Abstract
The light interaction with the cell of any part or organ of the body gives useful information regarding the changes in optical properties for different cells. A photonic crystal fiber, selectively filled by the sample cell is proposed to detect the cancer cell based on the refractive index (RI). Upon considering the change of optical properties of the proposed fiber due to different RI of normal and cancer cell, sensitivities are attained of 11,428.57, 17,142.85, 31,428.57, and 34,285.71 nm/RIU for Jurkat, PC12, MCF-7, and MDA-MB-231 cell from the transmission spectrum obtained by the Sagnac interferometer phenomena.
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Ahmed, K., Ahmed, F., Roy, S., Paul, B.K., Aktar, M.N., Vigneswaran, D., Islam, M.S.: Refractive index-based blood components sensing in terahertz spectrum. IEEE Sens. J. 19(9), 3368–3375 (2019)
An, G., Li, S., An, Y., Wang, H., Zhang, X.: Glucose sensor realized with photonic crystal fiber-based Sagnac interferometer. Opt Commun 405, 143–146 (2017)
Ayyanar, N., Raja, G.T., Sharma, M., Kumar, D.S.: Photonic crystal fiber-based refractive index sensor for early detection of cancer. IEEE Sens. J. 18(17), 7093–7099 (2018)
Chowdhury, S., Verma, S., Gangopadhyay, T.K.: A comparative study and experimental observations of optical fiber sagnac interferometric based strain sensor by using different fibers. Opt Fiber Technol 48, 283–288 (2019)
L Clark. 1987 Among Implantable gas–containing biosensor and method for measuring an analyte such as glucose, U.S. Patent 4, 680, 268
Ding, X.Z., Yang, H.-Z., Qiao, X.-G., Zhang, P., Tian, O., Rong, Q.Z., Ahmad, H.: Mach-Zehnder interferometric magnetic field sensor based on a photonic crystal fiber and magnetic fluid. Appl. Opt. 57(9), 2050–2056 (2018)
Hajba, L., Guttman, A.: Circulating tumor-cell detection and capture using microfluidic devices. TrAC, Trends Anal. Chem. 59, 9–16 (2014)
Islam, M.S., Sultana, J., Ahmed, K., Islam, M.R., Dinovitser, A., Ng, B.W.-H., Abbott, D.: A novel approach for spectroscopic chemical identification using photonic crystal fiber in the terahertz regime. IEEE Sens. J. 18(2), 575–582 (2017)
Islam, M.S., Paul, B.K., Ahmed, K., Asaduzzaman, S., Islam, M.I., Chowdhury, S., Bahar, A.N.: Liquid-infiltrated photonic crystal fiber for sensing purpose: design and analysis. Alex Eng J 57(3), 1459–1466 (2018)
Jabin, M.A., Ahmed, K., Rana, M.J., Paul, B.K., Islam, M., Vigneswaran, D., Uddin, M.S.: Surface plasmon resonance based titanium coated biosensor for cancer cell detection. IEEE Photonics J. 11(4), 1–10 (2019)
Lee, B.H., Kim, Y.H., Park, K.S., Eom, J.B., Kim, M.J., Rho, B.S., Choi, H.Y.: Interferometric fiber optic sensors. Sensors 12(3), 2467–2486 (2012)
Li, T., Fan, Q., Liu, T., Zhu, X., Zhao, J., Li, G.: Detection of breast cancer cells specially and accurately by an electrochemical method. Biosens. Bioelectron. 25(12), 2686–2689 (2010)
Li, F.R., Li, Q., Zhou, H.X., Qi, H., Deng, C.Y.: Detection of circulating tumor cells in breast cancer with a refined immunomagnetic nanoparticle enriched assay and nested-RT-PCR. Nanomed Nanotechnol Biol Med 9(7), 1106–1113 (2013)
Liu, S., Li, L., Chen, Z., Chen, N., Dai, Z., Huang, J., Lu, B.: Surface-enhanced Raman spectroscopy measurement of cancerous cells with optical fiber sensor. Chin Opt Lett 12(s1), S13001 (2014)
Liu, Q., Xin, L., Wu, Z.: Refractive index sensor of a photonic crystal fiber Sagnac interferometer based on variable polarization states. Appl. Phys. Express 12(6), 062009 (2019)
Liu, X., Lou, S., Tang, Z., Wang, X.: Tunable and switchable triple-wavelength ytterbium-doped fiber ring laser based on Sagnac interferometer with a polarization-maintaining photonic crystal fiber. Opt. Laser Technol. 122, 105848 (2020)
Ma, M., Chen, H., Li, S., Jing, X., Zhang, W., Wang, M.: Analysis of a Magnetic Field Sensor Based on a Sagnac Interferometer Using a Magnetic Fluid-Filled Birefringent Photonic Crystal Fiber. IEEE Photonics J. 11(4), 1–10 (2019)
