OBJECTIVE To investigate the ameliorative effect and mechanism of short-acting exenatide on diabetic cognitive dysfunction. METHODS Spontaneously diabetic db / db mice were randomly divided into model group （normal saline） and exenatide group （50 μg/kg）， with db / m mice as the normal control group （normal saline）， with 8 mice in each group. Mice in each group were subcutaneously injected with corresponding drugs or normal saline twice daily for 8 consecutive weeks. Body weight and fasting blood glucose were measured at a fixed time every week. Cognitive function was evaluated by Morris water maze test. The levels of oxidative st ress indicators [malondialdehyde （MDA）， superoxide dismutase （SOD）， glutathione （GSH） ] ， cyclic adenosine monophosphate （cAMP） and protein kinase A （PKA） were detected in hippocampus tissue of mice. The hippocampal neuronal HT22 cells of mice were divided into control group （25 mmol/L glucose）， high glucose group （125 mmol/L glucose）， high glucose+exenatide group （125 mmol/L glucose+20 nmol/L exenatide）， high glucose+exenatide+H89 （PKA inhibitor） group （125 mmol/L glucose+20 nmol/L exenatide+10 μmol/L H89）， and high glucose+H89 group （125 mmol/L glucose+10 μmol/L H89）. After 48 h of intervention with corresponding solutions/culture medium， the levels of oxidative stress indicators， cAMP and PKA， the activities of mitochondrial respiratory enzymes Ⅱ and Ⅳ， and the phosphorylation level of dynamin-related protein 1 （Drp1） were measured. RESULTS Animal experiments showed that compared with the normal control group， the model group exhibited significantly increased body weight， fasting blood glucose and MDA level in the hippocampus （ P ＜0.05）， as well as significantly prolonged escape latency （ P ＜0.05）； swimming speed significantly slowed down， the time spent in the target quadrant， the number of platform crossings， and the levels of SOD， GSH， cAMP and PKA in the hippocampus were significantly decreased （ P ＜0.05）. Compared with model group， all the above indicators （except for swimming speed） in the exenatide group were significantly reversed （ P ＜0.05）. Cell experiments showed that compared with high glucose group， the high glucose+exenatide group had significantly decreased MDA level （ P ＜0.05）， and significantly increased levels of SOD， GSH， cAMP and PKA， the activities of mitochondrial respiratory enzymes Ⅱ and Ⅳ， and phosphorylation level of Drp1 （ P ＜0.05）. Compared with high glucose+exenatide group， the above indicators in the high glucose+exenatide+H89 group were significantly reversed （ P ＜0.05）. CONCLUSIONS Short-acting exenatide can activate the cAMP/PKA pathway， promote Drp1 phosphorylation， and increase the activities of mitochondrial respiratory enzymes， thereby maintaining mitochondrial stability， reducing oxidative stress injury， and ultimately improving diabetic cognitive dysfunction.

