INTRODUCTION AND OBJECTIVE: Outer dense ﬁbers (ODFs) are nine ﬁbers surrounding Axoneme in the midpiece and extend to variable length through the principal piece of spermatozoa. They represent about 30% of the protein portion of human spermatozoa and accordingly they are affected by any pathology that can affect protein content of spermatozoa as in presence of oxidative stress (OS). ODFs to have a role in sperm motility and support. In this study we detect the abnormalities in outer dense ﬁbers in iOAT patients and correlate these abnormalities with measurements of Carbonyl Protein which is the most recent reliable and stable indicator for oxidative stress. Moreover we correlate these results with the percentage of forward progressive sperm motility and the percentage of midpiece anomalies to ﬁnd the relation between OS, ODFs anomalies and sperm function.
METHODS: 20 patients with iOAT syndrome (group 1) and 10 normal subjects with proven fertility, as controls, (group 2) were included in this study. Carbonyl Protein was measured by ELISA as an indicator for oxidative stress. Semen analysis was done according WHO parameters. Abnormalities of outer dense ﬁbers were determined by transmission electron microscopy (TEM).
RESULTS: Sperm parameters showed a statistically signiﬁcant difference between iOAT patients and normal controls. CP values were signiﬁcantly higher in iOAT patients than in Normal controls (p<0.001). A highly signiﬁcant difference was found between iOAT patients and normal controls regarding abnormalities in outer dense ﬁbers (p<0.001). Abnormalities in Outer dense ﬁbers have been found to be positively correlated with CP values (r²= 0,851) and MP anomalies (r²= 0,431) and negatively correlated with forward progressive motility (r²= -0,762).
CONCLUSIONS: In our study, we found a higher percentage of ODFs anomalies in iOAT patients than in normal controls. Abnormalities in ODFs are positively correlated with CP values which may indicate the effect of OS as underlying pathology for those anomalies. Moreover, ODFs anomalies are correlated positively with Midpiece anomalies and negatively with progressive sperm motility. This correlation indicates thepossible role of ODFs in sperm functions. Interestingly, ODFs anomaliesfound in our study, were always associated with anomalies in the outerdoublets tubules (Ods) of the axoneme. This may lead to the thinking that both ODFs and ODs are structurally and functionally related.