Ali Khademhosseini Explained

Ali Khademhosseini
Birth Date:30 October 1975
Birth Place:Tehran, Iran
Education:University of Toronto (BSc, MASc)
Massachusetts Institute of Technology (PhD)
Doctoral Advisor:Robert S. Langer
Thesis2 Title:Nanoscale and microscale approaches for engineering the in vitro cellular microenvironment
Thesis2 Url:https://dspace.mit.edu/handle/1721.1/33867
Thesis2 Year:2005
Academic Advisors:Peter Zandstra
Prizes:Mustafa Prize, PECASE

Ali Khademhosseini (Persian: علی خادم‌حسینی, born October 30, 1975) is an Iranian-born Canadian-American engineer. He is the CEO of the Terasaki Institute, non-profit research organization in Los Angeles, and Omeat Inc., a cultivated-meat startup. Before taking his current CEO roles, he spent one year at Amazon Inc.[1] Prior to that he was the Levi Knight chair and professor at the University of California-Los Angeles where he held a multi-departmental professorship in Bioengineering, Radiology, Chemical, and Biomolecular Engineering as well as the Director of Center for Minimally Invasive Therapeutics (C-MIT).[2] From 2005 to 2017, he was a professor at Harvard Medical School, and the Wyss Institute for Biologically Inspired Engineering.

Early life and education

Khademhosseini was born in Tehran, Iran, and grew up in Toronto, Canada. He received his Ph.D. in bioengineering from MIT under the supervision of Robert S. Langer (2005), and MASc (2001) and BSc (1999) degrees from the University of Toronto both in chemical engineering.[3]

Accomplishments

Khademhosseini is a leader in developing ‘personalized’ solutions that utilize micro- and nanoscale technologies to enable a range of therapies for organ failure, cardiovascular disease, and cancer.[4] [5] He also developed electrically conductive, tunable hydrogels by mixing GelMA with nanomaterials, including gold nanoparticles and carbon-based nanomaterials.[6] [7] [8] [9] He has demonstrated the use of GelMA-based materials for tissue engineering and other clinical applications such as sealants and hemostats.[10] [11]

Another area of focus has been on building multi-organ on-a-chip systems with integrated in-line sensors.[12] Such devices are finding use in the next generation of organs on a chip systems. His early work in electrochemical biosensors with regeneration ability and microfluidic physical sensors allowed in-line monitoring of organs-on-a-chip platforms.[13] [14] [15] He was also one of the pioneers of smart patches for chronic wound healing, where both sensing the wound and the rapid drug intervention was conducted using the same device.[16]

Translational efforts

Khademhosseini is an academic entrepreneur who has started multiple companies to translate the findings of his research into products. He combined silica nanoparticles with gelatin to engineer shear-thinning materials for the embolization of blood vessels in the peripheral vasculature. He then co-founded Obsidio Medical to pursue clinical applications of this breakthrough. The technology was approved by U.S. Food and Drug Administration, and Obsidio Medical was acquired by Boston Scientific in August 2022.[17] [18] [19]

He also founded Omeat Inc., aiming to produce cultivated meat in a scalable and affordable manner.[20] [21] Omeat is a vertically integrated meat company that also produces humane and cost effective fetal bovine serum replacement.[22]

Awards and honors

Khademhosseini's interdisciplinary research has been recognized over 70 major national and international awards. He is a recipient of the 2011 Presidential Early Career Award for Scientists and Engineers (PECASE) by President Barack Obama, the highest honor given by the US government for early-career investigators.[23] Khademhosseini is a recipient of the Massachusetts Institute of Technology Outstanding Undergraduate mentor award. In 2007, he was named a TR35 recipient by the MIT Technology Review magazine as one of the world's top young innovators.[24] In addition, he has received the young investigator awards of the Society for Biomaterials and the Tissue Engineering and Regenerative Medicine International Society. He has also received the American Chemical Society's Viktor K. Lamer award and the Unilever award and has been recognized by major governmental Awards including the NSF Career award and the Office of Naval Research Young Investigator award.

In 2011, he received the Pioneers of Miniaturization Prize from the Royal Society of Chemistry for his contribution to microscale tissue engineering and microfluidics. In 2016, he received the Sr. Scientist Award of Tissue Engineering and Regenerative Medicine Society-Americas (TERMIS-AM) and in 2017 he received the Clemson Award of the Society for Biomaterials. In 2019, he received the Mustafa Prize, for his work on microfabricated hydrogel for biomedical applications.[25] [26]

He is a member of National Academy of Inventors, the International Academy of Medical and Biological Engineering, Canadian Academy of Engineering as well as the Royal Society of Canada.[27] He is a fellow of the American Institute of Medical and Biological Engineering (AIMBE), Biomedical Engineering Society (BMES), Royal Society of Chemistry, Biomaterials Science and Engineering (FBSE), Materials Research Society (MRS), and American Association for the Advancement of Science (AAAS).

