Laura Niklason

Last updated

Laura Elizabeth Niklason is a physician, professor and internationally recognized researcher in vascular and lung tissue engineering. She is the Nicholas M. Greene Professor of Anesthesiology and Biomedical Engineering at Yale University [1] and co-founder, chief executive officer and president of Humacyte, a regenerative medicine company developing bioengineered human tissues. [2]

Contents

Her work on lab-grown lungs was recognized as one of the top 50 most important inventions of 2010 by Time magazine. [3] [4] Niklason was included on Fortune ’s “Digital Health Care Leaders” list in 2017 for her work in regenerative medicine. [5]

Niklason was inducted into the National Academy of Inventors in 2014. [6] In 2015, she was elected to the National Academy of Medicine. [7] In 2020, Niklason was elected a member of the National Academy of Engineering for cardiovascular tissue engineering, lung regeneration, and biomedical imaging. [8] [9] She holds more than 30 issued or pending patents in the United States.

Early life and education

Laura Niklason was born in Evanston, Ill. She earned a B.S. in physics and a B.A. in biophysics from the University of Illinois (Urbana-Champaign campus) in 1983. She holds an M.D. from the University of Michigan and a Ph.D. in biophysics from the University of Chicago. Niklason completed her medical training in anesthesiology and critical care medicine at Massachusetts General Hospital in 1996. [10]

Career

Niklason was a faculty member at Duke University from 1998 to 2005. [1] In 2004, Niklason along with Drs. Shannon Dahl and Juliana Blum, co-founded Humacyte, a company based in Durham, North Carolina, that is pioneering the development and manufacture of off-the-shelf, universally implantable, bioengineered human tissues to improve the lives of patients and transform the practice of medicine. [2] [11] In 2006, Niklason joined the faculty at the Yale School of Medicine, where she currently serves as an adjunct professor of anesthesia and biomedical engineering. [12]

In 2010, Niklason and her colleagues were able to successfully produce an engineered rat lung that could inhale and exhale carbon dioxide. [13] In 2013, Niklason along with Duke researcher Dr. Jeffery Lawson, developed a bioengineered blood vessel, which Lawson grafted into an artery in a Duke patient's arm. [14]

In 2016, Niklason was named as the Nicholas M. Greene Professor of Anesthesiology and Biomedical Engineering at Yale. [15] As part of a research team, Niklason conducted clinical trials into the effectiveness of giving patients experiencing kidney failure bioengineered blood vessels. [16]

In 2020, Niklason was appointed CEO and president of Humacyte. [17] Under Niklason’s leadership, the company went public through a merger with Alpha Healthcare Acquisition Corp in 2021. [18] [19] [20] [21]

Niklason, a renowned world leader in cellular therapies and regenerative medicine, continues to maintain an active scientific laboratory, and speaks globally on her research in vascular and non-vascular tissue engineering.

Philanthropy

The Brady W. Dougan and Laura E. Niklason House at University of Chicago was named for her. [22]

Awards and honors

Niklason is the recipient of multiple awards and honors, including:

Publications

Niklason is the co-author of more than 120 publications. A selected list follows:

Related Research Articles

<span class="mw-page-title-main">Tissue engineering</span> Biomedical engineering discipline

Tissue engineering is a biomedical engineering discipline that uses a combination of cells, engineering, materials methods, and suitable biochemical and physicochemical factors to restore, maintain, improve, or replace different types of biological tissues. Tissue engineering often involves the use of cells placed on tissue scaffolds in the formation of new viable tissue for a medical purpose but is not limited to applications involving cells and tissue scaffolds. While it was once categorized as a sub-field of biomaterials, having grown in scope and importance it can is considered as a field of its own.

<span class="mw-page-title-main">Robert S. Langer</span> American scientist

Robert Samuel Langer Jr. FREng is an American biotechnologist, businessman, chemical engineer, chemist, and inventor. He is one of the twelve Institute Professors at the Massachusetts Institute of Technology.

<span class="mw-page-title-main">Regenerative medicine</span> Field of medicine involved in regenerating tissues

Regenerative medicine deals with the "process of replacing, engineering or regenerating human or animal cells, tissues or organs to restore or establish normal function". This field holds the promise of engineering damaged tissues and organs by stimulating the body's own repair mechanisms to functionally heal previously irreparable tissues or organs.

Peter W. Zandstra, is a Canadian scientist who is the Director of the Michael Smith Laboratories at the University of British Columbia.

