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Artificial womb

April 03, 2024

An artificial womb or artificial uterus is a device that would allow for extracorporeal pregnancy[2] by growing a fetus outside the body of an organism that would normally carry the fetus to term.

Artificial womb

Figure from a 2017 Nature Communications paper describing an extra-uterine life support system, or "biobag", used to grow lamb fetuses.[1]

An artificial uterus, as a replacement organ, would have many applications. It could be used to assist male or female couples in the development of a fetus.[2] This can potentially be performed as a switch from a natural uterus to an artificial uterus, thereby moving the threshold of fetal viability to a much earlier stage of pregnancy.[2] In this sense, it can be regarded as a neonatal incubator with very extended functions. It could also be used for the initiation of fetal development.[2] An artificial uterus could also help make fetal surgery procedures at an early stage an option instead of having to postpone them until term of pregnancy.[2]

In 2016, scientists published two studies regarding human embryos developing for thirteen days within an ecto-uterine environment.[3][4] Currently, a 14-day rule prevents human embryos from being kept in artificial wombs longer than 14 days. This rule has been codified into law in twelve countries.[5] According to The Washington Post, in 2021 "the International Society for Stem Cell Research relaxed a historical “14-day rule” that said researchers could grow natural embryos for only 14 days in the laboratory, allowing researchers to seek approval for longer studies. Human embryo models are banned from being implanted into a uterus".[6]

In 2017, fetal researchers at the Children's Hospital of Philadelphia published a study showing they had grown premature lamb fetuses for four weeks in an extra-uterine life support system.[1][7][8]

Components edit

An artificial uterus, sometimes referred to as an 'exowomb[9]', would have to provide nutrients and oxygen to nurture a fetus, as well as dispose of waste material. The scope of an artificial uterus (or "artificial uterus system" to emphasize a broader scope) may also include the interface serving the function otherwise provided by the placenta, an amniotic tank functioning as the amniotic sac, as well as an umbilical cord.

Nutrition, oxygen supply and waste disposal edit

A woman may still supply nutrients and dispose of waste products if the artificial uterus is connected to her.[2] She may also provide immune protection against diseases by passing of IgG antibodies to the embryo or fetus.[2]

Artificial supply and disposal have the potential advantage of allowing the fetus to develop in an environment that is not influenced by the presence of disease, environmental pollutants, alcohol, or drugs which a human may have in the circulatory system.[2] There is no risk of an immune reaction towards the embryo or fetus that could otherwise arise from insufficient gestational immune tolerance.[2] Some individual functions of an artificial supplier and disposer include:

  • Waste disposal may be performed through dialysis.[2]
  • For oxygenation of the embryo or fetus, and removal of carbon dioxide, extracorporeal membrane oxygenation (ECMO) is a functioning technique, having successfully kept goat fetuses alive for up to 237 hours in amniotic tanks.[10] ECMO is currently a technique used in selected neonatal intensive care units to treat term infants with selected medical problems that result in the infant's inability to survive through gas exchange using the lungs.[11] However, the cerebral vasculature and germinal matrix are poorly developed in fetuses, and subsequently, there is an unacceptably high risk for intraventricular hemorrhage (IVH) if administering ECMO at a gestational age less than 32 weeks.[12] Liquid ventilation has been suggested as an alternative method of oxygenation, or at least providing an intermediate stage between the womb and breathing in open air.[2]
  • For artificial nutrition, current techniques are problematic.[2] Total parenteral nutrition, as studied on infants with severe short bowel syndrome, has a 5-year survival of approximately 20%.[2][13]
  • Issues related to hormonal stability also remain to be addressed.[2]

Theoretically, animal suppliers and disposers may be used, but when involving an animal's uterus the technique may rather be in the scope of interspecific pregnancy.[original research?]

Uterine wall edit

In a normal uterus, the myometrium of the uterine wall functions to expel the fetus at the end of a pregnancy, and the endometrium plays a role in forming the placenta. An artificial uterus may include components of equivalent function. Methods have been considered to connect an artificial placenta and other "inner" components directly to an external circulation.[2]

Interface (artificial placenta) edit

An interface between the supplier and the embryo or fetus may be entirely artificial, e.g. by using one or more semipermeable membranes such as is used in extracorporeal membrane oxygenation (ECMO).[10]

There is also potential to grow a placenta using human endometrial cells. In 2002, it was announced that tissue samples from cultured endometrial cells removed from a human donor had successfully grown.[14][15] The tissue sample was then engineered to form the shape of a natural uterus, and human embryos were then implanted into the tissue. The embryos correctly implanted into the artificial uterus' lining and started to grow. However, the experiments were halted after six days to stay within the permitted legal limits of in vitro fertilisation (IVF) legislation in the United States.[2]

A human placenta may theoretically be transplanted inside an artificial uterus, but the passage of nutrients across this artificial uterus remains an unsolved issue.[2]

Amniotic tank (artificial amniotic sac) edit

The main function of an amniotic tank would be to fill the function of the amniotic sac in physically protecting the embryo or fetus, optimally allowing it to move freely. It should also be able to maintain an optimal temperature. Lactated Ringer's solution can be used as a substitute for amniotic fluid.[10]

Umbilical cord edit

Theoretically, in case of premature removal of the fetus from the natural uterus, the natural umbilical cord could be used, kept open either by medical inhibition of physiological occlusion, by anti-coagulation as well as by stenting or creating a bypass for sustaining blood flow between the mother and fetus.[2]

