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I think it would be good if these were at least mentioned, it's currently featured in 2022 in science like so:
- Nanoengineers report the development of biocompatible microalgae hybrid microrobots for active drug-delivery in the lungs (22 Sep.) and the gastrointestinal tract (GT) (28 Sep.). The microrobots are related to medical nanobots and proved effective in tests with mice. [1] [2] [3] A separate team reports the development of 'RoboCap', a robotic drug delivery capsule that enhances drug absorption by tunneling through the mucus layer in the GT (28 Sep.). [4] [5]
- A magnetical guidance system with engineered bacterial microbots for 'precision targeting' [6] is demonstrated to be effective for fighting cancer in mice. [7] [8]
Contents of this article could also get transcluded elsewhere (such as one/some of the pages wikilinked above).
References
- ^ "Algae micromotors join the ranks for targeted drug delivery". Chemical & Engineering News. Retrieved 19 October 2022.
-
^ Zhang, Fangyu; Zhuang, Jia; Li, Zhengxing; Gong, Hua; de Ávila, Berta Esteban-Fernández; Duan, Yaou; Zhang, Qiangzhe; Zhou, Jiarong; Yin, Lu; Karshalev, Emil; Gao, Weiwei; Nizet, Victor; Fang, Ronnie H.; Zhang, Liangfang; Wang, Joseph (22 September 2022).
"Nanoparticle-modified microrobots for in vivo antibiotic delivery to treat acute bacterial pneumonia". Nature Materials. 21 (11): 1324–1332.
Bibcode:
2022NatMa..21.1324Z.
doi:
10.1038/s41563-022-01360-9.
ISSN
1476-4660.
PMC
9633541.
PMID
36138145.
{{ cite journal}}: CS1 maint: PMC embargo expired ( link) - ^ Zhang, Fangyu; Li, Zhengxing; Duan, Yaou; Abbas, Amal; Mundaca-Uribe, Rodolfo; Yin, Lu; Luan, Hao; Gao, Weiwei; Fang, Ronnie H.; Zhang, Liangfang; Wang, Joseph (28 September 2022). "Gastrointestinal tract drug delivery using algae motors embedded in a degradable capsule". Science Robotics. 7 (70): eabo4160. doi: 10.1126/scirobotics.abo4160. ISSN 2470-9476. PMID 36170380. S2CID 252598190.
- ^ "This robotic pill clears mucus from the gut to deliver meds". Science News. 28 September 2022. Retrieved 19 October 2022.
- ^ Srinivasan, Shriya S.; Alshareef, Amro; Hwang, Alexandria V.; Kang, Ziliang; Kuosmanen, Johannes; Ishida, Keiko; Jenkins, Joshua; Liu, Sabrina; Madani, Wiam Abdalla Mohammed; Lennerz, Jochen; Hayward, Alison; Morimoto, Josh; Fitzgerald, Nina; Langer, Robert; Traverso, Giovanni (28 September 2022). "RoboCap: Robotic mucus-clearing capsule for enhanced drug delivery in the gastrointestinal tract". Science Robotics. 7 (70): eabp9066. doi: 10.1126/scirobotics.abp9066. ISSN 2470-9476. PMID 36170378. S2CID 252597856.
- ^ Schmidt, Christine K.; Medina-Sánchez, Mariana; Edmondson, Richard J.; Schmidt, Oliver G. (5 November 2020). "Engineering microrobots for targeted cancer therapies from a medical perspective". Nature Communications. 11 (1): 5618. Bibcode: 2020NatCo..11.5618S. doi: 10.1038/s41467-020-19322-7. ISSN 2041-1723. PMC 7645678. PMID 33154372.
- ^ Thompson, Joanna. "These tiny magnetic robots can infiltrate tumors — and maybe destroy cancer". Inverse. Retrieved 21 November 2022.
- ^ Gwisai, T.; Mirkhani, N.; Christiansen, M. G.; Nguyen, T. T.; Ling, V.; Schuerle, S. (26 October 2022). "Magnetic torque–driven living microrobots for increased tumor infiltration". Science Robotics. 7 (71): eabo0665. bioRxiv 10.1101/2022.01.03.473989. doi: 10.1126/scirobotics.abo0665. ISSN 2470-9476. PMID 36288270. S2CID 253160428.
