Description

Improve your knowledge of Clinical Imaging for Emergency and Critical Care through this program, where you will find the best teaching material with real clinical cases. Learn about the latest advances in the specialty to be able to provide excellent medical care"

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In some medical activities, such as emergency and critical care, the interrelationship between the clinician and the imaging specialist is important.

In most hospitals, radiologists collaborate closely with emergency physicians and critical care staff, being in charge of sequencing, prioritization and administration of imaging techniques, but responding to their clinical needs.

Wherever a patient is and whatever their health problem, the result of this interrelation between specialists is impressive, since not only is the quality of the images obtained improved, but also morbidity and mortality are reduced.

Emergency and critical care clinicians and radiologists must know the indications and practical usefulness of imaging techniques, and know how to interpret the information derived from them.

This knowledge will have an impact on each of the six fundamental domains of the current concept of quality of care: patient safety, effectiveness, efficiency, equity, opportunity and humanization.

Patient safety, by reducing diagnostic errors and time-to-treatment intervals, and errors in therapeutic procedures.

Effectiveness and efficiency, by favorably modifying the "success at first attempt" in diagnoses and interventions, optimizing the cost/benefit ratio in decision making.

Equity, as they can be applied equitably in a short period of time to all patients in need.

Timeliness, for its ability to provide "here and now" the right answers to the questions required for better patient care.

Humanization, by facilitating the doctor-patient relationship with continuous care during travel to remote and unfamiliar places for the patient or during the intervention of specialists who are not usually involved in the patient's care.

Update your knowledge through this professional master’s degree in Clinical Imaging for Emergency and Critical Care”

This professional master’s degree in Clinical Imaging for Emergency and Critical Care contains the most complete and up-to-date scientific program on the market. The most important features include:

  • More than 75 clinical cases presented by experts in clinical imaging. The graphic, schematic, and practical contents with which they are created provide scientific and practical information on the disciplines that are essential for professional practice
  • Diagnostic and therapeutic developments in assessment, diagnosis and intervention in Clinical Imaging for Emergency and Critical Care 
  • Practical exercises where the self-evaluation process can be carried out to improve learning
  • Clinical iconography and diagnostic image tests
  • An algorithm-based interactive learning system for decision-making in the clinical situations presented throughout the course
  • Special emphasis on evidence-based medicine and clinical imaging research methodologies for emergency and critical care
  • All of this will be complemented by 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

This professional master’s degree may be the best investment you can make when selecting a refresher program, for two reasons: in addition to updating your knowledge in Clinical Imaging for Emergency and Critical Care, you will obtain a professional master’s degree from TECH Global University”

The teaching staff includes professionals from the field of Clinical Imaging for Emergency and Critical Care who bring their experience to this training program, as well as renowned specialists from leading scientific societies.

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 an immersive academic experience programmed to learn in real situations.

This program is designed around Problem-Based Learning, whereby the physician must try to solve the different professional practice situations that arise throughout the program. For this purpose, the physician will be assisted by an innovative interactive video system created by renowned and experienced experts in the field ofClinical Imaging for Emergency and Critical Care with extensive teaching experience.

Increase your decision-making confidence by updating your knowledge through this professional master’s degree"

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Make the most of this opportunity to learn about the latest advances in Clinical Imaging for Emergency and Critical Care and improve your patient care"

Objectives

The professional master’s degree in Clinical Imaging for Emergency and Critical Care is aimed at enhancing the physician's ability to diagnose and treat patients in emergency or intensive care situations.

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This professional master’s degree is designed to help you update your knowledge in Clinical Imaging for Emergency and Critical Care, with the use of the latest educational technology, to contribute with quality and confidence to decision-making, diagnosis, treatment, and patient support"

 General Objective

The general objective of theprofessional master’s degree in Clinical Imaging for Emergency and Critical Care is to complete the process of making physicians experts in the use of imaging techniques, allowing them to deal with emergency situations and critical patients, regardless of the environment in which they find themselves.

Specific Objectives 

Module 1. Fundamental Diagnostic Imaging Techniques

  • Describe the fundamental diagnostic imaging techniques
  • Explain the parameters to consider in conventional radiology
  • Explain the characteristics of image quality and artifacts in conventional radiology
  • Define the parameters that guarantee patient safety
  • Define the parameters that guarantee safety of professionals
  • Define the physical principles involved in ultrasound imaging
  • Establish an appropriate ultrasound sequence for each examination 
  • Explain the ultrasound modes
  • Define the different types of ultrasound and their applications
  • Describe the different ultrasound planes
  • Explain the principles of echonavigation
  • Define the physical principles involved in computerized tomography
  • Define the physical principles involved in magnetic resonance
  • Identify artifacts in magnetic resonance imaging
  • Define the physical principles involved in digital angiography
  • Define the material required for digital angiography
  • Define the physical principles involved in nuclear medicine
  • Describe the principles of radiation protection and radiopharmaceuticals

Module 2. Imaging in Acute Pathology of the Respiratory System

  • Describe the use of imaging in acute pathology related to airway infections
  • Describe the use of imaging in asthma, COPD, bronchiectasis
  • Describe the use of imaging in airway trauma
  • Describe the use of imaging in the emergency care of patients with foreign body aspiration
  • Identify the different uses of imaging in the diagnosis of pulmonary infectious pathology
  • Identify the different uses of imaging in the diagnosis of pulmonary hemorrhagic pathology
  • Identify the different uses of imaging in the diagnosis of barotrauma and contusion
  • Identify the different uses of imaging in the diagnosis of emergency care for inhalation toxics

