermeros a implementar medidas estrictas de control para prevenir la propagación de la Bacteria Multirresistente y abogar por el uso racional de antibióticos. Solamente así los profesionales podrán brindar una atención integral a sus pacientes, al mismo tiempo que llevan a cabo estrategias para prevenir la propagación de bacterias en entornos de atención clínica.  

En este marco, TECH lanza un revolucionario Postgraduate diploma en Clinical and Molecular Management of Infections Caused by Multidrug-Resistant Bacteria for Nursing. El itinerario académico profundizará en los mecanismos de resistencia intrínseca a los antibióticos, lo que permitirá que los enfermeros ajusten los tratamientos de manera oportuna. En esta línea, el temario brindará las claves para realizar un óptimo manejo de pacientes con infecciones que se encuentren en Unidades de Cuidades Intensivos. De este modo, los egresados optimizarán el uso de antibióticos y prevendrán la selección de Bacterias Multirresistentes. Por otro lado, el programa ahondará en la Proteómica en Microbiología Clínica, facilitando que los profesionales evalúen la eficacia de los tratamientos y detecten cambios en la resistencia.  

Además, la titulación universitaria se imparte en un cómodo formato 100% online. Esto posibilitará que los enfermeros puedan compaginar sus estudios con el resto de sus obligaciones diarias, ya que los horarios y cronogramas evaluativos pueden planificarse de manera individual. A su vez, para el abordaje de este itinerario académico solo necesitarán un dispositivo con acceso a Internet, para ingresar así en el Campus Virtual y acceder a contenidos de elevada calidad. Asimismo, en este entorno digital encontrarán una biblioteca atestada de recursos multimedia, como infografías o resúmenes interactivos, que fortalecerán sus competencias de manera dinámica.

Podrás descargarte la totalidad del temario desde el primer día de titulación, pudiendo estudiarlo cómodamente desde tu smartphone o tablet de preferencia” 

Esta Postgraduate diploma en Clinical and Molecular Management of Infections Caused by Multidrug-Resistant Bacteria for Nursing contiene el programa científico más completo y actualizado del mercado. Sus características más destacadas son: 

  • El desarrollo de casos prácticos presentados por expertos Microbiología, Medicina y Parasitología 
  • Los contenidos gráficos, esquemáticos y eminentemente prácticos con los que está concebido 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  
  • 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

Profundizarás en el manejo de las Herramientas Bioinformáticas para la Genómica y mejorarás tu comprensión sobre la Salud Humana” 

El programa incluye en su cuadro docente a profesionales del sector que vierten en esta capacitación 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 contextual, es decir, un entorno simulado que proporcionará una capacitación inmersiva programada para entrenarse ante situaciones reales. 

El diseño de este programa se centra en el Aprendizaje Basado en Problemas, mediante el cual el profesional deberá tratar de resolver las distintas situaciones de práctica profesional que se le planteen a lo largo del curso académico. Para ello, contará con la ayuda de un novedoso sistema de vídeo interactivo realizado por reconocidos expertos.

¿Buscas incorporar en tu praxis las estrategias más innovadoras de prevención de las infecciones por Bacterias Multirresistentes en la UCI? Consíguelo con este programa” 

El revolucionario sistema Relearning de TECH te permitirá actualizar tus conocimientos a tu ritmo, sin depender de condicionantes externos de enseñanza”     

Syllabus

This Postgraduate diploma will provide nurses with a detailed understanding of the mechanisms of antimicrobial resistance in bacteria. The syllabus will address the different multidrug-resistant human pathogens (including Staphylococcus aureus), which will enable professionals to rapidly identify infections. At the same time, the syllabus will also include the management of patients with infections caused by Multiresistant Bacteria in Intensive Care Units. Therefore, graduates will be able to perform continuous monitoring of these individuals to detect early signs of infection and adjust treatments as needed.

You will manage the most effective nosocomial infection control strategies to reduce the transmission of Multidrug-Resistant Bacteria in clinical settings”

Module 1. Multidrug-Resistant Bacteria in Human Pathology

1.1. Mechanisms of Acquired Resistance to Antibiotics

1.1.1. Acquisition of Resistance Genes
1.1.2. Mutations
1.1.3. Acquisition of Plasmids

1.2. Mechanisms of Intrinsic Resistance to Antibiotics

1.2.1. Blockage of Antibiotic Entry
1.2.2. Modification of the Antibiotic Target
1.2.3. Inactivation of the Antibiotic
1.2.4. Antibiotic Expulsion

1.3. Chronology and Evolution of Antibiotic Resistance

1.3.1. Discovery of Antibiotic Resistance
1.3.2. Plasmids
1.3.3. Evolution of Resistance
1.3.4. Current Trends in the Evolution of Antibiotic Resistance