Research and development edit

The use of artificial wombs was first termed ectogenesis by JBS Haldane in 1923.[16][17][18][19]

Emanuel M. Greenberg (USA) edit

Emanuel M. Greenberg wrote various papers on the topic of the artificial womb and its potential use in the future.[citation needed]

On 22 July 1954 Emanuel M. Greenberg filed a patent on the design for an artificial womb.[20] The patent included two images of the design for an artificial womb. The design itself included a tank to place the fetus filled with amniotic fluid, a machine connecting to the umbilical cord, blood pumps, an artificial kidney, and a water heater. He was granted the patent on 15 November 1955.[20]

On 11 May 1960, Greenberg wrote to the editors of the American Journal of Obstetrics and Gynecology. Greenberg claimed that the journal had published the article "Attempts to Make an 'Artificial Uterus'", which failed to include any citations on the topic of the artificial uterus.[citation needed] According to Greenberg, this suggested that the idea of the artificial uterus was a new one although he himself had published several papers on the topic.[citation needed]

Juntendo University (Japan) edit

In 1996, Juntendo University in Tokyo developed the extra-uterine fetal incubation (EUFI).[21] The project was led by Yoshinori Kuwabara, who was interested in the development of immature newborns. The system was developed using fourteen goat fetuses that were then placed into artificial amniotic fluid under the same conditions of a mother goat.[21][22] Kuwabara and his team succeeded in keeping the goat fetuses in the system for three weeks.[21][22] The system, however, ran into several problems and was not ready for human testing.[21] Kuwabara remained hopeful that the system would be improved and would later be used on human fetuses.[21][22]

Children's Hospital of Philadelphia edit

In 2017, researchers at the Children's Hospital of Philadelphia were able to further develop the extra-uterine system. The study uses fetal lambs which are then placed in a plastic bag filled with artificial amniotic fluid.[1][8] The system consist in 3 main components: a pumpless arteriovenous circuit, a closed sterile fluid environment and an umbilical vascular access. Regarding the pumpless arteriovenous circuit, the blood flow is driven exclusively by the fetal heart, combined with a very low resistance oxygenator to most closely mimic the normal fetal/placental circulation. The closed sterile fluid environment is important to ensure sterility. Scientists developed a technique for umbilical cord vessel cannulation that maintains a length of native umbilical cord (5–10 cm) between the cannula tips and the abdominal wall, to minimize decannulation events and the risk of mechanical obstruction.[23] The umbilical cord of the lambs are attached to a machine outside of the bag designed to act like a placenta and provide oxygen and nutrients and also remove any waste.[1][8] The researchers kept the machine "in a dark, warm room where researchers can play the sounds of the mother's heart for the lamb fetus."[8] The system succeeded in helping the premature lamb fetuses develop normally for a month.[8] Indeed, scientists have run 8 lambs with maintenance of stable levels of circuit flow equivalent to the normal flow to the placenta. Specifically, they have run 5 fetuses from 105 to 108 days of gestation for 25–28 days, and 3 fetuses from 115 to 120 days of gestation for 20–28 days. The longest runs were terminated at 28 days due to animal protocol limitations rather than any instability, suggesting that support of these early gestational animals could be maintained beyond 4 weeks.[23] Alan Flake, a fetal surgeon at the Children's Hospital of Philadelphia hopes to move testing to premature human fetuses, but this could take anywhere from three to five years to become a reality.[8] Flake, who led the study, calls the possibility of their technology recreating a full pregnancy a "pipe dream at this point" and does not personally intend to create the technology to do so.[8]

Eindhoven University of Technology (NL) edit

Since 2016, researchers of TU/e and partners aim to develop an artificial womb, which is an adequate substitute for the protective environment of the maternal womb in case of premature birth, preventing health complications. The artificial womb and placenta will provide a natural environment for the baby with the goal to ease the transition to newborn life. The perinatal life support (PLS) system will be developed using breakthrough technology: a manikin will mimic the infant during testing and training, advanced monitoring and computational modeling will provide clinical guidance.[24]

The consortium of 3 European universities working on the project consists out of Aachen, Milaan and Eindhoven. In 2019 this consortium was granted a subsidy of 3 million euros, and a second grant of 10 million is in progress. Together, the PLS partners provide joint medical, engineering, and mathematical expertise to develop and validate the Perinatal Life Support system using breakthrough simulation technologies. The interdisciplinary consortium will push the development of these technologies forward and combine them to establish the first ex vivo fetal maturation system for clinical use. This project, coordinated by the Eindhoven University of Technology brings together world-leading experts in obstetrics, neonatology, industrial design, mathematical modelling, ex vivo organ support, and non-invasive fetal monitoring. This consortium is led by professor Frans van de Vosse and Professor and doctor Guid Oei. in 2020 the spin off Juno Perinatal Healthcare has been set up by engineers Jasmijn Kok and Lyla Kok, assuring valorisation of the research done. More information about the spin off can be found here;[25]

More information about the project of the technical universities and its researchers can be found here:[26]

Weizmann Institute of Science (Israel) edit

Further information: Ectogenesis § Synthetic embryo
 
Electronically controlled ex utero roller culture system (technical steps during sEmbryo culture protocol)[27]

In 2021, the Weizmann Institute of Science in Israel built a mechanical uterus and grew mouse embryos outside the uterus for several days.[27] This device was also used in 2022 to nurture mouse stem cells for over a week and grow synthetic embryos from stem cells.[28][29]

Philosophical considerations edit

Bioethics edit

The development of artificial uteri and ectogenesis raises bioethical and legal considerations, and also has important implications for reproductive rights and the abortion debate.

