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مقالات فارسیISIکنفرانسهاژورنالها

Nano-fluorophores as enhanced diagnostic tools to improve cellular imaging

محل انتشار: مجله علوم نانو، دوره: 9، شماره: 4
سال انتشار: 1401
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 103

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لینک ثابت به این مقاله:
https://civilica.com/doc/1528790

شناسه ملی سند علمی:

JR_NAMJ-9-4_003

تاریخ نمایه سازی: 11 مهر 1401

چکیده مقاله:

Biological events can be mapped in real-time using fluorescent images at high spatial resolution through the use of a powerful tool called fluorescence, and it is necessary to have ultra-bright fluorescent probes. The detrimental effects associated with the existing fluorescence imaging probes and contrast agents are the primary reason behind the greater involvement of nanotechnology. Developing advanced particles at the molecular and supramolecular levels is the only way to address the constraints underlying the current scenario. Nanosized structures dominate in multiple fields, especially in nanotheranostics, due to their higher quantum yield, negligible photobleaching, excellent biocompatibility, tunable optical properties, and improved circulation half-lives. Nanofluorophores, which are nanoparticles encapsulated or doped with fluorescent dyes, play a crucial role in fluorescence-based imaging modality by providing noninvasive real-time monitoring of the inner machinery of the anatomical and cellular structures. In addition to fluorescent inorganic and organic nanoparticles, there are labeled hydrophilic and hydrophobic nanostructures, semiconducting dots, carbon dots, as well as upconversion nanomaterials, etc., which are widely used in fluorescent imaging. A comprehensive literature survey has been provided in this review since intense studies are needed to clear the preclinic stage, thus opening up opportunities for future biomedical applications.

کلیدواژه ها:

Biomedical imaging ، Carbon dots ، Fluorescence imaging ، Nanoformulation ، Nanotheranostics ، Quantum dots

نویسندگان

Pemula Gowtham

Medical Bionanotechnology, Faculty of Allied Health Sciences, Chettinad Hospital & Research Institute (CHRI), Chettinad Academy of Research and Education (CARE), Kelambakkam, Chennai-۶۰۳ ۱۰۳, India

Karthick Harini

Medical Bionanotechnology, Faculty of Allied Health Sciences, Chettinad Hospital & Research Institute (CHRI), Chettinad Academy of Research and Education (CARE), Kelambakkam, Chennai-۶۰۳ ۱۰۳, India

Pragya Pallavi

Medical Bionanotechnology, Faculty of Allied Health Sciences, Chettinad Hospital & Research Institute (CHRI), Chettinad Academy of Research and Education (CARE), Kelambakkam, Chennai-۶۰۳ ۱۰۳, India

Koyeli Girigoswami

Medical Bionanotechnology, Faculty of Allied Health Sciences, Chettinad Hospital & Research Institute (CHRI), Chettinad Academy of Research and Education (CARE), Kelambakkam, Chennai-۶۰۳ ۱۰۳, India

Agnishwar Girigoswami

Medical Bionanotechnology, Faculty of Allied Health Sciences, Chettinad Hospital & Research Institute (CHRI), Chettinad Academy of Research and Education (CARE), Kelambakkam, Chennai-۶۰۳ ۱۰۳, India

