This training will generate a sense of security in the performance of medical practice, which will help you grow personally and professionally”

Access to Big Data platforms, which have a large amount of analytical and clinical data pertaining to the population affected by cancer, allows oncology professionals to gain a closer understanding of the disease, as well as more exhaustive and accurate diagnosis of the patient. This great technological revolution in oncological medicine represents a great opportunity in cancer research and treatment, thanks to the fact that physicians have access to a large amount of data and analysis worldwide. 

Professionals in the oncology field need to constantly update their knowledge related to cancer treatments in order to be able to offer patients the most suitable treatment based on their real needs. 

This postgraduate diploma in oncological diagnostics. Technological advances and Big Data allow us to gain in-depth knowledge about the effective techniques and resources being used for oncological diagnosis. These include cytology and radiology. 

Cytology diagnosis has evolved a lot in recent times, making it possible to perform immunohistochemical staining (immunocytochemistry), mutations or other specific genomic alterations, and also to determine the status of biomarkers essential in cancer management. Radiology, for its part, remains the essential tool for diagnosing more than 85% of oncological diseases.  

The program has been designed and developed by oncology specialists ranked among the best in medical excellence, who have provided students with the most advanced knowledge, experience and practical cases to create a program following the highest quality criteria available on the market. 

Update your knowledge with the postgraduate diploma in Oncological Diagnosis program. Technological Advances and Big Data”

This postgraduate diploma in Oncologic Diagnosis. Technological Advances and Big Data contains the most complete and up-to-date scientific program on the market. The most important features of the program include:

• Development of more than 75 case studies presented by experts in oncological diagnostics. Technological Advances and Big Data
• The graphic, schematic, and eminently practical contents with which they are created provide scientific and practical information on the disciplines that are essential for professional practice
• New developments in oncologic diagnosis. Technological Advances and Big Data
• It contains practical exercises where the self-evaluation process can be carried out to improve learning
• With special emphasis on innovative methodologies in oncological diagnosis. Technological Advances and Big Data
• 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 postgraduate diploma may be the best investment you can make in selecting a refresher program for two reasons: in addition to updating your knowledge in Oncologic Diagnosis. Technological Advances and Big Data, you will obtain a postgraduate diploma issued by TECH Technological University"

Its teaching staff includes professionals belonging to the field of oncological diagnosis. Technological advances and Big Data, who bring to this training the experience of their work, as well as recognized specialists belonging to reference 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 program 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 course. For this purpose, the professional will be assisted by an innovative interactive video system created by renowned experts in the field of oncological diagnosis. Technological advances and Big Data. and with great medical expertise. 

Enhance your professional performance and improve your patients' quality of life"

Take the opportunity to learn about the latest advances in Oncological Diagnostics. Technological Advances and Big Data and improve the health of your patients"

The postgraduate diploma in Female Anatomy and Pathology is oriented to facilitate the performance of the professional dedicated to aesthetic medicine with the latest advances and newest treatments in the field. 

This postgraduate diploma is designed for you to update your knowledge in Oncologic Diagnosis. Technological Advances and Big Data, with the use of the latest medical technology and scientific advances to help promote the health and quality of life of patients"

General Objective

• The main goal of this training in Oncologic Diagnostics. Technological Advances and Big Data is to introduce the professional in the use and management of medical technology, Big Data that allow to obtain more effective medical data for the diagnosis of oncological disease

