With this Postgraduate diploma, based on Relearning, you will combine different advanced imaging techniques to obtain comprehensive diagnoses that will allow you to perform the most appropriate interventions” 

In the field of medical diagnostics, Angiography and Vascular Diagnostics occupy a preeminent place due to their ability to provide detailed visualizations of blood vessels and identify anomalies with high precision. Thanks to new technologies driven by the advent of Industry 4.0, medical staff have state-of-the-art tools to assess the clinical condition of their patients.  For example, CT scans are useful for diagnosing a wide variety of conditions (such as traumatic injuries, infectious diseases, tumors, and even bone or vascular disorders). In order for physicians to get the most out of these instruments, they need to acquire practical skills for their optimal use.  

In this context, TECH has developed a revolutionary Postgraduate diploma in Angiography and Vascular Diagnostics. Conceived by references in this field, the academic itinerary will deepen the use of the latest generation machinery for vascular intervention (among which are the Access Needles, Dilators or Catheters). In line with this, the syllabus will provide graduates with strategies to prevent complications after procedures involving puncture. In addition, the didactic materials will delve into the most modern Non Invasive Vascular Imaging techniques (such as Magnetic Resonance Imaging and Doppler Ultrasound). In this regard, the program will analyze the keys to perform Balloon Angioplasty procedures safely and effectively. Thanks to this, physicians will skillfully employ Angiography not only as a diagnostic tool, but also as a guide in therapeutic interventions.  

The program is made more dynamic thanks to the multimedia pills and the wide variety of teaching resources offered by TECH (such as specialized readings, interactive summaries or case studies). In addition, TECH's Relearning methodology will allow practitioners to obtain a much more effective update in a shorter period of time. Therefore, their learning process will be completely natural and progressive, so they will not have to invest long hours of study.

Study from the comfort of your home and update your knowledge online with TECH Global University, the biggest online university in the world” 

This Postgraduate diploma in Angiography and Vascular Diagnosis contains the most complete and up-to-date scientific program on the market. The most important features include:  

• The development of case studies presented by experts in Angiology and Vascular Surgery
• The graphic, schematic and practical contents with which it is conceived gather scientific and practical information on those disciplines that are essential for professional practice
• Practical exercises where the self-assessment process can be carried out to improve learning
• Its 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

You will delve into the use of the most sophisticated embolic protection devices and prevent your patients from suffering serious complications such as strokes and heart attacks” 

The program’s teaching staff includes professionals from the sector who contribute their work experience to this specializing 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 education programmed to learn 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 course. For this purpose, students will be assisted by an innovative interactive video system created by renowned and experienced experts.

Do you want to incorporate innovative Drug Delivery Monitoring techniques into your clinical practice?  Achieve it with this 6-month program"

You will effectively manage Stents devices to treat cardiovascular diseases such as Angina Pectoris and restore blood flow in the arteries"

Through this program, physicians will have a holistic understanding of the vascular system and the various pathologies that affect it. The syllabus will focus on the management of patients with vascular pathologies, addressing factors such as psychological preparation, informed consent and radiological protection. Likewise, the didactic materials will offer graduates the keys to the use of non-invasive imaging tools such as computed tomography. The program will also delve into sophisticated interventions, ranging from Balloon Angioplasty to Stents. Therefore, graduates will perform Angiography procedures effectively. 

You will be able to properly interpret the results of images obtained from tools such as Ultrasound to make the most accurate clinical diagnoses”

Module 1. Vascular Angiography

1.1. Evaluation and Management of the Pre-procedure of the Patient with Vascular Pathology 

1.1.1. Clinical History and Physical Evaluation 
1.1.2. Psychological Preparation and Informed Consent 
1.1.3. Evaluation of Contraindications and Risk Factors 

1.2. Safety in Vascular Interventional Procedures 

1.2.1. Radiological Protection for the Patient and Staff 
1.2.2. Infection Prevention and Sterility Control 
1.2.3. Emergency Procedures and Response Plan 

