Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/advances-for-the-development-of-in-vitro-immunosensors-for-multiple-KTvoGztsXn
References (89)
-
J. Ottervald, B. Franzén, K. Nilsson, L. Andersson, M. Khademi, Bodil Eriksson, S. Kjellström, G. Marko‐Varga, Á. Végvári, R. Harris, T. Laurell, T. Miliotis, D. Matusevicius, H. Salter, M. Ferm, T. Olsson (2010)
Multiple sclerosis: Identification and clinical evaluation of novel CSF biomarkers.Journal of proteomics, 73 6
-
S. Hsu, L. Raine, H. Fanger (1981)
Use of avidin-biotin-peroxidase complex (ABC) in immunoperoxidase techniques: a comparison between ABC and unlabeled antibody (PAP) procedures.The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society, 29
-
M. Charcot's (1880)
Lectures on Diseases of the Nervous SystemEdinburgh Medical Journal, 25
-
R. Gandhi, B. Healy, T. Gholipour, S. Egorova, A. Musallam, M. Hussain, Parham Nejad, B. Patel, Hillary Hei, S. Khoury, F. Quintana, P. Kivisakk, T. Chitnis, H. Weiner (2013)
Circulating MicroRNAs as biomarkers for disease staging in multiple sclerosisAnnals of Neurology, 73
-
Ralph Benedict1, Julie Bobholz2 (2007)
Multiple SclerosisSemin Neurol, 27
-
G. Siegel, B. Agranoff, R. Albers, P. Molinoff (1989)
Basic Neurochemistry: Molecular, Cellular and Medical Aspects -
Burak Derkuş, Emel Emregul, C. Yucesan, Kaan Emregul (2013)
Myelin basic protein immunosensor for multiple sclerosis detection based upon label-free electrochemical impedance spectroscopy.Biosensors & bioelectronics, 46
-
Sushmita Jha, Siddharth Srivastava, W. Brickey, H. Iocca, A. Toews, J. Morrison, Vivian Chen, Vivian Chen, Denis Gris, G. Matsushima, J. Ting (2010)
The Inflammasome Sensor, NLRP3, Regulates CNS Inflammation and Demyelination via Caspase-1 and Interleukin-18The Journal of Neuroscience, 30
-
(1906)
The Structure and Connexions of Neurons, Nobel Lectures: Physiology or Medicine 1901–1921, 1st edn -
L. Rolak (2003)
MS: the basic facts.Clinical medicine & research, 1 1
-
Nikhil Bhalla, Pawan Jolly, N. Formisano, P. Estrela (2016)
Introduction to biosensorsEssays in Biochemistry, 60
-
Cedric Raine (1984)
Myelin -
S. Sungur, Emel Emregü, Gülendem Günend&unknown;, Yasemin Numanoğlu (2004)
New Glucose Biosensor Based on Glucose Oxidase-immobilized Gelatin Film Coated ElectrodesJournal of Biomaterials Applications, 18
-
C. Taveggia, M. Feltri, L. Wrabetz (2010)
Signals to promote myelin formation and repairNature Reviews Neurology, 6
-
T. Fog (1954)
[Multiple sclerosis; review].Maanedsskrift for praktisk laegegerning og social Medicin, 32 5
-
M. Etemadifar, P. Roomizadeh, S. Abtahi, Sepideh Sajjadi, A. Abedini, Aryan Golabbakhsh, Mahboobeh Fereidan-Esfahani, M. Akbari (2012)
Linkage of Multiple Sclerosis and Guillain-Barre Syndrome: A Population-Based Survey in Isfahan, IranAutoimmune Diseases, 2012
-
R. Orth, T. Clark, H. Craighead (2003)
Avidin-Biotin Micropatterning Methods for Biosensor ApplicationsBiomedical Microdevices, 5
-
V. Sacca, A. Sarica, F. Novellino, S. Barone, T. Tallarico, E. Filippelli, A. Granata, C. Chiriaco, R. Bossio, P. Valentino, A. Quattrone (2018)
Evaluation of machine learning algorithms performance for the prediction of early multiple sclerosis from resting-state FMRI connectivity dataBrain Imaging and Behavior, 13
-
V. Harris, S. Sadiq (2012)
Disease Biomarkers in Multiple SclerosisMolecular Diagnosis & Therapy, 13
-
M. Asif, S. Ali, O. Nur, M. Willander, C. Brännmark, P. Strålfors, U. Englund, F. Elinder, B. Danielsson (2010)
Functionalised ZnO-nanorod-based selective electrochemical sensor for intracellular glucose.Biosensors & bioelectronics, 25 10
-