Artificial uteri may expand the range of fetal viability, raising questions about the role that fetal viability plays within abortion law. Within severance theory, for example, abortion rights only include the right to remove the fetus, and do not always extend to the termination of the fetus. If transferring the fetus from a woman's womb to an artificial uterus is possible, the choice to terminate a pregnancy in this way could provide an alternative to aborting the fetus.[30][31]

A 2007 essay theorizes that children who develop in an artificial uterus may lack "some essential bond with their mothers that other children have".[32]

Gender inequality edit

In the 1970 book The Dialectic of Sex, feminist Shulamith Firestone wrote that differences in biological reproductive roles are a source of gender inequality. Firestone singled out pregnancy and childbirth, making the argument that an artificial womb would free "women from the tyranny of their reproductive biology."[33][34]

Arathi Prasad argues in her column on The Guardian in her article "How artificial wombs will change our ideas of gender, family and equality" that "It will [...] give men an essential tool to have a child entirely without a woman, should they choose. It will ask us to question concepts of gender and parenthood." She furthermore argues for the benefits for same-sex couples: "It might also mean that the divide between mother and father can be dispensed with: a womb outside a woman’s body would serve women, trans women and male same-sex couples equally without prejudice."[35]

In popular culture edit

  • 2023 – The movie The Pod Generation features detachable artificial wombs called pods. The Womb Center allows couples to share pregnancy more equally with pods.[36]