1.3. Tools in Vascular Intervention: Access Needles, Guides, Dilators and Catheters 

1.3.1. Access Needles 
1.3.2. Guides and Advancement Techniques 
1.3.3. Dilators and Catheters 

1.4. Contrast Agents in Vascular Intervention 

1.4.1. Iodinated Contrast Agents 
1.4.2. Evaluation of Renal Function and Risk of Nephrotoxicity 
1.4.3. Adverse Reactions to Contrast 

1.5. Alternative Contrast Agents: Carbon Dioxide Gas, Gadolinium Chelates 

1.5.1. Carbon Dioxide Gas as a Contrast Agent 
1.5.2. Gadolinium Chelates in Angiography 
1.5.3. Alternative Contrast Agents 

1.6. Intraprocedural Care in Vascular Intervention: Sedation, Antibiotic Prophylaxis, Blood Pressure Control, Anticoagulation 

1.6.1. Safe Administration of Sedatives during the Procedure 
1.6.2. Antibiotics and Prophylaxis Protocols prior to the Intervention 
1.6.3. Hemodynamic Stability and Prevention of Thrombosis 

1.7. Arterial Puncture: Common Femoral Artery, Axillary or High Brachial Artery, Translumbar Aorta, Unusual Arterial Access 

1.7.1. Puncture Site and Artery Evaluation 
1.7.2. Femoral and Axillary Artery Puncture Techniques 
1.7.3. Management of Unusual Puncture Sites 

1.8. Venous Puncture: Common Femoral Vein, Internal Jugular Vein, Subclavian Vein, Veins of the of the Upper Extremity, Inferior Cava Vein

1.8.1. Evaluation of the Central and Peripheral Venous System 
1.8.2. Venous Catheter Puncture and Positioning Techniques 
1.8.3. Complications and Management Strategies during and after Puncture 

1.9. Other Venous Accesses 

1.9.1. Deep Vein Access: Deep Femoral Vein or External Jugular Vein 
1.9.2. Access in Emergency Situations 
1.9.3. Risk-Benefit Assessment to Determine the Best Venous Access 

1.10. Do's and Don'ts in Vascular Interventional Procedures 

1.10.1. Safety Protocols and Etiquette in the Angiography Area 
1.10.2. Preventing Complications and Common Errors During the Procedure 
1.10.3. Teamwork Strategies in the Angiographic Environment 

Module 2. Non-Invasive Vascular Imaging

2.1. Ultrasound in the Diagnosis of Vascular Pathology Susceptible to Intervention. 

2.1.1. Ultrasound 
2.1.2. Clinical Applications of Vascular Ultrasound 
2.1.3. Acquisition Techniques and Scanning Protocols 

2.2. Grayscale Ultrasound in the Diagnosis of Vascular Pathology Susceptible to Intervention 

2.2.1. Interpretation of Grayscale Images 
2.2.2. Assessment of Vascular Morphology and Structure 
2.2.3. Differential Diagnosis and Normal Findings 

2.3. Doppler Ultrasound in the Diagnosis of Vascular Pathology Susceptible to Intervention 

2.3.1. Doppler Effect 
2.3.2. Interpretation of Real Time Blood Flows 
2.3.3. Measurement of Velocities and Calculation of Hemodynamic Indices 

2.4. Color Doppler Ultrasound in the Diagnosis of Vascular Pathology Susceptible to Intervention 

2.4.1. Color Doppler Ultrasound over Conventional Doppler Ultrasound 
2.4.2. Applications in the Diagnosis of Vascular Pathology 
2.4.3. Limitations and Artifacts of Color Doppler Ultrasound 

2.5. Energy Doppler Ultrasound in the Diagnosis of Vascular Pathology 

2.5.1. Energy Doppler Ultrasound 
2.5.2. Clinical Utility in the Study of Low-Velocity Vascular Flows 
2.5.3. Evaluation of Tissue Perfusion 