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  • Massoud TF, Gambhir SS. Molecular imaging in living subjects: seeing ...
  • Pichler BJ, Wehrl HF, Judenhofer MS. Latest advances in molecular ...
  • Hsiao WW-W, Hui YY, Tsai P-C, Chang H-C. Fluorescent nanodiamond: ...
  • Gowtham P, Haribabu V, Prabhu AD, Pallavi P, Girigoswami K, ...
  • Sharmiladevi P, Girigoswami K, Haribabu V, Girigoswami A. Nano-enabled theranostics ...
  • Haribabu V, Girigoswami K, Sharmiladevi P, Girigoswami A. Water–Nanomaterial Interaction ...
  • Haribabu V, Sharmiladevi P, Akhtar N, Farook AS, Girigoswami K, ...
  • Sharmiladevi P, Haribabu V, Girigoswami K, Farook AS, Girigoswami A. ...
  • Girigoswami A, Yassine W, Sharmiladevi P, Haribabu V, Girigoswami K. ...
  • Yao J, Yang M, Duan Y. Chemistry, biology, and medicine ...
  • Farka Z, Jurik T, Kovář D, Trnkova L, Skládal P. ...
  • Lakowicz JR. Principles of fluorescence spectroscopy: Springer; ۲۰۰۶ ...
  • Lichtman JW, Conchello J-A. Fluorescence microscopy. Nat Methods. ۲۰۰۵;۲(۱۲):۹۱۰-۹۱۹ ...
  • Feng S, Zhu L, Wang D, Li C, Chen Y, ...
  • Xu Z, Zhang Q, Li X, Huang X. A critical ...
  • Godumala M, Kumar AV, Chandrasekar R. Room-temperature phosphorescent organic materials ...
  • Sasaki S, Drummen GP, Konishi G-i. Recent advances in twisted ...
  • Qi S, Kwon N, Yim Y, Nguyen V-N, Yoon J. ...
  • Wu Q-Y, Zhou T-H, Du Y, Ye B, Wang W-L, ...
  • Geng T, Zhu Z, Zhang W, Wang Y. A nitrogen-rich ...
  • Berezin MY, Achilefu S. Fluorescence lifetime measurements and biological imaging. ...
  • Chang CW, Sud D, Mycek MA. Fluorescence lifetime imaging microscopy. ...
  • Hutchinson CL, Lakowicz J, Sevick-Muraca EM. Fluorescence lifetime-based sensing in ...
  • Munishkina LA, Fink AL. Fluorescence as a method to reveal ...
  • Würth C, González MG, Niessner R, Panne U, Haisch C, ...
  • Rurack K. Fluorescence quantum yields: methods of determination and standards. ...
  • Mohanty J, Jaffe JS, Schulman ES, Raible DG. A highly ...
  • Hasegawa M, Sugimura T, Suzaki Y, Shindo Y, Kitahara A. ...
  • Jaiganesh T, Rani JDV, Girigoswami A. Spectroscopically characterized cadmium sulfide ...
  • Jamieson T, Bakhshi R, Petrova D, Pocock R, Imani M, ...
  • Yariv E, Schultheiss S, Saraidarov T, Reisfeld R. Efficiency and ...
  • Demchenko AP. Photobleaching of organic fluorophores: quantitative characterization, mechanisms, protection. ...
  • Gupta N, Todi K, Narayan T, Malhotra B. Graphitic carbon ...
  • Zheng Y, Zhou Y, Cui X, Yin H, Ai S. ...
  • Eagle FW, Park N, Cash M, Cossairt BM. Surface Chemistry ...
  • Ding F, Fan Y, Sun Y, Zhang F. Beyond ۱۰۰۰ ...
  • McHugh KJ, Jing L, Behrens AM, Jayawardena S, Tang W, ...
  • Åkerman ME, Chan WC, Laakkonen P, Bhatia SN, Ruoslahti E. ...
  • Yu X, Chen L, Deng Y, Li K, Wang Q, ...
