Analysis of volatile organic compounds (VOCs) emitted
from the
human organism can provide useful information about normal physiological
processes as well as pathological disorders. The aim of this work
is to develop a portable, inexpensive, on-site, fast, small design
paper-based device based on the electronic nose (E-nose) concept for
the detection of malignancy in gastric cancer (GC) by analyzing volatile
organic compounds emitted from human tissue. For this purpose, cancerous
and noncancerous tissue samples were provided from 22 patients diagnosed
with GC, esophageal cancer (EC), and neuroendocrine carcinoma (NEC).
In this system, eight types of fluorescent metallic nanoclusters (NCs)
as sensing elements were immobilized on a paper substrate. A microcentrifuge
tube was used to create a reaction environment to communicate between
a paper device containing NCs and VOCs emitted from tissue samples.
After exposing the sensors to headspace of the tissues, the emitted
VOCs reacted with NCs and led to changes in the fluorescence intensity
of NCs. For pattern recognition and statistical analysis, chemometric
methods including principal component analysis, linear discriminant
analysis, and partial least square discriminant analysis were applied.
The sensor array was able to discriminate between fresh cancerous
and normal tissues with 95% accuracy. In summary, we fabricated an
optical nose device that can sniff the odor of tissues and then identify
the malignant tissues in less than 4 h. So, it has the potential for
point-of-need applications in the hospital and can offer results in
the same time duration required for a patient to recover from anesthesia.
Polycyclic aromatic hydrocarbons (PAHs) are persistent contaminants in the environment. Several of them have carcinogenic properties. There is considerable interest in their sensitive low-cost detection and monitoring. We present a...
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