Pappas G, Papadimitriou P, Akritidis N, Christou L, Tsianos EV. The brand new international map of human brucellosis. Lancet Infect Dis. 2006;6(2):91–9.
Pinn-Woodcock T, Frye E, Guarino C, Franklin-Guild R, Newman AP, Bennett J, Goodrich EL. A one-health evaluate on brucellosis within the united States. J Am Vet Med Assoc. 2023;261(4):451–62.
Zhu S, Zimmerman D, Deem SL. A evaluate of zoonotic pathogens of dromedary camels. EcoHealth. 2019;16(2):356–77.
Aljanazreh B, Alzatari Ok, Tamimi A, Alsaafeen MH, Hassouneh W, Ashhab Y. Brucellosis re-emergence after a decade of quiescence in Palestine, 2015–2017: A Seroprevalence and molecular characterization research. Transbound Emerg Dis. 2022;69(4):e130–40.
Pereira CR, Cotrim de Almeida JVF, Cardoso de Oliveira IR, Faria de Oliveira L, Pereira LJ, Zangerônimo MG, Lage AP, Dorneles EMS. Occupational publicity to Brucella spp.: A scientific evaluate and meta-analysis. PLoS Negl Trop Dis. 2020;14(5):e0008164.
Hadush A, Pal M. Brucellosis-An infectious re-emerging bacterial zoonosis of worldwide significance. Int J Livest Res. 2013;3(1):28–34.
Chen JD, Ke CW, Deng X, Jiang S, Liang W, Ke BX, Li B, Tan H, Liu M. Brucellosis in Guangdong Province, Individuals’s Republic of China, 2005–2010. Emerg Infect Dis. 2013;19(5):817–8.
Beauvais W, Musallam I, Guitian J. Vaccination management applications for a number of livestock host species: an age-stratified, seasonal transmission mannequin for brucellosis management in endemic settings. Parasit Vectors. 2016;9:55.
Holt HR, Walker M, Beauvais W, Kaur P, Bedi JS, Mangtani P, Sharma NS, Gill JPS, Godfroid J, McGiven J, Guitian J. Modelling the management of bovine brucellosis in India. J R Soc Interface. 2023;20(200):20220756.
Deka RP, Magnusson U, Grace D, et al. Bovine brucellosis: prevalence, danger elements, financial price and management choices with explicit reference to India-a evaluate. Infect Ecol Epidemiol. 2018;8(1):1556548.
Mangalgi S, Sajjan A. Comparability of three blood tradition methods within the prognosis of human brucellosis. J Lab Physicians. 2014;6(1):14–7.
Dal T, Kara SS, Cikman A, Balkan CE, Acıkgoz ZC, Zeybek H, Uslu H, Durmaz R. Comparability of multiplex real-time polymerase chain response with serological checks and tradition for diagnosing human brucellosis. J Infect Public Well being. 2019;12(3):337–42.
Yagupsky P, Morata P, Colmenero JD. Laboratory prognosis of human brucellosis. Clin Microbiol Rev. 2019;33(1):e00073–19.
McGiven JA. New developments within the immunodiagnosis of brucellosis in livestock and wildlife. Rev Sci Tech. 2013;32(1):163–76.
Cho D, Nam H, Kim J, Heo E, Cho Y, Hwang I, Kim J, Kim J, Jung S, Extra S. Quantitative Rose Bengal take a look at for prognosis of bovine brucellosis. J Immunoass Immunochem. 2010;31(2):120–30.
Xu N, Wang W, Chen F, Li W, Wang G. ELISA is superior to bacterial tradition and agglutination take a look at within the prognosis of brucellosis in an endemic space in China. BMC Infect Dis. 2020;20(1):11.
Tabatabai LB, Deyoe BL. Particular enzyme-linked immunosorbent assay for detection of bovine antibody to Brucella abortus. J Clin Microbiol. 1984;20(2):209–13.
Özdemir M, Feyzioğlu B, Kurtoğlu MG, Doğan M, Dağı HT, Yüksekkaya Ş, Keşli R, Baysal B. A comparability of immuncapture agglutination and ELISA strategies in serological prognosis of brucellosis. Int J Med Sci. 2011;8(5):428–32.