See also edit

References edit

  1. ^ a b c d Partridge, Emily A.; Davey, Marcus G.; Hornick, Matthew A.; McGovern, Patrick E.; Mejaddam, Ali Y.; Vrecenak, Jesse D.; Mesas-Burgos, Carmen; Olive, Aliza; Caskey, Robert C.; Weiland, Theodore R.; Han, Jiancheng; Schupper, Alexander J.; Connelly, James T.; Dysart, Kevin C.; Rychik, Jack; Hedrick, Holly L.; Peranteau, William H.; Flake, Alan W. (25 April 2017). "An extra-uterine system to physiologically support the extreme premature lamb". Nature Communications. 8: 15112. Bibcode:2017NatCo...815112P. doi:10.1038/ncomms15112. PMC 5414058. PMID 28440792.   Text was copied from this source, which is available under a Creative Commons Attribution 4.0 International License.
  2. ^ a b c d e f g h i j k l m n o p q r Bulletti, C.; Palagiano, A.; Pace, C.; Cerni, A.; Borini, A.; De Ziegler, D. (2011). "The artificial womb". Annals of the New York Academy of Sciences. 1221 (1): 124–128. Bibcode:2011NYASA1221..124B. doi:10.1111/j.1749-6632.2011.05999.x. PMID 21401640. S2CID 30872357.
  3. ^ Shahbazi, Marta N.; Jedrusik, Agnieszka; Vuoristo, Sanna; Recher, Gaelle; Hupalowska, Anna; Bolton, Virginia; Fogarty, Norah M. E.; Campbell, Alison; Devito, Liani G.; Ilic, Dusko; Khalaf, Yakoub; Niakan, Kathy K.; Fishel, Simon; Zernicka-Goetz, Magdalena (4 May 2016). "Self-organization of the human embryo in the absence of maternal tissues". Nature Cell Biology. 18 (6). Springer Science and Business Media LLC: 700–708. doi:10.1038/ncb3347. ISSN 1465-7392. PMC 5049689. PMID 27144686.
  4. ^ Deglincerti, Alessia; Croft, Gist F.; Pietila, Lauren N.; Zernicka-Goetz, Magdalena; Siggia, Eric D.; Brivanlou, Ali H. (4 May 2016). "Self-organization of the in vitro attached human embryo". Nature. 533 (7602). Springer Science and Business Media LLC: 251–254. Bibcode:2016Natur.533..251D. doi:10.1038/nature17948. ISSN 0028-0836. PMID 27144363. S2CID 4461915.
  5. ^ Morber, Jenny (26 April 2017). "Should We Study Human Embryos Beyond 14 Days?". PBS Socal. Retrieved 23 August 2018.
  6. ^ Johnson, Carolyn Y. (1 August 2022). "Scientists create synthetic mouse embryos, a potential key to healing humans". The Washington Post.
  7. ^ Philadelphia, The Children's Hospital of (28 February 2017). "A Unique Womb-Like Device Could Reduce Mortality and Disability for Extremely Premature Babies". www.chop.edu.
  8. ^ a b c d e f g "Scientists Create Artificial Womb That Could Help Prematurely Born Babies". NPR.org.
  9. ^ . Archived from the original on 27 November 2006.
  10. ^ a b c Sakata M; Hisano K; Okada M; Yasufuku M (May 1998). "A new artificial placenta with a centrifugal pump: long-term total extrauterine support of goat fetuses". J. Thorac. Cardiovasc. Surg. 115 (5): 1023–31. doi:10.1016/s0022-5223(98)70401-5. hdl:20.500.14094/D2002191. PMID 9605071.
  11. ^ Bautista-Hernandez, V.; Thiagarajan, R. R.; Fynn-Thompson, F.; Rajagopal, S. K.; Nento, D. E.; Yarlagadda, V.; Teele, S. A.; Allan, C. K.; Emani, S. M.; Laussen, P. C.; Pigula, F. A.; Bacha, E. A. (2009). "Preoperative Extracorporeal Membrane Oxygenation as a Bridge to Cardiac Surgery in Children with Congenital Heart Disease". The Annals of Thoracic Surgery. 88 (4): 1306–1311. doi:10.1016/j.athoracsur.2009.06.074. PMC 4249921. PMID 19766826.
  12. ^ Alan H. Jobe (August 2004). "Post-conceptional age and IVH in ECMO patients". The Journal of Pediatrics. 145 (2): A2. doi:10.1016/j.jpeds.2004.07.010.
  13. ^ Spencer AU; et al. (September 2005). "Pediatric short bowel syndrome: redefining predictors of success". Ann. Surg. 242 (3): 403–9, discussion 409–12. doi:10.1097/01.sla.0000179647.24046.03. PMC 1357748. PMID 16135926. (mean follow-up time was 5.1 years)
  14. ^ "Ronald O. Perelman and Claudia Cohen Center for Reproductive Medicine | Weill Cornell Medicine". ivf.org.
  15. ^ "Weill Cornell Research".
  16. ^ Glahn, S.; Barnes, C.G. (2020). Sanctified Sexuality. Kregel Publications. p. 100. ISBN 978-0-8254-4624-5. Retrieved 21 January 2023.
  17. ^ Gelfand, S.; Shook, J.R. (2006). Ectogenesis: Artificial Womb Technology and the Future of Human Reproduction. Brill Book Archive Part 1, ISBN:: 9789004472495. Editions Rodopi, B.V. p. 159. ISBN 978-90-420-2081-8. Retrieved 21 January 2023.
  18. ^ Greenfield, S. (2004). Tomorrow's People: How 21st-Century Technology is Changing the Way We Think and Feel. Penguin Books Limited. p. 166. ISBN 978-0-14-192608-7. Retrieved 21 January 2023.
  19. ^ Skinner, C. (2018). Digital Human: The Fourth Revolution of Humanity Includes Everyone. Wiley. p. 149. ISBN 978-1-119-51190-8. Retrieved 21 January 2023.
  20. ^ a b US 2723660, Greenberg, Emanuel M., "Artificial uterus", published 1955-11-15 
  21. ^ a b c d e Klass, Perri (29 September 1996). "The Artificial Womb Is Born". The New York Times. ISSN 0362-4331. Retrieved 7 May 2018.
  22. ^ a b c Kuwabara, Yoshinori; Okai, Takashi; Imanishi, Yukio; Muronosono, Etsuo; Kozuma, Shiro; Takeda, Satoru; Baba, Kazunori; Mizuno, Masahiko (June 1987). "Development of Extrauterine Fetal Incubation System Using Extracorporeal Membrane Oxygenator". Artificial Organs. 11 (3): 224–227. doi:10.1111/j.1525-1594.1987.tb02663.x. ISSN 0160-564X. PMID 3619696.
  23. ^ a b E. Partridge, M. Davey1 An extra-uterine system to physiologically support the extreme premature lamb. Nature communications 2017
  24. ^ "Home - Perinatal Life Support".
  25. ^ "Home | Juno Perinatal Healthcare".
  26. ^ "Artificial womb".
  27. ^ a b Aguilera-Castrejon, Alejandro; Oldak, Bernardo; Shani, Tom; Ghanem, Nadir; Itzkovich, Chen; Slomovich, Sharon; Tarazi, Shadi; Bayerl, Jonathan; Chugaeva, Valeriya; Ayyash, Muneef; Ashouokhi, Shahd; Sheban, Daoud; Livnat, Nir; Lasman, Lior; Viukov, Sergey; Zerbib, Mirie; Addadi, Yoseph; Rais, Yoach; Cheng, Saifeng; Stelzer, Yonatan; Keren-Shaul, Hadas; Shlomo, Raanan; Massarwa, Rada; Novershtern, Noa; Maza, Itay; Hanna, Jacob H. (17 March 2021). . Nature. 593 (7857): 119–124. Bibcode:2021Natur.593..119A. doi:10.1038/s41586-021-03416-3. PMID 33731940. S2CID 232296340. Archived from the original on 1 August 2022.
  28. ^ . Cell. 1 August 2022. Archived from the original on 4 August 2022.
  29. ^ . The Guardian. 3 August 2022. Archived from the original on 3 August 2022.
  30. ^ Randall, Vernellia; Randall, Tshaka C. (22 March 2008). "Built in Obsolescence: The Coming End to the Abortion Debate". SSRN. doi:10.2139/ssrn.1112367. S2CID 57105464.
  31. ^ Chessen, Matt. . Mattlesnake.com. Archived from the original on 12 October 2019. Retrieved 2 November 2014.
  32. ^ Smajdor, Anna (Summer 2007). (PDF). Cambridge Quarterly of Healthcare Ethics. 16 (3): 336–45. doi:10.1017/s0963180107070405. PMID 17695628. S2CID 36754378. Archived from the original (PDF) on 11 September 2013.
  33. ^ Chemaly, Soraya (23 February 2012). "What Do Artificial Wombs Mean for Women?". RH Reality Check.
  34. ^ Rosen, Christine (2003). (PDF). The New Atlantis. Archived from the original (PDF) on 1 August 2014.
  35. ^ "How artificial wombs will change our ideas of gender, family and equality". The Guardian. 1 May 2017. ISSN 0261-3077. Retrieved 16 June 2017.
  36. ^ . IMDb. 29 January 2023. Archived from the original on 26 March 2023.

