Dr Shaw graduated from Imperial College, London with a BSc in Biochemistry, before completing an MSc in Forensic Science at King's College, London. Following this, she was awarded PhD from the University of Hull in 2009 for work entitled "Integrated DNA extraction and amplification in microfluidic devices." She then spent three years as a Post-Doctoral Research Associate at the University of Hull developing microfluidic devices for a range of forensic and clinical diagnostics applications. Dr Shaw then joined the Division of Chemistry and Environmental Sciences as a Lecturer in Forensic Biology in July 2012.
Unit Leader:
6F5Z1104 - Biochemistry
6F5Z1110 - Forensic DNA Profiling
6F6Z1106 - Forensic Genetics
Additional Units Taught On:
6F5Z1101 - Professional Skills
6F6Z1108 - Frontiers in Biotechnology
6F6Z1122 - Project in Biology
Current PhD Students:
Benjamin Crane (with Dr. Patricia Linton, Dr. Mamum Rashid, Prof. Craig Banks and Dr. Alex Iles (University of Hull) - Determination of antibiotic susceptibility of the bacteria causing urinary tract infections using a novel electrochemical Lab-on-a-Chip device
Lauren McNeill (with Dr. Oliver Sutcliffe, Dr. David Megson and Dr. Patricia Linton) - Origami chips: Paper-based Lab-on-a-Chip devices for the rapid and cost-effectives detection of New Psychoactive Substances
Guuske Tiktak (with Prof. Richard Preziosi, Dr. Brad Cain and Dr. David Megson) - Anthropogenic threats for shark species in South America
Michal Zatrak (with Dr. Robyn Grant and Dr. Matt Geary (University of Chester) - Developing health and welfare assessment tools for harbour seals (Phoca vitulina) and grey seals (Halichoerus grypus)
Completed:
Rana Khayat (with Dr. Robyn Grant, Dr. Louise Melling, Dr. Gary Dougill and Dr. Glen Cooper (University of Manchester) - The cause and effect of wing tears on bats: Studying behaviour, physiology and ecology
Laila Patinglag (with Dr. David Sawtell, Dr. Louise Melling, Prof. Kathryn Whitehead and Dr. Alex Iles (University of Hull) - Microfluidic plasma reactor for plasma-based water treatment
Catherine Pearson (with Dr. Oliver Sutcliffe) - The detection of New Psychoactive Substances using microfluidic devices
My research focuses on the development of microfluidic systems applied to the miniaturisation of molecular biology techniques. Microfluidics relates to the manipulation of liquids within an environment of micrometer dimensions. It can offer numerous advantages over conventional systems including: reduced sample/reagent consumption, increased speed of analysis and reduced likelihood of contamination. In particular, microfluidics can be used in the generation of Lab-on-a-Chip (LOC) systems in which multiple processes are integrated together on a single device. Projects include the development of LOC devices for: forensic DNA profiling, detection of sexually transmitted infections, quantification of progesterone in saliva and ancient DNA analysis.
L. Patinglag, LM. Melling, KA. Whitehead, D. Sawtell, A. Iles, et al. KJ. Shaw. (2021). Non-thermal plasma-based inactivation of bacteria in water using a microfluidic reactor. Water Research. 201,
B. Crane, JP. Hughes, SJ. Rowley Neale, M. Rashid, PE. Linton, et al. CE. Banks, KJ. Shaw. (2021). Rapid antibiotic susceptibility testing using resazurin bulk modified screen-printed electrochemical sensing platforms. The Analyst. 146(18), pp.5574-5583.
L. Patinglag, LM. Melling, KA. Whitehead, D. Sawtell, A. Iles, et al. KJ. Shaw. (2021). Non-thermal plasma-based inactivation of bacteria in water using a microfluidic reactor. Water Research. 201,
R. Wimbles, LM. Melling, B. Cain, N. Davies, J. Doherty, et al. B. Johnson, KJ. Shaw. (2021). On-site genetic analysis for species identification using lab-on-a-chip. Ecology and Evolution. 11(4), pp.1535-1543.
GP. Tiktak, D. Butcher, PJ. Lawrence, J. Norrey, L. Bradley, et al. K. Shaw, R. Preziosi, D. Megson. (2020). Are concentrations of pollutants in sharks, rays and skates (Elasmobranchii) a cause for concern? A systematic review. Marine Pollution Bulletin. 160, pp.111701-111701.
K. Shaw, YH. Nai, S. Haswell (2018). Application of microfluidic methodology for the analysis of DNA. Micromachines. 9(1),
S. Aşır, D. Sarı, A. Derazshamshir, F. Yılmaz, K. Şarkaya, et al. A. Denizli. (2017). Dopamine‐imprinted monolithic column for capillary electrochromatography. ELECTROPHORESIS. 38(22-23), pp.3003-3012.