Mollah, M.A., Razzak, S.A., Paul, A.K., Hasan, M.R.: Microstructure optical fiber based plasmonic refractive index sensor. Sens Bio-Sens Res 24, 100286 (2019)
Mollah, M.A., Islam, S.R., Yousufali, M., Abdulrazak, L.F., Hossain, M.B., Amiri, I.: Plasmonic temperature sensor using D-shaped photonic crystal fiber. Results Phys 16, 102966 (2020a)
Mollah, M.A., Yousufali, M., Faysal, M.R.B.A., Hasan, M.R., Hossain, M.B., Amiri, I.: Highly Sensitive Photonic Crystal Fiber Salinity Sensor Based on Sagnac Interferometer. Results Phys 16, 103022 (2020b)
Mollah, M.A., Yousufali, M., Ankan, I.M., Rahman, M.M., Sarker, H., Chakrabarti, K.: Twin core photonic crystal fiber refractive index sensor for early detection of blood cancer. Sens Bio-Sens Res 29, 100344 (2020c)
Neugebauer, U., Clement, J.H., Bocklitz, T., Krafft, C., Popp, J.: Identification and differentiation of single cells from peripheral blood by Raman spectroscopic imaging. J. Biophotonics 3(8–9), 579–587 (2010)
Ni, Y., Zhang, L., An, L., Peng, J., Fan, C.: Dual-core photonic crystal fiber for dispersion compensation. IEEE Photonics Technol. Lett. 16(6), 1516–1518 (2004)
Panda, A., Devi, P.P.: Photonic crystal biosensor for refractive index based cancerous cell detection. Opt Fiber Technol 54, 102123 (2020)
Paul, B.K., Ahmed, K., Asaduzzaman, S., Islam, M.S.: Folded cladding porous shaped photonic crystal fiber with high sensitivity in optical sensing applications: design and analysis. Sens Bio-Sens Res 12, 36–42 (2017)
Paul, B.K., Ahmed, K., Vigneswaran, D., Sen, S., Islam, M.S.: Quasi photonic crystal fiber for chemical sensing purpose in the terahertz regime: design and analysis. Opt. Quant. Electron. 51(7), 238 (2019)
Ramanujam, N.R., Amiri, I., Taya, S.A., Olyaee, S., Udaiyakumar, R., Pandian, A.P., Yupapin, P.: Enhanced sensitivity of cancer cell using one dimensional nano composite material coated photonic crystal. Microsyst. Technol. 25(1), 189–196 (2019)
Ribaut, C., Loyez, M., Larrieu, J.-C., Chevineau, S., Lambert, P., Remmelink, M., Caucheteur, C.: Cancer biomarker sensing using packaged plasmonic optical fiber gratings: Towards in vivo diagnosis. Biosens. Bioelectron. 92, 449–456 (2017)
Sharma, P., Sharan, P., Deshmukh, P. (2015). A photonic crystal sensor for analysis and detection of cancer cells. Paper presented at the 2015 International Conference on Pervasive Computing (ICPC)
Sun, D., Ran, Y., Wang, G.: Label-free detection of cancer biomarkers using an in-line taper fiber-optic interferometer and a fiber Bragg grating. Sensors 17(11), 2559 (2017)
Sun, H., Shao, M., Han, L., Liang, J., Zhang, R., Fu, H.: Large core-offset based in-fiber Michelson interferometer for humidity sensing. Opt Fiber Technol 55, 102153 (2020)
World health organization, Cancer, (2018) https://www.who.int/news-room/fact-sheets/detail/cancer#
Zhang, G., Wu, X., Li, S., Ge, Q., Shi, J., Wang, H., Yu, B.: Temperature-insensitive Fabry-Perot interferometer for microseism sensing based on hollow core photonic crystal fibres. Opt. Lasers Eng. 126, 105862 (2020)
Zhou, J., Zheng, Y., Liu, J., Bing, X., Hua, J., Zhang, H.: A paper-based detection method of cancer cells using the photo-thermal effect of nanocomposite. J. Pharm. Biomed. Anal. 117, 333–337 (2016)
Zuo, J., Han, T., Yang, J., Chen, Y., Lin, Y.-G., Cai, J.: High Sensitivity Temperature Sensor With an Avoided-Crossing Based Selective-Filling High Birefringent Photonic Crystal Fiber Sagnac Interferometer. IEEE Access 6, 45527–45533 (2018)
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Mollah, M.A., Usha, R.J., Tasnim, S. et al. Detection of cancer affected cell using Sagnac interferometer based photonic crystal fiber refractive index sensor. Opt Quant Electron 52, 421 (2020). https://doi.org/10.1007/s11082-020-02542-y
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DOI: https://doi.org/10.1007/s11082-020-02542-y