Introduction to the Program

Gracias a esta Postgraduate diploma, indagarás en la última evidencia científica con respecto al ajuste de los parámetros de presión, volumen, flujo y Ti/Ttot” 

La Ventilación Mecánica No Invasiva se ha posicionado como una estrategia médica altamente empleada para salvar la vida de los pacientes con dificultades respiratorias sin recurrir a métodos agresivos que generan complicaciones y alargan la estancia hospitalaria. Fruto de ello, las técnicas y los ajustes de los parámetros ventilatorios se han desarrollado significativamente en los últimos años, con el fin de adaptar solventemente la VMNI a las necesidades de cada enfermo y preservar su pleno bienestar. En consecuencia, los neurólogos que desean mantenerse al día en su sector están obligados a conocer profundamente todos los avances que se han producido recientemente en este ámbito.  

Por este motivo, TECH ha impulsado el diseño de este programa, que otorga al especialista una completísima actualización con respecto a las técnicas y los parámetros ventilatorios de la Ventilación Mecánica No Invasiva. A lo largo de este periodo académico, indagará en los últimos avances con respecto al ajuste de los distintos tipos de parámetros ventilatorios o en lo relativo a las estrategias de ventilación con presión soporte, controlada por volumen o con alta frecuencia. Asimismo, profundizará en los sofisticados métodos evaluación de la tolerancia y adaptación del paciente al VMNI.  

Dado que esta Postgraduate diploma dispone de una revolucionaria metodología 100% en línea, el alumno podrá gestionar su propio tiempo a su antojo para alcanzar una actualización médica completamente efectiva. De igual modo, recibirá un conjunto de materiales didácticos presentes en vanguardistas formatos como el vídeo, el resumen interactivo o la simulación de casos reales. Gracias a ello, podrá elegir aquellos soportes de estudio que mejor se adapten a sus necesidades académicas particulares. Además, se le otorgará acceso privilegiado al contenido más exclusivo que incluye una serie de Masterclasses únicas, impartidas por un instructor de renombre mundial en el campo de la VMNI.

Conoce, por medio de esta titulación y sus prestigiosas Masterclasses, los métodos punteros para evaluar la tolerancia y la adaptación a la VMNI”

Esta Postgraduate diploma en Ventilatory Techniques and Parameters in NIV contiene el programa científico más completo y actualizado del mercado. Sus características más destacadas son:

  • El desarrollo de casos prácticos presentados por expertos en Ventilación Mecánica No Invasiva 
  • 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 

Disfruta de los contenidos didácticos más actualizados del panorama educativo, disponibles en vanguardistas formatos multimedia para optimizar tu estudio” 

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.   

Actualízate a tu propio ritmo de estudio gracias al revolucionario sistema Relearning que ofrece TECH Global University” 

Ahonda en los recientes avances con respecto a la utilización del CPAP y el BiPAP en distintos contextos clínicos críticos” 

Syllabus

The syllabus of this qualification has been developed with the aim of providing the physician with the most up-to-date knowledge regarding the techniques and ventilatory parameters of Non-Invasive Mechanical Ventilation. Each of the 3 modules that make up this program offers educational materials available in formats such as readings, explanatory videos, or interactive summaries.  Thanks to this, and following a 100% online format, each student will enjoy an engaging and effective learning experience.

Benefit from a comprehensive and up-to-date syllabus designed by specialists with extensive experience in NIV management”

Module 1. Ventilatory Mechanics 

1.1. Anatomy and Physiology of the Respiratory System

1.1.1. Structure and function of the lungs and their relationship to the rib cage
1.1.2. Mechanics of Pulmonary Ventilation
1.1.3. Gas exchange at the alveolar level

1.2. Ventilation Control and pH Regulation

1.2.1. Respiratory Control Mechanisms (chemoreceptors, baroreceptors, etc.)
1.2.2. Regulation of Blood pH and Its Relationship to Ventilation
1.2.3. Ventilatory Responses in Hypoxia, Hypercapnia, and Acidosis
1.2.4. Interaction between the Respiratory System and the Central Nervous System

1.3. Transpulmonary Pressure and Respiratory Mechanics

1.3.1. Forces Acting on the Lungs During Ventilation (atmospheric pressure, intrapleural pressure, etc.)
1.3.2. Lung Protective Mechanisms Against Overdistension and Collapse
1.3.3. Respiratory Mechanics in Pathological Conditions (emphysema, pulmonary fibrosis, etc.)
1.3.4. Relationship between Respiratory Mechanics and Respiratory Muscle Effort

1.4. Tidal Volume, Minute Volume, and Vital Capacity

1.4.1. Definition and Measurement of Different Lung Volumes and Capacities
1.4.2. Alterations in Lung Volumes and Capacities in Respiratory Diseases
1.4.3. Interpretation of Spirometric Values and Their Limitations

