[1] SAVINO D F, MARGO C E. Conjunctival rhinosporidiosis: light and electron microscopic study[J]. Ophthalmology,1983,90(12):1482-1489. [2] MARGO C E, BOMBARDIER T. The diagnostic value of fungal autofluorescence[J]. Surv Ophthalmol,1985,29(5):374-376. [3] GRAHAM A R. Fungal autofluorescence with ultraviolet illumination[J]. Am J Clin Pathol,1983,79(2):231-234. [4] MANN J L. Autofluorescence of fungi: an aid to detection in tissue sections[J]. Am J Clin Pathol,1983,79(5):587-590. [5] GONZALES M F, Brown RW, BHATHAL P S. Fluorescence of fungi—not autofluorescence[J]. Am J Clin Pathol,1984,81(1):142-143. [6] 徐旭士,张超英,刘清梅,等. 真菌的自发荧光现象研究[J]. 激光生物学报,2002,11(2):109-113. [7] LONDON R, SCHWEDOCK J, SAGE A, et al. An automated system for rapid non-destructive enumeration of growing microbes[J]. PLoS ONE,2010,5(1):e8609. [8] WALSH J D, HYMAN J M, BORZHEMSKAYA L, et al. Rapid intrinsic fluorescence method for direct identification of pathogens in blood cultures[J]. mBio,2013,4(6):e00865-13. [9] MOLYNEUX P M, KILVINGTON S, WAKEFIELD M J, et al. Autofluorescence signatures of seven pathogens: preliminary in vitro investigations of a potential diagnostic for acanthamoeba keratitis[J]. Cornea,2015,34(12): 1588-1592. [10] MAQUELIN K, KIRSCHNER C, CHOO-SMITH L P, et al. Prospective study of the performance of vibrational spectroscopies for rapid identification of bacterial and fungal pathogens recovered from blood cultures[J]. J Clin Microbiol,2003,41(1):324-329. [11] ERUKHIMOVITCH V, PAVLOV V, TALYSHINSKY M, et al. FTIR microscopy as a method for identification of bacterial and fungal infections[J]. J Pharm Biomed Anal,2004,37(5):1105-1108. [12] DIXIT V,CHO B K,OBENDORF K, et al. Identifications of household’s spores using mid infrared sectroscopy[J]. Spectrochim Acta A Mol Biomol Spectrnsc,2014,123:490-496. DOI:10.1016/j.saa.2013.11.053 [13] WOHLMEISTER D, VIANNA D R B, HELFER V E, et al. Differentiation of Candida albicans, Candida glabrata, and Candida krusei by FT-IR and chemometrics by CHROMagarTM Candida[J]. J Microbiol Meth,2017,141:121-125. DOI:10.1016/j.mimet.2017.08.013. [14] ESSENDOUBI M, TOUBAS D, BOUZAGGOU M, et al. Rapid identification of Candida species by FT-IR microspectroscopy[J]. Biochim Biophys Acta,2005,1724(3):239-247. [15] BRUYNE S D, SPEECKAERT R, BOELENS J, et al. Infrared spectroscopy as a novel tool to diagnose onychomycosis[J]. Bri J Dermatol, 2019,180(3):637-646. [16] GELDER J D, GUSSEM K D, VANDENABEELE P, et al. Reference database of Raman spectra of biological molecules[J]. J Raman Spectrosc,2007,38(9):1133-1147. [17] ESPAGNON I, OSTROVSKII D, MATHEY R, et al. Direct identification of clinically relevant bacterial and yeast microcolonies and macrocolonies on solid culture media by Raman spectroscopy[J]. J Biomed Opt,2014,19(2):027004. [18] ŽUKOVSKAJA O, KLOß S, BLANGO M G, et al. UV-Raman spectroscopic identification of fungal spores important for respiratory diseases[J]. Anal Chem,2018,90(15):8912-8918. [19] GHOSAL S, MACHER J M, AHMED K. Raman microspectroscopy-based identification of individual fungal spores as potential indicators of indoor contamination and moisture-related building damage[J]. Environ Sci Technol,2012,46(11):6088-6095. [20] SMIJS T G, JACHTENBERG J W, PAVEL S, et al. Detection and differentiation of causative organisms of onychomycosis in an ex vivo nail model by means of Raman spectroscopy[J].J Eur Acad Dermatol Venereol,2014,28(11):1492-1499. [21] MAQUELIN K, CHOO-SMITH L P, Endtz H P, et al. Rapid identification of Candida species by confocal Raman microspectroscopy[J]. J Clin Microbiol,2002,40(2):594-600. [22] IBELINGS M S, MAQUELIN K, ENDTZ H P, et al.Rapid identification of Candida spp. in peritonitis patients by Raman spectroscopy[J]. Clin Microbiol Infect,2005,11(5):353-358. [23] SAMEK O, MLYNARIKOVÁK, BERNATOVÁS, et al. Candida parapsilosis biofilm identification by Raman spectroscopy[J]. Int J Mol Sci,2014,15(12):23924-23935. [24] VERWER P E B, VAN LEEUWEN W B, GIRARD V, et al. Discrimination of Aspergillus lentulus from Aspergillus fumigatus by Raman spectroscopy and MALDI-TOF MS[J]. Eur J Clin Microbiol Infect Dis,2014,33(2):245-251. [25] SAYIN I, KAHRAMAN M, SAHIN F, et al. Characterization of yeast species using surface-enhanced Raman scattering[J]. Appl Spectrosc,2009,63(11):1276-1282. [26] WITKOWSKA E, JAGIELSKI T, KAMINSKA A, et al. Detection and identification of human fungal pathogens using surface-enhanced Raman spectroscopy and principal component analysis[J]. Anal Methods,2016, 8(48):8427-8434. [27] WITKOWSKA E, JAGIELSKI T, KAMI SKA A. Genus- and species-level identification of dermatophyte fungi by surface-enhanced Raman spectroscopy[J]. Spectrochim Acta A Mol Biomol Spectrosc,2018,192:285-290. DOI:10.1016/j.saa.2017.11.008. [28] HO C-S, JEAN N, HOGAN CA, et al. Rapid identification of pathogenic bacteria using Raman spectroscopy and deep learning[J]. Nat Commun, 2019, 10(1): 259-272. [29] 张阳,王智群,邓世靖,等. 涂片真菌荧光染色法对真菌性角膜炎诊断价值的研究[J]. 中华眼科杂志,2019,55(8):601-608. [30] 李晓晓,李志瑜. 莱芙特敏荧光染色法、Baso荧光染色法与KOH湿片法在诊断浅部真菌病的应用对比[J]. 中国真菌学杂志,2020,15(2):111-113. [31] RESLOVA N, MICHNA V, KASNY M, et al. xMAP technology: Applications in detection of pathogens[J]. Front Microbiol, 2017, 8:55. DOI:10.3389/fmicb.2017.00055 [32] BABADY NE, MIRANDA E, GILHULEY K A. Evaluation of luminex xTAG fungal analyte-specific reagents for rapid identification of clinically relevant fungi[J]. J Clin Microbiol, 2011,49(11):3777-3782. [33] MABBOTT S, THOMPSON D, SIRIMUTHU N, et al. From synthetic DNA to PCR product: Detection of fungal infections using SERS[J]. Faraday Discuss, 2016, 187(32):461-472. |