Module 3. Imaging in Acute Pathology of the Cardiovascular System

  • Describe the use of imaging in acute mediastinal pathology
  • Describe the use of imaging in acute esophageal pathology
  • Describe the use of imaging in acute pathology of the pleura, chest wall and diaphragm
  • Describe the use of imaging in the management of major respiratory syndromes
  • Describe the use of imaging in the placement and testing of tubes, catheters and drains
  • Describe the use of imaging in acute myocardial pathology
  • Describe the use of imaging in acute pericardial pathology
  • Describe the use of imaging in acute aortic syndrome
  • Describe the use of imaging in emergency care in heart failure
  • Describe the use of imaging in emergency care in thromboembolic disease
  • Describe the use of imaging in shock and cardiac arrest

Module 4. Imaging in Acute Pathology of the Central Nervous System

  • Identify the different uses of imaging in the diagnosis of emergency care for traumatic injuries of the central nervous system
  • Identify the different uses of imaging in the diagnosis of emergency care for vascular lesions of the central nervous system
  • Identify the various uses of imaging in the emergency care diagnosis of nontraumatic subarachnoid hemorrhage
  • Describe the use of imaging in emergency care for central nervous system infections
  • Describe the use of imaging in emergency care for decreased level of consciousness
  • Describe the use of imaging in involuntary movements in emergencies
  • Identify the different uses of imaging in the diagnosis of facial trauma in emergencies
  • Identify the different uses of imaging in the diagnosis of emergency ocular trauma

Module 5. Imaging in Acute Pathology of the Head and Neck

  • Describe the use of imaging in emergency care in neck trauma
  • Describe the use of imaging in the emergency care of occupational neck injuries
  • Describe the use of imaging in the emergency care of neck arterial pathology
  • Describe the use of imaging in the emergency care of venous neck pathology

Module 6. Imaging in Acute Pathology of the Locomotor System

  • Explain the different image-guided procedures in the locomotor system
  • Describe the use of imaging in the emergency care of acute soft tissue pathology
  • Describe the use of imaging in the emergency care of joint pathology
  • Identify the different uses of imaging in the diagnosis of foreign bodies
  • Identify the different uses of imaging in the diagnosis of bone fractures
  • Identify the various uses of imaging in the diagnosis of muscle and tendon injuries

Module 7. Imaging in Acute Pathology of the Digestive System

  • Describe the use of imaging in the emergency care of chronic liver disease
  • Describe the use of imaging in the emergency care of abdominal trauma
  • Describe the use of imaging in the emergency care of diffuse acute abdomen and abdominal wall problems
  • Describe the use of imaging in emergency care in the acute abdomen: upper abdomen
  • Describe the use of imaging in emergency care in the acute abdomen: lower abdomen
  • Describe the use of imaging in emergency care for tumor complications

Module 8. Imaging in Acute Pathology of the Urinary System

  • Identify the different uses of imaging in renal colic
  • Identify the different uses of imaging in acute urinary retention
  • Identify the different uses of imaging in acute urinary tract infection
  • Identify the different uses of imaging in urgent hematuria
  • Describe the use of imaging in emergency care for genitourinary trauma

Module 9. Imaging in Acute Pathology of the Reproductive System

  • Describe the use of imaging in emergency care of the penis and testicles
  • Describe the use of imaging in the emergency care of adnexal pathology
  • Describe the use of imaging in emergency care in pelvic inflammatory disease
  • Describe the use of imaging in emergency care in uterine pathology
  • Describe the use of imaging in emergency care in endometriosis
  • Describe the use of imaging in emergency obstetric pathology care
  • Describe the use of imaging in emergency care in breast pathology

Module 10. Emergency Clinical Ultrasound

  • Explain the use of ultrasounds in cardiac arrest
  • Describe the use of ultrasound in cases of shock
  • Explain the use of ultrasounds in respiratory failure
  • Describe the use of ultrasound in cases of sepsis
  • Explain the use of ultrasounds in abdominal pain
  • Describe the use of ultrasound in trauma cases
  • Explain the use of ultrasounds in strokes
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Take the opportunity to learn about the latest advances in this field in order to apply it to your daily practice"

Professional Master's Degree in Clinical Imaging for Emergency, Critical Care and Emergency Medicine

The extensive field of application of imaging techniques in modern emergency departments makes this practice an indispensable tool for professionals specialized in this field of care. Due to this situation, there is an increasing interest on the part of physicians specialized in emergencies, for the approach of academic updating programs that allow them to improve their practical knowledge in the application of imaging techniques. Understanding this fact and with the intention of offering training alternatives of the highest quality, at TECH Global University we have designed our Professional Master's Degree program in Clinical Imaging for Emergencies, Emergencies and Critical Care. In this postgraduate program we will delve into the latest technological advances applied to digital angiography processes. In addition, the following topics will be updated: the identification of the different fields of application of magnetic resonance in the field of emergency, the practical management of Doppler ultrasound and bladder ultrasound in the detection of cases of acute renal failure.

Study an online Professional Master's Degree in Clinical Imaging for Emergency, Critical Care and Emergency Medicine

The large number of contexts in which modern imaging techniques are developed imply, for their adequate performance, the presence of specialized professionals with a broad theoretical and practical knowledge and a high degree of preparation and expertise. In our Professional Master's Degree program you will acquire the necessary skills and abilities for an adequate performance in the application of imaging techniques in emergency services. Likewise, in this postgraduate program you will deepen in the modernization of the following aspects: the possibilities present in the implementation of imaging techniques for the detection of cases of traumatic injuries of the central nervous system and the particularities to be considered in the development of a computed tomography process.