  • Tiwari DK, Jin T, Behari J. Bio-distribution and toxicity assessment ...
  • Lin H, Wang C, Wu J, Xu Z, Huang Y, ...
  • Brunetti J, Riolo G, Gentile M, Bernini A, Paccagnini E, ...
  • Kwon J, Jun S, Choi S, Mao X, Kim J, ...
  • Chen H, Liu Z, Wei B, Huang J, You X, ...
  • Li S-L, Jiang P, Hua S, Jiang F-L, Liu Y. ...
  • Rafieerad A, Yan W, Sequiera GL, Sareen N, Abu‐El‐Rub E, ...
  • Kim MW, Jeong HY, Kang SJ, Jeong IH, Choi MJ, ...
  • Hua X-W, Bao Y-W, Chen Z, Wu F-G. Carbon quantum ...
  • Chakraborty SK, Fitzpatrick JA, Phillippi JA, Andreko S, Waggoner AS, ...
  • Cai W, Chen X. Preparation of peptide-conjugated quantum dots for ...
  • He X, Gao L, Ma N. One-step instant synthesis of ...
  • Cambi A, Lidke DS, Arndt-Jovin DJ, Figdor CG, Jovin TM. ...
  • Chakravarthy KV, Davidson BA, Helinski JD, Ding H, Law W-C, ...
  • Ruan G, Agrawal A, Marcus AI, Nie S. Imaging and ...
  • Singh SP. Multifunctional magnetic quantum dots for cancer theranostics. J ...
  • Tiron A, Stan CS, Luta G, Uritu CM, Vacarean-Trandafir I-C, ...
  • Bao X, Yuan Y, Chen J, Zhang B, Li D, ...
  • Li Y, Bai G, Zeng S, Hao J. Theranostic carbon ...
  • Zhao H, Duan J, Xiao Y, Tang G, Wu C, ...
  • Wu D, Li BL, Zhao Q, Liu Q, Wang D, ...
  • Wu F, Yue L, Su H, Wang K, Yang L, ...
  • He X, Luo Q, Zhang J, Chen P, Wang H-J, ...
  • Pei M, Jia X, Liu P. Design of Janus-like PMMA-PEG-FA ...
  • Su Y, Liu S, Guan Y, Xie Z, Zheng M, ...
  • Dehvari K, Liu KY, Tseng P-J, Gedda G, Girma WM, ...
  • Chen Q, Sun S, Lin H, Li Z, Wu A, ...
  • Zhang M, Zheng T, Sheng B, Wu F, Zhang Q, ...
  • Zhao S, Tian R, Shao B, Feng Y, Yuan S, ...
  • Lakshmanan A, Akasov RA, Sholina NV, Demina PA, Generalova AN, ...
  • Jin X, Zeng Q, Zheng J, Xing D, Zhang T. ...
  • Zhou S, Ding C, Wang Y, Jiang W, Fu J. ...
  • Wang Y, Li Y, Zhang Z, Wang L, Wang D, ...
  • Wang M, Zhang Y, Ng M, Skripka A, Cheng T, ...
  • Gulzar A, Xu J, Yang D, Xu L, He F, ...
  • Ramírez-García G, Honorato-Colin MÁ, De la Rosa E, López-Luke T, ...
  • Shiah JV, Grandis JR, Johnson DE. Targeting STAT۳ with Proteolysis ...
  • Meng L, Wang Q, Wang L, Zhao Z, Xin G-Z, ...
  • Zhao S, Tian R, Shao B, Feng Y, Yuan S, ...
  • Liu C, Zhang F, Hu J, Gao W, Zhang M. ...
  • Sharmiladevi P, Akhtar N, Haribabu V, Girigoswami K, Chattopadhyay S, ...
  • Islam M, Lantada AD, Mager D, Korvink JG. Carbon‐Based Materials ...
  • Tarvirdipour S, Huang X, Mihali V, Schoenenberger C-A, Palivan CG. ...
  • Wang J, Liu G, Cham-Fai Leung K, Loffroy R, Lu ...
  • Zhou B, Guo Z, Lin Z, Zhang L, Jiang B-P, ...
  • Shaner NC, Patterson GH, Davidson MW. Advances in fluorescent protein ...
  • Mansouri M, Strittmatter T, Fussenegger M. Light‐controlled mammalian cells and ...
  • Hoffman RM. Application of GFP imaging in cancer. Lab Invest. ...
