๐ฏ๐ต ์ผ๋ณธ ยท "CELLS" ยท ์ด 2๊ฑด
ํํฐ ๋ณด๊ธฐํ์ฌ ์ง์
50.0
0 = ๋ถ์ ์ฐ์ธ
50 = ์ค๋ฆฝ
100 = ๊ธ์ ์ฐ์ธ
์ต๊ทผ 7์ผ ๊ธฐ์ค 1,503๊ฑด์ ๋ถ์ํ ๊ฒฐ๊ณผ, ๋ด์ค ์ฌ๋ฆฌ์ง์๋ 50.0(๊ท ํ)์ ๋๋ค. ๊ธ์ 0๊ฑด(0.0%)ยท์ค๋ฆฝ 1,503๊ฑด(100.0%)ยท๋ถ์ 0๊ฑด(0.0%)์ด๋ฉฐ, ์ค๋ฆฝ ๋น์ค์ด ๋๋ ทํ๊ฒ ๋์ต๋๋ค. ์ฑํฅ ์ง์๋ ์ข ํฉ 0.0(์ค๋ ๊ท ํ)์ ๋๋ค.
Each so-called "biological computer" contains around 200,000 living human brain cells, grown from stem cells that were harvested from blood donations.
Organ transplants are a landmark medical achievement that have saved countless lives. But as they depend on donors to save those in need, there is a constant shortage of organs. The Japanese medical researcher Takebe Takanori is working on new approaches using โorganoids,โ mini-organs achieved with iPS cells, that could open up new paths to healthy recovery.