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ISS National Lab-Sponsored Projects on Cancer, Neurodegenerative Conditions, and More Return From Space Station

ISS National Lab-Sponsored Projects on Cancer, Neurodegenerative Conditions, and More Return From Space Station

国际空间站国家实验室赞助的癌症、神经退行性疾病等项目从空间站返回。
PR Newswire ·  12/18 03:35

Nearly 50 payloads safely splashed down to Earth on SpaceX's 31st Commercial Resupply Services Mission for NASA

在SpaceX的第31次商业补给服务任务中,近50个有效载荷安全地落回地球。

KENNEDY SPACE CENTER, Fla., Dec. 17, 2024 /PRNewswire/ -- Research that could enable early cancer detection, advance treatments for neurodegenerative conditions, and improve respiratory therapies returned from the International Space Station (ISS) on SpaceX's 31st Commercial Resupply Services (CRS) mission for NASA. SpaceX's Dragon spacecraft splashed down off the coast of Florida with nearly 50 biotechnology, physical science, and student research payloads sponsored by the ISS National Laboratory.

佛罗里达州肯尼迪航天中心,2024年12月17日 /PRNewswire/ -- 可能实现早期癌症检测、推进神经退行性疾病治疗和改善呼吸疗法的研究从国际空间站(ISS)返回,随同SpaceX的第31次商业补给服务(CRS)任务。SpaceX的龙飞船在佛罗里达州海岸附近安全落水,携带了近50个由ISS国家实验室赞助的生物技术、物理科学和学生研究有效载荷。

These investigations are among those that leveraged the unique environment of the space station for the benefit of life on Earth:

这些研究利用了空间站独特的环境,造福地球上的生命:

  • Bristol Myers Squibb, in collaboration with ISS National Lab Commercial Service Provider Redwire Space, built on its legacy of protein crystallization on the space station with a project seeking to crystallize model small molecule compounds to support the manufacturing of more effective therapeutics. Crystals grown in microgravity are often larger and more well-ordered than those grown on the ground and could have improved morphology (geometric shape).
  • Several payloads that returned were funded by the U.S. National Science Foundation (NSF). Among them, a project from the University of California, Santa Barbara aimed to leverage microgravity to understand how mucus that lines the human airway affects the delivery of medication to the lungs. This investigation, which launched on NASA's SpaceX CRS-29 in November 2023, used gel-coated tubes to study the role of mucus in the transport of liquid plugs through the airway. Results from this project could improve modeling of drug delivery for treatments such as surfactant replacement therapy (a treatment for infants with respiratory distress syndrome).
  • In another investigation funded by NSF, University of Notre Dame researchers built on the success of prior work on the space station examining the physics of bubble formation in microgravity. The team used light to generate bubbles that can collect, concentrate, and deposit trace amounts of substances in a solution onto a surface for collection and analysis. Results could lead to new biosensor technology for detecting early cancer markers in blood or trace substances in liquids.
  • Multiple projects sponsored by the ISS National Lab and funded by NASA focused on in-space production applications, an area of strategic importance to both organizations. One investigation by Sachi Bioworks, working with ISS National Lab Commercial Service Provider Space Tango, tested novel gene-targeting drugs on brain organoids to advance the development of new therapeutics for neurodegenerative conditions such as Alzheimer's disease, Parkinson's disease, Lou Gehrig's disease, and glioblastoma (a fast-growing and aggressive brain tumor).
  • Students in Ohio testing the Liquid I.V. powdered hydration solution on plant cells in space were among nearly 40 teams conducting experiments as part of Student Spaceflight Experiments Program (SSEP) Mission 18. SSEP aims to prepare the next generation of scientists and engineers by actively engaging school communities in the development of scientific investigations to be conducted in microgravity. More than 35 communities took part in this SSEP mission, engaging hundreds of students in grades 5-12, junior college, and undergraduate studies.
  • 布里斯托尔迈尔斯斯奎布(Bristol Myers Squibb)与ISS国家实验室商业服务提供商Redwire Space合作,在空间站上基于其蛋白质结晶的遗产,开展一项寻求 结晶模型小分子化合物 以支持更有效治疗药物的制造。微重力下生长的晶体往往比在地面生长的晶体更大且更有序,可能具有更好的形态(几何形状)。
  • 返回的多个有效载荷是由美国国家科学基金会(NSF)资助的。其中,加州大学圣巴巴拉分校的一个项目旨在利用微重力理解粘液如何影响药物对肺的输送。该研究于2023年11月随NASA的SpaceX CRS-29发射,使用涂胶管来研究 粘液在液体堵塞运输中的作用 通过气道。本项目的结果可能会改善药物输送的建模,用于诸如表面活性剂替代疗法(针对新生儿呼吸窘迫综合症的治疗)等治疗。
  • 在另一项由国家科学基金会(NSF)资助的研究中,圣母大学的研究人员在前期对空间站的成功研究基础上,研究了 气泡形成的物理学 在微重力环境下。研究小组利用光生成气泡,这些气泡可以收集、浓缩并将溶液中的微量物质沉积到表面以便收集和分析。结果可能会导致用于检测血液中早期癌症标志物或液体中微量物质的新型生物传感器技术。
  • 多个由国际空间站国家实验室赞助并由NASA资助的项目专注于 在太空中的生产应用这是这两个机构的战略重点领域。由Sachi Bioworks进行的一项研究,与国际空间站国家实验室商业服务提供商Space Tango合作,测试了新型基因靶向药物在大脑类器官中的效果,以推动针对阿尔茨海默病、帕金森病、肌萎缩侧索硬化症和胶质母细胞瘤(快速生长且具有侵袭性的脑肿瘤)的新型治疗药物的发展。
  • 在俄亥俄州的学生在太空中测试Liquid I.V.粉末水合作用溶液的实验小组是近40个团队之一,这些团队作为学生太空实验项目(SSEP)第18次任务的一部分进行实验。SSEP旨在通过积极参与学校社区的科学调查开发,培养下一代科学家和工程师,以进行微重力环境中的实验。超过35个社区参与了 这一SSEP任务, 吸引了数百名5至12年级、专科和本科的学生。