Sources & External links

Notes and References

  1. News: Terasaki Institute Welcomes New Director . 28 August 2023.
  2. Web site: Advanced Science Hall of Fame . 29 July 2019 . 28 August 2023.
  3. Web site: ACS Axial: Ali Khademhosseini's Personal Story of Discovery . 26 February 2018 . 28 August 2023.
  4. Web site: Ali Khademhosseini: A Global Leader in Biomaterials and Tissue Engineering . 28 March 2016 . 28 August 2023.
  5. Web site: Ali Khademhosseini: The path to 3D printing artificial vessels and more . 28 August 2023.
  6. Shin . Su Ryon . Bae . Hojae . Cha . Jae Min . Mun . Ji Young . Chen . Ying-Chieh . Tekin . Halil . Shin . Hyeongho . Zarabi . Sidney . Dokmeci . Mehmet R. . Tang . Shirley . Khademhosseini . Ali . 2011-11-26 . Carbon Nanotube Reinforced Hybrid Microgels as Scaffold Materials for Cell Encapsulation . ACS Nano . 6 . 1 . 362–372 . 10.1021/nn203711s . 22117858 . 3401631 . 1936-0851.
  7. Shin . Su Ryon . Jung . Sung Mi . Zalabany . Momen . Kim . Keekyoung . Zorlutuna . Pinar . Kim . Sang bok . Nikkhah . Mehdi . Khabiry . Masoud . Azize . Mohamed . Kong . Jing . Wan . Kai-tak . Palacios . Tomas . Dokmeci . Mehmet R. . Bae . Hojae . Tang . Xiaowu (Shirley) . 2013-02-22 . Carbon-Nanotube-Embedded Hydrogel Sheets for Engineering Cardiac Constructs and Bioactuators . ACS Nano . 7 . 3 . 2369–2380 . 10.1021/nn305559j . 23363247 . 3609875 . 1936-0851.
  8. Shin . Su Ryon . Zihlmann . Claudio . Akbari . Mohsen . Assawes . Pribpandao . Cheung . Louis . Zhang . Kaizhen . Manoharan . Vijayan . Zhang . Yu Shrike . Yüksekkaya . Mehmet . Wan . Kai-tak . Nikkhah . Mehdi . Dokmeci . Mehmet R. . Tang . Xiaowu (Shirley) . Khademhosseini . Ali . 2016-06-02 . Reduced Graphene Oxide-GelMA Hybrid Hydrogels as Scaffolds for Cardiac Tissue Engineering . Small . 12 . 27 . 3677–3689 . 10.1002/smll.201600178 . 27254107 . 5201005 . 1613-6810.
  9. Shin . Su Ryon . Aghaei-Ghareh-Bolagh . Behnaz . Dang . Tram T. . Topkaya . Seda Nur . Gao . Xiguang . Yang . Seung Yun . Jung . Sung Mi . Oh . Jong Hyun . Dokmeci . Mehmet R. . Tang . Xiaowu Shirley . Khademhosseini . Ali . November 2013 . Cell-laden Microengineered and Mechanically Tunable Hybrid Hydrogels of Gelatin and Graphene Oxide . Advanced Materials . en . 25 . 44 . 6385–6391 . 10.1002/adma.201301082 . 3898458 . 23996513. 2013AdM....25.6385S .
  10. 2018-12-05 . Engineering a highly elastic human protein–based sealant for surgical applications. . Science Translational Medicine . 10 . 470 . 10.1126/scitranslmed.aai7466 . 1946-6234 . 30518609. free . Annabi . Nasim . Zhang . Yi-Nan . Assmann . Alexander . Sani . Ehsan Shirzaei . Cheng . George . Lassaletta . Antonio D. . Vegh . Andrea . Dehghani . Bijan . Ruiz-Esparza . Guillermo U. . Wang . Xichi . Gangadharan . Sidhu . Weiss . Anthony S. . Khademhosseini . Ali .
  11. Mecwan . Marvin . Haghniaz . Reihaneh . Najafabadi . Alireza Hassani . Mandal . Kalpana . Jucaud . Vadim . John . Johnson V. . Khademhosseini . Ali . 2023 . Thermoresponsive shear-thinning hydrogel (T-STH) hemostats for minimally invasive treatment of external hemorrhages . Biomaterials Science . 11 . 3 . 949–963 . 10.1039/d2bm01559e . 36537259 . 254487241 . 2047-4830. free .
