Biospectroscopic analysis of human breast cancer tissue: probing infrared signatures to comprehend biochemical alterations
IR@NPL: CSIR-National Physical Laboratory, New Delhi
View Archive InfoField | Value | |
Title |
Biospectroscopic analysis of human breast cancer tissue: probing infrared signatures to comprehend biochemical alterations
|
|
Creator |
Mehrotra, Ranjana
Tyagi, Gunjan Charak, Sonika Ray, Bhumika Kadayaprath, Geeta Chaturvedi, Harit Mukherjee, Urmi Abrari, Andleeb |
|
Subject |
Biochemistry & Molecular Biology
Biophysics |
|
Description |
Breast cancer (BC) is one of the most studied and lead-
ing form of malignancy in human females. Currently,
studies conducted in the
fi
eld of breast cancer focuses on
its early detection using noninvasive or minimally inva-
sive techniques in lieu of traditional excisional biopsy, as
cancer treatment is often simpler and effective, when
diagnosed at an early stage. Mammography is the
fi
rst
step, usually performed in diagnosing breast cancer, but
at times mammogram may not be able to provide a clear
picture. In addition, biopsy is performed to con
fi
rm the
presence or absence of tumor, which is associated with
false-positive results. Consequently, the limitations of
current screening methods have shifted the focal area of
oncological research in applying biospectroscopy tech-
niques for diagnostics (Gajjar et al.,
2014
).
Infrared (IR) and Raman spectroscopy are versatile
vibrational spectroscopy methods that have been used to
discriminate normal and cancer tissue and/or cell of dif-
ferent kinds, including endometrial cancer, cervical can-
cer, lung cancer, precancerous lesion, and brain tumors
(Gajjar et al.,
2013
). Coupled with some algorithms
(Gajjar et al.,
2013
), these spectroscopic outcomes can
deliver an objective, high throughput and low-cost solu-
tion to breast cancer diagnosis. Infrared spectroscopy
(IR) has expanded its application in the
fi
eld of human
biology, since it was revealed that biological molecules
present in a living tissue possess vibrational features that
can be studied to derive their molecular information.
Thus, the biochemical modi
fi
cation in a normal
tissue/cell can be analyzed and compared to its malignant
state (Gajjar et al.,
2014
). Further, several reports have
highlighted its advancement in both near- and mid-
infrared regions, making it an ef
fi
cient and convenient
method for clinical purposes. From last few years, FTIR
spectrophotometer has been exploited to study the
molecular and structural characteristics of proteins, car-
bohydrates, lipids, and nucleic acids. Initially, Chirgadze
and Nevskaya in 1976 studied the infrared spectral fea-
tures of amide I and amide II (Chirgadze & Nevskaya,
1976
). Further, in an investigation, Liquier and his col-
leagues (Liquier, Taboury, Taillandier, & Brahms,
1977
)
demonstrated that FTIR spectroscopy could be utilized to
identify the different conformations of DNA (Liquier
et al.,
1977
). In the year 2000, using infrared spectro-
scopic vibrations, Bouchard and his co-researchers,
revealed the structure of insulin and described the forma-
tion of amyloid
fi
brils via insulin, which involves sub-
stantial unfolding of the native protein (Bouchard,
Zurdo, Nettleton, Dobson, & Robinson,
2000
). Since
then, many more complex studies have been conducted
on proteins and nucleic acids (DNA/RNA) structures,
their conformations and interactions with small ligands.
The biochemical changes in a cell/tissue generally lead
to nuclear, cytoplasmic and morphological variations and
hence, FTIR spectroscopy could detect these alterations
during the developmental stages of cancer before mor-
phological and cytological changes are evident under
light microscope. Many studies have shown that spectro-
scopic techniques (with different sampling modes) can
differentiate the biochemistry of normal and neoplastic
cells. It has been employed to investigate the carcinoma
of the breast, esophagus, colon, stomach, and prostate
signi
fi
cantl
|
|
Publisher |
Taylor & Francis
|
|
Date |
2018
|
|
Type |
Article
PeerReviewed |
|
Format |
application/pdf
|
|
Identifier |
http://npl.csircentral.net/4043/1/Biospectroscopic%20analysis%20of%20human.pdf
Mehrotra, Ranjana and Tyagi, Gunjan and Charak, Sonika and Ray, Bhumika and Kadayaprath, Geeta and Chaturvedi, Harit and Mukherjee, Urmi and Abrari, Andleeb (2018) Biospectroscopic analysis of human breast cancer tissue: probing infrared signatures to comprehend biochemical alterations. Journal of Biomolecular Structure and Dynamics, 36 (3). pp. 761-766. ISSN 0739-1102 |
|
Relation |
http://npl.csircentral.net/4043/
|
|