Jonathan Cooper (bioengineering) explained

Jonathan Cooper (born 22 June 1961) is Professor of Engineering in the College of Science & Engineering at the University of Glasgow. Professor Cooper has held the Wolfson Chair in Bioengineering at the school since 2009.^[1]

Research and career

After graduating from a PhD at the University of Oxford, Cooper was employed as a lecturer at the University of Glasgow in 1991. He was awarded the title of Professor in 1998, becoming the youngest person to have been awarded the position at the university at the time. He was elected as a Fellow of the Royal Society of Edinburgh in 2001 and a Fellow of the Royal Academy of Engineering in 2004. In 2008 he was made the Wolfson Professor of Bioengineering, a position which he currently holds.

Cooper lectures undergraduate and masters programs on electronics and biomedical engineering at the University of Glasgow. In 2012 he established University of Glasgow’s degree programme in Biomedical Engineering, which was the first of its kind in Scotland.^[2] He has supervised over 40 PhD students since 1996, and was the leader of the EPSRC-funded Doctoral Training Centre in Bioengineering from 2006 to 2017.

As of June 2021 Cooper’s research has been published over 265 times in peer-reviewed journals such as Nature, PNAS, Lab on a Chip and Chemical Communications.^[3] He has developed techniques in a range of disciplines including Lab-on-a-Chip diagnostics, cell measurements and proteomics.^[4] His work has been recognised by many invited/plenary lectures at international conferences, including Microfluidics and Nano-fluidics, the European Congress of Lab-on-a-Chip, micro-Flu, European Congress of Lab-on-a-Chip and Asia Pacific Congress on Lab-on-a-Chip.

Field research

Cooper’s research in microfluidics includes the development of low-cost “origami” lateral flow diagnostics, which use folded paper to control the mixing of diagnostic reagents. This technique has been trialled for field use in several low-resource locations including Vietnam, for the early detection of sepsis, and in Uganda for the detection of tropical diseases such as malaria and schistosomiasis.^[5]

Awards and honours

• Elected Fellow of the Scotland’s National Academy of Science & Arts, Royal Society of Edinburgh (2001)
• Elected Fellow of the UK’s National Physics Academy, Institute of Physics (2003)
• Elected Fellow of the UK’s National Electronics Academy, Institute of Electrical Engineering (2003)
• Elected Fellow of the UK’s National Engineering Academy, Royal Academy of Engineering (2004)
• Royal Society Merit Award (2010)^[6]

