Altaf Khetani scite author profile

The present paper demonstrates an antibody-free, robust, fast, and portable platform for detection of leukemia cells using Raman spectroscopy with a 785-nm laser diode coupled to a hollow core photonic crystal (HC-PCF) containing silver nanoparticles. Acute myeloid leukemia is one of the most common bone marrow cancers in children and youths. Clinical studies suggest that early diagnosis and remission evaluation of myoblasts in the bone marrow are pivotal for improving patient survival. However, the current protocols for leukemic cells detection involve the use of expensive antibodies and flow cytometers. Thus, we have developed a new technology for detection of leukemia cells up to 300 cells/ml using a compact fiber HC-PCF, which offers a novel alternative to existing clinical standards. Furthermore, we were also able to accurately distinguish live, apoptotic and necrotic leukemic cells.

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Monitoring of heparin concentration in serum by Raman spectroscopy within hollow core photonic crystal fiber

Khetani

Tiwari

Harb

et al. 2011

Opt. Express

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The feasibility of using hollow core photonic crystal fiber (HC-PCF) in conjunction with Raman spectroscopy has been explored for real time monitoring of heparin concentration in serum. Heparin is an important blood anti-coagulant whose precise monitoring and controlling in patients undergoing cardiac surgery and dialysis is of utmost importance. Our method of heparin monitoring offers a novel alternative to existing clinical procedures in terms of accuracy, response time and sample volume. The optical design configuration simply involves a 785-nm laser diode whose light is coupled into HC-PCF filled with heparin-serum mixtures. By non-selectively filling HC-PCF, a strong modal field overlap is obtained. Consequently, an enhanced Raman signal (>90 times) is obtained from various heparin-serum mixtures filled HC-PCFs compared to its bulk counterpart (cuvette). The present scheme has the potential to serve as a 'generic biosensing tool' for diagnosing a wide range of biological samples.

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Hollow core photonic crystal fiber as a reusable Raman biosensor

Khetani¹,

Riordon²,

Tiwari³

et al. 2013

Opt. Express

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We report that a single hollow core photonic crystal fiber (HC-PCF) can be used for repetitive characterization of multiple samples by Raman spectroscopy. This was achieved by integrating the HC-PCF to a differential pressure system that allowed effective filling, draining and re-filling of samples into a HC-PCF under identical optical conditions. Consequently, high-quality and reliable spectral data could be obtained which were suitable for multivariate analysis (partial least squares). With the present scheme, we were able to accurately predict different concentrations of heparin and adenosine in serum. Thus the detection scheme as presented here paves a path for the inclusion of HC-PCFs in point-of-care technologies and environmental monitoring where rapid sample characterization is of utmost importance.

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Raman Spectroscopy of Nanoparticles Using Hollow-Core Photonic Crystal Fibers

Irizar¹,

Dinglasan²,

Goh³

et al. 2008

IEEE J. Select. Topics Quantum Electron.

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Monitoring of adenosine within hollow core photonic crystal fiber by surface enhanced Raman scattering (SERS)

Khetani

Tiwari

Momenpour

et al. 2011

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Altaf Khetani

Hollow core photonic crystal fiber for monitoring leukemia cells using surface enhanced Raman scattering (SERS)

Monitoring of heparin concentration in serum by Raman spectroscopy within hollow core photonic crystal fiber

Hollow core photonic crystal fiber as a reusable Raman biosensor

Raman Spectroscopy of Nanoparticles Using Hollow-Core Photonic Crystal Fibers

Monitoring of adenosine within hollow core photonic crystal fiber by surface enhanced Raman scattering (SERS)

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