Jian Song, Jennifer Dailey, Hui Li, H. Jang, Luisa Russell, Pengfei Zhang, P. Searson, J. Wang, A. Everett, H. Katz (2018)
Influence of Bioreceptor Layer Structure on Myelin Basic Protein Detection using Organic Field Effect Transistor‐Based BiosensorsAdvanced Functional Materials, 28
-
S. Love (2006)
Demyelinating diseasesJournal of Clinical Pathology, 59
-
B. Pan, S. Fromholt, E. Hess, T. Crawford, J. Griffin, K. Sheikh, R. Schnaar (2005)
Myelin-associated glycoprotein and complementary axonal ligands, gangliosides, mediate axon stability in the CNS and PNS: Neuropathology and behavioral deficits in single- and double-null miceExperimental Neurology, 195
-
Mitchell Kha, M. Wallin, W. Culpepper, E. Nichols, Z. Bhutta, T. Gebrehiwot, S. Hay, I. Khalil, Kristopher Krohn, Xiaofeng Liang, M. Naghavi, A. Mokdad, M. Nixon, R. Reiner, B. Sartorius, Mari Smith, R. Topor-Madry, A. Werdecker, T. Vos, V. Feigin, C. Murray (2019)
Global, regional, and national burden of multiple sclerosis 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016The Lancet. Neurology, 18
-
M. Comabella, X. Montalban (2014)
Body fluid biomarkers in multiple sclerosisThe Lancet Neurology, 13
-
H. Mohamed, R. Dillert, D. Bahnemann (2012)
TiO2 nanoparticles as electron pools: Single- and multi-step electron transfer processesJournal of Photochemistry and Photobiology A-chemistry, 245
-
Haike Zhang, Esther Alberts, V. Pongratz, M. Mühlau, C. Zimmer, B. Wiestler, P. Eichinger (2018)
Predicting conversion from clinically isolated syndrome to multiple sclerosis–An imaging-based machine learning approachNeuroImage : Clinical, 21
-
B. Bielekova, Roland Martin (2004)
Development of biomarkers in multiple sclerosis.Brain : a journal of neurology, 127 Pt 7
-
H. Zhao, W. Zheng, Z. Meng, H. Zhou, X. Xu, Z. Li, Y. Zheng (2009)
Bioelectrochemistry of hemoglobin immobilized on a sodium alginate-multiwall carbon nanotubes composite film.Biosensors & bioelectronics, 24 8
-
K. Lee, D. Mooney (2012)
Alginate: properties and biomedical applications.Progress in polymer science, 37 1
-
JM Charcot (1889)
Lectures on the diseases of the nervous systemNew Sydenham Soc., 3
-
C. Teunissen, A. Malekzadeh, C. Leurs, C. Bridel, J. Killestein (2015)
Body fluid biomarkers for multiple sclerosis—the long road to clinical applicationNature Reviews Neurology, 11
-
C. ffrench-Constant, H. Colognato, R. Franklin (2004)
The Mysteries of Myelin UnwrappedScience, 304
-
I. Young, A. Hall, C. Pallis, G. Bydder, N. Legg, R. Steiner (1981)
NUCLEAR MAGNETIC RESONANCE IMAGING OF THE BRAIN IN MULTIPLE SCLEROSISThe Lancet, 318
-
(2021)
ATLAS of MS 2013, 1st edn -
Jeffrey Belle, Kinjal Bhavsar, Aaron Fairchild, Anusuya Das, James Sweeney, T. Alford, Joseph Wang, V. Bhavanandan, L. Joshi (2007)
A cytokine immunosensor for multiple sclerosis detection based upon label-free electrochemical impedance spectroscopy.Biosensors & bioelectronics, 23 3
-
F. Luque, S. Jaffe (2007)
Cerebrospinal fluid analysis in multiple sclerosis.International review of neurobiology, 79
-
Priscilla Lee, M. Severin, A. Lovett-racke (2017)
TGF‐β regulation of encephalitogenic and regulatory T cells in multiple sclerosisEuropean Journal of Immunology, 47
-
B. Lane, B. Carroll, T. Pedley (1978)
Computerized cranial tomography in cerebral diseases of white matterNeurology, 28
-
A. Heller, B. Feldman (2008)
Electrochemical glucose sensors and their applications in diabetes management.Chemical reviews, 108 7
-
H. Lassmann (2013)
Pathology and disease mechanisms in different stages of multiple sclerosisJournal of the Neurological Sciences, 333
-
Burak Derkuş, Pinar Bozkurt, M. Tulu, K. Emregul, C. Yucesan, Emel Emregul (2017)
