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Novel technology enables detection of early-stage lung cancer when surgical cure still is possible

Date:
October 8, 2018
Source:
Elsevier
Summary:
To improve outcomes for patients with non-small-cell lung carcinoma researchers are developing a blood test to detect lung cancer earlier in the disease. A report describes a new technology, electric field-induced release and measurement (EFIRM) that is both highly sensitive and specific in detecting two epidermal growth factor receptor (EGFR) mutations associated with lung cancer in the blood of NSCLC patients with early-stage disease. This platform is relatively inexpensive and capable of high-throughput testing.
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Non-small-cell lung carcinoma (NSCLC) is often fatal because most cases are not diagnosed until they are so advanced that surgical intervention is no longer possible. To improve outcomes researchers are developing a blood test to detect lung cancer earlier in the disease. A report in The Journal of Molecular Diagnostics describes a new technology, electric field-induced release and measurement (EFIRM) that is both highly sensitive and specific in detecting two epidermal growth factor receptor (EGFR) mutations associated with lung cancer in the blood of NSCLC patients with early-stage disease. This platform is relatively inexpensive and capable of high-throughput testing.

Despite advances in chemotherapy, five-year survival for patients diagnosed with unresectable NSCLC is less than 10 percent. The ability to diagnose NSCLC in stages 1 and 2, when surgical resection and potential cure are still possible, could significantly reduce the mortality from NSCLC worldwide. "The revolutionary EFIRM technology is the most exciting development in noninvasive liquid biopsy in recent years. The potential to detect early-stage lung cancer patients with an affordable blood or saliva test could save thousands to tens of thousands of lives annually worldwide," stated Charles M. Strom, MD, PhD, co-director of the Center for Oral/Head and Neck Oncology Research at the UCLA School of Dentistry, Los Angeles, CA, USA, and Senior Vice President and Chief Medical Officer of EZLife Bio, USA, Woodland Hills, CA, USA. The EFIRM technology can also be used to monitor treatment and detect recurrence in patients already diagnosed with NSCLC.

Previously, the investigators had successfully measured two actionable EGFR mutations (p.L858R and Exon 19del) in blood samples from patients with late-stage NSCLC using EFIRM technology. In the current study, they investigated whether the mutations could be found in samples from patients with early-stage disease.

The researchers collected plasma samples from 248 patients with radiographically-determined pulmonary nodules. Of those, 44 were diagnosed with Stage I or Stage II NSCLC (23 with biopsy-proven benign pulmonary nodules and 21 with Stage I or Stage II adenocarcinoma). EFIRM was able to detect the p.L858R mutation in 11 of 12 samples and the Exon 19del mutation in seven of nine samples, resulting in greater than 90 percent sensitivity and 80 percent specificity.

"Currently, the clinical sensitivity of EFIRM to detect patients with NSCLC is limited by the percentage of tumors containing either or both of the two variants, which is estimated at 27 percent of NSCLC tumors," explained co-investigator Wu-Chou Su, MD, of the Department of Internal Medicine, National Cheng Kung University Hospital and College of Medicine of the National Cheng Kung University, Tainan, Taiwan. "We are presently developing a 10-variant panel that contains detecting mutations expressed in 50 percent of all lung malignancies."

Investigators emphasize that this study does not present direct evidence that detecting EGFR mutations in the plasma of an individual is predictive that the patient has cancer. Future work will explore whether finding an EGFR mutation in the circulation has any predictive value. Currently, the EFIRM liquid biopsy may be helpful for guiding treatment selection in patients for whom biopsy material is not available.

"We are gratified by the performance of the EFIRM platform in patients whose tumors were still small enough to qualify for surgical care. Work is underway to increase the number of mutations analyzed and to automate the process to increase sensitivity and facilitate mass screening," commented Dr. Strom.


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Materials provided by Elsevier. Note: Content may be edited for style and length.


Journal Reference:

  1. Fang Wei, Charles M. Strom, Jordan Cheng, Chien-Chung Lin, Ching-Yun Hsu, Guy W. Soo Hoo, David Chia, Yong Kim, Feng Li, David Elashoff, Tristan Grognan, Michael Tu, Wei Liao, Rena Xian, Wayne W. Grody, Wu-Chou Su, David T.W. Wong. Electric Field–Induced Release and Measurement Liquid Biopsy for Noninvasive Early Lung Cancer Assessment. The Journal of Molecular Diagnostics, 2018; DOI: 10.1016/j.jmoldx.2018.06.008

Cite This Page:

Elsevier. "Novel technology enables detection of early-stage lung cancer when surgical cure still is possible." ScienceDaily. ScienceDaily, 8 October 2018. <www.sciencedaily.com/releases/2018/10/181008083507.htm>.
Elsevier. (2018, October 8). Novel technology enables detection of early-stage lung cancer when surgical cure still is possible. ScienceDaily. Retrieved December 3, 2024 from www.sciencedaily.com/releases/2018/10/181008083507.htm
Elsevier. "Novel technology enables detection of early-stage lung cancer when surgical cure still is possible." ScienceDaily. www.sciencedaily.com/releases/2018/10/181008083507.htm (accessed December 3, 2024).

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