Objective: To compare quality control (relative purity and specific activity) and process control [plasminogen (Pg) antigen recovery and potency recovery] indexes of samples before and after adding the Q chromatography step to the full chromatography process of human Pg, thereby determining whether the addition of this step could improve Pg recovery by affinity chromatography. Methods: A Q chromatography step was added before the Pg affinity chromatography in the original Pg chromatography process. The loading solution, flow through solution and eluate of Q chromatography and Pg affinity chromatography were collected. The potency of coagulation factor Ⅱ (FⅡ), Ⅶ (FⅦ), Ⅷ (FⅧ), Ⅸ (FⅨ), and Ⅹ(FⅩ) were detected by the coagulation method, the total protein content was detected by the BCA method, and the Pg potency was detected by the chromogenic substrate method. The content of specific plasma proteins was detected by immunoturbidimetry, the potency recovery of coagulation factors was calculated, and the flow direction of coagulation factors was analyzed. The recovery of different plasma protein antigens were calculated, and the distribution of impurity proteins was analyzed. The relative purity and specific activity of Pg, antigen content, and potency recovery in the target fractions were calculated and compared with the original process indicators, so as to determine the effect of adding Q chromatography on the original process. Furthermore, the reproducibility after process modification was assessed. Results: 100% of FⅡ, FⅩ, and FⅨ, 87.81% of FⅧ, and 40.44% of FⅦ in filtered plasma were removed by Q chromatography. The residual FⅦ (53.26%) and FⅧ (13.30%) in Q flow-through fraction were completely removed by Pg affinity chromatography. In both the original process (without Q-chromatography) and the modified process (with Q-chromatography), non-target plasma proteins mainly existed in the flow-through fraction of Pg affinity chromatography. The antigen recovery of IgM, ceruloplasmin (CER), and fibronectin (FNC) in Q-chromatography flow-through fraction were reduced. In contrast, antigen recovery of other plasma proteins [IgG, IgA, Pg, albumin (AlB), alpha-1-antitrypsin (AAT), and fibrinogen (Fg)] were all >90%, which were consistent with the protein composition and proportion in the original affinity chromatography loading solution. Compared with the recovery rate of Pg antigen in the original process (74.4%), the total recovery of Pg antigen in the modified process was significantly increased (89.97%). Compared with the recovery of IgG (97.48%) and Fg (95.32%) in the Pg affinity flows-through fraction of the original process, the modified process resulted in a slight reduction in the recovery of IgG (94.60%), while the recovery of Fg was not affected (95.05%). The potency recovery rate, specific activity, and relative purity of Pg after Q chromatography were 99.3%, 0.016 U/mg, and 0.15%. These values were the same as those of Pg affinity chromatography loading solution by the original process, indicating that introduction of Q chromatography did not affect subsequent Pg affinity chromatography. Compared with the recovery of Pg antigen in three batches of the original process (66.49±1.02)%, the recovery of Pg antigen in the affinity chromatography eluent of the modified process [five batches; (77.43±4.43)%] was significantly improved. Furthermore, the potency recovery was (86.80±4.28)%, the relative purity was (81.99±1.25)%, the specific activity was (8.679±1.073)U/mg, and the process was reproducible. Conclusion: The addition of Q chromatography could improve the recovery of Pg affinity chromatography in the full chromatography process.

Objective:To explore the differences in clinical phenotype characteristics and auxiliary test results of Gerstmann-Str?ussler-Scheinker syndrome (GSS) patients in the same family with GSS carrying a P102L mutation in the PRNP gene. Methods:A family with GSS carrying a P102L mutation in the PRNP gene, which was identified and treated at the Department of Neurology, Xuanwu Hospital, Capital Medical University in January 2024 was collected. A comprehensive evaluation was conducted on the proband, including neuropsychological examination, imaging studies, electroencephalogram, cerebrospinal fluid (CSF) analysis, real-time quaking-induced conversion (RT-QuIC) assay of skin biopsy samples, and genetic testing. At the same time, a survey and analysis were conducted on the family members. Skin RT-QuIC, genetic testing and neuropsychological evaluation were performed on some of the family members. Results:Among the 4-generation members of the GSS family, there were 5 GSS patients, including the proband′s father, younger brother, uncle and cousin. The proband, her younger brother and cousin all carried the P102L mutation in the PRNP gene, and her son was a carrier of the P102L mutation in the PRNP gene. The proband was a 53 years old female, and had a typical GSS phenotype, with the initial symptom of ataxia. The CSF 14-3-3 protein was negative and there were no abnormalities observed on her brain magnetic resonance imaging. The skin and CSF RT-QuIC test results of the proband were both negative. The cousin of the proband had a typical GSS phenotype, and his skin RT-QuIC test result was negative. The younger brother of the proband had a GSS phenotype of Creutzfeldt-Jakob disease type, with the initial symptom of rapidly progressing dementia and a positive skin RT-QuIC test result. The first symptoms of the proband′s father and uncle were both ataxia, and they had passed away without undergoing genetic testing. The son of the proband was a carrier of the P102L mutation in the PRNP gene and had no clinical symptoms. Conclusion:Different family members in the same GSS family may exhibit different clinical phenotypes, and GSS with different phenotypes have differences in RT-QuIC results.

