What does medical imaging technology learn?

Question 1: What medical imaging specialties does medical imaging technology include? Training objectives: This major cultivates the basic theoretical knowledge and ability of basic medicine, clinical medicine and modern medical imaging, and can engage in advanced medical specialties such as medical imaging diagnosis, interventional radiology and medical imaging technology in medical and health units. Professional training requirements: students in this major mainly have basic theoretical knowledge of basic medicine, clinical medicine and medical imaging, basic training in conventional radiology, CT, magnetic resonance, ultrasound, DSA and nuclear medical imaging, and basic ability in imaging diagnosis of common diseases and interventional radiology. Graduates should have the following knowledge and abilities: 1. Master the basic theories and knowledge of basic medicine, clinical medicine and electronics; 2. Master various technologies in the field of medical imaging (including conventional radiology, CT, nuclear magnetic resonance, DSA, ultrasound, nuclear medicine, imaging, etc.). ) and the basic theory and operation skills of computers; 3. Have the ability to use various imaging diagnostic techniques for disease diagnosis; 4 familiar with the principles, policies and methods of radiation protection and related medical ethics; 5. Understand the theoretical frontier and development trend of each branch of medical imaging; 6 master the basic methods of literature retrieval, data query and computer application, and have certain scientific research and practical work ability. Main subjects: basic medicine, clinical medicine, medical imaging. Main courses: physics, electronics foundation, computer principle and interface, structure and maintenance of imaging equipment, medical imaging technology, photography, human anatomy, diagnostics, internal medicine, imaging diagnostics, interventional radiology. Length of study: five years. Degree awarded: Bachelor of Medicine Employment prospect: Mainly engaged in medical imaging diagnosis, interventional radiology, medical imaging technology and other work in medical and health units.

Question 2: What does medical imaging technology do? Medical imaging is divided into medical imaging technology and medical imaging diagnosis. Medical imaging technology can only be a technician, not a practicing doctor, not a report, but an operation, so generally it can only be a radiology department, and B-ultrasound rarely needs independent report, unless it is a township hospital, it is easy for boys to find a job. Many hospitals have made it clear that they don't want girls.

Medical imaging diagnosis can be tested as a medical practitioner's certificate, which has a wide range of career choices and is needed by many hospitals.

Medical imaging technology can do X-ray, DR, CT, MR (generally need to learn).

Question 3: What courses are there in medical imaging technology? Medical imaging diagnostics, medical imaging inspection technology, medical imaging electronics, protection, ultrasonic diagnosis, human anatomy, sectional human anatomy, physiology, pathology, internal and external medicine, gynecology, pediatrics.

Question 4: Is there a difference between medical imaging technology and medical imaging? I am in the field of imaging technology. . Are you asking about the difference between imaging technology and imaging, or the difference between two majors?

I'll answer according to different majors. . You can also think of the difference as two different courses.

Both of them are medical imaging majors. One is the technical direction and the other is the diagnostic direction. In terms of learning content, technology pays more attention to science and engineering, such as physics and computer programming, VB, C language, macro assembly and single chip microcomputer, and of course, image processing, so the requirements for English are also very high, and they are all operated in English. The direction of diagnosis is closer to clinic, and clinical students should learn everything, including surgery. But! ! Diagnostic direction has very low requirements for computers and physics, and it is a limited course for them. For example, medical image processing, diagnostic class 36 hours, technical class 108 hours. But once again! ! We should also take clinical courses in technical courses. . But it is also very important. . But you don't need to study pharmacology and microbiology. Anatomy, biochemistry, diagnostics, physiology and pathology, internal surgery, gynecology and pediatrics, and English majors are all required. The reason why I don't study pharmacology is that technicians don't have the right to prescribe.

When I graduated, the diagnosis class was a doctor and the technical class was a technician. Technicians need to be able to program, repair machines, operate, set * * *, take photos (actually, watch movies). . Because in the case of watching movies, the two classes have classes together and take exams together.

You can take the doctor's qualification certificate after graduation from technical courses, but you can't take the technician's certificate after graduation from diagnostic courses or clinical courses. In fact, technical graduates can easily turn to the direction of diagnosis, and they can take the postgraduate exam of diagnosis. There are no graduate students in technology.

If you want to pursue further studies or become a doctor, you should attend a diagnosis class, preferably a seven-year program. After graduation, you can enter a third-class hospital. Competition is fierce and learning is endless. . If you pay more attention to salary, you can become a senior technician in the last technical class in seven years, which is the highest title, but it is more difficult to transfer to the administrative level of the hospital.

Generally speaking, technical classes are more difficult and require more brains, while diagnostic classes are more difficult and require more diligence.

I am a junior now, and the two classes were equally busy in the first two semesters. But junior year, next semester. . There are 7 subjects in diagnosis and 2 subjects in technology, but one of these two subjects needs brains. .