1.4. Antibiotic Resistance in Human Pathology

1.4.1. Increased Mortality and Morbidity
1.4.2. Impact of Resistance on Public Health
1.4.3. Economic Cost Associated with Antibiotic Resistance

1.5. Multidrug-Resistant Human Pathogens

1.5.1. Acinetobacter Baumannii
1.5.2. Pseudomonas Aeruginosa
1.5.3. Enterobacteriaceae
1.5.4. Enterococcus Faecium
1.5.5. Staphylococcus Aureus
1.5.6. Helicobacter Pylori
1.5.7. Campylobacter Spp
1.5.8. Salmonellae
1.5.9. Neisseria Gonorrhoeae
1.5.10. Streptococcus Pneumoniae
1.5.11. Hemophilus Influenzae
1.5.12. Shigella Spp

1.6. Bacteria Highly Dangerous to Human Health: Update of the WHO List

1.6.1. Critical Priority Pathogens
1.6.2. High Priority Pathogens
1.6.3. Pathogens with Medium Priority

1.7. Analysis of the Causes of Antibiotic Resistance

1.7.1. Lack of New Antibiotics
1.7.2. Socioeconomic Factors and Health Policies
1.7.3. Poor Hygiene and Sanitation
1.7.4. Health Policies and Antibiotic Resistance
1.7.5. International Travel and Global Trade
1.7.6. Dispersal of High-Risk Clones
1.7.7. Emerging Pathogens with Resistance to Multiple Antibiotics

1.8. Antibiotic Use and Abuse in the Community

1.8.1. Prescription
1.8.2. Acquisition
1.8.3. Misuse of Antibiotics

1.9. Current Status of Antibiotic Resistance in the World

1.9.1. Global Statistics
1.9.2. Central and South America
1.9.3. Africa
1.9.4. Europe
1.9.5. North America
1.9.6. Asia and Oceania

1.10. Perspectives on Antibiotic Resistance

1.10.1. Strategies to Mitigate the Problem of Multidrug-Resistance
1.10.2. International Actions
1.10.3. Actions at the Global Level

Module 2. Management of Patients with Multidrug-Resistant Bacterial Infections in Intensive Care Units (ICU)

2.1. Colonization and Infection of Patients in ICUs

2.1.1. Types of ICUs
2.1.2. Epidemiology
2.1.3. Risk Factors Associated with Infection in ICUs

2.2. Impact of Nosocomial Infections in the Critically Ill Patient

2.2.1. Importance of Nosocomial Infections in ICUs
2.2.2. Risk Factors for Nosocomial Infections

2.2.2.1. Patient Factors
2.2.2.2. Factors of the ICU Environment
2.2.2.3. Factors Related to the Healthcare Personnel

2.2.3. Impact of Nosocomial Infections in Immunocompromised Patients
2.2.4. Impact on Length of Stay in the ICU

2.3. Pneumonia Associated with Mechanical Ventilation

2.3.1. Etiology
2.3.2. Diagnosis
2.3.3. Treatment

2.4. Urinary Tract Infections Associated with Catheters

2.4.1. Etiology
2.4.2. Diagnosis
2.4.3. Treatment

2.5. Primary Bacteremias and Catheter-Related Bacteremias

2.5.1. Etiology
2.5.2. Diagnosis
2.5.3. Treatment

2.6. Pseudomembranous Colitis

2.6.1. Etiology
2.6.2. Diagnosis
2.6.3. Treatment

2.7. Infections by Opportunistic Pathogens

2.7.1. Etiology
2.7.2. Diagnosis
2.7.3. Treatment

2.8. Appropriate Use of Antibiotics

2.8.1. Programs for the Optimization of Antibiotic use (PROA) in the ICU
2.8.2. Antibiotic Therapy Strategies for the Treatment of Gram-Negative Patients
2.8.3. Antibiotic Therapy Strategies for the Treatment of Gram-Positive Patients
2.8.4. Antibiotic Therapy Strategies for the Treatment of Co-Infections

2.9. Strategies for the Prevention of BMR Infections in the ICU

2.9.1. Hygiene Measures
2.9.2. Infection Control Measures
2.9.3. Protocols and Clinical Practice Guidelines
2.9.4. Education and Training of ICU Personnel
2.9.5. Participation of Patients and their Families

2.10. Infection Prevention Strategies in the ICU

2.10.1. Infection Prevention Strategies in the ICU According to the Focus

2.10.1.1. Pneumonia
2.10.1.2. Bacteremia
2.10.1.3. Urinary Infection

2.10.2. Evaluation and Quality Indicators in the Prevention of Infections
2.10.3. Evaluation and Continuous Improvement Tools
2.10.4. Successful Examples of Infection Prevention in ICUs