Further reading edit

  • Coleman, Stephen (2004). The Ethics Of Artificial Uteruses: Implications For Reproduction And Abortion. Burlington, VT: Ashgate Pub. ISBN 978-0-7546-5051-5.
  • Scott Gelfand, ed. (2006). Ectogenesis: Artificial Womb Technology and the Future of Human Reproduction. Amsterdam [u.a.]: Rodopi. ISBN 978-90-420-2081-8.

April 03, 2024
artificial, womb, artificial, womb, artificial, uterus, device, that, would, allow, extracorporeal, pregnancy, growing, fetus, outside, body, organism, that, would, normally, carry, fetus, term, figure, from, 2017, nature, communications, paper, describing, ex. An artificial womb or artificial uterus is a device that would allow for extracorporeal pregnancy 2 by growing a fetus outside the body of an organism that would normally carry the fetus to term Artificial womb Figure from a 2017 Nature Communications paper describing an extra uterine life support system or biobag used to grow lamb fetuses 1 An artificial uterus as a replacement organ would have many applications It could be used to assist male or female couples in the development of a fetus 2 This can potentially be performed as a switch from a natural uterus to an artificial uterus thereby moving the threshold of fetal viability to a much earlier stage of pregnancy 2 In this sense it can be regarded as a neonatal incubator with very extended functions It could also be used for the initiation of fetal development 2 An artificial uterus could also help make fetal surgery procedures at an early stage an option instead of having to postpone them until term of pregnancy 2 In 2016 scientists published two studies regarding human embryos developing for thirteen days within an ecto uterine environment 3 4 Currently a 14 day rule prevents human embryos from being kept in artificial wombs longer than 14 days This rule has been codified into law in twelve countries 5 According to The Washington Post in 2021 the International Society for Stem Cell Research relaxed a historical 14 day rule that said researchers could grow natural embryos for only 14 days in the laboratory allowing researchers to seek approval for longer studies Human embryo models are banned from being implanted into a uterus 6 In 2017 fetal researchers at the Children s Hospital of Philadelphia published a study showing they had grown premature lamb fetuses for four weeks in an extra uterine life support system 1 7 8 Contents 1 Components 1 1 Nutrition oxygen supply and waste disposal 1 2 Uterine wall 1 3 Interface artificial placenta 1 4 Amniotic tank artificial amniotic sac 1 5 Umbilical cord 2 Research and development 2 1 Emanuel M Greenberg USA 2 2 Juntendo University Japan 2 3 Children s Hospital of Philadelphia 2 4 Eindhoven University of Technology NL 2 5 Weizmann Institute of Science Israel 3 Philosophical considerations 3 1 Bioethics 3 2 Gender inequality 4 In popular culture 5 See also 6 References 7 Further readingComponents editAn artificial uterus sometimes referred to as an exowomb 9 would have to provide nutrients and oxygen to nurture a fetus as well as dispose of waste material The scope of an artificial uterus or artificial uterus system to emphasize a broader scope may also include the interface serving the function otherwise provided by the placenta an amniotic tank functioning as the amniotic sac as well as an umbilical cord Nutrition oxygen supply and waste disposal edit A woman may still supply nutrients and dispose of waste products if the artificial uterus is connected to her 2 She may also provide immune protection against diseases by passing of IgG antibodies to the embryo or fetus 2 Artificial supply and disposal have the potential advantage of allowing the fetus to develop in an environment that is not influenced by the presence of disease environmental pollutants alcohol or drugs which a human may have in the circulatory system 2 There is no risk of an immune reaction towards the embryo or fetus that could otherwise arise from insufficient gestational immune tolerance 2 Some individual functions of an artificial supplier and disposer include Waste disposal may be performed through dialysis 2 For oxygenation of the embryo or fetus and removal of carbon dioxide extracorporeal membrane oxygenation ECMO is a functioning technique having successfully kept goat fetuses alive for up to 237 hours in amniotic tanks 10 ECMO is currently a technique used in selected neonatal intensive care units to treat term infants with selected medical problems that result in the infant s inability to survive through gas exchange using the lungs 11 However the cerebral vasculature and germinal matrix are poorly developed in fetuses and subsequently there is an unacceptably high risk for intraventricular hemorrhage IVH if administering ECMO at a gestational age less than 32 weeks 12 Liquid ventilation has been suggested as an alternative method of oxygenation or at least providing an intermediate stage between the womb and breathing in open air 2 For artificial nutrition current techniques are problematic 2 Total parenteral nutrition as studied on infants with severe short bowel syndrome has a 5 year survival of approximately 20 2 13 Issues related to hormonal stability also remain to be addressed 2 Theoretically animal suppliers and disposers may be used but when involving an animal s uterus the technique may rather be in the scope of interspecific pregnancy original research Uterine wall edit In a normal uterus the myometrium of the uterine wall functions to expel the fetus at the end of a pregnancy and the endometrium plays a role in forming the placenta An artificial uterus may include components of equivalent function Methods have been considered to connect an artificial placenta and other inner components