Summary of Surgeon Reacts to Space Marine Creation Process | 19 Organ Implants Astartes Organs 7 & 9

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00:00:00 - 00:35:00

In this video, a surgeon discusses the process of creating an organ implant for a space marine, noting that it would be practically impossible to create an organ that is able to protect the marine against all possible poisonous substances. The video also discusses the development of artificial lungs, which may one day be suitable for longterm use in space Marines.

  • 00:00:00 The video discusses how it takes 19 organ implants to transform a regular human into a Warhammer 40K Space Marine, and how the 40K universe is seriously a treacherous place. It also discusses how poison is a general term used to describe a substance which can cause harm when ingested, and how the body's ability to tolerate a given poison depends on its ability to metabolize or break down said poison.
  • 00:05:00 The video discusses the process of creating an organ implant for a space marine, noting that it would be practically impossible to create an organ that is able to protect the marine against all possible poisonous substances. The video also notes that a physical solution may be able to enable the detection and ejection of toxic materials safely.
  • 00:10:00 The video discusses the creation of space marine organs, including the multilung organ, which helps the marine breathe in low oxygen or poisoned atmospheres. The video also mentions that the implant must be fitted with a sensor that tests for dangerous compounds, and that the marine would be trained extensively in breath work.
  • 00:15:00 The video discusses the development of artificial lungs, which may one day be suitable for longterm use in space Marines. While impressive, the devices are still not small enough to fit inside the space Marine's body. The director of the Department of Anesthesiology at University Hospital in Aachen, Germany, assures us that respiratory devices don't need to look like they do now, and that we may consider smaller devices if we are only looking to take over portions of the gas exchange, such as an implant that assists the lungs in filtering out CO2.
  • 00:20:00 The video discusses the creation process of Space Marines, focusing on their lungs. The video points out that while a Space Marine's lungs are adapted to handle air, they still require oxygen to function. The video also discusses how gills work and how breathing underwater is difficult. The video concludes by discussing how the oxygen content of what a Space Marine is breathing matters less than the actual oxygen content of the air.
  • 00:25:00 The video discusses how scientists have been experimenting with using liquid oxygen to breathe under water, which would potentially revolutionize deep sea diving. However, while this technology could potentially help our Space Marines, there are still some challenges that need to be overcome before xenotransplantation can be used in this way.
  • 00:30:00 In this video, a surgeon discusses the differences between human and marine organs, and how those differences can affect a Marine's ability to survive in hostile environments. He also discusses a project involving algae and vertebrae symbiosis.
  • 00:35:00 The surgeon in this video reacts to the Space Marine creation process, discussing the various organs that are implanted into the bodies of Space Marines. He notes that the organs are all from different species and that the process of implantation can be quite foreign.

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