Simultaneous quantification of Myelin Basic Protein and Tau proteins in cerebrospinal fluid and serum of Multiple Sclerosis patients using nanoimmunosensor.Biosensors & bioelectronics, 89 Pt 2
-
Smriti Ojha, B. Kumar (2017)
A review on nanotechnology based innovations in diagnosis and treatment of multiple sclerosisJournal of Cellular Immunotherapy
-
M. Filippi, M. Rocca, N. Stefano, C. Enzinger, E. Fisher, M. Horsfield, M. Inglese, D. Pelletier, G. Comi (2011)
Magnetic resonance techniques in multiple sclerosis: the present and the future.Archives of neurology, 68 12
-
F. Real‐Fernandez, A. Colson, Jérôme Bayardon, F. Nuti, E. Peroni, R. Meunier‐Prest, F. Lolli, M. Chelli, C. Darcel, S. Jugé, A. Papini (2008)
Ferrocenyl glycopeptides as electrochemical probes to detect autoantibodies in multiple sclerosis patients' seraPeptide Science, 90
-
Fariba Mollarasouli, S. Kurbanoglu, S. Ozkan (2019)
The Role of Electrochemical Immunosensors in Clinical AnalysisBiosensors, 9
-
H. Nguyen, Jeho Park, Sebyung Kang, Moonil Kim (2015)
Surface Plasmon Resonance: A Versatile Technique for Biosensor ApplicationsSensors (Basel, Switzerland), 15
-
A. Yousef, Soren Jonzzon, Leena Suleiman, J. Arjona, J. Graves (2017)
Biosensing in multiple sclerosisExpert Review of Medical Devices, 14
-
Yi-Chun Shen, C. Yang, Shu-Wen Chen, Shou-Hao Wu, Tsung-Lin Yang, Jian-Jang Huang (2014)
IGZO thin film transistor biosensors functionalized with ZnO nanorods and antibodies.Biosensors & bioelectronics, 54
-
A. Ebringer (2016)
Multiple Sclerosis, Mad Cow Disease and Acinetobacter -
J. Correale, M. Gaitán, M. Ysrraelit, M. Fiol (2016)
Progressive multiple sclerosis: from pathogenic mechanisms to treatment.Brain : a journal of neurology, 140 3
-
C. Polman, S. Reingold, G. Edan, M. Filippi, H. Hartung, L. Kappos, F. Lublin, L. Metz, H. McFarland, P. O'Connor, M. Sandberg-wollheim, A. Thompson, B. Weinshenker, J. Wolinsky (2005)
Diagnostic criteria for multiple sclerosis: 2005 revisions to the “McDonald Criteria”Annals of Neurology, 58
-
C. Deber, S. Reynolds (1991)
Central nervous system myelin: structure, function, and pathologyClinical Biochemistry, 24
-
Enrico Fainardi, M. Castellazzi, Tiziana Bellini, M. Manfrinato, E. Baldi, I. Casetta, E. Paolino, Enrico Granieri, Franco Dallocchio (2006)
Cerebrospinal fluid and serum levels and intrathecal production of active matrix metalloproteinase-9 (MMP-9) as markers of disease activity in patients with multiple sclerosisMultiple Sclerosis, 12
-
F. Ricci, G. Adornetto, G. Palleschi (2012)
A review of experimental aspects of electrochemical immunosensorsElectrochimica Acta, 84
-
G. Tsekenis, Goulielmos-Zois Garifallou, F. Davis, P. Millner, T. Gibson, S. Higson (2008)
Label-less immunosensor assay for myelin basic protein based upon an ac impedance protocol.Analytical chemistry, 80 6
-
M. Mañé-Martínez (2017)
Cerebrospinal fluid biomarkers in multiple sclerosis -
T. Sasayama, S. Nakamizo, M. Nishihara, A. Kawamura, Hirotomo Tanaka, K. Mizukawa, S. Miyake, M. Taniguchi, K. Hosoda, E. Kohmura (2012)
Cerebrospinal fluid interleukin-10 is a potentially useful biomarker in immunocompetent primary central nervous system lymphoma (PCNSL).Neuro-oncology, 14 3
-
Burak Derkuş, Emel Emregul, K. Emregül, C. Yücesan (2014)
Alginate and alginate-titanium dioxide nanocomposite as electrode materials for anti-myelin basic protein immunosensingSensors and Actuators B-chemical, 192
-
K. Strimbu, J. Tavel (2010)
What are biomarkers?Current Opinion in HIV and AIDS, 5
-
J. Dawson (1916)
The Histology of Disseminated SclerosisEdinburgh Medical Journal, 17
