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发布时间:2021-06-08    来源:体育外围app72053

本文摘要:A doughnut created in a lab and made of silk on the outside and collagen gel where the jelly ought to be can mimic a basic function of brain tissue, scientists have found.科学家找到,实验室里生产的一个类似于甜甜圈的东西,可以仿效脑组织的一项基本功能。

A doughnut created in a lab and made of silk on the outside and collagen gel where the jelly ought to be can mimic a basic function of brain tissue, scientists have found.科学家找到,实验室里生产的一个类似于甜甜圈的东西,可以仿效脑组织的一项基本功能。这个圆圈的环状部分由丝材料做成,圈里面堆的是胶原蛋白凝胶。Bioengineers produced a kind of rudimentary gray matter and white matter in a dish, along with rat neurons that signaled one another across the doughnut’s center. When the scientists dropped weights on the material to simulate traumatic injury, the neurons in the three-dimensional brain model emitted chemical and electrical signals similar to those in the brains of injured animals.生物工程师在培养皿中做成了相等于完整灰质和白质的材料,其中用了大鼠神经元,这些神经元能通过圆圈中间的物质相互交换信号。

当科学家让重物丢弃到这个圆圈上,以仿真创伤性受损时,这个三维大脑模型中的神经元释放出来了化学信号和电信号,与伤势动物的大脑获释的信号类似于。It is the first time scientists have been able to so closely imitate brain function in the laboratory, experts said. If researchers can replicate it with human neurons and enhance it to reflect other neurological functions, it could be used for studying how disease, trauma and medical treatments affect the brain — without the expense and ethical challenges of clinical trials on people.专家们回应,这是科学家首次能在实验室里如此细致地仿效大脑功能。如果研究人员能用人的神经元修复这个模型,并提高到不足以体现其他一些神经系统功能的水平,那么这个模型或可用作研究疾病、后遗症和化疗如何影响大脑,从而防止人体临床试验的高费用和伦理问题。


In terms of mechanical similarity to the brain, it’s a pretty good mimic, said James J. Hickman, a professor of nanoscience technology at the University of Central Florida, who was not involved in the research. They’ve been able to repeat the highest level of function of neurons. It’s the best model I’ve seen.“从与大脑的机械相似性来看,这是一个非常不俗的仿效,”詹姆斯·J·希克曼(James J. Hickman)说道。他是中佛罗里达大学(University of Central Florida)的纳米科学与技术教授,没参予这项研究。


”The research, led by David Kaplan, the chairman of the bioengineering department at Tufts University, and published Monday in the journal PNAS, is the latest example of biomedical engineering being used to make realistic models of organs such as the heart, lungs and liver.该研究由塔夫茨大学(Tufts University)生物工程系主任戴维·卡普兰(David Kaplan)主持人,于周一公开发表在《美国科学院院刊》(PNAS)上。这是用生物医学工程手段生产器官——比如心脏、肺和肝脏——建模模型的一个近期例子。Most studies of human brain development rely on animals or on brain slices taken after death; both are useful but have limits.研究人类大脑发育的工作大多依赖动物实验,或人丧生后提供的大脑切片;两者都简单,但都不具局限性。

Brain models have been mostly two-dimensional or made with a three-dimensional gel, said Rosemarie Hunziker, program director of tissue engineering and biomaterial at the National Institute of Biomedical Imaging and Bioengineering, which funded Dr. Kaplan’s research.美国国家生物医学光学和生物工程研究所(National Institute of Biomedical Imaging and Bioengineering)的的组织工程与生物材料项目主任罗斯玛丽·亨齐克(Rosemarie Hunziker)称之为,以前的大脑模型大多是二维的,或是用三维凝胶制作。该研究所资助了卡普兰的工作。

None of those systems replicate the brain’s gray or white matter, or how neurons communicate, Dr. Hunziker said. Even if you get cells to live in there, they don’t do much, she said.亨齐克还回应,过去的系统都没拷贝大脑的灰质或白质,也没造出神经元如何传导信号。“就算你能让细胞在模型中存活,它们基本上也做到不成什么。