<span class="mw-page-title-main">Anthony Atala</span> American bioengineer and urologist

Anthony Atala is an American bioengineer, urologist, and pediatric surgeon. He is the W.H. Boyce professor of urology, the founding director of the Wake Forest Institute for Regenerative Medicine, and the chair of the Department of Urology at Wake Forest School of Medicine in North Carolina. His work focuses on the science of regenerative medicine: "a practice that aims to refurbish diseased or damaged tissue using the body's own healthy cells".

<span class="mw-page-title-main">Ali Khademhosseini</span> Iranian bioengineer

Ali Khademhosseini 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. 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). From 2005 to 2017, he was a professor at Harvard Medical School, and the Wyss Institute for Biologically Inspired Engineering.

<span class="mw-page-title-main">Methuselah Foundation</span> U.S. nonprofit organization

The Methuselah Foundation is an American-based global non-profit organization based in Springfield, Virginia, with a declared mission to "make 90 the new 50 by 2030" by supporting tissue engineering and regenerative medicine therapies. The organization was originally incorporated by David Gobel in 2001 as the Performance Prize Society, a name inspired by the British governments Longitude Act, which offered monetary rewards for anyone who could devise a portable, practical solution for determining a ship's longitude.

<span class="mw-page-title-main">Shu Chien</span> Chinese-American physiologist and bioengineer (born 1931)

Shu Chien is a Chinese–American physiologist and bioengineer. His work on the fluid dynamics of blood flow has had a major impact on the diagnosis and treatment of cardiovascular diseases such as atherosclerosis. More recently, Chien's research has focused on the mechanical forces, such as pressure and flow, that regulate the behaviors of the cells in blood vessels. Chien is currently President of the Biomedical Engineering Society.

<span class="mw-page-title-main">Sangeeta N. Bhatia</span> American nanotechnologist

Sangeeta N. Bhatia is an American biological engineer and the John J. and Dorothy Wilson Professor at MIT’s Institute for Medical Engineering and Science and Electrical Engineering and Computer Science (EECS) at the Massachusetts Institute of Technology (MIT) in Cambridge, Massachusetts, United States. Bhatia's research investigates applications of micro- and nano-technology for tissue repair and regeneration. She applies ideas from computer technology and engineering to the design of miniaturized biomedical tools for the study and treatment of diseases, in particular liver disease, hepatitis, malaria and cancer.

<span class="mw-page-title-main">Gordana Vunjak-Novakovic</span> Serbian American engineer

Gordana Vunjak-NovakovicFRSC is a Serbian American biomedical engineer and university professor. She is a University Professor at Columbia University, as well as the Mikati Foundation Professor of Biomedical Engineering and Medical Sciences. She also heads the laboratory for Stem Cells and Tissue Engineering at Columbia University. She is part of the faculty at the Irving Comprehensive Cancer Center and the Center for Human Development, both found at Columbia University. She is also an honorary professor at the Faculty of Technology and Metallurgy at the University of Belgrade, an honorary professor at the University of Novi Sad, and an adjunct professor at the Department of Biomedical Engineering at Tufts University.

<span class="mw-page-title-main">Donald E. Ingber</span> American cell biologist and bioengineer (born 1956)

Donald E. Ingber is an American cell biologist and bioengineer. He is the founding director of the Wyss Institute for Biologically Inspired Engineering at Harvard University, the Judah Folkman Professor of Vascular Biology at Harvard Medical School and Boston Children's Hospital, and Professor of Bioengineering at the Harvard John A. Paulson School of Engineering and Applied Sciences. He is also a member of the American Institute for Medical and Biological Engineering, the National Academy of Engineering, the National Academy of Medicine, the National Academy of Inventors, and the American Academy of Arts and Sciences.

Martin L. Yarmush is an American scientist, physician, and engineer known for his work in biotechnology and bioengineering. After spending 4 years as a Principal Research Associate in Chemical Engineering at MIT, in 1988 he joined Rutgers University, where he currently holds the Paul and Mary Monroe Endowed Chair in Science and Engineering and serves as Distinguished Professor of Biomedical Engineering. Yarmush is the founding director of the Center for Engineering in Medicine & Surgery (CEMS) at Massachusetts General Hospital. He is also a Lecturer in Surgery and Bioengineering at Harvard Medical School, and a member of the Senior Scientific Staff at the Shriners Hospital for Children, Boston.