Dong SB, Xiao D, Liu JY, Bi HM, Zheng ZR, Wang LD, Yang XW, Tian GZ, Zhao HY, Piao DR, Xing ZF, Jiang H. Fluorescence polarization assay improves the fast detection of human brucellosis in China. Infect Dis Poverty. 2021;10(1):46.
Nielsen Ok, Gall D. Fluorescence polarization assay for the prognosis of brucellosis: a evaluate. J Immunoass Immunochem. 2001;22(3):183–201.
Prakash C, Kumar B, Singh RP, Singh P, Shrinet G, Das A, Ashmi M, Abhishek, Singh KP, Singh MK, Gupta VK. Growth and analysis of a gold nanoparticle based mostly lateral movement assay (LFA) strip take a look at for detection of Brucella spp. J Microbiol Strategies. 2021;184:106185.
Shi F, Solar Y, Wu Y, Zhu M, Feng D, Zhang R, Peng L, Chen C. A novel, fast and easy technique for detecting brucellosis based mostly on fast vertical movement know-how. J Appl Microbiol. 2020;128(3):794–802.
Yohannes M, Gill JP, Ghatak S, Singh DK, Tolosa T. Comparative analysis of the Rose Bengal plate take a look at, customary tube agglutination take a look at and complement fixation take a look at for the prognosis of human brucellosis. Rev Sci Tech. 2012;31(3):979–84.
Hekmatimoghaddam S, Sadeh M, Khalili MB, Mollaabedin M, Sazmand A. Comparability of PCR, Wright agglutination take a look at and blood tradition for prognosis of brucellosis in suspected sufferers. Pak J Biol Sci. 2013;16(22):1589–92.
Shemesh AA, Yagupsky P. Limitations of the usual agglutination take a look at for detecting sufferers with Brucella melitensis bacteremia. Vector Borne Zoonotic Dis. 2011;11(12):1599–601.
Nielsen Ok, Smith P, Gall D, Perez B, Cosma C, Mueller P, Trottier J, Cote G, Boag L, Bosse J. Growth and validation of an oblique enzyme immunoassay for detection of antibody to Brucella abortus in milk. Vet Microbiol. 1996;52(1–2):165–73.
Espasandin AG, Cipolini MF, Forletti A, Díaz S, Soto J, Martínez DE, Storani CA, Monzón NM, Beltrame JI, Lucchesi E, Soto P. Comparability of serological methods for the prognosis of equine infectious Anemia in an endemic space of Argentina. J Virol Strategies. 2021;291:114101.
Rahbar M, Zou S, Baharfar M, Liu G. A personalized microfluidic Paper-Based mostly platform for colorimetric Immunosensing: demonstrated by way of hCG assay for being pregnant take a look at. Biosens (Basel). 2021;11(12):474.
Cao L, Fang C, Zeng R, Zhao X, Jiang Y, Chen Z. Paper-based microfluidic gadgets for electrochemical Immunofiltration evaluation of human chorionic gonadotropin. Biosens Bioelectron. 2017;92:87–94.
Komatsu T, Sato Y, Maeki M, Ishida A, Tani H, Tokeshi M. Speedy, delicate common paper-based gadget enhances aggressive immunoassays of small molecules. Anal Chim Acta. 2021;1144:85–95.
Hristov DR, Rodriguez-Quijada C, Gomez-Marquez J, Hamad-Schifferli Ok. Designing Paper-Based mostly immunoassays for biomedical purposes. Sens (Basel). 2019;19(3):554.
Zuo JY, Jiao YJ, Zhu J, Ding SN. Speedy detection of extreme fever with thrombocytopenia syndrome virus by way of colloidal gold immunochromatography assay. ACS Omega. 2018;3(11):15399–406.
Gupta R, Gupta P, Wang S, Melnykov A, Jiang Q, Seth A, Wang Z, Morrissey JJ, George I, Gandra S, Sinha P, Storch GA, Parikh BA, Genin GM, Singamaneni S. Ultrasensitive lateral-flow assays by way of plasmonically lively antibody-conjugated fluorescent nanoparticles. Nat Biomed Eng. 2023;7(12):1556–70.