-
(1952)
DEMYELINATING diseases.Lancet, 2 6735
-
E. Thompson, M. Trojano, P. Livrea (1996)
Cerebrospinal Fluid Analysis in Multiple Sclerosis -
Yuzhen Wei, Haoxiao Chang, Xindi Li, Huabing Wang, Li Du, Heng Zhou, Wangshu Xu, Yuetao Ma, Linlin Yin, Xinghu Zhang (2018)
Cytokines and Tissue Damage Biomarkers in First-Onset Neuromyelitis Optica Spectrum Disorders: Significance of Interleukin-6Neuroimmunomodulation, 25
-
N. Mansourian, M. Rahaie, M. Hosseini (2017)
A Nanobiosensor Based on Fluorescent DNA-Hosted Silver Nanocluster and HCR Amplification for Detection of MicroRNA Involved in Progression of Multiple SclerosisJournal of Fluorescence, 27
-
Yijun Zhao, B. Healy, D. Rotstein, C. Guttmann, R. Bakshi, H. Weiner, C. Brodley, T. Chitnis (2017)
Exploration of machine learning techniques in predicting multiple sclerosis disease coursePLoS ONE, 12
-
M. Rovaris, M. Filippi (2000)
The value of new magnetic resonance techniques in multiple sclerosis.Current opinion in neurology, 13 3
-
Xinhuang Kang, Jun Wang, Hong Wu, I. Aksay, Jun Liu, Yuehe Lin (2009)
Glucose oxidase-graphene-chitosan modified electrode for direct electrochemistry and glucose sensing.Biosensors & bioelectronics, 25 4
-
J. Lötsch, S. Schiffmann, K. Schmitz, R. Brunkhorst, Florian Lerch, N. Ferreirós, S. Wicker, I. Tegeder, G. Geisslinger, A. Ultsch (2018)
Machine-learning based lipid mediator serum concentration patterns allow identification of multiple sclerosis patients with high accuracyScientific Reports, 8
-
Kinjal Bhavsar, Aaron Fairchild, E. Alonas, Daniel Bishop, Jeffrey Belle, James Sweeney, T. Alford, L. Joshi (2009)
A cytokine immunosensor for Multiple Sclerosis detection based upon label-free electrochemical impedance spectroscopy using electroplated printed circuit board electrodes.Biosensors & bioelectronics, 25 2
-
P. Garcia, D. Brum, O. Oliveira, A. Higa, J. Ierich, A. Moraes, F. Shimizu, Nancy Okuda-Shinagawa, L. Peroni, Paulo Gama, M. Machini, F. Leite (2020)
Nanoimmunosensor based on atomic force spectroscopy to detect anti-myelin basic protein related to early-stage multiple sclerosis.Ultramicroscopy, 211
-
R. Ionescu, K. Abu-Rabeah, S. Cosnier, R. Marks (2005)
Improved enzyme retention from an electropolymerized polypyrrole-alginate matrix in the development of biosensorsElectrochemistry Communications, 7
-
J. Leonard, K. Waldburger, Samuel Goldman (1995)
Prevention of experimental autoimmune encephalomyelitis by antibodies against interleukin 12The Journal of Experimental Medicine, 181
-
W. Mcdonald, A. Compston, G. Edan, D. Goodkin, H. Hartung, F. Lublin, H. McFarland, D. Paty, C. Polman, S. Reingold, M. Sandberg-wollheim, W. Sibley, A. Thompson, S. Noort, B. Weinshenker, J. Wolinsky (2001)
Recommended diagnostic criteria for multiple sclerosis: Guidelines from the international panel on the diagnosis of multiple sclerosisAnnals of Neurology, 50
-
F. Real‐Fernandez, Irene Passalacqua, E. Peroni, M. Chelli, F. Lolli, A. Papini, P. Rovero (2012)
Glycopeptide-Based Antibody Detection in Multiple Sclerosis by Surface Plasmon ResonanceSensors (Basel, Switzerland), 12
-
F. Schwentker, T. Rivers (1934)
THE ANTIBODY RESPONSE OF RABBITS TO INJECTIONS OF EMULSIONS AND EXTRACTS OF HOMOLOGOUS BRAINThe Journal of Experimental Medicine, 60
-
(2018)
The neuron doctrine - theory and facts -
A. Biela, M. Watkinson, U. Meier, D. Baker, G. Giovannoni, C., R. Becer, S. Krause (2015)
Disposable MMP-9 sensor based on the degradation of peptide cross-linked hydrogel films using electrochemical impedance spectroscopy.Biosensors & bioelectronics, 68
-
Indu Venugopal, R. Sirhan, S. Basati, A. Linninger (2016)