Objective:To explore the clinical value of the three-dimensional fat suppression fast spoiled gradient echo (3D-FS-FSPGR) MRI sequence in the preoperative evaluation of congenital radial polydactyly.Methods:The data of children with congenital radial polydactyly who underwent surgical treatment in the Department of Orthopedics at Shanxi Children’s Hospital from May 2021 to April 2022 were retrospectively analyzed. Preoperative X-ray examinations and MRI 3D-FS-FSPGR sequence scans were performed on the children. Radiologists first described the morphological characteristics of the articular cartilage, and then orthopedic surgeons performed the Wassel classification based on the X-ray and MRI imaging result, focusing on the bifurcation level, morphology, and articular surface of the phalangeal and metacarpal cartilage. The corresponding surgical method was selected according to the Wassel classification, and intraoperative incision exploration was used as the gold standard. Six months after surgery, the surgical outcome was evaluated using the modified Tada scoring system [with a total score of 0-7, and classified as excellent: >5 points, good: 3-5 points, and poor: <3 points; the excellent and good rate = (excellent + good) cases/total number of cases × 100%]. The appearance, function and recurrence of the operated finger were evaluated 1 year after surgery. Descriptive statistics were performed using SPSS 26.0 software, and the Kappa coefficient was used to evaluate the consistency of the Wassel classification result between radiographs, MRI 3D-FS-FSPGR sequences and intraoperative exploration respectively.Results:A total of 45 children (55 fingers) with congenital radial polydactyly were enrolled, including 25 males and 20 females, aged 5 to 60 months, with the median age of 9 months. Unilateral findings were seen in 35 cases and bilateral findings in 10 cases. MRI 3D-FS-FSPGR imaging sequences clearly demonstrated the level of cartilage bifurcation and bone tissue growth and development, which were consistent with intraoperative exploration findings. The accuracy of the MRI 3D-FS-FSPGR Wassel classification was 100% (55/55), and the accuracy of the X-ray Wassel classification was 81.8% (45/55). Disagreements were found in the classifications of five fingers: three with X-ray classifications of Wassel type Ⅳ but actually classified as type Ⅲ, and two with X-ray classifications of Wassel type Ⅳ but actually classified as type Ⅴ. The Kappa coefficients were all >0.85. All patients were followed up for 1 year. The modified Tada score showed excellent in 41 fingers, good in 6 fingers, and poor in 8 fingers, for an excellent and good rate of 85.5% (47/55). At final follow-up, the reconstructed thumbs showed significant improvement in appearance, with normal bone axis restoration, no deviation of the digits, and normal nail appearance. There was no significant scarring or contracture. Functions of thumb flexion, extension, grasping, and opposition were good. There was no postoperative deformity or recurrence.Conclusion:MRI 3D-FS-FSPGR sequences can accurately classify congenital radial polydactyly preoperatively, optimize the surgical incision and osteotomy alignment, and achieve excellent surgical outcomes.

Objective:To investigate the relationship of the levels of 25-hydroxyvitamin (OH) D, monocyte chemoattractant protein-1 (MCP-1) and bone mineral density (BMD) and bone metabolism in preschool children after fractures.Methods:General data of 200 preschool children with fractures admitted to the Department of Orthopedics of Shanxi Children’s Hospital from Apr. 2021 to Jun. 2024 were retrospectively analyzed. The 25- (OH) D level of the children after fracture was determined by electrochemical luminescence method. According to the 25- (OH) D level, the children were divided into VitD deficiency group, VitD insufficient group and VitD sufficient group. The MCP-1 level, BMD and bone metabolism indexes of children among groups were compared and analyzed. SPSS 26.0 statistical software was used to analyze the data in the paper. According to the data type, t test or χ2 test were used to compare among the groups, and the correlation of 25- (OH) D and MCP-1 levels with BMD and bone metabolism indexes was analyzed by Spearman and Pearson methods. Results:The difference of 25- (OH) D levels in different age childeren was statistically significant ( t = 145.26, P<0.05) , and the analysis showed that 26 cases were VitD deficient, 64 cases were VitD insufficient, and 110 cases were VitD sufficient; The mean BMD in VitD patients with different levels was significantly different ( F=783.25, P<0.05) ; With the increase of MCP-1, PTH and TPINP levels decreased ( F=78.98, 703.57, 243.27, P<0.05) , while the levels of PICP and BGP increased ( F=122.97, 340.32, P<0.05) ; 25- (OH) D was positively correlated with BMD, PICP and BGP ( r=0.93, 0.76, 0.87, P<0.05) , and negatively correlated with PTH and TPINP ( r=-0.94, -0.81, P<0.05) . MCP-1 was negatively correlated with BMD, PICP and BGP ( r=-0.54, -0.51, -0.56, P<0.05) , and positively correlated with PTH and TPINP ( r=0.57, 0.55, P<0.05) . Conclusions:The 25- (OH) D level is significantly correlated with BMD and bone metabolism indexes in preschool children after fracture, and the lack and insufficiency of VitD significantly affect BMD and bone metabolism status. At the same time, MCP-1 may also play an important role in metabolic changes after fracture. Therefore, in clinical treatment, it is necessary to strengthen the monitoring and management of 25- (OH) D and MCP-1 levels after fracture in children, which is of great significance to promote bone healing and improve bone density.