  12. 2017. Multisensor-integrated organs-on-chips platform for automated and continual in situ monitoring of organoid behaviors. . Proceedings of the National Academy of Sciences . 114. 12. 10.1073/pnas.1612906114 . 5373350 . 28265064 . Zhang . Yu Shrike . Aleman . Julio . Shin . Su Ryon . Kilic . Tugba . Kim . Duckjin . Mousavi Shaegh . Seyed Ali . Massa . Solange . Riahi . Reza . Chae . Sukyoung . Hu . Ning . Avci . Huseyin . Zhang . Weijia . Silvestri . Antonia . Sanati Nezhad . Amir . Manbohi . Ahmad . De Ferrari . Fabio . Polini . Alessandro . Calzone . Giovanni . Shaikh . Noor . Alerasool . Parissa . Budina . Erica . Kang . Jian . Bhise . Nupura . Ribas . João . Pourmand . Adel . Skardal . Aleksander . Shupe . Thomas . Bishop . Colin E. . Dokmeci . Mehmet Remzi . Atala . Anthony . E2293–E2302 . free . 1 .
  13. Shin . Su Ryon . Kilic . Tugba . Zhang . Yu Shrike . Avci . Huseyin . Hu . Ning . Kim . Duckjin . Branco . Cristina . Aleman . Julio . Massa . Solange . Silvestri . Antonia . Kang . Jian . Desalvo . Anna . Hussaini . Mohammed Abdullah . Chae . Su-Kyoung . Polini . Alessandro . May 2017 . Label-Free and Regenerative Electrochemical Microfluidic Biosensors for Continual Monitoring of Cell Secretomes . Advanced Science . en . 4 . 5 . 1600522 . 10.1002/advs.201600522 . 2198-3844 . 5441508 . 28546915.
  14. Shin . Su Ryon . Zhang . Yu Shrike . Kim . Duck-Jin . Manbohi . Ahmad . Avci . Huseyin . Silvestri . Antonia . Aleman . Julio . Hu . Ning . Kilic . Tugba . Keung . Wendy . Righi . Martina . Assawes . Pribpandao . Alhadrami . Hani A. . Li . Ronald A. . Dokmeci . Mehmet R. . 2016-10-04 . Aptamer-Based Microfluidic Electrochemical Biosensor for Monitoring Cell-Secreted Trace Cardiac Biomarkers . Analytical Chemistry . 88 . 20 . 10019–10027 . 10.1021/acs.analchem.6b02028 . 0003-2700 . 5844853 . 27617489.
  15. Mousavi Shaegh . Seyed Ali . De Ferrari . Fabio . Zhang . Yu Shrike . Nabavinia . Mahboubeh . Binth Mohammad . Niema . Ryan . John . Pourmand . Adel . Laukaitis . Eleanor . Banan Sadeghian . Ramin . Nadhman . Akhtar . Shin . Su Ryon . Nezhad . Amir Sanati . Khademhosseini . Ali . Dokmeci . Mehmet Remzi . July 2016 . A microfluidic optical platform for real-time monitoring of pH and oxygen in microfluidic bioreactors and organ-on-chip devices . Biomicrofluidics . 10 . 4 . 044111 . 10.1063/1.4955155 . 27648113 . 5001973 . 1932-1058.
  16. Mostafalu . Pooria . Tamayol . Ali . Rahimi . Rahim . Ochoa . Manuel . Khalilpour . Akbar . Kiaee . Gita . Yazdi . Iman K. . Bagherifard . Sara . Dokmeci . Mehmet R. . Ziaie . Babak . Sonkusale . Sameer R. . Khademhosseini . Ali . August 2018 . Smart Bandages: Smart Bandage for Monitoring and Treatment of Chronic Wounds (Small 33/2018) . Small . 14 . 33 . 1870150 . 10.1002/smll.201870150 . 139363378 . 1613-6810. free .
  17. Web site: Boston Scientific Announces Acquisition of Obsidio, Inc. .
  18. Web site: Introducing a new kind of embolization .
  19. News: Boston Scientific bulks up blood-blocking portfolio with Obsidio acquisition .
  20. Web site: Omeat emerges from stealth with beefy tech approach to cultivated meat growth media. 22 June 2023 .
  21. News: Cultivated meat from cows: How Omeat uses plasma to grow beef .
  22. News: Why this lab-meat startup is keeping cows in the equation .
  23. Web site: President Obama Honors Outstanding Early-Career Scientists. Office of the Press Secretary. 26 September 2011. 2011-09-26.
  24. Web site: TR35.
  25. Web site: Mustafa Prize 2019. 2020-10-21.
  26. News: Iran awards prestigious prize to 2 US-educated scientists . 28 August 2023.
  27. News: Two professors elected fellows of the Royal Society of Canada .