Isolated brain explained

See also: Organ bath and Isolated organ perfusion technique.

An isolated brain is a brain kept alive in vitro, either by perfusion or by a blood substitute, often an oxygenated solution of various salts, or by submerging the brain in oxygenated artificial cerebrospinal fluid (CSF).[1] It is the biological counterpart of brain in a vat. A related concept, attaching the brain or head to the circulatory system of another organism, is called a brain transplant or a head transplant. An isolated brain, however, is more typically attached to an artificial perfusion device rather than a biological body.

The brains of many different organisms have been kept alive in vitro for hours, or in some cases days. The central nervous system of invertebrate animals is often easily maintained as they need less oxygen and to a larger extent get their oxygen from CSF; for this reason their brains are more easily maintained without perfusion.[2] Mammalian brains, on the other hand, have a much lesser degree of survival without perfusion and an artificial blood perfusate is usually used.

For methodological reasons, most research on isolated mammalian brains has been done with guinea pigs. These animals have a significantly larger basilar artery (a major artery of the brain) compared to rats and mice, which makes cannulation (to supply CSF) much easier.

History

In philosophy

In philosophy, the brain in a vat is any of a variety of thought experiments intended to draw out certain features of our ideas about knowledge, reality, truth, mind, and meaning. A contemporary version of the argument originally given by Descartes in Meditations on First Philosophy (i.e., that he could not trust his perceptions on the grounds that an evil demon might, conceivably, be controlling his every experience), the brain in a vat is the idea that a brain can be fooled into anything when fed appropriate stimuli.

The inherently philosophical idea has also become a staple of many science fiction stories, with many such stories involving a mad scientist who might remove a person's brain from the body, suspend it in a vat of life-sustaining liquid, and connect its neurons by wires to a supercomputer which would provide it with electrical impulses identical to those the brain normally receives. According to such science fiction stories, the computer would then be simulating a virtual reality (including appropriate responses to the brain's own output) and the person with the "disembodied" brain would continue to have perfectly normal conscious experiences without these being related to objects or events in the real world.

No such procedure in humans has ever been reported by a research paper in a scholarly journal, or other reliable source. Also, the ability to send external electric signals to the brain of a sort that the brain can interpret, and the ability to communicate thoughts or perceptions to any external entity by wire is well beyond current technology.

Grown

In 2004 Thomas DeMarse and Karl Dockendorf made an "adaptive flight control with living neuronal networks on microelectrode arrays".[14] [15]

Teams at the Georgia Institute of Technology and the University of Reading have created neurological entities integrated with a robot body. The brain receives input from sensors on the robot body and the resultant output from the brain provides the robot's only motor signals.[16] [17]

In fiction

The concept of a brain in a jar (or brain in a vat) is a common theme in science fiction.