directly to an external circulation 2 Interface artificial placenta edit An interface between the supplier and the embryo or fetus may be entirely artificial e g by using one or more semipermeable membranes such as is used in extracorporeal membrane oxygenation ECMO 10 There is also potential to grow a placenta using human endometrial cells In 2002 it was announced that tissue samples from cultured endometrial cells removed from a human donor had successfully grown 14 15 The tissue sample was then engineered to form the shape of a natural uterus and human embryos were then implanted into the tissue The embryos correctly implanted into the artificial uterus lining and started to grow However the experiments were halted after six days to stay within the permitted legal limits of in vitro fertilisation IVF legislation in the United States 2 A human placenta may theoretically be transplanted inside an artificial uterus but the passage of nutrients across this artificial uterus remains an unsolved issue 2 Amniotic tank artificial amniotic sac edit The main function of an amniotic tank would be to fill the function of the amniotic sac in physically protecting the embryo or fetus optimally allowing it to move freely It should also be able to maintain an optimal temperature Lactated Ringer s solution can be used as a substitute for amniotic fluid 10 Umbilical cord edit Theoretically in case of premature removal of the fetus from the natural uterus the natural umbilical cord could be used kept open either by medical inhibition of physiological occlusion by anti coagulation as well as by stenting or creating a bypass for sustaining blood flow between the mother and fetus 2 Research and development editThe use of artificial wombs was first termed ectogenesis by JBS Haldane in 1923 16 17 18 19 Emanuel M Greenberg USA edit Emanuel M Greenberg wrote various papers on the topic of the artificial womb and its potential use in the future citation needed On 22 July 1954 Emanuel M Greenberg filed a patent on the design for an artificial womb 20 The patent included two images of the design for an artificial womb The design itself included a tank to place the fetus filled with amniotic fluid a machine connecting to the umbilical cord blood pumps an artificial kidney and a water heater He was granted the patent on 15 November 1955 20 On 11 May 1960 Greenberg wrote to the editors of the American Journal of Obstetrics and Gynecology Greenberg claimed that the journal had published the article Attempts to Make an Artificial Uterus which failed to include any citations on the topic of the artificial uterus citation needed According to Greenberg this suggested that the idea of the artificial uterus was a new one although he himself had published several papers on the topic citation needed Juntendo University Japan edit In 1996 Juntendo University in Tokyo developed the extra uterine fetal incubation EUFI 21 The project was led by Yoshinori Kuwabara who was interested in the development of immature newborns The system was developed using fourteen goat fetuses that were then placed into artificial amniotic fluid under the same conditions of a mother goat 21 22 Kuwabara and his team succeeded in keeping the goat fetuses in the system for three weeks 21 22 The system however ran into several problems and was not ready for human testing 21 Kuwabara remained hopeful that the system would be improved and would later be used on human fetuses 21 22 Children s Hospital of Philadelphia edit In 2017 researchers at the Children s Hospital of Philadelphia were able to further develop the extra uterine system The study uses fetal lambs which are then placed in a plastic bag filled with artificial amniotic fluid 1 8 The system consist in 3 main components a pumpless arteriovenous circuit a closed sterile fluid environment and an umbilical vascular access Regarding the pumpless arteriovenous circuit the blood flow is driven exclusively by the fetal heart combined with a very low resistance oxygenator to most closely mimic the normal fetal placental circulation The closed sterile fluid environment is important to ensure sterility Scientists developed a technique for umbilical cord vessel cannulation that maintains a length of native umbilical cord 5 10 cm between the cannula tips and the abdominal wall to minimize decannulation events and the risk of mechanical obstruction 23 The umbilical cord of the lambs are attached to a machine outside of the bag designed to act like a placenta and provide oxygen and nutrients and also remove any waste 1 8 The researchers kept the machine in a dark warm room where researchers can play the sounds of the mother s heart for the lamb fetus 8 The system succeeded in helping the premature lamb fetuses develop normally for a month 8 Indeed scientists have run 8 lambs with maintenance of stable levels of circuit flow equivalent to the normal flow to the placenta Specifically they have run 5 fetuses from 105 to 108 days of gestation for 25 28 days and 3 fetuses from 115 to 120 days of gestation for 20 28 days The longest runs were terminated at 28 days due to animal protocol limitations rather than any instability suggesting that support of these early gestational animals could be maintained beyond 4 weeks 23 Alan Flake a fetal surgeon at the Children s Hospital of Philadelphia hopes to move testing to premature human fetuses but this could take anywhere from three to five years to become a reality 8 Flake who led the study calls the possibility of their technology recreating a full pregnancy a pipe dream at this point and does not personally intend to create the technology to do so 8 Eindhoven University of Technology NL edit Since 2016 researchers of TU e and partners aim to develop an