Specific Objectives

• Recognize the characteristics of malignant neoplasms, their classification according a their histogenesis, as well as aspects related to their biological behavior
• Acquire up-to-date knowledge on cancer epidemiological data worldwide
• Learn about screening methods in at-risk populations to diagnose cancerous lesions early
• Recognize the environmental and occupational factors (mutagenic agents) that are directly and indirectly involved in cancer, and the carcinogenic capacity of some toxic substances found in food
• Relate DNA AND RNA viruses known to cause cancer in humans
• Expose the mechanisms by which viruses are able to subjugate the normal activity of host cytoplasmic proteins, affecting key points in the control of the cell cycle, cell growth and differentiation, causing severe alterations in cell growth and cancer development
• Recognize the role of H. pylori bacteria in the pathogenesis of gastric cancer
• Understand cancer as a genetic disease resulting from mutations that accumulate in genes that are critical for the growth and development of somatic cells
• Describe the genes associated with cancer, and the importance of DNA analysis to identify individuals, detect predisposing gene polymorphisms, analyze mutations, and establish the diagnosis of cancer as a genetic disease
• Recognize the susceptibility genes involved in breast, lung, thyroid, colon, skin, bone, pancreatic, and neuroblastoma cancers, and by what mechanism they participate in tumorigenesis
• Know the symptoms and signs that are most frequently related to cancer, as well as the different systems for the staging of tumor disease and their importance
• Know the phases of the cell cycle, the critical control points, as well as the genes involved in its regulation
• Recognize the important role of cell cycle checkpoints and DNA repair systems in maintaining the fidelity and integrity of genome replication and repair, and regulating cell cycle dynamics
• Explain the positive and negative feedback regulatory processes that contribute to cell cycle progression, and the significance of negative controls on cell cycle progression that are present during development, differentiation, senescence, and cell death, which play an important role in preventing tumorigenesis
• Identify the difference in gene expression between normal tissue and tumor tissue
• Know the stages involved in the transformation of a normal cell to a malignant cell
• Recognize the malignant phenotype as the result of a characteristic pattern of gene expression, alterations in the function of the human genome, leading to aberrant growth, dedifferentiation, invasion and metastasis
• Characterize the different genes involved in cell cycle regulation (growth-promoting genes, growth-inhibiting genes, genes that regulate apoptosis and genes that repair damaged DNA), and the mutations that alter them
• Explain the key role that oncogenes may play in the development of cancer by directing mechanisms that lead to the development of neoplasms
• Know tumor suppressor genes as cytoplasmic components capable of reversing the tumor phenotype; proteins that control the cell cycle, proliferation, and differentiation
• Identify epigenetic aberrations (DNA methylation with silencing of gene expression, and histone modifications that can enhance or dampen expression), which contribute to the malignant properties of cells
• Recognize the role of epigenetic changes in malignant phenotype, including gene expression, control of differentiation, and sensitivity and resistance to anticancer therapy
• Know the genes and proteins associated with malignant diseases and their utility as tumor markers to define a particular entity, its diagnosis, staging, prognosis, and screening in the population
• Know and apply the different technologies used to analyze the gene expression profile of neoplasms to identify clinical and biological aspects that are difficult to determine by histopathological examination. Its principles, advantages, and disadvantages
• Explain the importance of gene expression profiling for the application of different treatment protocols and the response to them among histologically similar tumors
• Recognize the importance of gene expression profiling in the new classifications of malignant tumors associated with prognosis and response to treatment
• Know the techniques of aspiration cytology of superficial and deep organs
• Indications, limitations, and complications
• Know the cytologic patterns of malignancy, their differential diagnosis
• Role of cytology in the clinical, therapeutic, and research context in oncopathology
• Learn about aspects of the radiological diagnosis of the most common solid tumors in the body
• Learn about radiological techniques that are used in the functional study of malignant tumors
• Learn about the uses, contraindications, and complications of invasive diagnostic techniques performed by radiologists
• Know how to detect which radiological alterations are derived from antitumor treatment 
• Possess detailed knowledge of the radiological techniques for monitoring tumor pathology
• Know the main problems in the management and structuring of data in pathology
• Introduction to the fundamentals of Big Data
• Identify opportunities for research and problem solving through Big Data, know its main utilities and limits
• Know the main methodologies most used in Big Data
• Know the main cloud tools for Big Data management and analysis

If your goal is to become a healthcare professional capable of communicating fluently in English, this program is for you"