Objective To explore the effect of sex difference on learning and memory function and the brain tissue damage of neonatal SD rats with hypoxic-ischemic brain damage.Methods Sixty,7-day-old neonatal Sprague-Dawley rats,were divided into randomly:male control group (M group,n=15),female control group (F group,n=15),male hypoxic-ischemic brain damage group (MHIBD group,n=15) and female hypoxic-ischemic brain damage group (FHIBD group,n=15).A modified newborn rat model that had a combined hypoxic-ischemic brain damage as described by Rice-Vannucci was used.The Morris water maze was used to evaluate the ability of learning and memory.The brain MRI and transmission electron microscope(TEM) was used to evaluate the scope of brain tissue damage and the change of the synaptic ultrastructure.Results There were no differences in swimming distance,escape latency,synaptic cleft and damage brain volume between M group and F group(P＞0.05).Compare with M group and F group,MHIBD group and FHIBD group showed significant brain injury,longer escape latency ((39.38±11.40) s vs (14.86±4.42) s,(30.14±7.18)s vs (18.41±5.03) s),longer swimming distance ((15.31± 1.77) cm vs (3.68±1.50) cm,(13.18±1.79) cm vs (4.61±1.61) cm),and TEM showed the synaptic cleft was widened ((23.18± 1.36) nm vs (19.24± 1.51) nm,(21.40± 1.71) nm vs (19.87±0.94) nm),P＜0.05).MHIBD group was more seriously compromised than the FHIBD group(P＜0.05).The brain MRI showed the damage brain volume of MHIBD group were significantly larger than FHIBD group(P＜0.05).Conclusion After bypoxic ischemic brain damage,the tolerance of brain damage and / or post-injury recovery capabilities of female rats are stronger than males.

Objective: To investigate the impact of hypoxic-ischemic brain injury (HIBI) on brain development in neonatal rats of different sexes. Methods: From January 1 to December 31, 2018, 60 7-day-old SD rats were randomly divided into HIBI-F group (20 rats), HIBI-M group (20 rats), and control group (20 rats, 10 females and 10 males). The animal model of HIBI was established with Rice-Vannucci method, with the rats′ left common carotid artery double-ligated and severed. The rats were then placed in an incubator and exposed to a hypoxic gas mixture (8% O₂, 92% N₂) for 90 minutes. No intervention was given to the control group. Two weeks after HIBI, the motor development was evaluated by footprint analysis, the residual brain volume was measured by brain magnetic resonance imaging (MRI), and the damage of synaptic ultra structure was analyzed by transmission electron microscope. One-way ANOVA or χ² test was used for inter-group statistical analysis, and paired sample t test was used to compare the bilateral step length and toe distance of rats in the same group. Results: The mortality rate of HIBI-F was significantly higher than that of HIBI-M (20%(4/20) vs. 10%(2/20), χ²=40.000, P=0.001). The right step length and toe distance in HIBI-M group and HIBI-F group were significantly shorter than those in control group ((7.5±0.3) cm and (7.9±0.5) cm vs. (8.2±0.5) cm, F=9.605, P<0.01, (0.9±0.1) cm and (1.0±0.0) cm vs. (1.1±0.1) cm, F=71.437, P<0.01). Besides, according to above data, the right step length and toe distance in HIBI-M group were significantly shorter than those in the HIBI-F group (both P<0.01). Furthermore, the right step length was significantly shorter than the left step length ((8.3±0.4) and (8.3±0.5) cm, t=5.289 and 10.580, P=0.001 and 0.010, respectively) and toe distance ((1.1±0.1) and (1.1±0.1) cm, t=7.953 and 6.435, respectively, both P<0.01) in both HIBI-M group and HIBI-F group. Similarly, the synaptic gap of the left precentral gyrus neurons was longer in HIBI-M group and HIBI-F group than that in control group ((23.4±1.3) and (19.7±1.6) nm vs. (18.9±0.6) nm, F=71.719, P<0.01), and also longer in HIBI-M group than that in HIBI-F group (t=7.645, P<0.01). Likewise, the residual brain volume in HIBI-M group and HIBI-F group was significantly less than that in control group ((67±4)% and (75±5)% vs. 100%, F=406.122, P<0.01), and the residual brain volume in HIBI-M group was significantly less than that in HIBI-F group (t=-5.281, P<0.01). Conclusions Male neonatal rats are more vulnerable to HIBI and have severer subsequent brain injury and hemiplegia. Different treatment strategies for HIBI patients of different sexes should be developed.