1.5. Compliance and Resistance of the Respiratory System

1.5.1. Concept
1.5.2. Measurement
1.5.3. Influencing Factors
1.5.4. Alterations in Respiratory Diseases

1.6. Types of Breathing (Spontaneous, Assisted, and Controlled)

1.6.1. Definition and Characteristics of Different Types of Breathing
1.6.2. Assessment of Patient Response to Mechanical Ventilation

1.7. Ventilation-perfusion ratio

1.7.1. Definition and Physiology of Ventilation-Perfusion Ratio 
1.7.2. Alterations in Ventilation-Perfusion Ratio in Respiratory Diseases 
1.7.3. Methods for Evaluating Ventilation-Perfusion Ratio
1.7.4. Therapeutic Strategies to Improve Ventilation-Perfusion Ratio

1.8. Oxygenation and Gas Transport

1.8.1. Alterations in Oxygenation and Gas Transport in Respiratory Diseases 
1.8.2. Assessment in Oxygenation and Gas Transport in clinical practice 
1.8.3. Treatment of Hypoxemia and Hypercapnia in Respiratory Patients 
1.8.4. Complications of Hypoxemia and Hypercapnia Treatment

1.9. Effects of Mechanical Ventilation on Respiratory Physiology

1.9.1. Physiology of Mechanical Ventilation

1.10. Changes in Ventilatory Mechanics During Non-Invasive Mechanical Ventilation

1.10.1. Lung Injuries Associated with Mechanical Ventilation 
1.10.2. Optimizing Mechanical Ventilation to Improve Respiratory Physiology

Module 2. Non-Invasive Mechanical Ventilation and Adjustment of Ventilatory Parameters in Non-Invasive Mechanical Ventilation

2.1. NIV

2.1.1. Terminology in NIV 
2.1.2. What Each Parameter Used in NIV Measures

2.2. Indications and Contraindications

2.2.1. Indications in Acute Hypoxemic Respiratory Failure 
2.2.2. Indications in Acute Global/Hypercapnic Respiratory Failure 
2.2.3. Indications in Chronic Respiratory Failure 
2.2.4. Other Indications for NIV 

2.3. Ventilatory Modes

2.3.1. Spontaneous Mode 
2.3.2. Assisted Mode 
2.3.3. Controlled Mode

2.4. Interfaces: Types, Selection, and Adjustment

2.4.1. Face Mask 
2.4.2. Nasal Mask 
2.4.3. Oral Interface
2.4.4. Oro-Nasal Interface
2.4.5. Helmet

2.5. Ventilatory Parameters: Pressure, Volume, Flow, and Ti/Ttot

2.5.1. Adjustment of Inspiratory and Expiratory Pressure 
2.5.2. Adjustment of Respiratory Rate 
2.5.3. Adjustment of Ti/Ttot 
2.5.4. Adjustment of PEEP 
2.5.5. Adjustment of FiO2

2.6. Respiratory Cycles and Trigger

2.6.1. Adjustment of Trigger and Ventilator Sensitivity 
2.6.2. Adjustment of Tidal Volume and Inspiratory Time 
2.6.3. Adjustment of Inspiratory and Expiratory Flow

2.7.  Patient-Ventilator Synchronization

2.7.2. Auto-Trigger 
2.7.3. Ineffective Inspiratory Efforts 
2.7.4. Inspiratory Time Mismatch Between Patient and Ventilator 
2.7.5. Double Trigger

2.8. Alarms and Patient Safety

2.8.1. Types of Alarms 
2.8.2. Alarm Management 
2.8.3. Patient Security. 
2.8.4. Evaluation of NIV Effectiveness 

2.9. Patient Selection and Initiation Strategies

2.9.1. Patient Profile 
2.9.2. Initial Parameters for Acute Patients on NIV 
2.9.3. Initial Parameters for Chronic Patients 
2.9.4. Parameter Adjustment Based on Progress

2.10. Evaluation of Patient Tolerance and Adaptation to Non-Invasive Mechanical Ventilation

2.10.1. Criteria for a Good Clinical Response 
2.10.2. Criteria for a Poor Clinical Response 
2.10.3. Adjustments to Improve Tolerance 
2.10.4. Tips for Enhancing Adaptation 

Module 3. Non-Invasive Respiratory Support Techniques

3.1. Assessment of the Required Ventilatory Support Level

3.1.1. Assessment of Clinical Indication 
3.1.2. Interpretation of Arterial Blood Gas 
3.1.3. Assessment of Respiratory Mechanics 
3.1.4. Determination of the Required Ventilatory Support Level 
3.1.5. Changing Ventilatory Modality

3.2. Continuous Positive Airway Pressure (CPAP) 

3.2.1. CPAP principles and mechanics 
3.2.2. Comparison of CPAP with Other Ventilatory Modalities 
3.2.3. Adjustment of CPAP parameters 
3.2.4. Monitoring and Management of CPAP Complications 