<span class="mw-page-title-main">Decellularization</span>

Decellularization is the process used in biomedical engineering to isolate the extracellular matrix (ECM) of a tissue from its inhabiting cells, leaving an ECM scaffold of the original tissue, which can be used in artificial organ and tissue regeneration. Organ and tissue transplantation treat a variety of medical problems, ranging from end organ failure to cosmetic surgery. One of the greatest limitations to organ transplantation derives from organ rejection caused by antibodies of the transplant recipient reacting to donor antigens on cell surfaces within the donor organ. Because of unfavorable immune responses, transplant patients suffer a lifetime taking immunosuppressing medication. Stephen F. Badylak pioneered the process of decellularization at the McGowan Institute for Regenerative Medicine at the University of Pittsburgh. This process creates a natural biomaterial to act as a scaffold for cell growth, differentiation and tissue development. By recellularizing an ECM scaffold with a patient’s own cells, the adverse immune response is eliminated. Nowadays, commercially available ECM scaffolds are available for a wide variety of tissue engineering. Using peracetic acid to decellularize ECM scaffolds have been found to be false and only disinfects the tissue.

Robert M. Nerem, often referred to as Bob Nerem, a member of the U. S. National Academy of Engineering and the Institute of Medicine, held the Parker H. Petit Distinguished Chair for Engineering in Medicine and Institute Professor Emeritus at the Georgia Institute of Technology where he was an Emeritus Professor until his death.

Regeneration in humans is the regrowth of lost tissues or organs in response to injury. This is in contrast to wound healing, or partial regeneration, which involves closing up the injury site with some gradation of scar tissue. Some tissues such as skin, the vas deferens, and large organs including the liver can regrow quite readily, while others have been thought to have little or no capacity for regeneration following an injury.

<span class="mw-page-title-main">Sheila MacNeil</span> Professor of Tissue Engineering

Sheila MacNeil is a Professor of Tissue Engineering at the University of Sheffield. She works alongside NHS clinicians to use tissue engineered skin to benefit patients with burns, chronic ulcers and those recovering from surgery. She developed MySkin, skin bandages that are used to treat burns in 11 of 13 major UK burns units.

Rebecca Julia Shipley is a British mathematician and professor of healthcare engineering at University College London (UCL). She is director of the UCL Institute of Healthcare Engineering, co-director of the UCL Centre for Nerve Engineering and Vice Dean (Health) for the UCL Faculty of Engineering Sciences. She is also co-director of the UCL CHIMERA Research Hub with Prof Christina Pagel and a Fellow of the Institution of Engineering and Technology.

<span class="mw-page-title-main">Christopher Chen (academic)</span> American biological engineer

Christopher S. Chen, born in 1968, is an American biological engineer. He is the William Fairfield Warren Distinguished Professor of Biomedical Engineering at Boston University and member of the Wyss Institute for Biologically Inspired Engineering at Harvard University in Boston.

<span class="mw-page-title-main">Milica Radisic</span> Serbian Canadian tissue engineer

Milica Radisic is a Serbian Canadian tissue engineer, academic and researcher. She is a professor at the University of Toronto’s Institute of Biomaterials and Biomedical Engineering, and the Department of Chemical Engineering and Applied Chemistry. She co-founded TARA Biosystems and is a senior scientist at the Toronto General Hospital Research Institute.

Sina Y. Rabbany is the Jean Nerken Distinguished Professor of Engineering at Hofstra University, dean of the Fred DeMatteis School of Engineering and Applied Science, founding director of the school's Bioengineering program, and adjunct associate professor of bioengineering at the Weill Cornell Medical College of Cornell University. Under his tenure, the DeMatteis School's fast growth led to the school's planned expansion into a new Science and Innovation Center. His research concerns cellular and tissue engineering of the vascular system and investigates the impact of the biophysical microenvironment on the structure and function of endothelial cells. His research explores the capabilities of endothelial cells to build functional blood vessels and support organ regeneration. His h-index is 28 by Google Scholar.