  • Deng H, Yan S, Huang Y, Lei C, Nie Z. ...
  • Gilad AA, Winnard Jr PT, van Zijl PC, Bulte JW. ...
  • Tsien RY. The green fluorescent protein. Annu Rev Biochem. ۱۹۹۸;۶۷(۱):۵۰۹-۵۴۴ ...
  • Pakhomov AA, Martynov VI. GFP family: structural insights into spectral ...
  • Christou NE, Giandoreggio-Barranco K, Ayala I, Glushonkov O, Adam V, ...
  • Romei MG, Boxer SG. Split green fluorescent proteins: scope, limitations, ...
  • Razansky D, Klohs J, Ni R. Multi-scale optoacoustic molecular imaging ...
  • Wu W, Li Z. Nanoprobes with aggregation-induced emission for theranostics. ...
  • Zhang L, Che W, Yang Z, Liu X, Liu S, ...
  • Zalmi GA, Jadhav RW, Mirgane HA, Bhosale SV. Recent Advances ...
  • Zhao E, Gu X. Aggregation-Induced Emission (AIE) Probes for Cell ...
  • Wang Y, Zhang Y, Wang J, Liang X-J. Aggregation-induced emission ...
  • Srivatsan A, Pera P, Joshi P, Marko AJ, Durrani F, ...
  • Loudos G, Rouchota MT. In vivo Imaging as a Tool ...
  • Chaudhari AJ, Badawi RD. Application-specific nuclear medical in vivo imaging ...
  • Iravani A, Hicks RJ. Imaging the cancer immune environment and ...
  • Rahman WT, Wale DJ, Viglianti BL, Townsend DM, Manganaro MS, ...
  • Bernhard W, Barreto K, El-Sayed A, Gonzalez C, Viswas RS, ...
  • Wellens LM, Deken MM, Sier CF, Johnson HR, de la ...
  • Kurbegovic S, Juhl K, Sørensen KK, Leth J, Willemoe GL, ...
  • Xie R, Wu Z, Zeng F, Cai H, Wang D, ...
  • Xu S, Shi X, Chu C, Liu G. A TME-activated ...
  • Zhu Y-L, Shen Y-C, Liu F, Chen S, Yan G-P, ...
  • Yusnaini R, Ikhsan I, Idroes R, Munawar A, Arabia T, ...
  • Chandrasekaran I, Panigrahi SS, Ravikanth L, Singh CB. Potential of ...
  • Fausto R, Ildiz GO, Nunes CM. IR-induced and tunneling reactions ...
  • Cwalinski T, Polom W, Marano L, Roviello G, D’Angelo A, ...
  • Wang L, Liang M, Xiao Y, Chen J, Mei C, ...
  • Polikarpov DM, Campbell DH, McRobb LS, Wu J, Lund ME, ...
  • Wu Y, Ang MJY, Sun M, Huang B, Liu X. ...
  • Akhtar N, Wu P-W, Chen CL, Chang W-Y, Liu R-S, ...
  • Yamini S, Gunaseelan M, Kumar G, Singh S, Dannangoda GC, ...
  • Yamini S, Gunaseelan M, Gangadharan A, Lopez SA, Martirosyan KS, ...
  • Wen S, Zhou J, Zheng K, Bednarkiewicz A, Liu X, ...
  • Gee A, Xu X. Surface functionalisation of upconversion nanoparticles with ...
  • Perumal V, Sivakumar PM, Zarrabi A, Muthupandian S, Vijayaraghavalu S, ...
  • Vimaladevi M, Divya KC, Girigoswami A. Liposomal nanoformulations of rhodamine ...
  • Pallavi P, Girigoswami A, Girigoswami K, Hansda S, Ghosh R. ...
  • Sun W, Luo L, Feng Y, Qiu Y, Shi C, ...
  • Ito R, Kamiya M, Urano Y. Molecular probes for fluorescence ...
  • Mondal SB, Tsen SWD, Achilefu S. Head‐Mounted Devices for Noninvasive ...
  • Li D, Zhang J, Chi C, Xiao X, Wang J, ...
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