The ISS National Lab enables access and opportunity for researchers to leverage this unique orbiting laboratory for the benefit of humanity and to enable commerce in space. To learn more about ISS National Lab-sponsored investigations that flew on NASA's SpaceX CRS-31, please visit our launch page.

国际空间站国家实验室使研究人员能够利用这个独特的轨道实验室为人类带来好处,并促进太空中的商业活动。欲了解更多关于在NASA的SpaceX CRS-31上飞行的国际空间站国家实验室资助的研究,请访问我们的 发布页面.

Download a high-resolution image for this release: SpaceX Dragon Freedom spacecraft

下载此发布的高分辨率图像: SpaceX龙号自由号航天器

About the International Space Station (ISS) National Laboratory:
The International Space Station (ISS) is a one-of-a-kind laboratory that enables research and technology development not possible on Earth. As a public service enterprise, the ISS National Laboratory allows researchers to leverage this multiuser facility to improve quality of life on Earth, mature space-based business models, advance science literacy in the future workforce, and expand a sustainable and scalable market in low Earth orbit. Through this orbiting national laboratory, research resources on the ISS are available to support non-NASA science, technology, and education initiatives from U.S. government agencies, academic institutions, and the private sector. The Center for the Advancement of Science in Space (CASIS) manages the ISS National Lab, under Cooperative Agreement with NASA, facilitating access to its permanent microgravity research environment, a powerful vantage point in low Earth orbit, and the extreme and varied conditions of space. To learn more about the ISS National Lab, visit our website.

关于国际空间站(ISS)国家实验室:
国际空间站(ISS)是一个独特的实验室,能够进行在地球上无法进行的研究和技术开发。作为一个公共服务企业,ISS国家实验室允许研究人员利用这个多用户设施来改善地球上的生活质量,成熟基于空间的业务模式,提升未来劳动力的科学素养,以及扩大在近地轨道中可持续和可扩展的市场。通过这个轨道国家实验室,ISS上的研究资源可用于支持美国政府机构、学术机构和私营部门的非NASA科学、技术和教育项目。太空科学推进中心(CASIS)在与NASA的合作协议下管理ISS国家实验室,促进对其永久微重力研究环境的访问,这是近地轨道中的一个强大观察点,具有极端和多样的空间条件。要了解更多关于ISS国家实验室的信息,请访问 我们的网站.

As a 501(c)(3) nonprofit organization, CASIS accepts corporate and individual donations to help advance science in space for the benefit of humanity. For more information, visit our donations page.

作为一个501(c)(3)非营利组织,CASIS接受企业和个人捐赠,以促进太空科学的发展,造福人类。有关更多信息,请访问我们的 捐赠页面.

Media Contact:

Patrick O'Neill


904-806-0035


[email protected]

媒体联系人:

帕特里克·奥尼尔


904-806-0035


[email protected]


International Space Station (ISS) National Laboratory
Managed by the Center for the Advancement of Science in Space, Inc. (CASIS)


1005 Viera Blvd., Suite 101, Rockledge, FL 32955 • 321.253.5101 •


国际空间站(ISS)国家实验室
由航天科学推进中心(CASIS)管理


佛罗里达州罗克莱奇,维耶拉大道1005号,101套房 • 321.253.5101 •

SOURCE International Space Station National Lab

来源 国际空间站国家实验室

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