Journal
HUMAN REPRODUCTION
Volume 26, Issue 7, Pages 1641-1649Publisher
OXFORD UNIV PRESS
DOI: 10.1093/humrep/der122
Keywords
DNA damage; Raman microspectroscopy; Sperm
Categories
Funding
- Centre of Reproductive Medicine and Andrology
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BACKGROUND: Beyond determining the percentage of damaged sperm, current methods of DNA assessment are of limited clinical utility as they render the sample unusable. We evaluated Raman microspectroscopy, a laser-based non-invasive technique that provides detailed chemical 'fingerprints' of cells and which potentially could be used for nuclear DNA-based sperm selection. METHODS: Eight healthy donors provided ejaculates. After system optimization, a minimum of 200 air-dried sperm/sample/donor, prior to/and after UVB irradiation, were assessed by two observers. Spectra were analysed by Principal Component, Spectral Angle and Wavelet Analyses. RESULTS: Spectra provided a chemical map delineating each sperm head region. Principal Component Analysis showed clear separation between spectra from UV-irradiated and untreated samples whilst averaged data identified two regions of interest (1040 and 1400 cm(-1)). Local spectral analysis around the DNA PO4 backbone peak (1042 cm(-1)), showed that changes in this region were indicative of DNA damage. Wavelet decomposition confirmed both the 1042 cm(-1) shift and a second UVB susceptible region (1400-1600 cm(-1)) corresponding to protein-DNA interactions. No difference was found between observer measurements. CONCLUSIONS: Raman microspectroscopy can provide accurate and reproducible assessment of sperm DNA structure and the sites and location of damage.
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