Professor Jin Zhengyu, Chief Physician, Ph. He was born in Beijing on October 21, 1960, and graduated from the Department of Medicine of Hebei Medical University in July 1984 with a bachelor's degree. He is a member of the Chinese **** Party. He has been engaged in diagnostic imaging and interventional radiology for more than 30 years. He was promoted to Professor and Chief Physician in 1996, and has served as the supervisor of master's degree students since 1995, and the supervisor of doctoral students since 2000. He went to the United States and Germany to study professional technology, and completed his Fellowship in the United States and received his diploma. Currently, he is the Director of Department of Radiology, Peking Union Medical College, Chinese Academy of Medical Sciences (CAMS), the Chairman of Department of Imaging Medicine and Nuclear Medicine, Peking Union Medical College (PUMC), and the Director of Medical Imaging Research Center, CAMS.
In February 2020, he was selected as a member of the National Health Science Expert Pool.
Chinese name: Zhengyu Jin
Foreign name: ZhengyuJin
Nationality: Chinese
Ethnicity: Han Chinese
Birthplace: Beijing
Date of birth: Oct. 21, 1960
Occupation: Physician
Graduated from Hebei Medical University
Major accomplishments: Chinese Medical Association, Chinese Academy of Sciences, Chinese Academy of Medicine, Chinese Medical University of China
Major achievements: Chinese Medical Association, Chinese Medical Association, Chinese Medical University of Hong Kong, Chinese Medical University of Hong Kong, Chinese Medical University of Hong Kong p>Major Achievements:
Chairman of the Radiology Section of the Chinese Medical Association
President-elect of the Radiology Section of the China Medical Association
Honorary Life Member of the Radiological Society of North America (RSNA)
Honorary Life Member of the European College of Radiologists (ECR)
Eleventh Wu Jieping-Paul Janssen Prize for Pharmacy
Honorary Life Member of the Society of Radiology (SFR)
French Society for Radiation Society (SFR) Life Honorary Member
Life Honorary Member of the German Radiological Society (DRG)
Representative Works: Medical Imaging (Third Edition), July 2015, Editor-in-Chief, People's Health Publishing House
Biography
Currently Director of the Department of Radiology and member of the Medical Committee and Education Committee, Peking Union Medical College, Peking Union Medical College, Peking Union Medical College, Peking Union Medical College, Peking Union Medical College, Peking Union Medical College, Peking Union Medical College, Peking Union Medical College, Beijing, China. He is currently the director of the Department of Radiology, member of the Medical Committee and Education Committee of Peking Union Medical College, member of the Degree Committee and Textbook Committee of PUMC, vice president of the Chinese Society of Medical Imaging Technology, youth member of the Chinese Society of Radiology, associate editor of the Chinese Journal of Medical Imaging Technology, editor of Diagnostic and Interventional Imaging, editor of the Chinese Journal of Radiology, editor of the Journal of Clinical Radiology, editor of the Journal of Practical Radiology, editor of the Journal of Interventional Radiology, and editor of the Foreign Medical
Specialties
Mainly engaged in clinical medical imaging diagnosis (including general X-ray, various conventional imaging, CT, MRI, etc.) and interventional therapy. Clinical medical imaging diagnosis is mainly engaged in general and difficult and serious cases of consultation work, focusing on the cardiovascular system, cerebral nervous system, respiratory system, abdominal organs and gastrointestinal system, skilled use of a variety of advanced means of examination to diagnose clinically difficult cases, the application of international cutting-edge imaging technology to early warning of early lesions, for the purpose of preventive work to provide the morphology and functionality of the objective basis. In interventional therapy, he is mainly engaged in the interventional therapy of oncology and cardiovascular and cerebrovascular diseases, and in the interventional therapy of hemorrhagic diseases, he mainly performs angiography and embolization for bronchial hemoptysis, gastrointestinal hemorrhage, uterine hemorrhage, and traumatic hemorrhage, and he has achieved successes in the interventional therapy of subclavian, carotid, and renal artery complete occlusion and retrograde pathway plasty, transplantation renal artery angioplasty, interventional treatment of renal dialysis pathway malfunction, and interventional treatment of acute stroke, and so on. The interventional treatment of acute stroke and so on have achieved good results.