C. Birch, MMN. Esfahani, KJ. Shaw, C. Kemp, SJ. Haswell, et al. C. Dyer. (2017). The preparation of microfluidic architecture with monolithic materials using a dual porous silica structure. Electrophoresis. 38(22/23), pp.2996-3002.
KJ. Shaw, EM. Hughes, CE. Dyer, J. Greenman, SJ. Haswell (2013). Integrated RNA extraction and RT-PCR for semi-quantitative gene expression studies on a microfluidic device. Lab Invest. 93(8), pp.961-966.
J. Parton, N. Abu-Mandil Hassan, TA. Brown, SJ. Haswell, KA. Brown, et al. KJ. Shaw. (2013). Sex identification of ancient DNA samples using a microfluidic device. Journal of Archaeological Science. 40(1), pp.705-711.
L. Kashkary, C. Kemp, KJ. Shaw, GM. Greenway, SJ. Haswell (2012). Improved DNA extraction efficiency from low level cell numbers using a silica monolith based micro fluidic device. Anal Chim Acta. 750, pp.127-131.
C. Kemp, C. Birch, KJ. Shaw, GJ. Nixon, PT. Docker, et al. J. Greenman, JF. Huggett, SJ. Haswell, CA. Foy, CE. Dyer. (2012). Direct processing of clinically relevant large volume samples for the detection of sexually transmitted infectious agents from urine on a microfluidic device. Analytical Methods. 4(7), pp.2141-2144.
J. Parton, C. Birch, C. Kemp, SJ. Haswell, N. Pamme, et al. KJ. Shaw. (2012). Integrated DNA extraction and amplification using electrokinetic pumping in a microfluidic device. Analytical Methods. 4(1), pp.96-100.
KJ. Shaw, C. Birch, EM. Hughes, AD. Jakes, J. Greenman, et al. SJ. Haswell. (2011). Microsystems for personalized biomolecular diagnostics. Engineering in Life Sciences. 11(2), pp.121-132.
KJ. Shaw, DA. Joyce, PT. Docker, CE. Dyer, GM. Greenway, et al. J. Greenman, SJ. Haswell. (2011). Development of a real-world direct interface for integrated DNA extraction and amplification in a microfluidic device. Lab Chip. 11(3), pp.443-448.
KJ. Shaw, PT. Docker, JV. Yelland, CE. Dyer, J. Greenman, et al. GM. Greenway, SJ. Haswell. (2010). Rapid PCR amplification using a microfluidic device with integrated microwave heating and air impingement cooling. Lab Chip. 10(13), pp.1725-1728.
KJ. Shaw, DA. Joyce, PT. Docker, CE. Dyer, J. Greenman, et al. GM. Greenway, SJ. Haswell. (2009). Simple practical approach for sample loading prior to DNA extraction using a silica monolith in a microfluidic device. Lab Chip. 9(23), pp.3430-3432.
KJ. Shaw, L. Thain, PT. Docker, CE. Dyer, J. Greenman, et al. GM. Greenway, SJ. Haswell. (2009). The use of carrier RNA to enhance DNA extraction from microfluidic-based silica monoliths. Anal Chim Acta. 652(1-2), pp.231-233.
JA. Oakley, KJ. Shaw, PT. Docker, CE. Dyer, J. Greenman, et al. GM. Greenway, SJ. Haswell. (2009). Development of a bi-functional silica monolith for electro-osmotic pumping and DNA clean-up/extraction using gel-supported reagents in a microfluidic device. Lab Chip. 9(11), pp.1596-1600.
K. Shaw, I. Sesardić, N. Bristol, C. Ames, K. Dagnall, et al. C. Ellis, F. Whittaker, B. Daniel. (2008). Comparison of the effects of sterilisation techniques on subsequent DNA profiling. Int J Legal Med. 122(1), pp.29-33.
B. Crane, A. Iles, CE. Banks, M. Rashid, PE. Linton, et al. KJ. Shaw. (2022). MULTIPLEX ANTIBIOTIC SUSCEPTIBILITY TESTING USING AN ELECTROCHEMICAL MICROFLUIDIC DEVICE. In: MicroTAS 2022 - 26th International Conference on Miniaturized Systems for Chemistry and Life Sciences. pp.219-220.
A. Dean, J. Redfern, KJ. Shaw (2022). STUDENT ENGAGEMENT & ACHIEVEMENT IN A COURSE-BASED UNDERGRADUATE RESEARCH EXPERIENCE CREATING APPLIED MICROFLUIDIC DEVICES. In: MicroTAS 2022 - 26th International Conference on Miniaturized Systems for Chemistry and Life Sciences. pp.1175-1176.
L. Patinglag, M. Dickinson, KEH. Penkman, KJ. Shaw (2021). WISDOM TEETH: SAMPLE PREPARATION OF MAMMOTH TOOTH ENAMEL FOR DATING USING AMINO ACID RACEMIZATION. In: MicroTAS 2021 - 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences. pp.1681-1682.
