Department of Urology, Weill Cornell Medical College, New York, New York, USA.
J Urol. 2011 Dec;186(6):2487-92. doi: 10.1016/j.juro.2011.07.081. Epub 2011 Oct 21.
Microdissection testicular sperm extraction has replaced conventional testis biopsies for men with nonobstructive azoospermia and it has become first line treatment. The current problem is that the decision to retrieve tubules is based only on appearance and there is no guarantee that the tubules removed contain sperm. Multiphoton microscopy enables label-free immediate visualization of many biological processes in living tissue at subcellular resolution.
We used multiphoton microscopy to study the different developmental stages of spermatogenesis using neonatal, pubertal and adult rat testes. We used a testis hypothermia plus ischemia model to study different testicular histopathologies with multiphoton microscopy. To assess the risk of photo damage DNA fragmentation in testis biopsies imaged at different intensities was assessed by TUNEL assay.
Multiphoton microscopy identified the stage of spermatogenesis in a seminiferous tubule in fresh tissue without using exogenous labels. We noted significant differences in fluorescence and spectroscopic characteristics between tubules with and without sperm. Sertoli's-cell only tubules had abundant autofluorescence in the 420 to 490 and 550 to 650 nm wavelength ranges while tubules containing sperm had autofluorescence only in the 420 to 490 nm range. On DNA fragmentation assay sperm from tubules imaged by multiphoton microscopy had minimal DNA fragmentation at the laser intensities needed to distinguish tubules with and without sperm.
Multiphoton microscopy has the potential to facilitate real-time visualization of spermatogenesis in humans and aid in clinical applications, such as testicular sperm extraction for men with infertility.
微创睾丸精子提取已取代传统的睾丸活检,成为非梗阻性无精子症男性的一线治疗方法。目前的问题是,获取小管的决定仅基于外观,不能保证切除的小管中含有精子。多光子显微镜使我们能够在亚细胞分辨率下对活组织中的许多生物过程进行无标记的即时可视化。
我们使用多光子显微镜研究了使用新生、青春期和成年大鼠睾丸的不同精子发生发育阶段。我们使用睾丸低温加缺血模型,使用多光子显微镜研究不同的睾丸组织病理学。为了评估光损伤的风险,我们通过 TUNEL 检测评估了在不同强度下成像的睾丸活检中的 DNA 片段化。
多光子显微镜在不使用外源性标记的情况下,在新鲜组织中识别出生精小管的精子发生阶段。我们注意到有精子和无精子的小管之间在荧光和光谱特征上有显著差异。Sertoli 细胞的小管在 420 到 490nm 和 550 到 650nm 波长范围内有丰富的自发荧光,而含有精子的小管只有在 420 到 490nm 范围内有自发荧光。在 DNA 片段化检测中,从多光子显微镜成像的小管中提取的精子在区分有精子和无精子的小管所需的激光强度下,DNA 片段化最小。
多光子显微镜有可能实时可视化人类的精子发生,并有助于临床应用,如对不育男性进行微创睾丸精子提取。
