TY - JOUR
T1 - At the nexus of science, engineering, and medicine
T2 - Pasteur's quadrant reconsidered
AU - Pettigrew, Roderic I.
AU - Cooke, John P.
N1 - Funding Information:
This work is supported in part by the Welch Foundation funding and the Texas Governors University Research Initiative award to R.I.P. and grants to J.P.C. (NIH R01s HL133254, HL157790, and HL148338; the Cancer Prevention and Research Institute of Texas [RP150611 and RP200619]; the George and Angelina Kostas Research Center for Cardiovascular Medicine; and the Robert J. Kleberg, Jr and Helen C. Kleberg Foundation). The authors greatly benefitted from thoughtful and provocative discussions with Richard Ehman, MD, Mayo Clinic; Gang Bao, PhD, Rice University; Daniel Kiss PhD, Houston Methodist Hospital; Bruce Rosen, MD, PhD, Harvard University; Michael Paolini, MD and Rhome Hughes, MD, Texas A & M University; and Norbert Pelc, PhD, Stanford University.
Publisher Copyright:
© The Author(s) 2022. Published by Oxford University Press on behalf of the National Academy of Sciences.
PY - 2022/7/1
Y1 - 2022/7/1
N2 - There has been a sea change in the scientific world, advanced even more rapidly by the recent compounded public crises. Accelerated discovery, and impact from such discoveries have come from convergence approaches across disciplines, sectors, institutions, and the multiple communities seeking the common goal of innovations that transform. The classic simultaneous pursuit of fundamental understanding and application has been termed Pasteur s quadrant, where use-inspired basic research occurs. In the classic schematic developed by Donald Stokes, three quadrants represent research approaches using a 2D plane in which the vertical dimension represents the quest for understanding (basic research) and the horizontal dimension represents the consideration of use (applied research). The three outer quadrants are Bohr s (pure basic research), Edison s (pure applied research), and Pasteur s (useinspired basic research). Viewing each of these axes as a continuum, we label the previously unnamed but contributory cell as the Innominate quadrant, where a nonzero amount of discovery and applied research also has value in generating scientific tools, novel processes or products that inform the other quadrants. More importantly, a reimagined Pasteur s quadrant schema shows a third dimension of Transformations over Time, occurring through a continuous fluid interchange among the quadrants. Transformative innovations may originate from any single quadrant. While work in Pasteur s quadrant has been shown to be highly productive, a dynamic fluid interchange among the quadrants is often involved and generates transformative advances at a faster rate. This should inform how we fund science, engineering, and medicine and educate the next generation of innovators.
AB - There has been a sea change in the scientific world, advanced even more rapidly by the recent compounded public crises. Accelerated discovery, and impact from such discoveries have come from convergence approaches across disciplines, sectors, institutions, and the multiple communities seeking the common goal of innovations that transform. The classic simultaneous pursuit of fundamental understanding and application has been termed Pasteur s quadrant, where use-inspired basic research occurs. In the classic schematic developed by Donald Stokes, three quadrants represent research approaches using a 2D plane in which the vertical dimension represents the quest for understanding (basic research) and the horizontal dimension represents the consideration of use (applied research). The three outer quadrants are Bohr s (pure basic research), Edison s (pure applied research), and Pasteur s (useinspired basic research). Viewing each of these axes as a continuum, we label the previously unnamed but contributory cell as the Innominate quadrant, where a nonzero amount of discovery and applied research also has value in generating scientific tools, novel processes or products that inform the other quadrants. More importantly, a reimagined Pasteur s quadrant schema shows a third dimension of Transformations over Time, occurring through a continuous fluid interchange among the quadrants. Transformative innovations may originate from any single quadrant. While work in Pasteur s quadrant has been shown to be highly productive, a dynamic fluid interchange among the quadrants is often involved and generates transformative advances at a faster rate. This should inform how we fund science, engineering, and medicine and educate the next generation of innovators.
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U2 - 10.1093/pnasnexus/pgac092
DO - 10.1093/pnasnexus/pgac092
M3 - Article
AN - SCOPUS:85176140634
SN - 2752-6542
VL - 1
JO - PNAS Nexus
JF - PNAS Nexus
IS - 3
M1 - pgac092
ER -