References

  1. 1 2 "Laura Niklason, PhD, MD". medicine.yale.edu. Retrieved September 21, 2021.
  2. 1 2 "Company". HUMACYTE. Retrieved September 21, 2021.
  3. Staff. "The Entrepreneurs". PharmaVOICE. Retrieved August 6, 2018.
  4. 1 2 Park, Alice (November 11, 2010). "The 50 Best Inventions of 2010 - TIME". Time. ISSN   0040-781X . Retrieved September 21, 2021.
  5. 1 2 "34 Leaders Who Are Changing Health Care". Fortune. Retrieved September 21, 2021.
  6. 1 2 "National Academy of Inventors" . Retrieved September 21, 2021.
  7. anonymous. "Prof. Laura Niklason Elected To The National Academy of Medicine". Yale School of Engineering & Applied Science. Retrieved September 21, 2021.
  8. 1 2 anonymous. "Laura Niklason Elected To The National Academy of Engineering". Yale School of Engineering & Applied Science. Retrieved September 21, 2021.
  9. "Dr. Laura Elizabeth Niklason". United States National Academy of Engineering. Retrieved October 9, 2023.
  10. "Organizer/Speaker- Cell Symposia: Engineering Organoids and Organs". www.cell-symposia.com. Retrieved September 21, 2021.
  11. "Executive Voice: Her Durham firm pioneers transformation of medicine". www.bizjournals.com. Retrieved September 21, 2021.
  12. "Lab Members". medicine.yale.edu. Retrieved September 21, 2021.
  13. Petersen, Thomas H.; Calle, Elizabeth A.; Zhao, Liping; Lee, Eun Jung; Gui, Liqiong; Raredon, MichaSam B.; Gavrilov, Kseniya; Yi, Tai; Zhuang, Zhen W.; Breuer, Christopher; Herzog, Erica (July 30, 2010). "Tissue-Engineered Lungs for in Vivo Implantation". Science. 329 (5991): 538–541. Bibcode:2010Sci...329..538P. doi:10.1126/science.1189345. ISSN   0036-8075. PMC   3640463 . PMID   20576850.
  14. "Surgeons at Duke University Hospital Implant Bioengineered Vein". Duke Health. June 6, 2013. Retrieved September 21, 2021.
  15. Staff (January 6, 2016). "Dr. Laura Niklason appointed the Nicholas Greene Professor". Yale News. Retrieved August 6, 2018.
  16. Xie, Abigail. "Bioengineered blood vessels shown to be effective in patients with kidney failure". The Chronicle. Retrieved August 6, 2018.
  17. "Humacyte Appoints Founder Laura Niklason MD, PhD as President and Chief Executive Officer". www.businesswire.com. November 20, 2020. Retrieved September 21, 2021.
  18. "Humacyte Announces Successful Closing of Business Combination with Alpha Healthcare Acquisition Corp. | Humacyte, Inc". humacyte.gcs-web.com. Retrieved September 21, 2021.
  19. Franklin, Rebecca Spalding, Joshua (February 17, 2021). "Human tissue developer Humacyte agrees to SPAC merger to go public". Reuters. Retrieved September 21, 2021.{{cite news}}: CS1 maint: multiple names: authors list (link)
  20. "Did You Expect It Would Take This Long To Go Public?". www.lifescienceleader.com. Retrieved September 21, 2021.
  21. "Pioneering regenerative med scientist Laura Niklason takes her company public in the latest big SPAC deal. And that gives her a shot at making biotech history". Endpoints News. Retrieved September 21, 2021.
  22. "Brady W. Dougan and Laura E. Niklason House | The University of Chicago Campaign: Inquiry and Impact". campaign.uchicago.edu. Retrieved August 8, 2018.
  23. "FiercePharma 2021 Fiercest Women: Laura Niklason, Humacyte". www.fiercepharma.com. November 15, 2021. Retrieved November 15, 2021.
  24. "2021 Life Sciences Awards: Humacyte". www.bizjournals.com. Retrieved September 21, 2021.
  25. "Previous Award Winners". ACLPS. Retrieved September 21, 2021.
  26. "WITI - Laura Niklason, M.D., Ph.D." www.witi.com. Retrieved September 21, 2021.
  27. CNBC (June 7, 2016). "2016 CNBC's Disruptor 50". www.cnbc.com. Retrieved September 21, 2021.
  28. "Humacyte". FierceBiotech. January 23, 2017. Retrieved September 21, 2021.
  29. Ward, Logan; Mechanics, the Editors of Popular (October 3, 2011). "11 Brilliant Innovators: Breakthrough Awards 2011". Popular Mechanics. Retrieved September 21, 2021.{{cite web}}: |first2= has generic name (help)
  30. "Laura E. Niklason, MD. Ph.D. COF-0809 - AIMBE" . Retrieved September 21, 2021.
  31. Read "Frontiers of Engineering: Reports on Leading-Edge Engineering From the 2000 NAE Symposium on Frontiers in Engineering" at NAP.edu. 2001. doi:10.17226/10063. ISBN   978-0-309-07319-6.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.