L. Patinglag, LM. Melling, KA. Whitehead, D. Sawtell, A. Iles, et al. KJ. Shaw. (2021). NON-THERMAL PLASMA-BASED INACTIVATION OF BACTERIA IN WATER USING A MICROFLUIDIC REACTOR. In: MicroTAS 2021 - 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences. pp.1683-1684.
G. Tiktak, T. Hughes, M. Brandt, FR. Diz, KEB. Vasquez, et al. C. Peñaherrera, A. Gabb, B. Cain, D. Megson, R. Preziosi, KJ. Shaw. (2021). GENETIC IDENTIFICATION OF THREATENED HAMMERHEAD SHARKS ILLEGALLY SOLD AT ARTISNAL FISH MARKETS IN ECUADOR. In: MicroTAS 2021 - 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences. pp.129-130.
L. Greenhalgh, M. Rashid, PE. Linton, KJ. Shaw (2020). A Microfluidic Device for Nucleic Acid-Based Analysis of Helicobacter pylori and Antibiotic Susceptibility Testing. In: IFMBE Proceedings. Ho Chi Min City, 27/6/2018. pp.369-372.
R. Wimbles, LM. Melling, B. Cain, KJ. Shaw (2018). Conservation and wildlife forensic applications of a microfluidic device for threatened species. In: 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2018. pp.2268-2270.
L. Patinglag, D. Sawtell, A. Iles, L. Melling, K. Whitehead, et al. KJ. Shaw. (2018). Microfluidic atmospheric-pressure plasma reactor for water treatment. In: 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2018. pp.2271-2272.
O. Mosley, L. Melling, MD. Tarn, C. Kemp, MMN. Esfahani, et al. N. Pamme, KJ. Shaw. (2016). Sample introduction interface for on-chip nucleic acid-based analysis of Helicobacter pylori from stool samples. Dublin, Ireland, 9/10/2016.
KJ. Shaw, R. Vasiliadou, J. Parton, N. Pamme, SJ. Haswell (2012). Integrated DNA purification and amplification using FTA® paper and PCR reagent encapsulation. In: Proceedings of the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2012. pp.1396-1398.
C. Kemp, JM. Wojciechowska, MN. Esfahani, G. Benazzi, KJ. Shaw, et al. SJ. Haswell, N. Pamme. (2012). On-chip processing and dna extraction from large volume urine samples for the detection of herpes simplex virus type 2. In: Proceedings of the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2012. pp.911-913.
C. Kemp, C. Birch, KJ. Shaw, G. Nixon, PT. Docker, et al. J. Greenman, JF. Huggett, SJ. Haswell, C. Foy, CE. Dyer. (2010). Microfluidic devices for the detection of sexually transmitted infectious agents in a urine-based matrix. In: 14th International Conference on Miniaturized Systems for Chemistry and Life Sciences 2010, MicroTAS 2010. pp.112-114.
KJ. Shaw, J. Oakley, PT. Docker, CE. Dyer, J. Greenman, et al. GM. Greenway, SJ. Haswell. (2008). DNA extraction, using carrier RNA, integrated with agarose gel-based polymerase chain reaction in a microfluidic device. In: 12th International Conference on Miniaturized Systems for Chemistry and Life Sciences - The Proceedings of MicroTAS 2008 Conference. pp.1069-1071.
EM. Hughes, KJ. Shaw, PT. Docker, CE. Dyer, J. Greenman, et al. SJ. Haswell. (2008). Development of a microfluidic device for combined RNA extraction and realtime, reverse transcription polymerase chain reaction. In: 12th International Conference on Miniaturized Systems for Chemistry and Life Sciences - The Proceedings of MicroTAS 2008 Conference. pp.1722-1724.
Executive Technical Program Committee and Local Support Committee Member for microTAS 2016 (Twentieth International Conference on Miniaturized Systems for Chemistry and Life Sciences) http://www.microtas2016.org/
Technical Program Committee Member (2018 - 2020) for microTAS (International Conference on Miniaturized Systems for Chemistry and Life Sciences)
• National Geographic Exploration Grant: Lab on a chip for rapid, on-site genetic identification of illegally traded threatened shark species (Nov 2018, $25k, PI)
• Save our Seas Foundation Grant: Lab-on-a-Chip Technology for Rapid, On-site Identification of Threatened Shark Species (Dec 2018, $25k, PI)
You can find out more about this project at https://saveourseas.com/project-leader/kirsty-shaw/
• NERC Standard Grant: Wisdom Teeth: Refining our understanding of human evolution through dating dental enamel (July 2018, £800k, Co-I (£200 for MMU), with University of York)
You can find out more about this project at https://sites.google.com/york.ac.uk/wisdom-teeth/home
Member of the Chartered Society of Forensic Sciences (MCSFS)
Accredited assessor for the Chartered Society of Forensic Sciences (http://www.csofs.org/Kirsty-Shaw)
Senior Fellow of the Higher Education Academy (SFHEA)