Objective:To evaluate the diagnostic value of coronary angiography-derived fractional flow reserve (FFR) and index of microcirculatory resistance (IMR) for identifying coronary functional abnormalities.Methods:This diagnostic study enrolled patients with clinically suspected or diagnosed coronary artery disease who underwent coronary angiography at Beijing Anzhen Hospital, TEDA International Cardiovascular Hospital, and Qilu Hospital of Shandong University between December 2021 and June 2022. All enrolled patients successfully underwent invasive wire-based FFR and IMR measurements during angiography. In a core laboratory, FFR and IMR for the target vessels were measured using artificial intelligence technology based on coronary angiographic images. Spearman correlation analysis was used to evaluate the correlation between angiography-derived FFR and wire-based FFR, and between angiography-derived IMR and wire-based IMR. Coronary hemodynamic abnormality was defined as FFR≤0.80; the diagnostic performance of angiography-derived FFR for identifying this abnormality was evaluated. Microcirculatory dysfunction was defined as IMR≥25; the diagnostic performance of angiography-derived IMR for identifying microcirculatory dysfunction was evaluated.Results:A total of 181 patients, aged (60.6±8.8) years, with 62 (34.3%) females, and 181 target vessels were included in the final analysis. Angiography-derived FFR showed a significant positive correlation with wire-based FFR ( r=0.78, P<0.001). For identifying coronary hemodynamic abnormality, angiography-derived FFR showed an accuracy of 89.0%, sensitivity of 88.8%, specificity of 89.1%, positive predictive value (PPV) of 88.8%, negative predictive value (NPV) of 89.1%, and an area under the receiver operating characteristic curve ( AUC) of 0.88. Angiography-derived IMR showed a significant positive correlation with wire-based IMR ( r=0.93, P<0.001). For identifying microcirculatory dysfunction, angiography-derived IMR demonstrated an accuracy of 89.5%, sensitivity of 86.8%, specificity of 90.2%, PPV of 70.2%, NPV of 96.3%, and an AUC of 0.95. Conclusion:Angiography-derived FFR and IMR exhibit strong correlations with their invasive wire-based counterparts and demonstrate high diagnostic value for assessing coronary hemodynamics and coronary microcirculatory function.

Foot torsion stiffness refers to the foot's ability to resist deformation when subjected to torsional forces,and such characteristics play a crucial role in the prevention of sports injuries and design of athletic footwear.This review systematically summarizes the biomechanical research progress of foot torsion and shoe torsion,as well as the research and application of multi-segment foot models in foot-shoe torsion.The findings indicate that foot torsional stiffness significantly impacts lower limb kinematics,kinetics,and athletic performance.Optimizing this stiffness can improve stress distribution,reduce injury risk,and enhance performance.The future researches should focus on refining measurement techniques to enhance reliability and efficiency in clinical applications,providing a scientific foundation for sports injury prevention and footwear design.

Foot torsion stiffness refers to the foot's ability to resist deformation when subjected to torsional forces,and such characteristics play a crucial role in the prevention of sports injuries and design of athletic footwear.This review systematically summarizes the biomechanical research progress of foot torsion and shoe torsion,as well as the research and application of multi-segment foot models in foot-shoe torsion.The findings indicate that foot torsional stiffness significantly impacts lower limb kinematics,kinetics,and athletic performance.Optimizing this stiffness can improve stress distribution,reduce injury risk,and enhance performance.The future researches should focus on refining measurement techniques to enhance reliability and efficiency in clinical applications,providing a scientific foundation for sports injury prevention and footwear design.

Objective:To evaluate the diagnostic value of coronary angiography-derived fractional flow reserve (FFR) and index of microcirculatory resistance (IMR) for identifying coronary functional abnormalities.Methods:This diagnostic study enrolled patients with clinically suspected or diagnosed coronary artery disease who underwent coronary angiography at Beijing Anzhen Hospital, TEDA International Cardiovascular Hospital, and Qilu Hospital of Shandong University between December 2021 and June 2022. All enrolled patients successfully underwent invasive wire-based FFR and IMR measurements during angiography. In a core laboratory, FFR and IMR for the target vessels were measured using artificial intelligence technology based on coronary angiographic images. Spearman correlation analysis was used to evaluate the correlation between angiography-derived FFR and wire-based FFR, and between angiography-derived IMR and wire-based IMR. Coronary hemodynamic abnormality was defined as FFR≤0.80; the diagnostic performance of angiography-derived FFR for identifying this abnormality was evaluated. Microcirculatory dysfunction was defined as IMR≥25; the diagnostic performance of angiography-derived IMR for identifying microcirculatory dysfunction was evaluated.Results:A total of 181 patients, aged (60.6±8.8) years, with 62 (34.3%) females, and 181 target vessels were included in the final analysis. Angiography-derived FFR showed a significant positive correlation with wire-based FFR ( r=0.78, P<0.001). For identifying coronary hemodynamic abnormality, angiography-derived FFR showed an accuracy of 89.0%, sensitivity of 88.8%, specificity of 89.1%, positive predictive value (PPV) of 88.8%, negative predictive value (NPV) of 89.1%, and an area under the receiver operating characteristic curve ( AUC) of 0.88. Angiography-derived IMR showed a significant positive correlation with wire-based IMR ( r=0.93, P<0.001). For identifying microcirculatory dysfunction, angiography-derived IMR demonstrated an accuracy of 89.5%, sensitivity of 86.8%, specificity of 90.2%, PPV of 70.2%, NPV of 96.3%, and an AUC of 0.95. Conclusion:Angiography-derived FFR and IMR exhibit strong correlations with their invasive wire-based counterparts and demonstrate high diagnostic value for assessing coronary hemodynamics and coronary microcirculatory function.