Selected publications

• Moreddu. Rosalia. Elsherif. Mohamed. Adams. Hadie. Moschou. Despina. Cordeiro. Maria F.. Wolffsohn. James S.. Vigolo. Daniele. Butt. Haider. Cooper. Jonathan M.. Yetisen. Ali K.. 2020. Integration of paper microfluidic sensors into contact lenses for tear fluid analysis. Lab on a Chip. en. 20. 21. 3970–3979. 10.1039/D0LC00438C. 32944726. 221787094. 1473-0197.
• Ray. Aniruddha. Khalid. Muhammad Arslan. Demčenko. Andriejus. Daloglu. Mustafa. Tseng. Derek. Reboud. Julien. Cooper. Jonathan M.. Ozcan. Aydogan. December 2020. Holographic detection of nanoparticles using acoustically actuated nanolenses. Nature Communications. en. 11. 1. 171. 10.1038/s41467-019-13802-1. 2041-1723. 6965092. 31949134. 2020NatCo..11..171R.
• Reboud. Julien. Xu. Gaolian. Garrett. Alice. Adriko. Moses. Yang. Zhugen. Tukahebwa. Edridah M.. Rowell. Candia. Cooper. Jonathan M.. 2019-03-12. Paper-based microfluidics for DNA diagnostics of malaria in low resource underserved rural communities. Proceedings of the National Academy of Sciences. en. 116. 11. 4834–4842. 10.1073/pnas.1812296116. 0027-8424. 6421471. 30782834. 2019PNAS..116.4834R. free.
• Simon. Gergely. Pailhas. Yan. Andrade. Marco A. B.. Reboud. Julien. Marques-Hueso. Jose. Desmulliez. Marc P. Y.. Cooper. Jonathan M.. Riehle. Mathis O.. Bernassau. Anne L.. 2018-07-23. Particle separation in surface acoustic wave microfluidic devices using reprogrammable, pseudo-standing waves. Applied Physics Letters. en. 113. 4. 044101. 10.1063/1.5035261. 2018ApPhL.113d4101S. 55580684. 0003-6951.
• Yang. Zhugen. Xu. Gaolian. Reboud. Julien. Ali. Syed Atif. Kaur. Gurpreet. McGiven. John. Boby. Nongthombam. Gupta. Praveen K.. Chaudhuri. Pallab. Cooper. Jonathan M.. 2018-02-23. Rapid Veterinary Diagnosis of Bovine Reproductive Infectious Diseases from Semen Using Paper-Origami DNA Microfluidics. ACS Sensors. en. 3. 2. 403–409. 10.1021/acssensors.7b00825. 29322764. 3456643 . 2379-3694.
• Barrett. Michael P.. Cooper. Jonathan M.. Regnault. Clément. Holm. Stefan H.. Beech. Jason P.. Tegenfeldt. Jonas O.. Hochstetter. Axel. 2017-10-05. Microfluidics-Based Approaches to the Isolation of African Trypanosomes. Pathogens. en. 6. 4. 47. 10.3390/pathogens6040047. 2076-0817. 5750571. 28981471. free.
• Tassieri. Manlio. Giudice. Francesco Del. Robertson. Emma J.. Jain. Neena. Fries. Bettina. Wilson. Rab. Glidle. Andrew. Greco. Francesco. Netti. Paolo Antonio. Maffettone. Pier Luca. Bicanic. Tihana. August 2015. Microrheology with Optical Tweezers: Measuring the relative viscosity of solutions 'at a glance'. Scientific Reports. en. 5. 1. 8831. 10.1038/srep08831. 2045-2322. 4894396. 25743468. 2015NatSR...5E8831T.
• Menachery. Anoop. Kremer. Clemens. Wong. Pui E.. Carlsson. Allan. Neale. Steven L.. Barrett. Michael P.. Cooper. Jonathan M.. December 2012. Counterflow Dielectrophoresis for Trypanosome Enrichment and Detection in Blood. Scientific Reports. en. 2. 1. 775. 10.1038/srep00775. 2045-2322. 3481117. 23105971. 2012NatSR...2E.775M.
• Bourquin. Yannyk. Reboud. Julien. Wilson. Rab. Zhang. Yi. Cooper. Jonathan M.. 2011. Integrated immunoassay using tuneable surface acoustic waves and lensfree detection. Lab on a Chip. en. 11. 16. 2725–2730. 10.1039/c1lc20320g. 21725557. 1473-0197.
• Zarowna-Dabrowska. Alicja. Neale. Steven L.. Massoubre. David. McKendry. Jonathan. Rae. Bruce R.. Henderson. Robert K.. Rose. Mervyn J.. Yin. Huabing. Cooper. Jonathan M.. Gu. Erdan. Dawson. Martin D.. 2011-01-31. Miniaturized optoelectronic tweezers controlled by GaN micro-pixel light emitting diode arrays. Optics Express. en. 19. 3. 2720–2728. 10.1364/OE.19.002720. 21369093. 2011OExpr..19.2720Z. 1094-4087. 10072/52462. free.
• Wilson. Rab. Reboud. Julien. Bourquin. Yannyk. Neale. Steven L.. Zhang. Yi. Cooper. Jonathan M.. 2011. Phononic crystal structures for acoustically driven microfluidic manipulations. Lab Chip. en. 11. 2. 323–328. 10.1039/C0LC00234H. 21057690. 1473-0197.
• Bourquin. Yannyk. Reboud. Julien. Wilson. Rab. Cooper. Jonathan M.. 2010. Tuneable surface acoustic waves for fluid and particle manipulations on disposable chips. Lab on a Chip. en. 10. 15. 1898–2701. 10.1039/c004506c. 20535420. 1473-0197.
• Jordan. Pamela. Leach. Jonathan. Padgett. Miles. Blackburn. Paul. Isaacs. Neil. Goksör. Mattias. Hanstorp. Dag. Wright. Amanda. Girkin. John. Cooper. Jonathan. 2005. Creating permanent 3D arrangements of isolated cells using holographic optical tweezers. Lab on a Chip. en. 5. 11. 1224–1228. 10.1039/b509218c. 16234944. 1473-0197.

Notes and References

1. Web site: Professor Jonathan Cooper. University of Glasgow. Glasgow.
2. Web site: Jonathan Cooper: Using sound and light for disease diagnosis. 2021-06-21. spie.org.
3. Web site: Jon Cooper. 2021-06-21. scholar.google.co.uk.
4. Web site: Proceedings of the 6th UKRI PG Conference in Biomedical Engineering and Medical Physics 2011.
5. Web site: Low cost diagnostics for infectious disease elimination. 2021-06-21. www.gla.ac.uk. en.
6. Web site: Royal Society announces prestigious Wolfson Research Merit Awards Royal Society. 2021-06-21. royalsociety.org. en-gb.