Objective:To explore the remodeling of brain function 2 years after anterior cruciate ligament reconstruction (ACLR) and its relationship with functioning and behavior.Methods:Forty-eight volunteers who had received ACLR from the same surgeon were divided into a coping and a non-coping group, each of 17. Another 14 health volunteers formed the control group. Resting-state functional magnetic resonance imaging was used to record blood oxygen level-dependent signals from the members of all three groups in the 0.01 to 0.08Hz band. One-way analysis of variance was applied to the differences in low frequency amplitude (ALFF) observed.Results:The results of multiple comparisons with Gaussian random field theory correction showed that the differences in bilateral putamen ALFF values among the three groups were statistically significant. The signals from the right cerebellar area 8 and the bilateral putamen were significantly stronger among the non-coping group on average. Pearson correlation analysis showed that the ALFF values from the right cerebellar 8 region were positively and significantly more correlated with the symmetry of a subject′s Y balance function test results in the coping group compared with the non-coping group.Conclusions:Subcortical brain function remodeling occurs in ACLR patients returning to exercise after surgery, and a Y-balance function test can indirectly reflect such remodeling. That can provide a basis for designing programs for rehabilitating advanced brain functions.

Objective To explore the difference of brain function remodeling in patients with differ-ent motor ability and record the brain function index of patients returning to exercise 2 years after an-terior cruciate ligament reconstruction(ACLR).Methods Patients undergoing ACLR in year 2017 and 2018(2 years after ACLR)were selected and randomly divided into a return-to-exercise(CP,n=7)group,a non-return-to-exercise(NP,n=7)group.Moreover,8 healthy counterparts of the CP group were chosen into a healthy control(HC)group.Resting state functional magnetic resonance imaging(rs-fMRI)was used to obtain the blood oxygen level dependent signals,and the amplitude of low-frequen-cy fluctuation(ALFF)was computed across the typical band(0.01～0.08 Hz),sub-band Slow-4(0.027～0.073 Hz)and Slow-5(0.01～0.027 Hz).Meanwhile,brain maps were obtained and two-sample t-tests were performed among different groups(P<0.005).Results In the typical frequency band,the average ALFF value was higher in the CP and HC groups than the NP group for the Cerebelum_Crus1,but lower in the CP group than the NP group for the Occipital_Mid,higher in the CP group than the HC group for the Putamen and higher in the NP group than the HC group for the Frontal_Mid_Orb.More-over,in the Slow-4 band,the ALEF level was lower in the CP group than the NP group for the Oc-cipital_Mid,higher in the CP group than the HC group for the Putamen,and higher in the NP group than the HC group for the Frontal_Mid_Orb and cerebellum_Crus2.However,in the Slow-5 band,the ALEF values were higher in the CP group than the NP group for the Occipital_Inf and Precen-tral,but lower for the caudate.In the same band,those values were higher in the CP group than in the HC group for the Cerebellum_Crus1,but lower in the NP group than the HC group for the Cere-bellum_Crus1 and Supp_Motor_Area,and higher in the NP group than the HC group for the Fron-tal_Mid_Orb.Conclusion The patients returning to exercise after ACLR have higher cerebellar remodel-ing and lower visual compensation than those not,and display higher basal ganglia and cerebellar nerve remodeling than healthy controls,suggesting that functional compensation occurs in the former pa-tients.Moreover,Slow-4,Slow-5 and other sub-bands can complement the classical frequency bands and are worthy of further study.