Prototype Biosensor for Detection of Myelin Basic Protein Biomarker in Hydrocephalus DiagnosisSensor Letters, 14
-
Konstantin, E., Balashov, Derek, R., Smith, Samia, J., Khoury, David, A., Hafler, Howard, L., Weiner (1997)
Increased interleukin 12 production in progressive multiple sclerosis: Induction by activated CD4 (cid:49) T cells via CD40 ligand -
C. Polman, S. Reingold, B. Banwell, M. Clanet, Jeffrey Cohen, M. Filippi, K. Fujihara, E. Havrdová, M. Hutchinson, L. Kappos, F. Lublin, X. Montalban, P. O'Connor, M. Sandberg-wollheim, A. Thompson, E. Waubant, B. Weinshenker, J. Wolinsky (2011)
Diagnostic criteria for multiple sclerosis: 2010 Revisions to the McDonald criteriaAnnals of Neurology, 69
-
MM Goldenberg (2012)
Multiple sclerosis reviewPharm. Ther., 37
-
J Schaeffer, C Cossetti, G Mallucci, S Pluchino (2015)
Multiple sclerosisNeurobiol. Brain Disord. Biol. Basis Neurol. Psychiatr. Disord., 1
-
A. Periasamy, Yu-Jung Chang, Shen-ming Chen (2011)
Amperometric glucose sensor based on glucose oxidase immobilized on gelatin-multiwalled carbon nanotube modified glassy carbon electrode.Bioelectrochemistry, 80 2
-
H. Tumani, H. Hartung, B. Hemmer, C. Teunissen, F. Deisenhammer, G. Giovannoni, U. Zettl (2009)
Cerebrospinal fluid biomarkers in multiple sclerosisNeurobiology of Disease, 35
-
R. Ulrich, A. Kalkuhl, U. Deschl, W. Baumgärtner (2009)
Machine learning approach identifies new pathways associated with demyelination in a viral model of multiple sclerosisJournal of Cellular and Molecular Medicine, 14
-
K. Selmaj, C. Raine, B. Cannella, C. Brosnan (1991)
Identification of lymphotoxin and tumor necrosis factor in multiple sclerosis lesions.The Journal of clinical investigation, 87 3
-
R. Franklin, C. ffrench-Constant (2017)
Regenerating CNS myelin — from mechanisms to experimental medicinesNature Reviews Neuroscience, 18
-
Yi-Wen Wang, Ting-Yang Chen, Tsung-Han Yang, Cheng-Chung Chang, Tsung-Lin Yang, Y. Lo, Jian-Jang Huang (2016)
Thin-Film Transistor-Based Biosensors for Determining Stoichiometry of Biochemical ReactionsPLoS ONE, 11
- Publisher
- Springer Journals
- Copyright
- Copyright © The Korean BioChip Society 2021
- ISSN
- 1976-0280
- eISSN
- 2092-7843
- DOI
- 10.1007/s13206-021-00018-z
- Publisher site
- See Article on Publisher Site
Abstract
The diagnosis of diseases based on immunosensors have been objective of research in the last years, providing an improvement for a rapid detection, high sensitivity, precision, accuracy, specificity and resolution. Areas of progress such as analytical technologies, interpretation and standardization has been done for common biomarkers. However, years of research and development of a functional immunosensor with an unusual biomarker require further investigation to be optimized in any aspect. Recent development of biosensors to diagnose nervous system diseases, such as immunosensors for multiple sclerosis, has been the object of study in the past 10 years to improve common in vitro diagnostic methods such as enzyme-linked immunosorbent assays (ELISA) on cerebrospinal fluid (CSF), showing a big opportunity for further diagnostic optimization. The aim of this review is to show a report on the development of in vitro immunosensors for multiple sclerosis diagnosis until today, with the particular focus on monitoring analyte concentration levels on cerebrospinal fluid and serum as a contribution and improvement to current diagnostic methods.
Journal
BioChip Journal – Springer Journals
Published: Sep 1, 2021
Keywords: Multiple sclerosis; Myelin basic protein; Immunosensors; Nanotechnology; Diagnostic methods; Biomarkers