Objective: To investigate the distribution characteristics of ABO and Rh blood group antigen phenotypes among blood donors in the Yantai, Shandong. Methods: Blood samples from 310 180 voluntary blood donors in Yantai collected from January 2019 to December 2023 were tested for ABO and Rh blood group antigens using standard serological methods. RhD-negative samples were further typed for C, c, E, and e antigens. Population genetic analysis of blood groups was performed: allele frequencies were inferred from ABO phenotypes, and Rh allele/haplotype frequencies were estimated based on the proportion of RhD-negative donors and CcEe antigen typing, followed by Hardy-Weinberg equilibrium testing. Results: The phenotypic distribution frequency of ABO blood groups was B(32.72%)>O(28.93%)>A(27.65%)>AB(10.70%). The inferred allele frequencies were r(53.74%)>q(24.78%)>p(21.48%), consistent with Hardy-Weinberg equilibrium (P>0.05). A total of 1 872 Rh-negative donors (0.603%) were identified. The most common Rh phenotypes were ccdee (59.56%) and Ccdee (30.18%). The distribution of Rh antigen phenotypes deviated significantly from Hardy-Weinberg equilibrium (χ =37.15, P<0.001), with the cde haplotype showing the highest frequency. There was no statistically significant difference in ABO blood group distribution between RhD-positive and RhD-negative donors (P>0.05). Conclusion: The ABO blood group distribution among voluntary blood donors in Yantai is generally stable and consistent with population genetic equilibrium, whereas the Rh antigen phenotype distribution deviates from equilibrium, indicating potential underlying genetic structural differences.

ObjectiveTo investigate the effect of different visual inputs and task conditions on balance function and lower limb biomechanical characteristics in children with spastic hemiplegia. MethodsFrom March to July, 2025, 30 children aged six to nine years old with spastic hemiplegia (hemiplegia group) and 30 healthy children (control group) were selected. A 2×2×2 mixed experimental design was employed, involving groups (hemiplegia vs. healthy), tasks (single-task vs. dual-task), and vision (eyes open vs. eyes closed). One week before test, they were evaluated with Fugl-Meyer Assessment-Lower Extremities (FMA-LE), Wee Function Independent Measurement (WeeFIM) and Wechsler Intelligence Scale for Children, Fourth Edition (WISC-Ⅳ). A 3D gait analysis system and a plantar pressure testing system were used to collect spatio-temporal parameters of walking speed, stride length, cadence and step width, kinematic parameters of hip/knee/ankle joint angles, kinetic parameters of forefoot loading ratio, center of pressure (CoP) displacement, while dual-task cost (DTC) was caculated. ResultsSpatio-temporal parameters showed that under dual-task and eyes-closed conditions, walking speed and stride length decreased while step width increased in the hemiplegia group. Significant interaction effects among group, task, and vision were observed for speed, stride length, and step width (F > 4.886, P < 0.05). Kinematic parameters indicated that during dual-tasks, the hemiplegia group exhibited increased hip flexion and decreased ankle dorsiflexion; under eyes-closed conditions, knee flexion increased. The interaction of the three factors significantly affected all joint angles (F > 4.876, P < 0.05). Kinetic parameters showed that under dual-task and eyes-closed conditions, the forefoot loading ratio and anteroposterior CoP displacement decreased, while mediolateral CoP displacement increased. The interaction of the three factors significantly affected CoP displacement (F > 4.355, P < 0.05). All the DTC was significantly higher in the hemiplegia group than in the control group, except DTC of the cadence (|t| > 14.393, P < 0.001). Correlation analysis revealed that the score of FMA-LE was strongly negatively correlated with DTC (|r| > 0.731, P < 0.01). The Functional Independence Measure for Children and Working Memory Index showed moderate negative correlations with the DTC of walking speed and cadence (|r| > 0.462, P < 0.05). ConclusionThe gait and balance of children with spastic hemiplegia are concurrently influenced by dual-tasking and visual input. The superposition of visual deprivation and dual-tasks significantly exacerbates gait abnormalities. Furthermore, is strongly correlated with motor function and working memory.