artificial womb which is an adequate substitute for the protective environment of the maternal womb in case of premature birth preventing health complications The artificial womb and placenta will provide a natural environment for the baby with the goal to ease the transition to newborn life The perinatal life support PLS system will be developed using breakthrough technology a manikin will mimic the infant during testing and training advanced monitoring and computational modeling will provide clinical guidance 24 The consortium of 3 European universities working on the project consists out of Aachen Milaan and Eindhoven In 2019 this consortium was granted a subsidy of 3 million euros and a second grant of 10 million is in progress Together the PLS partners provide joint medical engineering and mathematical expertise to develop and validate the Perinatal Life Support system using breakthrough simulation technologies The interdisciplinary consortium will push the development of these technologies forward and combine them to establish the first ex vivo fetal maturation system for clinical use This project coordinated by the Eindhoven University of Technology brings together world leading experts in obstetrics neonatology industrial design mathematical modelling ex vivo organ support and non invasive fetal monitoring This consortium is led by professor Frans van de Vosse and Professor and doctor Guid Oei in 2020 the spin off Juno Perinatal Healthcare has been set up by engineers Jasmijn Kok and Lyla Kok assuring valorisation of the research done More information about the spin off can be found here 25 More information about the project of the technical universities and its researchers can be found here 26 Weizmann Institute of Science Israel edit Further information Ectogenesis Synthetic embryo nbsp Electronically controlled ex utero roller culture system technical steps during sEmbryo culture protocol 27 In 2021 the Weizmann Institute of Science in Israel built a mechanical uterus and grew mouse embryos outside the uterus for several days 27 This device was also used in 2022 to nurture mouse stem cells for over a week and grow synthetic embryos from stem cells 28 29 Philosophical considerations editBioethics edit The development of artificial uteri and ectogenesis raises bioethical and legal considerations and also has important implications for reproductive rights and the abortion debate Artificial uteri may expand the range of fetal viability raising questions about the role that fetal viability plays within abortion law Within severance theory for example abortion rights only include the right to remove the fetus and do not always extend to the termination of the fetus If transferring the fetus from a woman s womb to an artificial uterus is possible the choice to terminate a pregnancy in this way could provide an alternative to aborting the fetus 30 31 A 2007 essay theorizes that children who develop in an artificial uterus may lack some essential bond with their mothers that other children have 32 Gender inequality edit In the 1970 book The Dialectic of Sex feminist Shulamith Firestone wrote that differences in biological reproductive roles are a source of gender inequality Firestone singled out pregnancy and childbirth making the argument that an artificial womb would free women from the tyranny of their reproductive biology 33 34 Arathi Prasad argues in her column on The Guardian in her article How artificial wombs will change our ideas of gender family and equality that It will give men an essential tool to have a child entirely without a woman should they choose It will ask us to question concepts of gender and parenthood She furthermore argues for the benefits for same sex couples It might also mean that the divide between mother and father can be dispensed with a womb outside a woman s body would serve women trans women and male same sex couples equally without prejudice 35 In popular culture edit2023 The movie The Pod Generation features detachable artificial wombs called pods The Womb Center allows couples to share pregnancy more equally with pods 36 See also editAmniotic fluid Apheresis Brave New World Ectogenesis Embryo space colonization Extracorporeal membrane oxygenation Hemodialysis In vitro fertilisation Male pregnancy Postgenderism Tissue engineering Uterus transplantationReferences edit a b c d Partridge Emily A Davey Marcus G Hornick Matthew A McGovern Patrick E Mejaddam Ali Y Vrecenak Jesse D Mesas Burgos Carmen Olive Aliza Caskey Robert C Weiland Theodore R Han Jiancheng Schupper Alexander J Connelly James T Dysart Kevin C Rychik Jack Hedrick Holly L Peranteau William H Flake Alan W 25 April 2017 An extra uterine system to physiologically support the extreme premature lamb Nature Communications 8 15112 Bibcode 2017NatCo 815112P doi 10 1038 ncomms15112 PMC 5414058 PMID 28440792 nbsp Text was copied from this source which is available under a Creative Commons Attribution 4 0 International License a b c d e f g h i j k l m n o p q r Bulletti C Palagiano A Pace C Cerni A Borini A De Ziegler D 2011 The artificial womb Annals of the New York Academy of Sciences 1221 1 124 128 Bibcode 2011NYASA1221 124B doi 10 1111 j 1749 6632 2011 05999 x PMID 21401640 S2CID 30872357 Shahbazi Marta N Jedrusik Agnieszka Vuoristo Sanna Recher Gaelle Hupalowska Anna Bolton Virginia Fogarty Norah M E Campbell Alison Devito Liani G Ilic Dusko Khalaf Yakoub Niakan Kathy K Fishel Simon Zernicka Goetz Magdalena 4 May 2016 Self organization of the human embryo in the absence of maternal tissues Nature Cell Biology 18 6 Springer Science and Business Media LLC 700 708 doi 10 1038 ncb3347 ISSN 1465 7392 PMC 5049689 PMID 27144686 Deglincerti Alessia Croft Gist F Pietila Lauren N Zernicka