2.6. Contrast Agents for Ultrasound in the Diagnosis of Vascular Pathology Susceptible to Intervention 

2.6.1. Contrast Agents 
2.6.2. Visualization and Characterization of Vascular Lesions 
2.6.3. Safety in the Use of Ultrasonographic Contrast Agents in Vascular Diagnostics in Vascular Diagnosis 

2.7. Magnetic Resonance Imaging and Angiography 

2.7.1. Magnetic Resonance Imaging for the Diagnosis Prior to Endovascular Procedures 
2.7.2. Magnetic Resonance Angiography Protocols 
2.7.3. Image Interpretation and Differential Diagnosis 

2.8. Computed Tomography and Computed Tomography Angiography Prior to Endovascular Procedures 

2.8.1. Image Acquisition and Optimization Protocols 
2.8.2. Applications in the Study of the Peripheral and Central Vasculature 
2.8.3. Evaluation of Complications and Limitations 

2.9. Post-Processing of Diagnostic Images of Vascular Pathologies. 

2.9.1. Data Reconstruction and Visualization Techniques 
2.9.2. Quantitative and Qualitative Image Analysis 
2.9.3. Integration of Results in the Radiological Report 

2.10. Technological Advances and Trends in Noninvasive Vascular Imaging 

2.10.1. Innovations in Hardware and Software to Improve Image Quality 
2.10.2. Developments in Multimodality Imaging Techniques
2.10.3. Personalization of Treatment

Module 3. Vascular Interventions 

3.1. Balloon Angioplasty 

3.1.1. Angioplasty Mechanisms 
3.1.2. Patient Selection and Preprocedural Evaluation 
3.1.3. Angioplasty Techniques and Procedures 

3.2. Embolic Protection Devices 

3.2.1. Embolic Protection Devices 
3.2.2. Indications and Clinical Utility 
3.2.3. Safety and Potential Complications of Atheroembolism 

3.3. Stents and Stent-Grafts for Endovascular Treatment 

3.3.1. Stents and Stent-Grafts 
3.3.2. Implantation and Placement Techniques 
3.3.3. Stent-Grafts in the Treatment of Aneurysms 

3.4. Pharmacological Thrombolysis in Acute Thrombosis 

3.4.1. Thrombolytic Agents 
3.4.2. Administration and Monitoring Protocols 
3.4.3. Clinical Outcomes and Associated Complications 

3.5. Mechanical Thrombectomy in Acute Thrombosis 

3.5.1. Thrombectomy Devices  
3.5.2. Thrombectomy Procedures and Techniques 
3.5.3. Outcomes and Effectiveness in Vascular Recanalization 

3.6. Pharmacomechanical Thrombolysis in Acute Thrombosis 

3.6.1. Pharmacomechanical Thrombolysis 
3.6.2. Devices and Techniques Used 
3.6.3. Comparison with Other Methods of Thrombolysis 

3.7. Vasodilator Drugs in Limb Ischemia 

3.7.1. Mechanism of Action and Vasodilator Effects in Limb Ischemia 
3.7.2. Clinical Uses in Vascular Interventions 
3.7.3. Administration of Drugs and Monitoring of Results after Administration of Vasodilator Drugs 

3.8. Endovascular Embolization and Ablation in Vascular Malformations 

3.8.1. Embolization and Ablation 
3.8.2. Embolization Techniques 
3.8.3. Endovascular Ablation: Methods and Clinical Applications 

3.9. Pseudoaneurysms of Arterial Access 

3.9.1. Evaluation of Pseudoaneurysms after Radial Access 
3.9.2. Endovascular and Surgical Treatment 
3.9.3. Follow-up and Management of Complications 

3.10. Implantation of Devices for Endovascular Treatment 

3.10.1. Implantation Techniques 
3.10.2. Device Selection for Endovascular Treatment 
3.10.3. Perioperative Management and Postimplantation Follow-Up

This university program gives you the opportunity to update your knowledge in a real scenario, with the maximum scientific rigor of an institution at the forefront of technology. Enroll now!"