ObjectiveTo investigate the effect of different visual inputs and task conditions on balance function and lower limb biomechanical characteristics in children with spastic hemiplegia. MethodsFrom March to July, 2025, 30 children aged six to nine years old with spastic hemiplegia (hemiplegia group) and 30 healthy children (control group) were selected. A 2×2×2 mixed experimental design was employed, involving groups (hemiplegia vs. healthy), tasks (single-task vs. dual-task), and vision (eyes open vs. eyes closed). One week before test, they were evaluated with Fugl-Meyer Assessment-Lower Extremities (FMA-LE), Wee Function Independent Measurement (WeeFIM) and Wechsler Intelligence Scale for Children, Fourth Edition (WISC-Ⅳ). A 3D gait analysis system and a plantar pressure testing system were used to collect spatio-temporal parameters of walking speed, stride length, cadence and step width, kinematic parameters of hip/knee/ankle joint angles, kinetic parameters of forefoot loading ratio, center of pressure (CoP) displacement, while dual-task cost (DTC) was caculated. ResultsSpatio-temporal parameters showed that under dual-task and eyes-closed conditions, walking speed and stride length decreased while step width increased in the hemiplegia group. Significant interaction effects among group, task, and vision were observed for speed, stride length, and step width (F > 4.886, P < 0.05). Kinematic parameters indicated that during dual-tasks, the hemiplegia group exhibited increased hip flexion and decreased ankle dorsiflexion; under eyes-closed conditions, knee flexion increased. The interaction of the three factors significantly affected all joint angles (F > 4.876, P < 0.05). Kinetic parameters showed that under dual-task and eyes-closed conditions, the forefoot loading ratio and anteroposterior CoP displacement decreased, while mediolateral CoP displacement increased. The interaction of the three factors significantly affected CoP displacement (F > 4.355, P < 0.05). All the DTC was significantly higher in the hemiplegia group than in the control group, except DTC of the cadence (|t| > 14.393, P < 0.001). Correlation analysis revealed that the score of FMA-LE was strongly negatively correlated with DTC (|r| > 0.731, P < 0.01). The Functional Independence Measure for Children and Working Memory Index showed moderate negative correlations with the DTC of walking speed and cadence (|r| > 0.462, P < 0.05). ConclusionThe gait and balance of children with spastic hemiplegia are concurrently influenced by dual-tasking and visual input. The superposition of visual deprivation and dual-tasks significantly exacerbates gait abnormalities. Furthermore, is strongly correlated with motor function and working memory.

ObjectiveTo investigate the effect of different visual inputs and task conditions on balance function and lower limb biomechanical characteristics in children with spastic hemiplegia. MethodsFrom March to July, 2025, 30 children aged six to nine years old with spastic hemiplegia (hemiplegia group) and 30 healthy children (control group) were selected. A 2×2×2 mixed experimental design was employed, involving groups (hemiplegia vs. healthy), tasks (single-task vs. dual-task), and vision (eyes open vs. eyes closed). One week before test, they were evaluated with Fugl-Meyer Assessment-Lower Extremities (FMA-LE), Wee Function Independent Measurement (WeeFIM) and Wechsler Intelligence Scale for Children, Fourth Edition (WISC-Ⅳ). A 3D gait analysis system and a plantar pressure testing system were used to collect spatio-temporal parameters of walking speed, stride length, cadence and step width, kinematic parameters of hip/knee/ankle joint angles, kinetic parameters of forefoot loading ratio, center of pressure (CoP) displacement, while dual-task cost (DTC) was caculated. ResultsSpatio-temporal parameters showed that under dual-task and eyes-closed conditions, walking speed and stride length decreased while step width increased in the hemiplegia group. Significant interaction effects among group, task, and vision were observed for speed, stride length, and step width (F > 4.886, P < 0.05). Kinematic parameters indicated that during dual-tasks, the hemiplegia group exhibited increased hip flexion and decreased ankle dorsiflexion; under eyes-closed conditions, knee flexion increased. The interaction of the three factors significantly affected all joint angles (F > 4.876, P < 0.05). Kinetic parameters showed that under dual-task and eyes-closed conditions, the forefoot loading ratio and anteroposterior CoP displacement decreased, while mediolateral CoP displacement increased. The interaction of the three factors significantly affected CoP displacement (F > 4.355, P < 0.05). All the DTC was significantly higher in the hemiplegia group than in the control group, except DTC of the cadence (|t| > 14.393, P < 0.001). Correlation analysis revealed that the score of FMA-LE was strongly negatively correlated with DTC (|r| > 0.731, P < 0.01). The Functional Independence Measure for Children and Working Memory Index showed moderate negative correlations with the DTC of walking speed and cadence (|r| > 0.462, P < 0.05). ConclusionThe gait and balance of children with spastic hemiplegia are concurrently influenced by dual-tasking and visual input. The superposition of visual deprivation and dual-tasks significantly exacerbates gait abnormalities. Furthermore, is strongly correlated with motor function and working memory.