Goetz Magdalena Siggia Eric D Brivanlou Ali H 4 May 2016 Self organization of the in vitro attached human embryo Nature 533 7602 Springer Science and Business Media LLC 251 254 Bibcode 2016Natur 533 251D doi 10 1038 nature17948 ISSN 0028 0836 PMID 27144363 S2CID 4461915 Morber Jenny 26 April 2017 Should We Study Human Embryos Beyond 14 Days PBS Socal Retrieved 23 August 2018 Johnson Carolyn Y 1 August 2022 Scientists create synthetic mouse embryos a potential key to healing humans The Washington Post Philadelphia The Children s Hospital of 28 February 2017 A Unique Womb Like Device Could Reduce Mortality and Disability for Extremely Premature Babies www chop edu a b c d e f g Scientists Create Artificial Womb That Could Help Prematurely Born Babies NPR org Top Transhuman Web Sites Archived from the original on 27 November 2006 a b c Sakata M Hisano K Okada M Yasufuku M May 1998 A new artificial placenta with a centrifugal pump long term total extrauterine support of goat fetuses J Thorac Cardiovasc Surg 115 5 1023 31 doi 10 1016 s0022 5223 98 70401 5 hdl 20 500 14094 D2002191 PMID 9605071 Bautista Hernandez V Thiagarajan R R Fynn Thompson F Rajagopal S K Nento D E Yarlagadda V Teele S A Allan C K Emani S M Laussen P C Pigula F A Bacha E A 2009 Preoperative Extracorporeal Membrane Oxygenation as a Bridge to Cardiac Surgery in Children with Congenital Heart Disease The Annals of Thoracic Surgery 88 4 1306 1311 doi 10 1016 j athoracsur 2009 06 074 PMC 4249921 PMID 19766826 Alan H Jobe August 2004 Post conceptional age and IVH in ECMO patients The Journal of Pediatrics 145 2 A2 doi 10 1016 j jpeds 2004 07 010 Spencer AU et al September 2005 Pediatric short bowel syndrome redefining predictors of success Ann Surg 242 3 403 9 discussion 409 12 doi 10 1097 01 sla 0000179647 24046 03 PMC 1357748 PMID 16135926 mean follow up time was 5 1 years Ronald O Perelman and Claudia Cohen Center for Reproductive Medicine Weill Cornell Medicine ivf org Weill Cornell Research Glahn S Barnes C G 2020 Sanctified Sexuality Kregel Publications p 100 ISBN 978 0 8254 4624 5 Retrieved 21 January 2023 Gelfand S Shook J R 2006 Ectogenesis Artificial Womb Technology and the Future of Human Reproduction Brill Book Archive Part 1 ISBN 9789004472495 Editions Rodopi B V p 159 ISBN 978 90 420 2081 8 Retrieved 21 January 2023 Greenfield S 2004 Tomorrow s People How 21st Century Technology is Changing the Way We Think and Feel Penguin Books Limited p 166 ISBN 978 0 14 192608 7 Retrieved 21 January 2023 Skinner C 2018 Digital Human The Fourth Revolution of Humanity Includes Everyone Wiley p 149 ISBN 978 1 119 51190 8 Retrieved 21 January 2023 a b US 2723660 Greenberg Emanuel M Artificial uterus published 1955 11 15 a b c d e Klass Perri 29 September 1996 The Artificial Womb Is Born The New York Times ISSN 0362 4331 Retrieved 7 May 2018 a b c Kuwabara Yoshinori Okai Takashi Imanishi Yukio Muronosono Etsuo Kozuma Shiro Takeda Satoru Baba Kazunori Mizuno Masahiko June 1987 Development of Extrauterine Fetal Incubation System Using Extracorporeal Membrane Oxygenator Artificial Organs 11 3 224 227 doi 10 1111 j 1525 1594 1987 tb02663 x ISSN 0160 564X PMID 3619696 a b E Partridge M Davey1 An extra uterine system to physiologically support the extreme premature lamb Nature communications 2017 Home Perinatal Life Support Home Juno Perinatal Healthcare Artificial womb a b Aguilera Castrejon Alejandro Oldak Bernardo Shani Tom Ghanem Nadir Itzkovich Chen Slomovich Sharon Tarazi Shadi Bayerl Jonathan Chugaeva Valeriya Ayyash Muneef Ashouokhi Shahd Sheban Daoud Livnat Nir Lasman Lior Viukov Sergey Zerbib Mirie Addadi Yoseph Rais Yoach Cheng Saifeng Stelzer Yonatan Keren Shaul Hadas Shlomo Raanan Massarwa Rada Novershtern Noa Maza Itay Hanna Jacob H 17 March 2021 Ex utero mouse embryogenesis from pre gastrulation to late organogenesis Nature 593 7857 119 124 Bibcode 2021Natur 593 119A doi 10 1038 s41586 021 03416 3 PMID 33731940 S2CID 232296340 Archived from the original on 1 August 2022 Post Gastrulation Synthetic Embryos Generated Ex Utero from Mouse Naive ESCs Cell 1 August 2022 Archived from the original on 4 August 2022 Scientists create world s first synthetic embryos The Guardian 3 August 2022 Archived from the original on 3 August 2022 Randall Vernellia Randall Tshaka C 22 March 2008 Built in Obsolescence The Coming End to the Abortion Debate SSRN doi 10 2139 ssrn 1112367 S2CID 57105464 Chessen Matt Artificial Wombs Could Outlaw Abortion Mattlesnake com Archived from the original on 12 October 2019 Retrieved 2 November 2014 Smajdor Anna Summer 2007 The Moral Imperative for Ectogenesis PDF Cambridge Quarterly of Healthcare Ethics 16 3 336 45 doi 10 1017 s0963180107070405 PMID 17695628 S2CID 36754378 Archived from the original PDF on 11 September 2013 Chemaly Soraya 23 February 2012 What Do Artificial Wombs Mean for Women RH Reality Check Rosen Christine 2003 Why Not Artificial Wombs PDF The New Atlantis Archived from the original PDF on 1 August 2014 How artificial wombs will change our ideas of gender family and equality The Guardian 1 May 2017 ISSN 0261 3077 Retrieved 16 June 2017 The Pod Generation IMDb 29 January 2023 Archived from the original on 26 March 2023 Further reading editColeman Stephen 2004 The Ethics Of Artificial Uteruses Implications For Reproduction And Abortion Burlington VT Ashgate Pub ISBN 978 0 7546 5051 5 Scott Gelfand ed 2006 Ectogenesis Artificial Womb Technology and the Future of Human Reproduction Amsterdam u a Rodopi ISBN 978 90 420 2081 8 Portals nbsp LGBT nbsp Feminism nbsp Technology nbsp Science nbsp Biology Retrieved from https en wikipedia org w index php title Artificial womb amp oldid 1216985087, wikipedia, wiki, book, books, library,

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