Question 5: What is the difference between medical imaging technology and medical imaging? There is not much difference. Image technology focuses on operation. Business training objectives: Business training objectives: This major trains senior medical professionals with basic theoretical knowledge and ability of basic medicine, clinical medicine and modern medical imaging, who can engage in medical imaging diagnosis, interventional radiology and medical imaging technology in medical and health units. Professional training requirements: Students in this major mainly study the basic theoretical knowledge of basic medicine, clinical medicine and medical imaging, receive basic training in conventional radiology, CT, magnetic resonance imaging, ultrasound, DSA and nuclear medical imaging, and have the basic ability of imaging diagnosis of common diseases and interventional radiology operation. Graduates should have the following knowledge and abilities: 1. Master the basic theories and knowledge of basic medicine, clinical medicine and electronics; 2. Master various technologies in the field of medical imaging (including conventional radiology, CT, nuclear magnetic resonance, DSA, ultrasound, nuclear medicine, imaging, etc.). ) and the basic theory and operation skills of computers; 3. Have the ability to use various imaging diagnostic techniques for disease diagnosis; 4 familiar with the principles, policies and methods of radiation protection and related medical ethics; 5. Understand the theoretical frontier and development trend of each branch of medical imaging; 6 master the basic methods of literature retrieval, data query and computer application, and have certain scientific research and practical work ability. Main courses: main subjects: basic medicine, clinical medicine and medical imaging. Main courses: physics, electronics foundation, computer principle and interface, structure and maintenance of imaging equipment, medical imaging technology, photography, human anatomy, diagnostics, internal medicine, imaging diagnostics, interventional radiology. Length of study: five years. Degree awarded: Bachelor of Medicine. Similar majors: clinical anesthesiology, medical imaging, medical examination, radiology, optometry, rehabilitation therapy, psychiatry, medical technology, audiology, medical experiment, clinical medicine, medical aesthetics technology, medical imaging technology, rehabilitation therapy technology, and medical examination technology.

Question 6: What is the employment prospect of medical imaging technology specialty? Actually, you haven't been an intern either. I don't know. Shooting is easy. As for radiation, there is hardly any. I am a five-year imaging student, and I hardly engage in diagnosis and technology. In hospitals, diagnosis and technology are paid as much as bonuses. Both of them have the same status in the hospital, but after diagnosis, they can be promoted to chief physician. There are many people looking for you and few people looking for technology. You can make a diagnosis if you want. Many radiology departments in tertiary hospitals affiliated to our school are secondary schools, and they are still making a diagnosis. Of course, they are involved by contacts, but they are temporary workers, so you should consider it clearly. If you want to have a compilation, you can graduate from imaging nuclear medicine in the future with a postgraduate degree. It is reasonable to make a diagnosis. The wind of love is ruthless | Your idea is understandable, but I can tell you clearly that imaging diagnosis is not much different from the income of technology except for medical students, unless it is a well-known imaging diagnostician in a big hospital. In most hospitals, the income from imaging technology and diagnosis is basically the same, especially in terms of bonuses. Moreover, there is no medical risk in dry technology, so I am tired. As for radiology, don't worry now, but the security is much better. You will feel lucky if you know how our predecessors who study images work. If you want to take the medical practitioner's license, you can take the imaging undergraduate entrance examination, and you can take it after graduating from the imaging undergraduate course, or try to take a secondary school where you can take the medical practitioner's license. I can't do anything else, so I don't take any chances. It is sometimes embarrassing to make a diagnosis now. As long as it is done well, it doesn't matter what you do.

Question 7: Q: What do you major in medical imaging (undergraduate)? 1: In addition to studying X-rays, CT, magnetic resonance, B-ultrasound, nuclides, etc., we should also study the basic subjects of medicine, probably 10+, with different emphasis. Of course, internal medicine, surgery, obstetrics and gynecology and pediatrics are the key points in the foundation, so we must master them well, because we will encounter many internal and external exams after work.

2. The biggest difference between studying medicine and other experiments is of course anatomy, but it is generally different from clinical practice. It won't be cut too much, mainly because it looks. There are many small animal experiments, such as rabbits and electronic experiments.

A 3: 4-year school has an internship in a large hospital for 1 year, which is similar to a formal job, except that there is no salary, doctors will treat interns as free labor. Most of the internship time is to study while working in the imaging department, and a few time is to learn some clinical knowledge in the clinical department. Whether you are tired of learning depends on how you study.

Video employment is ok, but the employment form of any job is getting worse and worse. It's hard to say in a few years. As long as you have passed CET-4, preferably CET-6 in school, take a computer grade certificate, and get full credits in all subjects, you can usually find a local hospital. It is difficult to get into a big hospital, and now many graduate students are recruited.

Question 8: Professional ability of medical imaging 1. Master the basic theories and knowledge of basic medicine, clinical medicine and electronics; 2. Master various technologies in the field of medical imaging (including conventional radiology, CT, nuclear magnetic resonance, DSA, ultrasound, nuclear medicine, imaging, etc.). ) and the basic theory and operation skills of computers; 3. Have the ability to use various imaging diagnostic techniques for disease diagnosis; 4 familiar with the principles, policies and methods of radiation protection and related medical ethics; 5. Understand the theoretical frontier and development trend of each branch of medical imaging; 6 master the basic methods of literature retrieval, data query and computer application, and have certain scientific research and practical work ability.

Question 9: What is the difference between medical imaging and medical imaging technology? Medical imaging is divided into medical imaging technology and medical imaging diagnosis. Medical imaging technology can only be a technician, not a practicing doctor, not a report, but an operation, so generally it can only be a radiology department, and B-ultrasound rarely needs independent report, unless it is a township hospital, it is easy for boys to find a job. Many hospitals have made it clear that they don't want girls.

Medical imaging diagnosis can be tested as a medical practitioner's certificate, which has a wide range of career choices and is needed by many hospitals.

Question 10: what is the major of medical imaging technology and what are its main courses? Be specific. First semester: main courses: human anatomy, immunology and biochemistry.

The second semester: mainly: physiology, pathology, pharmacology and diagnostics.

Third semester: major: internal medicine, surgery, obstetrics and gynecology

The fourth semester: backbone: imaging diagnostics, imaging equipment construction and maintenance, medical imaging technology, photography.