Prototyperspective ( talk) 10:59, 29 November 2022 (UTC)
| This article has not yet been rated on Wikipedia's
content assessment scale. It is of interest to the following WikiProjects: | ||||||||||
| |||||||||||
I think it would be good if these were at least mentioned, it's currently featured in 2022 in science like so:
- Nanoengineers report the development of biocompatible microalgae hybrid microrobots for active drug-delivery in the lungs (22 Sep.) and the gastrointestinal tract (GT) (28 Sep.). The microrobots are related to medical nanobots and proved effective in tests with mice. [1] [2] [3] A separate team reports the development of 'RoboCap', a robotic drug delivery capsule that enhances drug absorption by tunneling through the mucus layer in the GT (28 Sep.). [4] [5]
- A magnetical guidance system with engineered bacterial microbots for 'precision targeting' [6] is demonstrated to be effective for fighting cancer in mice. [7] [8]
Contents of this article could also get transcluded elsewhere (such as one/some of the pages wikilinked above).
References
- ^ "Algae micromotors join the ranks for targeted drug delivery". Chemical & Engineering News. Retrieved 19 October 2022.
-
^ Zhang, Fangyu; Zhuang, Jia; Li, Zhengxing; Gong, Hua; de Ávila, Berta Esteban-Fernández; Duan, Yaou; Zhang, Qiangzhe; Zhou, Jiarong; Yin, Lu; Karshalev, Emil; Gao, Weiwei; Nizet, Victor; Fang, Ronnie H.; Zhang, Liangfang; Wang, Joseph (22 September 2022).
"Nanoparticle-modified microrobots for in vivo antibiotic delivery to treat acute bacterial pneumonia". Nature Materials. 21 (11): 1324–1332.
Bibcode:
2022NatMa..21.1324Z.
doi:
10.1038/s41563-022-01360-9.
ISSN
1476-4660.
PMC
9633541.
PMID
36138145.
{{ cite journal}}: CS1 maint: PMC embargo expired ( link) - ^ Zhang, Fangyu; Li, Zhengxing; Duan, Yaou; Abbas, Amal; Mundaca-Uribe, Rodolfo; Yin, Lu; Luan, Hao; Gao, Weiwei; Fang, Ronnie H.; Zhang, Liangfang; Wang, Joseph (28 September 2022). "Gastrointestinal tract drug delivery using algae motors embedded in a degradable capsule". Science Robotics. 7 (70): eabo4160. doi: 10.1126/scirobotics.abo4160. ISSN 2470-9476. PMID 36170380. S2CID 252598190.
- ^ "This robotic pill clears mucus from the gut to deliver meds". Science News. 28 September 2022. Retrieved 19 October 2022.
- ^ Srinivasan, Shriya S.; Alshareef, Amro; Hwang, Alexandria V.; Kang, Ziliang; Kuosmanen, Johannes; Ishida, Keiko; Jenkins, Joshua; Liu, Sabrina; Madani, Wiam Abdalla Mohammed; Lennerz, Jochen; Hayward, Alison; Morimoto, Josh; Fitzgerald, Nina; Langer, Robert; Traverso, Giovanni (28 September 2022). "RoboCap: Robotic mucus-clearing capsule for enhanced drug delivery in the gastrointestinal tract". Science Robotics. 7 (70): eabp9066. doi: 10.1126/scirobotics.abp9066. ISSN 2470-9476. PMID 36170378. S2CID 252597856.
- ^ Schmidt, Christine K.; Medina-Sánchez, Mariana; Edmondson, Richard J.; Schmidt, Oliver G. (5 November 2020). "Engineering microrobots for targeted cancer therapies from a medical perspective". Nature Communications. 11 (1): 5618. Bibcode: 2020NatCo..11.5618S. doi: 10.1038/s41467-020-19322-7. ISSN 2041-1723. PMC 7645678. PMID 33154372.
- ^ Thompson, Joanna. "These tiny magnetic robots can infiltrate tumors — and maybe destroy cancer". Inverse. Retrieved 21 November 2022.
- ^ Gwisai, T.; Mirkhani, N.; Christiansen, M. G.; Nguyen, T. T.; Ling, V.; Schuerle, S. (26 October 2022). "Magnetic torque–driven living microrobots for increased tumor infiltration". Science Robotics. 7 (71): eabo0665. bioRxiv 10.1101/2022.01.03.473989. doi: 10.1126/scirobotics.abo0665. ISSN 2470-9476. PMID 36288270. S2CID 253160428.
Prototyperspective ( talk) 10:59, 29 November 2022 (UTC)