Module 3. Proteomics in Clinical Microbiology

3.1. Proteomics in the Microbiology Laboratory

3.1.1. Evolution and Development of Proteomics
3.1.2. Importance in Microbiological Diagnosis
3.1.3. Proteomics of Multi-Resistant Bacteria

3.2. Qualitative Protein Separation Techniques

3.2.1. Two-Dimensional Electrophoresis (2DE)
3.2.2. DIGE Technology
3.2.3. Applications in Microbiology

3.3. Quantitative Protein Separation Techniques

3.3.1. Isotopic Labelling
3.3.2. High Performance Liquid Chromatography (HPLC)
3.3.3. Mass Spectrometry (MS)

3.3.3.1. MALDI-TOF Technologies in the Clinical Microbiology Laboratory

3.3.3.1.1. VITEK®MS System
3.3.3.1.2. MALDI Biotyper® System

3.4. MALDI-TOF Applications in Clinical Microbiology

3.4.1. Identification of Microorganisms
3.4.2. Characterization of Antibiotic Resistance
3.4.3. Bacterial Typing

3.5. Bioinformatics Tools for Proteomics

3.5.1. Proteomic Databases
3.5.2. Protein Sequence Analysis Tools
3.5.3. Visualization of Proteomic Data

3.6. Genomics in the Microbiology Laboratory

3.6.1. Evolution and Development of Genomics
3.6.2. Importance in Microbiological Diagnosis
3.6.3. Genomics of Multi-Resistant Bacteria

3.7. Types of Sequencing

3.7.1. Sequencing of Genes with Taxonomic Value
3.7.2. Sequencing of Genes of Taxonomic Value
3.7.3. Massive Sequencing

3.8. Applications of Massive Sequencing in Clinical Microbiology

3.8.1. Whole Bacterial Genome Sequencing
3.8.2. Comparative Genomics
3.8.3. Epidemiological Surveillance
3.8.4. Microbial Diversity and Evolution Studies

3.9. Bioinformatics Tools for Genomics

3.9.1. Genomic Databases
3.9.2. Sequence Analysis Tools
3.9.3. Visualization of Genomic Data

3.10. Future of Genomics and Proteomics in the Clinical Laboratory

3.10.1. Recent and Future Developments in Genomics and Proteomics
3.10.2. Development of New Therapeutic Strategies
3.10.3. Technical and Bioinformatics Challenges
3.10.4. Ethical and Regulatory Implications

You will have at your disposal the most modern educational resources, with free access to the virtual classroom 24 hours a day. Enroll now!” 

Postgraduate Diploma in Clinical and Molecular Management of Infections Caused by Multidrug-Resistant Bacteria for Nursing

If you are a nurse and want to acquire advanced knowledge in the diagnosis, treatment and prevention of infections caused by bacteria resistant to multiple antibiotics, you have come to the right place. At TECH Global University you will find an innovative university diploma that will help you fulfill your academic goals. This program, delivered 100% online, provides in-depth understanding and practical skills essential to address one of the most critical challenges in healthcare today. During the course, you will explore the fundamentals of bacterial resistance, including the molecular mechanisms underlying antimicrobial resistance, as well as clinical strategies for effective management of these infections. Here, key topics such as identification and characterization of multidrug-resistant bacteria, rational use of antimicrobials, and implementation of infection control measures in different healthcare settings will be addressed. An outstanding feature of this program is its practical and up-to-date scientific evidence-based approach. You will have the opportunity to analyze case studies, allowing you to develop critical skills in clinical decision making, designing personalized treatments, and educating patients or colleagues on infection prevention and control practices.

Get a Postgraduate Diploma in Clinical and Molecular Management of Infections caused by Multidrug-Resistant Bacteria for Nursing

The online mode of the course offers flexibility and accessibility, allowing you to access the content from any location and at times that suit your work and personal commitments. Through an advanced educational platform, you will benefit from interactive resources and up-to-date study materials that will significantly enrich your learning experience. The course is led by a team of professionals with extensive experience in the clinical and molecular management of infections caused by multidrug-resistant bacteria, who provide expert guidance and ongoing support throughout the program. Their clinical experience and up-to-date knowledge ensure that you receive high-quality education relevant to the current demands in the nursing field. Enrolling in this Postgraduate Diploma is a strategic decision for nurses who want to specialize in the management of complex infections and improve the quality of care in their work settings. This advanced specialization provides the tools necessary to effectively address the challenge of multidrug-resistant bacteria, thereby contributing to patient safety and public health.