Frozen human mind tissue can now be revived with out injury

Date:

Share post:

Thawed mind organoids proven by way of an imaging method known as immunofluorescence staining

Weiwei Xue et al.

A brand new method has allowed scientists to freeze human mind tissue in order that it regains regular operate after thawing, doubtlessly opening the door to improved methods of finding out neurological circumstances.

Mind tissue doesn’t normally survive freezing and thawing, an issue that has considerably hindered medical analysis. In an effort to beat this, Zhicheng Shao at Fudan College in Shanghai, China, and his colleagues used human embryonic stem cells to develop self-organising mind samples, often called organoids, for 3 weeks — lengthy sufficient for the event of neurons and neural stem cells that may turn out to be totally different sorts of useful mind cells.

The researchers then positioned these organoids — which measured 4 millimetres throughout on common — in several chemical compounds, resembling sugars and antifreeze, that they suspected would possibly assist preserve the mind cells alive whereas frozen and capable of develop after being thawed.

After storing these organoids in liquid nitrogen for at the least 24 hours, the workforce thawed them and appeared for cell loss of life or the expansion of neurites — the “branches” of nerve cells — over the next two weeks.

Primarily based on the charges of cell loss of life and development related to every compound, the researchers selected their prime compound candidates, attempting totally different combos throughout freezing and thawing checks on a brand new set of organoids.

The mixture that led to the least cell loss of life and most development was a mix of chemical compounds known as methylcellulose, ethylene glycol, DMSO and Y27632 — which the scientists named “MEDY”. They believe MEDY interferes with a pathway that in any other case applications mobile loss of life.

Shao and his colleagues examined MEDY by way of a collection of experiments involving mind organoids starting from 28 days outdated to greater than 100 days outdated. The workforce positioned the organoids in MEDY, earlier than freezing — normally for 48 hours — and thawing them. The researchers then noticed their development within the laboratory for as much as 150 days post-thawing.

They discovered that the thawed organoids’ look, development and performance had been extremely much like these of organoids of the identical age that had by no means been frozen, even amongst people who had been frozen in MEDY for 18 months. The workforce additionally noticed comparable outcomes for organoids representing totally different areas of the mind.

Lastly, the researchers took 3-millimetre cubes of mind tissue from a 9-month-old lady with epilepsy and positioned them in MEDY, earlier than freezing and thawing them. The tissue maintained its pre-freezing construction and continued to stay lively in a laboratory tradition for at the least two weeks after thawing.

With the ability to freeze human mind tissues may result in higher investigations of mind improvement within the lab for well being analysis, says Roman Bauer on the College of Surrey within the UK.

João Pedro Magalhães on the College of Birmingham within the UK says he’s impressed that the workforce’s technique efficiently prevented cell loss of life and preserved operate. “We know brain cells are very fragile and sensitive to stress,” he says.

With considerably extra analysis and the usage of bigger tissues, the work may at some point result in freezing whole brains, says Magalhães. “Thinking decades or centuries ahead, we can imagine patients being cryopreserved when they have a terminal condition or astronauts being cryopreserved in order to travel to other star systems,” he says. MEDY could signify “one small step” in the direction of that aim, says Magalhães.

Subjects:

Related articles