ObjectiveTo investigate the effect of repetitive peripheral magnetic stimulation (rPMS) combined with upper limb intelligent robotic training on muscle tension, motor function and cortical excitability in children with unilateral spastic cerebral palsy (USCP). MethodsFrom March, 2023 to December, 2024, 90 children with USCP admitted to Children's Hospital of Soochow University were selected and randomly divided into control group (n = 30), rPMS group (n = 30) and combined group (n = 30). The control group received conventional occupational therapy. The rPMS group received rPMS intervention followed by conventional occupational therapy. The combined group received rPMS followed by upper limb intelligent robot training, for four weeks. Before and after treatment, muscle tension of biceps brachii was assessed using the modified Ashworth Scale (MAS); upper limb motor function was evaluated using the Fugl-Meyer Assessment-Upper Extremity (FMA-UE) and upper limb intelligent parameters; and cortical excitability was measured using transcranial magnetic stimulation (TMS), including resting motor threshold (RMT) and motor-evoked potential (MEP) amplitude of the affected hemisphere. ResultsAfter treatment, MAS grades improved in all groups (|Z| > 3.523, P < 0.001), and the improvement in the combined group was superior to that in the control group (P < 0.05). Significant intra-group (F > 65.21, P < 0.001), inter-group (F > 17.94, P < 0.001) and interaction effects (F > 5.36, P < 0.01) were observed in FMA-UE scores, upper limb intelligent parameters and TMS parameters. Post Hoc analysis showed that the combined group demonstrated significantly greater improvements in FMA-UE scores, upper limb intelligent parameters, and TMS parameters compared with both the control and rPMS groups (all P < 0.01). Except for FMA-UE scores, the rPMS group showed significantly greater improvements than the control group in upper limb intelligent parameters (mechanical feedback, trajectory, and range of motion) and TMS parameters (RMT and MEP amplitude) (P < 0.05). ConclusionrPMS combined with upper limb intelligent robotic training can reduce upper limb muscle tension, improve motor function, and enhance cortical excitability in children with USCP.

Atherosclerosis(AS),a chronic and multifactorial vascular disease,involves diverse pathological processes including dyslipidemia,reactive oxygen species(ROS)generation,inflammatory cell infiltration,and local thrombosis.In recent years,cuproptosis,a novel form of copper-dependent programmed cell death,has attracted considerable attention.It is primarily triggered by the binding of excessive copper ions to lipoylated proteins,resulting in disruption of the tricarboxylic acid(TCA)cycle,damage to iron-sulfur cluster proteins,and consequent functional impairment of related enzymes and proteins,ultimately inducing cell death through multiple pathways.Previous studies have revealed the close association between cuproptosis and AS pathogenesis.Cuproptosis promotes ROS production,induces lipid peroxidation via the Fenton reaction,triggers inflammatory responses and disrupts mitochondrial TCA cycle,thereby compromising the functions of vascular cells(macrophages,endothelial cells,and smooth muscle cells),destabilizing plaques and exacerbating AS progression.Therefore,targeting cuproptosis may present a new direction for AS treatment and its complication prevention.Specifically,cuproptosis-related genes may serve as potential diagnostic biomarkers for AS,and pharmacological inhibition of cuproptosis has been shown to significantly modulate disease progression,highlighting the potential value of targeting cuproptosis in AS management.This review systematically summarizes the molecular mechanisms of copper metabolism and cuproptosis,their pathophysiological roles in AS,and recent advances in targeting cuproptosis for AS diagnosis and treatment,aiming to provide novel insights into clinical strategies for AS prevention and therapy.