Epilepsy is a chronic brain disorder characterized by abnormal synchronous neuronal discharges in the brain, often accompanied by various complications. The pathogenesis of epilepsy has not yet been fully elucidated. Optogenetics, a cutting-edge technique that integrates optics and genetics, enables precise modulation of specific neurons by regulating light-sensitive proteins. Utilizing optogenetic technology has facilitated the dissection of neural circuits involved in epileptic seizures within brain regions such as the hippocampus, thalamus, hypothalamus. It has also helped identify potential therapeutic targets for epilepsy-related complications, including cognitive impairment, sudden unexpected death in epilepsy and mood disorders.However, in the process of advancing from basic research to clinical treatment, its translational path is profoundly influenced by factors such as stimulation modes (the choice between open-loop and closed-loop systems), key parameters (light frequency), and intervention strategies (unilateral or bilateral target selection). The individualized customization of these factors represents the future direction for overcoming current translational bottlenecks and achieving precise treatment.

Epilepsy is a chronic brain disorder characterized by abnormal synchronous neuronal discharges in the brain, often accompanied by various complications. The pathogenesis of epilepsy has not yet been fully elucidated. Optogenetics, a cutting-edge technique that integrates optics and genetics, enables precise modulation of specific neurons by regulating light-sensitive proteins. Utilizing optogenetic technology has facilitated the dissection of neural circuits involved in epileptic seizures within brain regions such as the hippocampus, thalamus, hypothalamus. It has also helped identify potential therapeutic targets for epilepsy-related complications, including cognitive impairment, sudden unexpected death in epilepsy and mood disorders.However, in the process of advancing from basic research to clinical treatment, its translational path is profoundly influenced by factors such as stimulation modes (the choice between open-loop and closed-loop systems), key parameters (light frequency), and intervention strategies (unilateral or bilateral target selection). The individualized customization of these factors represents the future direction for overcoming current translational bottlenecks and achieving precise treatment.

Objective:To explore the differences in clinical phenotype characteristics and auxiliary test results of Gerstmann-Str?ussler-Scheinker syndrome (GSS) patients in the same family with GSS carrying a P102L mutation in the PRNP gene. Methods:A family with GSS carrying a P102L mutation in the PRNP gene, which was identified and treated at the Department of Neurology, Xuanwu Hospital, Capital Medical University in January 2024 was collected. A comprehensive evaluation was conducted on the proband, including neuropsychological examination, imaging studies, electroencephalogram, cerebrospinal fluid (CSF) analysis, real-time quaking-induced conversion (RT-QuIC) assay of skin biopsy samples, and genetic testing. At the same time, a survey and analysis were conducted on the family members. Skin RT-QuIC, genetic testing and neuropsychological evaluation were performed on some of the family members. Results:Among the 4-generation members of the GSS family, there were 5 GSS patients, including the proband′s father, younger brother, uncle and cousin. The proband, her younger brother and cousin all carried the P102L mutation in the PRNP gene, and her son was a carrier of the P102L mutation in the PRNP gene. The proband was a 53 years old female, and had a typical GSS phenotype, with the initial symptom of ataxia. The CSF 14-3-3 protein was negative and there were no abnormalities observed on her brain magnetic resonance imaging. The skin and CSF RT-QuIC test results of the proband were both negative. The cousin of the proband had a typical GSS phenotype, and his skin RT-QuIC test result was negative. The younger brother of the proband had a GSS phenotype of Creutzfeldt-Jakob disease type, with the initial symptom of rapidly progressing dementia and a positive skin RT-QuIC test result. The first symptoms of the proband′s father and uncle were both ataxia, and they had passed away without undergoing genetic testing. The son of the proband was a carrier of the P102L mutation in the PRNP gene and had no clinical symptoms. Conclusion:Different family members in the same GSS family may exhibit different clinical phenotypes, and GSS with different phenotypes have differences in RT-QuIC results.