During his 18 years of medical education, he has received the Outstanding Teacher Award at the institutional level three times, and is now the head of the Department of Medical Imaging at the Ministry of Education's National Key Discipline, Peking Union Medical College.
Scientific research
He has completed one project at the level of the Ministry of Health and one at the level of the Academy of Medical Sciences (AMS), two projects at the level of the National "Ninth Five-Year Plan" and one project at the level of the Academy of Medical Sciences (AMS) as a project leader, two projects funded by the CMB Foundation, two projects at the level of the National "Eighth Five-Year Plan" and two projects of clinical drug validation in the Department of Pharmaceutical Affairs of the Ministry of Health (MOH), and one project at the level of the Academy of Medical Sciences. As a major participant, he has completed two national "Eighth Five-Year Plan" scientific and technological research projects and one clinical drug validation project of the Department of Pharmaceutical Affairs of the Ministry of Health. He is working on two national "Tenth Five-Year Plan" scientific and technological research projects, two key projects of the Ministry of Health, and one key scientific research project of the hospital. He is also in charge of one research project of the Ministry of Science and Technology, one project of "211" and one research project of "Tenth Five-Year Plan" of the Ministry of Education as the head of key disciplines of the Ministry of Education. He has been awarded two first-class prizes for scientific and technological progress by the Ministry of Health, one second-class prize for national scientific and technological progress, one first-class prize for excellent thesis in the Youth Science and Technology Forum of the Peking Union Medical College of China, one third-class prize for Chinese science and technology, and one third-class prize for scientific and technological progress by Beijing Municipality.
In medical work***Won three medical achievement awards at the level of the Academy of Medical Sciences (one of the first prize and two of the second prize), and nine medical achievement awards at the level of the hospital (one of the first prize, three of the second prize, and five of the third prize); of which five were first completed.
Published more than twenty papers, participated in the preparation of six monographs, and served as editor-in-chief in one of them and deputy editor-in-chief in one.
Groups
Council Member of Chinese Medical Association, Executive Member/Secretary General of Chinese Society of Radiology, Vice President of Chinese Society of Medical Imaging Technology, Vice Chairman of Radiology Branch, Deputy Editor-in-Chief/Standing Editorial Board Member of Chinese Journal of Radiology, Deputy Editor-in-Chief of Chinese Journal of Medical Imaging Technology, Deputy Editor-in-Chief of Interventional Radiology, Editorial Board Member of Journal of Clinical Radiology, Deputy Editor-in-Chief of Journal of Magnetic **** Vibrography, Deputy Editor-in-Chief of Journal of Practical Radiology, Editor-in-Chief of Journal of Practical Radiology. Editorial Board of Journal of Clinical Radiology, Journal of Magnetic*** Vibration Imaging, Journal of Practical Radiology, Journal of Radiology Practice, Journal of the Chinese Academy of Medical Sciences, Journal of Diagnostic Imaging and Interventional Therapeutics, Journal of Clinical Radiology, Member of the Radiological Society of North America, Member of the American Roentgen Radiological Society, Member of the American Society of Radiology, Member of the American Society of Radiology, Member of the American Society of Radiology. He is a member of RSNA, ARRS, and CIRSE.
Interview Transcript
In November 2004, China's first Siemens ultra-high-speed 64-slice spiral CT system, SOMATOMSensation64, was installed in Peking Union Medical College Hospital. The device has made qualitative breakthroughs in scanning speed, image clarity, radiation dose reduction and other technologies, and has made great strides in exploring non-invasive imaging of the cardiovascular and cerebrovascular systems, as well as blood vessels and organs in other parts of the body. This installation comes just 11 months after the machine was launched globally at the annual North American Radiology Conference in December 2003, and only 7 months after it was first put into clinical use worldwide in May 2004, making Peking Union Medical College Hospital one of the first 30 users of 64-slice spiral CT in the world. MediHealth interviewed Prof. Jin Zhengyu, Director of the Department of Radiology at PUH, and Mr. Cao Yongsheng, General Manager of China Marketing for CT products in the Medical Systems Group of Siemens (China) Ltd.