Objective:To document any effect of repeated high-frequency repetitive transcranial magnetic stimulation (rTMS) using double-cone coils on the lower limb motor function of stroke survivors.Methods:A total of 40 stroke survivors were randomly divided into an rTMS group and a sham stimulation group, each of 20. The rTMS group received rTMS at 10Hz with a double-cone coil, while a coil that produced sound but no magnetic stimulation was used with the sham group. The treatments were administered daily, five times a week, for three weeks. Before as well as after 1, 2 and 3 weeks of treatment, lower limb motor function, balance, and the root mean square (RMS) and median frequency (MF) of the rectus femoris and tibialis anterior muscles were evaluated using the Fugl-Meyer lower extremity assessment (FMA-LE), the Berg Balance Scale (BBS), the Modified Barthel Index (MBI), Brunnstrom staging, the TecnoBody balance assessment system, and surface electromyography.Results:Compared with the sham stimulation group, the BBS score of the rTMS group was significantly higher after 2 weeks of treatment, and both the FMA-LE and BBS scores were significantly higher after 3 weeks. The average Brunnstrom stage in the sham group had increased significantly after 3 weeks, but in the rTMS group it had increased after 2 weeks. By 3 weeks there were no significant differences between the two groups. In terms of movement control, the average motion ellipse area in the rTMS group was significantly smaller than among the sham group after 2 weeks, and after 3 weeks the average motion trajectory length was significantly shorter than in the sham group. The average RMS of the rectus femoris in the rTMS group was significantly higher than the sham group′s average after 3 weeks of treatment, indicating improved muscle activation.Conclusions:High-frequency rTMS using a conical coil can effectively improve the lower limb motor function and balance ability of stroke survivors, demonstrating promising clinical application potential.

Objective:To document any effect of repeated high-frequency repetitive transcranial magnetic stimulation (rTMS) using double-cone coils on the lower limb motor function of stroke survivors.Methods:A total of 40 stroke survivors were randomly divided into an rTMS group and a sham stimulation group, each of 20. The rTMS group received rTMS at 10Hz with a double-cone coil, while a coil that produced sound but no magnetic stimulation was used with the sham group. The treatments were administered daily, five times a week, for three weeks. Before as well as after 1, 2 and 3 weeks of treatment, lower limb motor function, balance, and the root mean square (RMS) and median frequency (MF) of the rectus femoris and tibialis anterior muscles were evaluated using the Fugl-Meyer lower extremity assessment (FMA-LE), the Berg Balance Scale (BBS), the Modified Barthel Index (MBI), Brunnstrom staging, the TecnoBody balance assessment system, and surface electromyography.Results:Compared with the sham stimulation group, the BBS score of the rTMS group was significantly higher after 2 weeks of treatment, and both the FMA-LE and BBS scores were significantly higher after 3 weeks. The average Brunnstrom stage in the sham group had increased significantly after 3 weeks, but in the rTMS group it had increased after 2 weeks. By 3 weeks there were no significant differences between the two groups. In terms of movement control, the average motion ellipse area in the rTMS group was significantly smaller than among the sham group after 2 weeks, and after 3 weeks the average motion trajectory length was significantly shorter than in the sham group. The average RMS of the rectus femoris in the rTMS group was significantly higher than the sham group′s average after 3 weeks of treatment, indicating improved muscle activation.Conclusions:High-frequency rTMS using a conical coil can effectively improve the lower limb motor function and balance ability of stroke survivors, demonstrating promising clinical application potential.

Atherosclerosis(AS),a chronic and multifactorial vascular disease,involves diverse pathological processes including dyslipidemia,reactive oxygen species(ROS)generation,inflammatory cell infiltration,and local thrombosis.In recent years,cuproptosis,a novel form of copper-dependent programmed cell death,has attracted considerable attention.It is primarily triggered by the binding of excessive copper ions to lipoylated proteins,resulting in disruption of the tricarboxylic acid(TCA)cycle,damage to iron-sulfur cluster proteins,and consequent functional impairment of related enzymes and proteins,ultimately inducing cell death through multiple pathways.Previous studies have revealed the close association between cuproptosis and AS pathogenesis.Cuproptosis promotes ROS production,induces lipid peroxidation via the Fenton reaction,triggers inflammatory responses and disrupts mitochondrial TCA cycle,thereby compromising the functions of vascular cells(macrophages,endothelial cells,and smooth muscle cells),destabilizing plaques and exacerbating AS progression.Therefore,targeting cuproptosis may present a new direction for AS treatment and its complication prevention.Specifically,cuproptosis-related genes may serve as potential diagnostic biomarkers for AS,and pharmacological inhibition of cuproptosis has been shown to significantly modulate disease progression,highlighting the potential value of targeting cuproptosis in AS management.This review systematically summarizes the molecular mechanisms of copper metabolism and cuproptosis,their pathophysiological roles in AS,and recent advances in targeting cuproptosis for AS diagnosis and treatment,aiming to provide novel insights into clinical strategies for AS prevention and therapy.