Objective:To investigate the correlation between clinical phenotypes and genetic characteristics of children with ring chromosomes (RCs).Methods:Case series study.The clinical data of 11 434 children who received treatment and peripheral blood chromosome karyotype detection in Henan Children′s Hospital from October 2008 to October 2023 due to growth retardation, intellectual impairment or congenital malformation were analyzed retrospectively.A total of 25 children with RCs were selected.Their age at diagnosis, karyotype distribution, clinical manifestations, and genetic detection results were analyzed.Results:RCs were detected in 25 out of 11 434 children, with a detection rate of 0.21%.The genome-wide copy number variation (CNV) analysis was performed on 7 RCs cases, and it found that pathogenic variation existed in all of them.Among the 25 RC cases (11 males and 14 females of social gender), the age at diagnosis ranged from 2 months to 14 years; there were 20 autosomal rings and 5 sex chromosome rings; 13 cases had chimeric karyotypes, and 12 cases had non-chimeric karyotypes.Most of the 25 children showed clinical manifestations of mental or developmental retardation, and some also presented with specific clinical manifestations, such as short stature, congenital malformation, and epilepsy.Conclusions:The pathogenesis of RCs is complex.The clinical manifestations are determined by both RCs syndrome and specific phenotypes caused by the dose effect and exhibit high heterogeneity, so it is easy to miss or misdiagnose.The combined application of cellular and molecular genetic detection technology can facilitate early diagnosis and treatment of RCs, and the correlation analysis of phenotypes and genetic characteristics can provide guidance for genetic counseling.

Objective:To explore the clinical characteristics and genetic variants in three children with late-onset Multiple acyl-Coenzyme A dehydrogenase deficiency (MADD type Ⅲ).Methods:Clinical data of three children diagnosed with late-onset MADD at the Children′s Hospital Affiliated to Zhengzhou University between March 2020 and March 2022 were retrospectively analyzed. All children were subjected to whole exome sequencing (WES), and candidate variants were verified by Sanger sequencing. All children had received improved metabolic therapy and followed up for 1 ~ 3 years.Results:The children had included 2 males and 1 female, and aged from 2 months to 11 years and 7 months. Child 1 had intermittent vomiting, child 2 had weakness in lower limbs, while child 3 had no symptom except abnormal neonatal screening. Tandem mass spectrometry of the three children showed elevation of multiple acylcarnitines with short, medium and long chains. Children 1 and 2 showed increased glutaric acid and multiple dicarboxylic acids by urine Gas chromatography-mass spectrometry (GC-MS) analysis. All children were found to harbor compound heterozygous variants of the ETFDH gene, including a paternal c. 1211T>C (p.M404T) and a maternal c. 488-22T>G variant in child 1, a paternal c. 1717C>T (p.Q573X) and a maternal c. 250G>A (p.A84T) variant in child 2, and a paternal c. 1285+ 1G>A and maternal c. 629A>G (p.S210N) variant in child 3. As for the treatment, high-dose vitamin B2, levocarnitine and coenzyme Q 10 were given to improve the metabolism, in addition with a low fat, hypoproteinic and high carbohydrate diet. All children showed a stable condition with normal growth and development during the follow-up. Conclusion:The compound heterozygous variants of the ETFDH gene probably underlay the muscle weakness, remittent vomiting, elevated short, medium, and long chain acylcarnitine, as well as elevated glutaric acid and various dicarboxylic acids in the three children with type Ⅲ MADD.