Objective:To explore the clinical value of the three-dimensional fat suppression fast spoiled gradient echo (3D-FS-FSPGR) MRI sequence in the preoperative evaluation of congenital radial polydactyly.Methods:The data of children with congenital radial polydactyly who underwent surgical treatment in the Department of Orthopedics at Shanxi Children’s Hospital from May 2021 to April 2022 were retrospectively analyzed. Preoperative X-ray examinations and MRI 3D-FS-FSPGR sequence scans were performed on the children. Radiologists first described the morphological characteristics of the articular cartilage, and then orthopedic surgeons performed the Wassel classification based on the X-ray and MRI imaging result, focusing on the bifurcation level, morphology, and articular surface of the phalangeal and metacarpal cartilage. The corresponding surgical method was selected according to the Wassel classification, and intraoperative incision exploration was used as the gold standard. Six months after surgery, the surgical outcome was evaluated using the modified Tada scoring system [with a total score of 0-7, and classified as excellent: >5 points, good: 3-5 points, and poor: <3 points; the excellent and good rate = (excellent + good) cases/total number of cases × 100%]. The appearance, function and recurrence of the operated finger were evaluated 1 year after surgery. Descriptive statistics were performed using SPSS 26.0 software, and the Kappa coefficient was used to evaluate the consistency of the Wassel classification result between radiographs, MRI 3D-FS-FSPGR sequences and intraoperative exploration respectively.Results:A total of 45 children (55 fingers) with congenital radial polydactyly were enrolled, including 25 males and 20 females, aged 5 to 60 months, with the median age of 9 months. Unilateral findings were seen in 35 cases and bilateral findings in 10 cases. MRI 3D-FS-FSPGR imaging sequences clearly demonstrated the level of cartilage bifurcation and bone tissue growth and development, which were consistent with intraoperative exploration findings. The accuracy of the MRI 3D-FS-FSPGR Wassel classification was 100% (55/55), and the accuracy of the X-ray Wassel classification was 81.8% (45/55). Disagreements were found in the classifications of five fingers: three with X-ray classifications of Wassel type Ⅳ but actually classified as type Ⅲ, and two with X-ray classifications of Wassel type Ⅳ but actually classified as type Ⅴ. The Kappa coefficients were all >0.85. All patients were followed up for 1 year. The modified Tada score showed excellent in 41 fingers, good in 6 fingers, and poor in 8 fingers, for an excellent and good rate of 85.5% (47/55). At final follow-up, the reconstructed thumbs showed significant improvement in appearance, with normal bone axis restoration, no deviation of the digits, and normal nail appearance. There was no significant scarring or contracture. Functions of thumb flexion, extension, grasping, and opposition were good. There was no postoperative deformity or recurrence.Conclusion:MRI 3D-FS-FSPGR sequences can accurately classify congenital radial polydactyly preoperatively, optimize the surgical incision and osteotomy alignment, and achieve excellent surgical outcomes.

Research shows that epileptic seizures are essentially due to abnormal functions of neural circuits. Optogenetics regulates neural circuits by specifically expressing light-sensitive proteins in target neurons, which has now become an important tool in the research of temporal lobe epilepsy. Studies have shown that optogenetics focuses on brain regions such as the hippocampus, medial septal nucleus, cerebellum, and basal ganglia in studying temporal lobe epilepsy. This article reviews the research progress of optogenetics in exploring the pathogenesis and therapeutic targets of temporal lobe epilepsy, aiming to provide new ideas for temporal lobe epilepsy treatment.