BACKGROUND:The treatment of post-stroke dysphagia with Lipopharyngeal Qibi Formula has achieved good efficacy,and 5-hydroxytryptamine in peripheral serum and neurotransmitters in the nucleus tractus solitarius are closely related to swallowing.Therefore,this study was conducted to explore the modulatory effects of peripheral serum and nucleus tractus solitarius neurotransmitters in swallowing by using modern medical experimental methods such as molecular biology,thereby developing new ideas for the exploration of their mechanisms. OBJECTIVE:To verify the therapeutic effect of Lipopharyngeal Qibi Formula on post-stroke dysphagia and to investigate its mechanism of action. METHODS:Thirty-eight Sprague-Dawley rats were randomly divided into model group(n=14),treatment group(n=14)and sham-operated group(n=10).Animals in the model and treatment groups were modeled by reperfusion after 90 minutes of transient cerebral ischemia by wire bolus method.At 6 hours after modeling,neurological function was scored,and rats with a score of 2 were selected for subsequent experiments.The treatment group was given compound Lipopharyngeal Qibi Formula by gavage starting from the 2nd day after modeling and the remaining two groups were given normal saline by gavage.Changes in body mass,24-hour food and water intake were recorded on days 2,7,14 and 30.The swallowing initiation response time and the number of swallows were detected using a biosignal collector and a tonic transducer on days 14 and 30.After the swallowing test,the ischemic area of the brain in each group was measured by TTC staining.The expression of 5-hydroxytryptamine in the nucleus tractus solitarius of the medulla oblongata was measured by immunohistochemistry.The mRNA and protein expression levels of BCL-2 and BAX in the insula,premotor cortex,cingulate cortex and thalamus of rats in each group were measured by RT-PCR and Western blot,respectively. RESULTS AND CONCLUSION:Compared with the sham-operated group,the body mass,24-hour food intake and water intake were reduced,the swallow initiation response time was prolonged,and the number of swallows was reduced in the treatment and model groups at day 14 of gavage(P＜0.05).Compared with the model group,the body mass,24-hour food intake and water intake of rats were increased in the treatment group at day 30 of gavage(P＜0.05),but were still lower than those in the sham-operated group.Compared with the model group,the swallow initiation reaction time was shortened and the number of swallows increased in the treatment group,but the number of swallows was still significantly lower than that in the sham-operated group(P＜0.05).Cerebral ischemia area was reduced in the treatment group compared with the model group,and the number of 5-hydroxytryptamine-positive cells in the nucleus tractus solitarius of the medulla oblongata was increased in the treatment group compared with the model group,but it was still significantly lower than that in the sham-operated group(P＜0.05).Compared with the model group,the expression of BCL-2 mRNA and protein in the insula,cingulate cortex and thalamus of rats in the treatment group were significantly increased,the expression of BAX mRNA and protein were significantly decreased,and the BCL-2/BAX ratio was significantly increased(P＜0.05).To conclude,the Chinese herbal compound Lipopharyngeal Qibi Formula could improve the number of swallows and swallowing initiation response time,as well as 24-hour food intake,body mass and other swallowing-related indexes in rats with post-stroke dysphagia.The mechanism of action may be achieved by improving the area of cerebral ischemia,inhibiting the apoptosis of neuronal cells in the insula,cingulate cortex and thalamus of rats,thus improving the regulation of the higher centers on the medulla oblongata swallowing center,and regulating the level of 5-hydroxytryptamine in the nucleus tractus solitarius.