Objective To explore the dilution conditions and standards in detecting the semen samples with high sperm concentration using computer-aided sperm analysis(CASA)systems.Methods CASA systems with 10 μm depth disposable counting chambers were used for the examination.The samples were divided into undiluted group(Group 1∶sperm concentration＜50×106/mL)and diluted groups(Group 2∶50×106/mL≤ sperm concentration＜100× 106/mL;Group 3∶sperm concentration≥100× 106/mL).When sperm concentration＜50×106/mL,no dilution was performed.When sperm concentration≥50× 106/mL,the samples were diluted with saline at 1∶n/(50×106)ratio(n=sperm concentration,n/[50×106]rounded down)to＜50×106/mL of sperm concentration.The sperm concentration,progressive motility(PR),non-progressive motility(NP),total motility(PR+NP)and immotile sperm percent-age(IM)were analyzed before and after dilution.The consistency of results pre-and post-dilution was compared.ROC curve was used to analyze the optimal dilution threshold.Results The differences in the parameters pre-and post-dilution gradually rosed with the increased sperm concentration.ROC curve analysis showed optimal dilution thresholds were 133.05 × 106/mL,101.75 × 106/mL,118.60×106/mL,90.90×106/mL,111.83×106/mL for the sperm concentration,PR+NP,PR,NP and IM respectively.Considering sperm concentration and NP were most affected the undiluted high concentration samples,the optimal comprehensive dilution threshold was determined as 125.08× 106/mL.Conclusion When sperm concentration exceeds 125×106/mL,it is recommended to dilute semen sample with normal saline.

PURPOSE: Endothelial progenitor cells (EPCs) play a key role in tissue repair and regeneration. Previous studies have shown that infusion of human umbilical cord blood-derived endothelial colony-forming cells improves outcomes in mice subjected to experimental traumatic brain injury (TBI). However, the efficiency of cell transplantation is not satisfactory. Oxidative stress plays a significant role in the survival of transplanted cells following ischemic reperfusion injury. This observational clinical study investigated the correlation between the number of circulating EPCs and plasma levels of superoxide dismutase (SOD) and malonyldialdehyde (MDA). MATERIALS AND METHODS: Peripheral blood samples were collected from 20 patients with mild TBI at day-1, day-2, day-3, day-4, and day-7 post TBI. The number of circulating EPCs and the plasma levels of SOD and MDA were measured. RESULTS: The average of circulating EPCs in TBI patients decreased initially, but increased thereafter, compared with healthy controls. Plasma levels of SOD in TBI patients were significantly lower than those in healthy controls at day-4 post-TBI. MDA levels showed no difference between the two groups. Furthermore, when assessed on day-7 post-TBI, the circulating EPC number were correlated with the plasma levels of SOD and MDA. CONCLUSION: These results suggest that the number of circulating EPCs is weakly to moderately correlated with plasma levels of SOD and MDA at day-7 post-TBI, which may offer a novel antioxidant strategy for EPCs transplantation after TBI.
Animals ; Brain Injuries* ; Cell Transplantation ; Clinical Study ; Endothelial Progenitor Cells* ; Humans ; Malondialdehyde ; Mice ; Oxidative Stress* ; Plasma ; Regeneration ; Reperfusion Injury ; Superoxide Dismutase ; Transplants ; Umbilical Cord