Salminen T, Juntunen E, Talha SM, Pettersson Ok. Excessive-sensitivity lateral movement immunoassay with a fluorescent lanthanide nanoparticle label. J Immunol Strategies. 2019;465:39–44.
A transportable. And common upconversion nanoparticle-based lateral movement assay platform for point-of-care testing. Talanta. 2019;201:126–33.
Music X, Knotts M. Time-resolved luminescent lateral movement assay know-how. Anal Chim Acta. 2008;626(2):186–92.
Chen Y, Fu Q, Xie J, Wang H, Tang Y. Growth of a excessive sensitivity quantum dot-based fluorescent quenching lateral movement assay for the detection of Zearalenone. Anal Bioanal Chem. 2019;411(10):2169–75.
Danthanarayana AN, Finley E, Vu B, Kourentzi Ok, Willson RC, Brgoch J. A multicolor multiplex lateral movement assay for high-sensitivity analyte detection utilizing persistent luminescent nanophosphors. Anal Strategies. 2020;12(3):272–80.
He W, Wang M, Cheng P, et al. Latest advances of upconversion nanoparticles-based lateral movement assays for point-of-care testing. TRAC Tendencies Anal Chem. 2024;176:117735.
Zhang KY, Yu Q, Wei H, Liu S, Zhao Q, Huang W. Lengthy-Lived emissive probes for Time-Resolved photoluminescence bioimaging and biosensing. Chem Rev. 2018;118(4):1770–839.
Gao S, Niu L, Zhou R, Wang C, Zheng X, Zhang D, Huang X, Guo Z, Zou X. Significance of the antibody orientation for the lateral movement immunoassays: A mini-review. Int J Biol Macromol. 2024;257(Pt 1):128621.
Hu LM, Luo Ok, Xia J, Xu GM, Wu CH, Han JJ, Zhang GG, Liu M, Lai WH. Benefits of time-resolved fluorescent nanobeads in contrast with fluorescent submicrospheres, quantum dots, and colloidal gold as label in lateral movement assays for detection of ractopamine. Biosens Bioelectron. 2017;91:95–103.
Yang X, Wang Y, Liu Y, Huang J, Tan Q, Ying X, Hu Y, Li S. A Label-Based mostly polymer nanoparticles biosensor mixed with Loop-Mediated isothermal amplification for fast, delicate, and extremely particular identification of Brucella abortus. Entrance Bioeng Biotechnol. 2021;9:758564.
Chen H, Cui C, Ma X, et al. Amperometric biosensor for Brucella testing by way of molecular orientation know-how together with sign amplification know-how. ChemElectroChem. 2020;7(12):2672–9.
Pasquardini L, Cennamo N, Arcadio F, Perri C, Chiodi A, D’agostino G, Zeni L. Immuno-SPR biosensor for the detection of Brucella abortus. Sci Rep. 2023;13(1):22832.
Li S, Liu Y, Wang Y, Wang M, Liu C, Wang Y. Speedy detection of Brucella spp. And elimination of carryover utilizing a number of cross displacement amplification coupled with Nanoparticles-Based mostly lateral movement biosensor. Entrance Cell Infect Microbiol. 2019;9:78.
Chen H, Liu H, Cui C, Zhang W, Zuo Y. Recombinant protein G/Au nanoparticles/graphene oxide modified electrodes used as an electrochemical biosensor for Brucella testing in milk. J Meals Sci Technol. 2022;59(12):4653–62.
Nielsen Ok, Smith P, Yu WL, Elmgren C, Nicoletti P, Perez B, Bermudez R, Renteria T. Second technology aggressive enzyme immunoassay for detection of bovine antibody to Brucella abortus. Vet Microbiol. 2007;124(1–2):173–7.
Shi F, Tang Y, Xu ZH, Solar YX, Ma MZ, Chen CF. Visible typing detection of brucellosis with a lateral movement immunoassay based mostly on colored latex microspheres. J Appl Microbiol. 2022;132(1):199–208.
Lu J, Wu Z, Liu B, Wang C, Wang Q, Zhang L, Wang Z, Chen C, Fu Y, Lia C, Lia T. A time-resolved fluorescence lateral movement immunoassay for fast and quantitative serodiagnosis of Brucella an infection in people. J Pharm Biomed Anal. 2021;200:114071.