”Dr. Kaplan’s team found that a spongy silk material coated with a positively charged polymer could culture rat neurons, a stand-in for gray matter. By itself, silk did not encourage neurons to produce axons, branches that transmit electrical pulses to other neurons.卡普兰的研究小组找到,一种涂抹有带上正电聚合物的海绵状丝制材料可以培育大鼠神经元,借以替代灰质。丝制材料本身并无法让神经元产生轴突,也就是把电脉冲传送给其他神经元的引人注目部分。

The researchers formed the silk material into a doughnut and added collagen gel to the center. Axons grew from the ring through the gel — the white matter substitute — and sent signals to neurons across the circle.这些研究人员将丝制为材料制成一个圆圈,在其中心加到了胶原蛋白凝胶。轴突从圆圈的一旁宽出来,通过替代白质的凝胶,把信号发送给圆圈另一边的神经元。They got these neurons talking to each other, Dr. Hunziker said. No one’s really shown that before.亨齐克说道,他们让“这些神经元相互交流。


以前没有人确实做了这一点。”By adding nutrients and growth factors, scientists kept the brainlike tissue alive in an incubator for two months, at which point they experimented on it.通过加到营养物质和生长因子,科学家把这个类似于脑的的组织放到孵化器中,让其存活了两个月,然后开始在它上面做到试验。

Adding a neurotoxin essentially killed the neurons, as it would in a real brain. To simulate traumatic brain injury, they dropped weights from different heights.加到一种神经毒素基本上不会把神经元杀掉,就像在确实的大脑中那样。为了仿真脑外伤,他们从有所不同高度让重物丢弃到模型上。

Dr. Kaplan said the brain-in-a-dish didn’t go splat, but reacted like a kitchen sponge, and it would compress down and then partially spring back up.卡普兰称之为,这个培养皿中的大脑“没四处溅”,其反应更加看起来“厨房里的海绵,趁此机会向上传输,然后部分声浪一起。”He said measurements of glutamate, a neurotransmitter that surges in injury, showed that the more severe the damage, the higher the spike in glutamate.他说道,大脑伤势不会造成神经递质谷氨酸剧增,而对模型中谷氨酸的测量表明,“伤势越重,剧增的峰值越高。


”Gordana Vunjak-Novakovic, a biomedical engineering professor at Columbia who has worked with Dr. Kaplan on other studies, described the model as a kind of Lego approach, a modular structure that can be expanded and made more complex.哥伦比亚大学生物医学工程系教授戈尔达娜·乌尼亚克-诺瓦科维奇(Gordana Vunjak-Novakovic)曾与卡普兰在其他研究上有过合作。她称之为这个模型的修建类似于“乐高用的方法”,是一种“模块结构”,可以拓展出更加简单的形态。

It is the first proof of principle that something like this can be achieved outside of the body, she said.她说道,“这是首次在原理上证明,类似于这样的东西可以在体外构建。”Dr. Hickman said future experiments would need to study other cells and regions in the brain. They’ve set up an architecture so some clever person in the future could then do it, he said. Dr. Kaplan said his team was working on sustaining the brainlike tissue for six months — and with human neurons created from stem cells. He plans to add a model of the brain’s vascular system, so researchers can study what happens when drugs cross the blood-brain barrier.希克曼回应,还必须有未来的实验来研究大脑的其他细胞和区域。


他想加建一个大脑血管系统的模型,让研究人员以求仔细观察当药物通过血脑屏障时会再次发生什么。Ultimately, he hopes the bioengineered model can be used to study everything from drugs to disease to surgical effects to electrode implants, he said. I mean, the list is endless.他的最终目标,是让生物工程模型能被用作“所有的研究,从药物,到疾病,到手术效果,再行到植入电极,”他说道。“我的意思是,可做的研究多得没完没了。



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