Keeping knowledge in Precision Pulmonology Genomics and Big Data up to date helps practitioners improve their diagnostics and treatment"

Research in rare diseases has changed over the years. Because it is possible to have patients from all over the world with a particular condition in one place, researchers and specialists have been able to improve and develop new forms of diagnosis and treatment. To all this, we must add the many years of study in which they have been able to identify and understand the human genome.

The use of Big Data leaves behind tedious records, completely eliminating causal relationships, as it allows analyzing huge amounts of data and finding correlations that cannot be established through causality. The use of Big Data leaves behind tedious records, completely eliminating causal relationships, as it allows analyzing huge amounts of data and finding correlations that cannot be established by means of random causes.

Therefore, this professional master’s degree in Precision Pulmonology Genomics and Big Data seeks to boost the knowledge of students in a didactic and in depth way on the genetic basis of respiratory diseases, the methodology and knowledge obtained from the analysis of Big Data and the use of therapies directed to specific therapeutic targets (Precision Medicine) with a modern teaching methodology that facilitates learning.

Throughout the development of the professional master’s degree, you will find a complete package of knowledge, which covers a variety of topics that are almost always not raised in other programs on the market, in addition to being taught by experts in the area. This begins with an in depth review of the conceptual aspects of Precision Medicine and the use of information sources such as Big Data and real life studies, genomics and proteinomics. 

Advancing in the program, the professional will be able to identify minimally invasive endoscopic techniques that allow to increase the diagnostic accuracy of pulmonary and pleural processes. Highly specific therapeutic procedures for patients with neoplastic or airway diseases are also reviewed. 

The use of Big Data makes it possible to leave behind tedious records and study respiratory diseases in a more dynamic way"

This professional master’s degree in Precision Pulmonology Genomics and Big Data contains the most complete and up to date educational program on the market. The most important features include: 

• Case studies presented by experts in Precision Pulmonology Genomics and Big Data
• The graphic, schematic, and practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional development
• Practical exercises where to perform the self assessment process to improve the learning process 
• 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

Learn about new techniques for the genetic study of respiratory pathologies in children and how it could affect their growth"

The program’s teaching staff includes professionals from the sector who contribute their work experience to this training 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 training programmed to train 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 academic year. For this purpose, the professional will be assisted by an innovative interactive video system created by renowned and experienced experts.

Learning in a 100% online environment allows the professional to control their learning and access information anywhere in the world”

With extensive work and academic experience, the teachers of the professional master’s degree provide students with quality references for their professional development” 

The design of the program of this professional master’s degree will allow students to acquire the necessary skills to update in the profession after studying in depth the key aspects of Precision Pulmonology Genomics and Big Data. The knowledge acquired in the development of the points of the syllabus will drive the professional from a global perspective, with full capacity to achieve the proposed goals. You will be fully empowered in a field of medicine that is versatile, global and essential, guiding you towards excellence in an industry in continuous technological adaptation. For this reason, TECH has established a series of general and specific objectives for the satisfaction of future graduates, as follows.

At TECH you will find the boost you need for your career, specializing in the area of Precision Medicine"

General Objectives

• Provide in depth knowledge on the genetic linkage of respiratory diseases
• Interpret and generate knowledge with the information provided by primary and secondary Big Data sources
• Improve evaluation for prognosis and prevention of respiratory diseases
• Understand the precision treatment of pulmonary pathology in the daily practice of medicine
• Acquire a solid knowledge of the different pulmonary pathologies and their genetic basis

Specific Objectives

Module 1. Personalized Precision Medicine and Big Data in Pulmonology prelude 

• Delve into the health care and ethical implications of Precision Medicine
• Study in depth the sources of information on Precision Medicine
• Master the omic biomarkers of interest in pneumology
• Determine the contribution of specific care in personalized care

Module 2. Interventional Pulmonology and Precision Medicine 

• Study in depth the minimally invasive bronchological techniques that allow genetic and precision diagnosis
• Learn more about minimally invasive pleural techniques that allow genetic and precision diagnosis
• Master endoscopic invasive treatments for specific pneumologic patients

Module 3. Precision medicine, imaging techniques and pulmonary function 

• In depth knowledge of invasive techniques that increase bronchological diagnostic accuracy
• Master invasive techniques that increase pleural diagnostic accuracy
• Further development of precision endobronchial treatments

Module 4. Genetics and Precision Medicine and Pediatric Diseases 

• In depth understanding of genetic links to disease in the pediatric population
• Delve into the implications of childhood congenital diseases on respiratory health during a person's lifetime
• Mastering the management of common genetic respiratory diseases
• Precision medicine in childhood asthma. Use of biologicals

Module 5. Genetics, Precision Medicine and Asthma 

• Study in depth the epidemiological associations of asthma that suggest a genetic basis of the disease
• Explore the genetic complexity of asthma in the light of the most current knowledge
• Master the biology, therapeutic targets and clinical use of precision treatments in asthma

Module 6. Genetics, Precision Medicine and Lung Cancer 

• Studying the genetic susceptibility of lung cancer in more depth
• Further exploring driver gene mutations with approved lung cancer treatments
• Know future treatments against therapeutic targets
• Master the state of the art of lung cancer treatment with respect to the contribution of treatments based on genetic therapeutic targets

Module 7. Genetics, Precision Medicine And COPD 

• In depth understanding of the genetic and perinatal links of COPD
• Studying genetic links and smoking in more depth
• Delving into hereditary COPD due to alpha-1 antitrypsin deficiency
• Know the state of the art of COPD management oriented to treatable features
• Exploring genetic linkage to physical training outcomes in COPD

Module 8. Genetics, Precision Medicine and Other Respiratory Diseases 

• Further investigate genetic links to pulmonary vascular diseases and interstitial diseases
• In depth understanding of genetic linkages and susceptibility to infection
• Study telomeres as prognostic markers in respiratory diseases in greater depth
• Master the mechanisms and results of new mRNA-based vaccines

Module 9. Big Data and Respiratory Diseases I 

• Know the applications of Big Data in the study of the epidemiology of Respiratory Diseases
• Discuss the usefulness of Big Data in the evaluation of procedures used in respiratory pathology
• Explain how Big Data can help in the study of risk factors for Respiratory Diseases
• Describe the utility of Big Data in the management of obstructive diseases and sleep ventilation disorders

Module 10. Big Data and Respiratory Diseases II 

• Know the usefulness of Big Data in the study of Respiratory Diseases of infectious origin
• Discuss the use of Big Data to assess the impact of environmental pollution on respiratory infections
• Study in depth the importance of Big Data in the evaluation of other Respiratory Diseases such as pleural pathology, lung cancer, interstitial diseases, pulmonary thromboembolism and pulmonary hypertension
• Describe the applications of Big Data in the field of Neonatal Onset Respiratory Diseases

Reach your goals with the best professionals in the field of Precision Pulmonology"