Lung Cancer Clinical Trial
Official title:
Diagnosis of Lung Cancer From Exhaled Breath With Silicon Biophotonic Device.
The overall objective of this proposal is to develop a non-invasive, inexpensive and
accurate device that detects VOCs in exhaled breath for lung cancer screening. Toward this
goal, the team will design and fabricate a biophotonic platform consists of arrays of
silicon micro-ring resonator sensors coated with polymers with different organic
functionalities, in which each sensor is widely responsive to a variety of VOCs for the
detection of lung cancer by means of breath testing. The team will identify signature VOCs
as lung cancer biomarkers by comparison VOC contents between alveolar gas that directly
sampled from the nodule or mass and exhaled breath using gas chromatography/ mass
spectrometry.
The specific aims of this proposal are as followings:
Aim 1: To develop a biophotonic platform for the detection of VOCs
Aim 2: To achieve multiplex detection of VOCs with high sensitivity and specificity using a
novel biophotonic device.
Aim 3: To evaluate the device as a lung cancer screening tool by testing both healthy and
lung cancer breath samples
Lung cancer is the leading cause of cancer deaths throughout the world and accounts for more
than 1.2M new cases worldwide annually, making lung cancer one of the most serious public
health problems in industrialized countries. Up to date there is no valid screening method
for lung cancer. Thus it is often diagnosed at an advance stage when treatment is less
effective, which consequantly leads to high mortality rate. However, with early diagnosis
and treatment, the 5-year survival rate improves dramatically from 1% in stage 4, 20% in
stage 3 to 70% in stage 1 disease. Therefore early diagnosis plays a pivotal role in
improving survival for this otherwise uniformly fatal disease. In recently studies, it was
found that some of the products of metabolism, called volatile organic comounds (VOCs), are
carried in the breath and can serve as biomarkers. Cancer cells produce different types of
VOCs than normal cells do. More importantly, these VOC markers can be found in exhaled
breath for cancer stages 1 through 4.
Combining the strength of IME's in the biophotonics, the research groups at NUS in basic
science and the NUH clinician's knowledge and expertise in lung cancer, this proposal is
aiming to tackle the challenge of lung cancer screening by developing a non-invasive,
inexpensive, and accurate sensor platform to detect VOCs in exhaled breath. The device will
consists of arrays of silicon micro-ring resonator sensors coated with polymers with
different organic functionalities, in which each sensor is widely responsive to a variety of
VOCs. In this proposal, we plan to build a prototype device and test for the detection of
VOCs in exhaled breath from healthy controls and lung cancer patients. The successful
outcome of this proposal would have an immense impact on lung cancer management by enabling
an early stage cancer screening.
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