[1] Perkowski J. China’s one-child policy’s unexpected issue[EB/OL]. https:∥www.forbes.com/sites/jackperkowski/2012/05/25/chinas-one-child-policys-unexpected-issue-infertility/#3e25273e4921

[2] Yu X J, Dong L, Ren F Q et al. Intracytoplasmic sperm injection (ICSI) outcomes of azoospermia with different causes: 107 cases report[J]. International Journal of Clinical and Experimental Medicine, 8, 21684-21688(2015).

[3] Qiu F L, Ni R, Zhong J X et al. Relationship of different influencing factors and sperm quality parameters in infertile men[J]. Chinese Journal of Human Sexuality, 26, 112-115(2017).

[4] Tomlinson M J, Amissah-Arthur J B, Thompson K A et al. Infertility: prognostic indicators for intrauterine insemination (IUI): statistical model for IUI success[J]. Human Reproduction, 11, 1892-1896(1996).

[5] Pelinck M J, Hoek A, Simons A H M et al. Efficacy of natural cycle IVF: a review of the literature[J]. Human Reproduction Update, 8, 129-139(2002).

[6] Devroey P, van Steirteghem A. A review of ten years experience of ICSI[J]. Human Reproduction Update, 10, 19-28(2004).

[7] Palermo G D, Neri Q V, Schlegel P N et al. Intracytoplasmic sperm injection (ICSI) in extreme cases of male infertility[J]. PLoS One, 9, e113671(2014).

[8] Zini A, Bielecki R, Phang D et al. Correlations between two markers of sperm DNA integrity, DNA denaturation and DNA fragmentation, in fertile and infertile men[J]. Fertility and Sterility, 75, 674-677(2001).

[9] Younglai E V, Holt D, Brown P et al. Sperm swim-up techniques and DNA fragmentation[J]. Human Reproduction, 16, 1950-1953(2001).

[10] Ralf H, Wolf-Bernhard S. Sperm preparation for ART[J]. Reproductive Biology and Endocrinology, 1, 108(2003).

[11] Muratori M, Tarozzi N, Carpentiero F et al. Sperm selection with density gradient centrifugation and swim up: effect on DNA fragmentation in viable spermatozoa[J]. Scientific Reports, 9, 1-12(2019).

[12] Hansen M, Bower C, Milne E et al. Assisted reproductive technologies and the risk of birth defects: a systematic review[J]. Human Reproduction, 20, 328-338(2005).

[13] Aitken R J, De Iuliis G N. Origins and consequences of DNA damage in male germ cells[J]. Reproductive BioMedicine Online, 14, 727-733(2007).

[14] Aitken R J, De Iuliis G N. On the possible origins of DNA damage in human spermatozoa[J]. Molecular Human Reproduction, 16, 3-13(2010).

[15] Muriel L, Goyanes V, Segrelles E et al. Increased aneuploidy rate in sperm with fragmented DNA as determined by the sperm chromatin dispersion (SCD) test and FISH analysis[J]. Journal of Andrology, 28, 38-49(2007).

[16] Evenson D, Jost L. Sperm chromatin structure assay is useful for fertility assessment[J]. Methods in Cell Science, 22, 169-189(2000).

[17] Singh N P, McCoy M T, Tice R R et al. A simple technique for quantitation of low levels of DNA damage in individual cells[J]. Experimental Cell Research, 175, 184-191(1988).

[18] Olive P L, Banáth J P. The comet assay: a method to measure DNA damage in individual cells[J]. Nature Protocols, 1, 23-29(2006).

[19] Diem M[M]. Modern vibrational spectroscopy and micro-spectroscopy: theory, instrumentation, and biomedical applications(2015).

[20] Fournier F, Guo R, Gardner E M et al. Biological and biomedical applications of two-dimensional vibrational spectroscopy: proteomics, imaging, and structural analysis[J]. Accounts of Chemical Research, 42, 1322-1331(2009).

[21] Huang Z W, McWilliams A, Lui H et al. Near-infrared Raman spectroscopy for optical diagnosis of lung cancer[J]. International Journal of Cancer, 107, 1047-1052(2003).

[22] Chan J W, Taylor D S, Zwerdling T et al. Micro-Raman spectroscopy detects individual neoplastic and normal hematopoietic cells[J]. Biophysical Journal, 90, 648-656(2006).

[23] Berger A J, Itzkan I, Feld M S. Feasibility of measuring blood glucose concentration by near-infrared Raman spectroscopy[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 53, 287-292(1997).

[24] Neto L P M, Silva L F D C E, Dos Santos L et al. Micro-Raman spectroscopic study of thyroid tissues[J]. Photodiagnosis and Photodynamic Therapy, 17, 164-172(2017).

[25] Sugimura T, Kajimoto S, Nakabayashi T. Label-free imaging of intracellular temperature by using the O-H stretching Raman band of water[J]. Angewandte Chemie International Edition, 59, 7755-7760(2020).

[26] Lu J, Zhu S S, Cui X Y et al. Raman spectroscopic imaging technology and its biomedical applications[J]. Chinese Journal of Lasers, 45, 0307007(2018).