3.3. Positive Airway Pressure (BiPAP)

3.3.1. Principles and Mechanics of BiPAP 
3.3.2. Indications for BiPAP Use 
3.3.3. Adjusting BiPAP Parameters 
3.3.4. Monitoring and Management of BiPAP Complications 
3.3.5. Comparison of BiPAP with Other Ventilatory Modalities

3.4. Pressure Support Ventilation

3.4.1. Conventional (PSV) 
3.4.2. Proportional (PPSV) 
3.4.3. Adaptive (ASV) 
3.4.4. Intelligent Adaptive (iVAPS) 

3.5. Volume-Controlled Ventilation

3.5.1. Principles and Mechanics of Volume NIV 
3.5.2. Indications for Volume NIV Use 
3.5.3. Adjusting Volume Mode Parameters 
3.5.4. Monitoring and Management of Complications in Volume Mode 
3.5.5. Comparison of Volume Mode with Other Ventilatory Modalities 

3.6. High-Flow Nasal Cannula (HFNC)

3.6.1. Principles and Mechanics of HFNC 
3.6.2. Indications for HFNC Use 
3.6.3. Adjusting HFNC Parameters 
3.6.4. Monitoring and Management of HFNC Complications 
3.6.5. Comparison of HFNC with Other Ventilatory Modalities 

3.7. Combined Ventilation (Positive Pressure (CPAP/BiPAP) + HFNC)

3.7.1. Principles and Mechanics of Combined Therapy 
3.7.2. Indications for Combined Therapy Use 
3.7.3. Starting Combined Therapy, Simultaneously or Staggered 
3.7.4. Adjusting Parameters for Combined Therapy 
3.7.5. Monitoring and Management of Complications in Combined Therapy 
3.7.6. Comparison of Combined Therapy with Other Ventilatory Modalities 

3.8. High-Frequency Ventilation

3.8.1. Indications for High-Frequency NIV Use 
3.8.2. Adjusting Parameters 
3.8.3. Utility in Acute Patients 
3.8.4. Utility in Chronic Patients 
3.8.5. Monitoring and Management of Complications 
3.8.6. Comparison with Other Ventilatory Modalities 

3.9. Others Ventilatory Modes

3.9.1. Pressure Support Ventilation with Mandatory Flow Control (MFC) 
3.9.2. High-Velocity Nasal Cannula Ventilation 
3.9.3. Other Innovative Ventilatory Modes 

3.10. Humidification and Temperature Adjustment in NIV

3.10.1. Importance of Adequate Humidification and Temperature in NIV 
3.10.2. Types of Humidification Systems in NIV 
3.10.3. Indications for Adding a Humidifier in Acute Patients 
3.10.4. Indications for Humidifier Use in Chronic Patients 
3.10.5. Methods for Monitoring Humidification in NIV 
3.10.6. Temperature Adjustment in NIV 
3.10.7. Monitoring and Management of Complications Related to Humidification and Temperature in NIV  

Update your professional profile in a dynamic and highly effective manner through educational resources such as interactive summaries or real-life case simulations”

Postgraduate Diploma in Ventilatory Techniques and Parameters in NIV

At TECH Global University, we offer you the opportunity to specialize in the exciting field of ventilatory techniques and parameters in Noninvasive Mechanical Ventilation (NIV). With our online classes, you will be able to acquire the knowledge and skills necessary to excel in this vitally important field in the care of patients with respiratory problems. TECH Global University's online classes will allow you to make the most of your time and resources, since you will be able to access them from anywhere and at the time that is most convenient for you. In addition, you will have interactive tools and multimedia resources that will facilitate your learning process. By enrolling in our Postgraduate Diploma in Ventilatory Techniques and Parameters in NIV, you will benefit from the flexibility of online classes, adapting them to your pace and needs. You will be able to interact with other professionals in the sector, expand your network and share experiences, enriching your learning.

Learn the best techniques in noninvasive mechanical ventilation

Our Postgraduate Diploma in Ventilatory Techniques and Parameters in NIV provides you with a comprehensive and updated training, focused on the training of health professionals. Through our online classes, you will have access to quality content taught by experts in the field, who will guide you in learning the latest techniques and advances in noninvasive mechanical ventilation. In this course, you will immerse yourself in the fascinating world of NIV and learn the best practices and strategies to provide effective and safe respiratory support. You will learn about the different modes of ventilation, learn how to interpret ventilatory parameters and acquire practical skills for equipment management. In addition, you will have the opportunity to explore the benefits of NIV, such as reducing the need for endotracheal intubation and reducing complications associated with invasive ventilation. Get ready to excel in the field of noninvasive mechanical ventilation and improve the quality of life of patients with respiratory problems. Don't miss the opportunity to excel in the field of noninvasive mechanical ventilation and contribute to the well-being of patients. Enroll now in the Postgraduate Diploma in Ventilatory Techniques and Parameters in NIV from TECH Global University and take your career to the next level!