Objective:To explore the predictive value of transrectal multimodal ultrasound and prostate specific antigen (PSA) in clinically organ-confined prostate cancer.Methods:It was a cross-sectional study. The clinical data of patients with suspected prostate nodules treated in the First Hospital of Shanxi Medical University from May 2014 to April 2020 were analyzed retrospectively. Of the patients, 48 cases of clinically organ-confined prostate cancer and 51 cases of benign prostatic hyperplasia confirmed by clinical data and pathology were selected as research objects. The characteristics of transrectal multimodal ultrasound in the two groups were compared. Combined with PSA, logistic regression analysis was applied to screen the statistically significant features, and then the diagnosis model was established, and odds ratio of the variables were compared. The receiver operating characteristic (ROC) curve was constructed to analyze the predicting ability of the diagnosis model.Results:Four features were obtained with logistic regression analysis finally, including enhancement type, enhancement degree, elastography mode and PSA. The odds ratio of enhancement degree was higher than those of the other independent variables. The area under ROC curve of the diagnosis model was 0.868 ( P<0.01), the cut-off value was 0.514. The sensitivity and specificity of the diagnosis model in predicting clinically organ-confined prostate cancer was 79.2% and 80.4%, respectively. Conclusions:This combined diagnosis model of transrectal multimodal ultrasound and PSA has a certain clinical value in predicting clinically organ-confined prostate cancer.

A 49-year-old male patient with primary hepatocellular carcinoma was treated with donafenib combined with tislelizumab. After 2 cycles of treatments, he developed persistent fever, poor appetite, fatigue, decreased white blood cells, hemoglobin, platelets, and fibrinogen, and significant increase of serum ferritin(91 501 μg/L) and splenomegaly. Hemophagocytic lymphohistiocytosis was diagnosed, which was consideredto be caused by tislelizumab. He received intravenous infusion of methylprednisolone 60 mg/d for 4 days, 40 mg/d for 7 days, 28 mg/d for 5 days, and at last, oral prednisone 35 mg/d was given, with dose reduction to discontinuation within 4-6 weeks. During the treatment, his laboratory tests results were improved. The patient did not use tislelizumab again and donafenib treatment was reused, and the above symptoms did not recur.

A 49-year-old male patient with primary hepatocellular carcinoma was treated with donafenib combined with tislelizumab. After 2 cycles of treatments, he developed persistent fever, poor appetite, fatigue, decreased white blood cells, hemoglobin, platelets, and fibrinogen, and significant increase of serum ferritin(91 501 μg/L) and splenomegaly. Hemophagocytic lymphohistiocytosis was diagnosed, which was consideredto be caused by tislelizumab. He received intravenous infusion of methylprednisolone 60 mg/d for 4 days, 40 mg/d for 7 days, 28 mg/d for 5 days, and at last, oral prednisone 35 mg/d was given, with dose reduction to discontinuation within 4-6 weeks. During the treatment, his laboratory tests results were improved. The patient did not use tislelizumab again and donafenib treatment was reused, and the above symptoms did not recur.

Objective:To establish a three-dimensional spheroid expansion model of human glioma stem cells with spontaneous sphere forming and multilineage differentiation potential in vitro and investigated the contents of the proteins and lipids and their secondary components, so as to lay a foundation for further study of sphere metabolism. Methods:Human glioma stem cells GSC23 and SU3 were cultured in serum-free stem cell culture medium, respectively, and the cell spheres were harvested for about 2-3 weeks. After fixation in paraformaldehyde solution, dehydration, paraffin embedding, and sectioning, glioma-associated marker proteins were detected by immunohistochemical staining, and the protein and lipid and their secondary components contents in the spheroid tissues were analyzed by Raman imaging. One-way ANOVA was used to compare the protein, lipid and phenylalanine contents in the large sphere, medium sphere and small sphere groups.Results:Both stem cells were able to form stem cell expansion spheres resembling solid tumors within the culture dish. Immunohistochemical staining showed that the regular marker proteins of glioblastoma multiforme, CD133, nestin, epidermal growth factor receptor (EGFR), S100, Olig2, p53, Ki-67, glial fibrillary acidic protein (GFAP), vimentin, CXC chemokine receptor 4 (CXCR4), and CD34, were all expressed. Raman imaging revealed that the constructed expanded spheres of human glioma stem cells contained protein (2 930, 1 685 and 1 586 cm -1), lipid (2 845 and 1 444 cm -1), phenylalanine (1 003 cm -1) amide Ⅲ (1 250 cm -1), while there were no significant differences of protein, lipid and phenylalanine contents among the large sphere, medium sphere and small sphere groups ( P>0.05). Conclusions:We have successfully established an expanded spheroid model of human glioma stem cells in vitro, which not only exhibits the topographical characteristics and unlimited expansion ability of three-dimensional solid tumors, but also has the ability to stably store metabolically obligatory energy sources of tumor cells such as proteins and lipids, and is expected to serve as a promising tool for human glioma research in vitro.