[27] Liu F X, Zhang L H, Huang X. Application of Raman spectroscopy in cancer diagnosis[J]. Laser & Optoelectronics Progress, 59, 0617016(2022).

[28] Enejder A M K, Koo T W, Oh J et al. Blood analysis by Raman spectroscopy[J]. Optics Letters, 27, 2004-2006(2002).

[29] Premasiri W R, Clarke R H, Womble M E. Urine analysis by laser Raman spectroscopy[J]. Lasers in Surgery and Medicine, 28, 330-334(2001).

[30] Wang H, Malvadkar N, Koytek S et al. Quantitative analysis of creatinine in urine by metalized nanostructured parylene[J]. Journal of Biomedical Optics, 15, 027004(2010).

[31] Gonchukov S, Sukhinina A, Bakhmutov D et al. Raman spectroscopy of saliva as a perspective method for periodontitis diagnostics[J]. Laser Physics Letters, 9, 73-77(2012).

[32] Itzkan I, Qiu L, Fang H et al. Confocal light absorption and scattering spectroscopic microscopy monitors organelles in live cells with no exogenous labels[J]. Proceedings of the National Academy of Sciences of the United States of America, 104, 17255-17260(2007).

[33] Gianaroli L, Magli M C, Ferraretti A P et al. Birefringence characteristics in sperm heads allow for the selection of reacted spermatozoa for intracytoplasmic sperm injection[J]. Fertility and Sterility, 93, 807-813(2010).

[34] Huser T, Orme C A, Hollars C W et al. Raman spectroscopy of DNA packaging in individual human sperm cells distinguishes normal from abnormal cells[J]. Journal of Biophotonics, 2, 322-332(2009).

[35] Meister K, Schmidt D A, Bründermann E et al. Confocal Raman microspectroscopy as an analytical tool to assess the mitochondrial status in human spermatozoa[J]. The Analyst, 135, 1370-1374(2010).

[36] Mallidis C, Wistuba J, Bleisteiner B et al. In situ visualization of damaged DNA in human sperm by Raman microspectroscopy[J]. Human Reproduction, 26, 1641-1649(2011).

[37] da Costa R, Amaral S, Redmann K et al. Spectral features of nuclear DNA in human sperm assessed by Raman microspectroscopy: effects of UV-irradiation and hydration[J]. PLoS One, 13, e0207786(2018).

[38] Sánchez V, Redmann K, Wistuba J et al. Oxidative DNA damage in human sperm can be detected by Raman microspectroscopy[J]. Fertility and Sterility, 98, 1124-1129(2012).

[39] Huang Z F, Chen X, Chen G N et al. Characterization and differentiation of normal and abnormal spermatozoa via micro-Raman spectroscopy[J]. Laser Physics Letters, 10, 035601(2013).

[40] Du S R, Zhang Q, Guan H H et al. Micro-Raman analysis of sperm cells on glass slide: potential label-free assessment of sperm DNA toward clinical applications[J]. Biosensors, 12, 1051(2022).

[41] Huang Z F, Chen G N, Chen X W et al. Rapid and label-free identification of normal spermatozoa based on image analysis and micro-Raman spectroscopy[J]. Journal of Biophotonics, 7, 671-675(2014).

[42] Ferrara M A, de Angelis A, de Luca A C et al. Simultaneous holographic microscopy and Raman spectroscopy monitoring of human spermatozoa photodegradation[J]. IEEE Journal of Selected Topics in Quantum Electronics, 22, 27-34(2016).

[43] Liu F, Zhu Y, Liu Y F et al. Real-time Raman microspectroscopy scanning of the single live sperm bound to human zona pellucida[J]. Fertility and Sterility, 99, 684-689(2013).

[44] Edengeiser E, Meister K, Bründermann E et al. Non-invasive chemical assessment of living human spermatozoa[J]. RSC Advances, 5, 10424-10429(2015).

[45] Huang Z F, Du S R, Liang X Z et al. Head-attached live sperm cell for label-free micro-Raman evaluation of sperm DNA integrity: a preliminary study[J]. Journal of Raman Spectroscopy, 51, 591-595(2020).

[46] Simchi M, Riordon J, You J B et al. Selection of high-quality sperm with thousands of parallel channels[J]. Lab on a Chip, 21, 2464-2475(2021).

[47] Vasilescu S A, Khorsandi S, Ding L et al. A microfluidic approach to rapid sperm recovery from heterogeneous cell suspensions[J]. Scientific Reports, 11, 1-11(2021).

[48] Xiao S, Riordon J, Simchi M et al. FertDish: microfluidic sperm selection-in-a-dish for intracytoplasmic sperm injection[J]. Lab on a Chip, 21, 775-783(2021).

[49] Gai J Y, Nosrati R, Neild A. High DNA integrity sperm selection using surface acoustic waves[J]. Lab on a Chip, 20, 4262-4272(2020).

[50] Ozcelik A, Rufo J, Guo F et al. Acoustic tweezers for the life sciences[J]. Nature Methods, 15, 1021-1028(2018).