Su Hongxi

Su Hongxi (simplified Chinese: 苏鸿熙; traditional Chinese: 蘇鴻熙; pinyin: Sū Hóngxī; Wade–Giles: Su Hung-hsi; January 1915 – July 31, 2018) was a Chinese surgeon best known for performing the first open heart surgery with CPB (cardiopulmonary bypass) in mainland China.[1][2]

Early life

Su was born in Tongshan County (modern Xuzhou), Jiangsu. He graduated from medical school at National Central University in 1943 and received an internship offer from the United States in 1949. The Nanjing authorities, or the Communist Party of China (CPC) approved his internship abroad. As a result, Su left China and moved to the United States to study surgery. He obtained his specialization in the early 1950s in the field of cardiovascular surgery.[3]

Career

After American surgeon John Gibbon’s success in 1953, Su decided to introduce open heart surgery to China, purchasing two cardiopulmonary bypass (CPB) pumps. He lived under surveillance, and his return was supposedly impeded. Still, he managed to transport the pumps to China with his American wife Jane McDonald’s help. Jane flew to Europe via Canada, where she received the pumps. Later, Su sailed to Britain, where he joined Jane. They then crossed Europe and Asia, ultimately arriving in Beijing with the pumps.[3]

Su founded the Department of Thoracic and Cardiovascular Surgery at the Fourth Military Medical University. On June 26, 1958, he performed the first successful open heart procedure in mainland China, repairing the VSD on a 6-year-old patient using CPB. In 1963, he performed the first aorta-carotid bypass in mainland China using a vascular prosthesis. He was transferred to 301 Hospital in 1972[3] and served as the first president of the Chinese Society Thoracic and Cardiovascular Surgery from 1988 to 1992.[4]

Personal life

In 2013, Su joined the Communist Party of China at the age of 98.[3] He died on July 31, 2018, at the age of 103.[5]

gollark: There would be significant legal issues and also quite likely damage to the box.
gollark: Maybe you would be better off using quantum field theory. Except that doesn't have gravity/general relativity, only special relativity, so you should work out how to unify those?
gollark: We can just say in the technical and artistic merit video that "the robot's projectile trajectory handling maths has relativistic corrections in it and would thus be equipped to fire projectiles near the speed of light, if we actually needed that, had a way to accelerate things that fast, could do so without destroying everything, did not have interactions with the air to worry about, and could safely ignore quantum effects".
gollark: If you really want to you can apply special relativity, sure.
gollark: I don't *think* we need to consider air resistance significantly.

References

  1. "苏鸿熙:一生赤子 一代名医". China Youth Daily (in Chinese). December 16, 2016.
  2. Mu, Jingqiang (2012). 新中国医学档案 [Medical Files of the New China] (in Chinese). pp. 12–3. ISBN 9787811406672.
  3. "百年"医刀"——记共和国心脏外科学奠基人苏鸿熙". Xinhua News Agency (in Chinese).
  4. "中华医学会胸心血管外科分会简介". Chinese Society Thoracic and Cardiovascular Surgery (in Chinese).
  5. "沉痛悼念我国胸心血管外科奠基人—苏鸿熙教授". Xijing Hospital, Fourth Military Medical University (in Chinese). Retrieved 2018-08-06.
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