Literature

Television

Film

Comics

Anime and manga

Video games

Other

See also

Further reading

Notes and References

  1. Halbach O . Mar 1999 . The isolated mammalian brain: an in vivo preparation suitable for pathway tracing . Eur J Neurosci . 11 . 3 . 1096–100 . 10103102 . 10.1046/j.1460-9568.1999.00543.x . 84209376.
  2. Luksch H, Walkowiak W, Muñoz A, ten Donkelaar HJ . Dec 1996 . The use of in vitro preparations of the isolated amphibian central nervous system in neuroanatomy and electrophysiology . J Neurosci Methods . 70 . 1 . 91–102 . 8982986 . 10.1016/S0165-0270(96)00107-0 . 14604807.
  3. https://scholar.google.com/scholar?num=30&hl=en&safe=off&q=(%22Le%20Gallois%22%20OR%20Legallois)%201812&um=1&ie=UTF-8&sa=N&tab=ws Google Scholar:("Le Gallois" OR Legallois) 1812
  4. Accessory sources of blood supply to the brain of the cat . Holmes R. L. . Wolstencroft J. H. . J Physiol . 1959 . 148 . 1 . 93–107 . 14402794 . 10.1113/jphysiol.1959.sp006275 . 1363110.
  5. Brown-Sequard C . Recherches expérimentales sur les propriétés physiologique et les usages du sang rouge et du sang noir et de leurs principaux éléments gazeux, l'oxygène et l'acide carbonique . Journal de la Physiologie l'Homme et des Animaux . 1858 . 1 . 95–122. 353–367, 729–735 .
  6. González Crussí . Francisco . La querella de las cabezas cercenadas . Mente y Cultura . 27 June 2022 . 3 . 1 . 13–22 . 10.17711/MyC.2683-3018.2022.002 . free.
  7. http://www.faqs.org/health/bios/70/Corneille-Jean-Fran-ois-Heymans.html Heymans' biography
  8. Web site: Sergej Sergejewitsch Brychonenko . 2010-12-14 . https://web.archive.org/web/20070121142821/http://www.dgfkt.de/artikel/203/Pionier.htm . 2007-01-21.
  9. Web site: Museum of Cardiovascular Surgery. 2006-03-06 . https://web.archive.org/web/20060208122109/http://www.bakulev.ru/structure/history/museum.htm . 2006-02-08.
  10. Web site: Карта сайта . dead . 2011-08-25 . https://web.archive.org/web/20070129001152/http://www.sklifos.ru/OTDEL/otd39.htm . 2007-01-29.
  11. Pace. Eric. November 25, 1998. Vladimir P. Demikhov, 82, Pioneer in Transplants, Dies. New York Times.
  12. Mühlethaler . M. . de Curtis . M. . Walton . K. . Llinás . R. . 1993-07-01 . The Isolated and Perfused Brain of the Guinea-pig In Vitro . European Journal of Neuroscience . en . 5 . 7 . 915–926 . 1460-9568 . 8281302 . 10.1111/j.1460-9568.1993.tb00942.x . 2097145.
  13. Muhammed Shariff . Aksharkumar Dobariya . Obada Albaghdadi . Jacob Awkal . Hadi Moussa . Gabriel Reyes . Mansur Syed . Robert Hart . Cameron Longfellow . Debra Douglass . Tarek Y. El Ahmadieh . Levi B. Good . Vikram Jakkamsetti . Gauri Kathote . Gus Angulo . Qian Ma . Ronnie Brown . Misha Dunbar . John M. Shelton . Bret M. Evers . Sourav Patnaik . Ulrike Hoffmann . Amy E. Hackmann . Bruce Mickey . Matthias Peltz . Michael E. Jessen . Juan M. Pascual . Maintenance of pig brain function under extracorporeal pulsatile circulatory control (EPCC) . Scientific Reports . 13 . 13942 . 2023 .
  14. Web site: Thomas DeMarse, Karl Dockendorf, Adaptive flight control with living neuronal networks on microelectrode arrays . 10.1109/IJCNN.2005.1556108 . dead . 2009-11-08 . https://web.archive.org/web/20160304042943/http://neural.bme.ufl.edu/page13/assets/NeuroFlght2.pdf . 2016-03-04.
  15. https://www.sciencedaily.com/releases/2004/10/041022104658.htm Brain in a dish acts as autopilot, living computer
  16. Book: D. Xydas . D. Norcott . K. Warwick . B. Whalley . S. Nasuto . V. Becerra . M. Hammond . J. Downes . S. Marshall . European Robotics Symposium 2008 . 44 . 23–31 . European Robotics Symposium 2008 . Prague . March 2008 . Springer . 978-3-540-78315-2 . Architecture for Neuronal Cell Control of a Mobile Robot . 10.1007/978-3-540-78317-6_3.
  17. https://www.newscientist.com/article/mg19926696.100-rise-of-the-ratbrained-robots.html "Rise of the rat-brained robots"
  18. Web site: SFE: Ulbach, Louis . sf-encyclopedia.com .
  19. Web site: Halper . Nick . Brain Computer Interfaces: The essential role of science fiction . The Startup . en . 30 June 2020 .
  20. Book: Haining . Peter . The Frankenstein Omnibus . 1995 . Orion . 263.
  21. Krementsov . Nikolai . Off with your heads: isolated organs in early Soviet science and fiction . Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences . June 2009 . 40 . 2 . 87–100 . 19442924 . 10.1016/j.shpsc.2009.03.001 . 2743238.
  22. Tresch . John . In a solitary place: Raymond Roussel's brain and the French cult of unreason . Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences . June 2004 . 35 . 2 . 307–332 . en . 10.1016/j.shpsc.2004.03.009.
  23. Book: Bleiler . E. F. . Science-fiction, the early years . 1990 . Kent State University Press . Kent, Ohio . 978-0-87338-416-2 . 55.
  24. Book: Bleiler . E. F. . Science-fiction, the early years . 1990 . Kent State University Press . Kent, Ohio . 978-0-87338-416-2 . 338.
  25. Book: Bleiler . E. F. . Science-fiction, the early years . 1990 . Kent State University Press . Kent, Ohio . 978-0-87338-416-2 . 46.
  26. Book: Bleiler . E. F. . Science-fiction, the early years . 1990 . Kent State University Press . Kent, Ohio . 978-0-87338-416-2 . 191–192.
  27. Web site: Weprin . Alex . Syfy Picks Up Original Web Series 'The Mercury Men' . 21 January 2011 . 16 July 2015.
  28. Web site: The Mercury Men Are Here . needcoffee.com . 2011-09-12 . 16 July 2015.
  29. Web site: Hall . Randy . The Mercury Men . fanfilmfollies.com . 2012-02-03 . 16 July 2015.
  30. Web site: The Top 5 Fictional Characters That Are Literally Just Brains . 2015-06-12 . June 26, 2024.
  31. Web site: THE 7 CREEPIEST, FREAKIEST DENIZENS OF JABBA'S PALACE . 2015-07-23 . 26 July 2016.
  32. [Andy Collins (game designer)|Collins, Andy]
  33. Web site: The 15 Most Idiotic Monsters In Dungeons & Dragons History . Linn . Tyler . October 28, 2017 . . February 5, 2022.
  34. Web site: Dungeons & Dragons: 10 Most Powerful (And 10 Weakest) Monsters, Ranked . Baird . Scott . May 20, 2018 . . February 14, 2022.