Interview Location: Peking Union Medical College Hospital
Interview Time: December 22, 2004
Interview Person: Cao Yongsheng, General Manager of China Market for CT Products of Siemens (China) Ltd.'s Medical Systems Group (hereinafter referred to as Cao)
aJin Zhengyu, Director of the Department of Radiology of Peking Union Medical College Hospital (hereinafter referred to as Jin)
Interview Content:
Medi: Hello, Director Jin and Manager Cao! Siemens has newly launched the world's most advanced 64-slice CT system, SOMATOMSensation64, and Peking Union Medical College Hospital has been the first to introduce this equipment. Could you two please introduce the installation of SOMATOMSensation64? What benefits have the installation of this equipment brought to the department and the hospital?
Kim: Because SOMATOMSensation64 has the advantages of the fastest scanning speed, high resolution, and the lowest radiation, it significantly improves doctors' work efficiency and diagnosis and treatment ability. Its excellent performance of the main table: before some can not do the examination can be done, before the unclear imaging can see very clearly, it makes up for the previous examination of the gap, improve the doctor's diagnostic confidence, which is the most critical.
Medi: What are the main technical advantages of Siemens SOMATOMSensation64? What clinical breakthroughs has it brought about?
Kim: The technology of SOMATOMSensation64 is groundbreaking. Especially in the diagnosis of heart disease, it can be done all in just a few seconds.
Medi: In hospital imaging, hospitals also install and use other companies' products, so will there be any compatibility problems with Siemens' medical equipment?
Kim: All Siemens medical products follow the DICOM standard and there are no problems with compatibility. The scans we have on the Siemens devices can also be read at other workstations.
Medi: Does the SOMATOMSensation64 increase the radiation dose to the patient? In what ways can patients benefit?
Kim: SOMATOMSensation64 offers the fastest scanning speeds, ultra-high resolution, and lowest radiation exposure, providing multiple benefits to patients. Previously, coronary imaging with 4-, 8-, and 16-slice CT was only a preliminary screening. With 64-slice CT, the patient's breath-holding time is shorter, the scanning speed is faster, the images are more realistic, and the doctor can make a clear diagnosis. As the machine adopts C.A.R.EDose4D technology, it can automatically control the use of dose, up to 66% of the dose can be reduced, greatly reducing the patient's radiation dose, especially suitable for children, women, and patients with multiple re-examinations.
Medi: Mr. Cao, as a professional with several years of experience in CT products, how do you evaluate the global CT market?
Cao: The rapid development of technology has made the CT market more and more promising. Before the introduction of multislice CT, we used to think that there was not much room for CT to grow. However, with the revolutionary development of multilayer CT, the field of CT application is getting bigger and bigger, especially in some areas that have not been applied before there are breakthroughs, such as the cardiac field, before CT imaging in the field of a blank, can not do coronary artery imaging. The technology has been able to realize a variety of clinical applications, including non-invasive examination of the coronary artery of the heart.
Medi: What advantages does Siemens have over other companies in the CT field?
Cao: Siemens Medical Systems' fundamental strategy to become an industry leader is technological innovation. We launch new products almost every year, and the development cycle for new products usually takes no more than two years. For example, we have launched 40-slice and 64-slice spiral CTs, and almost every year, Siemens Medical Systems has a revolutionary innovation, such as the Sensation 64-slice CT, which utilizes Siemens Medical Systems' pioneering Speed4D technology, which allows doctors to see the beating heart on the CT.
Medi: What are the main CT models offered by Siemens Medical Systems in the Chinese market and what is the market response?
Cao: The CT equipment provided by Siemens Medical Systems Group to the Chinese market are all spiral CTs, from single-slice spiral CTs such as Joystar and Joy to the highest-end 64-slice CTSOMATOMSensation64, which cover the whole range of Siemens CT machine models. The general evaluation of Chinese users of Siemens CT machines is advanced technology, stable equipment, good image quality and wide range of clinical applications. Moreover, the operating cost of using them is also lower, such as the service life of the bulb tube is generally longer than that of similar equipment.