Nkeiruka O. Ogidi
Determination of epithelial growth factor receptor mutations in circulatory tumour cells from non-small cell lung cancer patients isolated using a novel microfluidic device
Ogidi, Nkeiruka O.
Authors
Contributors
Professor John Greenman J.Greenman@hull.ac.uk
Supervisor
Professor Michael Lind M.J.Lind@hull.ac.uk
Supervisor
Abstract
Patients with epidermal growth factor receptor (EGFR) sensitizing mutations in non small cell lung cancer (NSCLC) receive benefit from Tyrosine Kinase inhibitors. Accurate selection of patients before treatment is highly dependent on precise molecular diagnosis of EGFR mutations. Presently in the clinic, the diagnostic samples routinely used tumour biopsy and/or cell free DNA (cfDNA), are not sufficiently effective for precise diagnosis. Circulatory tumour cells (CTC) in blood have been explored successfully as alternative and complementary diagnostic markers to the current clinical tools. However, utility in the clinics has been hampered by the relatively low concentration of CTC in blood, and the lack of robust technologies that are adaptable for routine use. The present study describes the design and optimization of an immunomagnetic based microfluidic device (Lung card version II) that isolates CTC expressing the epithelial cell adhesion molecule (EpCAM) from blood with high capture efficiency and purity. The device is a 2-part system comprising a disposable chip that is simple in design and a reusable microfluidic unit that contains a mobile magnetic arm. The simple design and work-flow process of the device ensures cost efficiency for scalability and, ultimately, use in the clinic. The device was initially validated for its capability to isolate EpCAM positive cells. Results from spiking carboxylfluorescein succinimidyl ester stained EpCAM positive cells in media/blood showed a capture efficiency of ≥ 65% and a purity ≥ 97% from a 13ml sample in 50 minutes. The isolated CTC from NSCLC patients (n=38) were analysed for mRNA markers specific to malignant cells and were characterized for EGFR mutations following PCR and next generation sequencing. The mutational status of CTC was compared to that obtained from matched, tumour biopsy, samples. Significantly more mutations (P=0.0173) were detected in CTC enriched samples than the matched biopsy. Interestingly, mutations were detected in only 4 biopsy samples and the mutations detected in the biopsy were only concordant with results from CTC enriched samples for 1 patient. Exon 19 deletion was the most frequent mutation detected (86.7%) with rare mutations such as: L792P, C797S, H509R also been detected in CTC, and the present study reports the detection of K708R mutation in NSCLC for the first time. The clinical outcomes of patients who were positive for EGFR mutation from CTC, but had been placed on therapies based on mutation results from tissue biopsy were evaluated in this study. The results showed that no significant progression free survival (PFS) benefit was attained when comparing treatment response between patients whose CTC possessed an EGFR mutation and patients whose CTC possessed no EGFR mutation (10 months vs26 months p value-0.3420 HR- 0.76 95% CI- 0.2498-2.319). In summary the results from this study showed that the microfluidic device captured CTC with efficiency equal to other immuno-affinity based devices but had better purity rates and throughput and also that the device can be utilized for CTC processing for downstream analysis. Results from this current study further demonstrated the clinical potential of CTC+NGS matrix for the detection of EGFR mutations and the prospective impact it would have for precision oncology in NSCLC are discussed.
Citation
Ogidi, N. O. Determination of epithelial growth factor receptor mutations in circulatory tumour cells from non-small cell lung cancer patients isolated using a novel microfluidic device. (Thesis). University of Hull. https://hull-repository.worktribe.com/output/4270004
Thesis Type | Thesis |
---|---|
Deposit Date | Apr 25, 2023 |
Publicly Available Date | Apr 25, 2023 |
Keywords | Medicine ; Biomedical sciences |
Public URL | https://hull-repository.worktribe.com/output/4270004 |
Additional Information | Centre for Biomedical Sciences, Hull York Medical School, The University of Hull and University of York |
Award Date | 2022-07 |
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Copyright Statement
© 2022 Nkeiruka Ogidi. All rights reserved. No part of this publication may be reproduced without the written permission of the copyright holder.
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