[Objective] To explore the optimal pressure parameters for chyle plasma filtration under low-temperature conditions, and to improve the quality of chyle plasma treatment and filtration efficiency by improving experimental methods. [Methods] The filtration efficiency and filtration time of 30 severe chyle plasma samples under conventional preparation environment pressure and under preparation environment with a controlled filtration membrane pressure difference of 0.5 bar were compared. [Results] The absorbance of severe chyle plasma samples before and after filtration under two different preparation pressures was statistically significant (P<0.05), and both achieved the expected filtration effect. Under the preparation environment of controlling the pressure difference of the filtration membrane to 0.5 bar, the filtration was faster and with better effect, which was statistically significant compared to the conventional preparation environment pressure (P<0.05). [Conclusion] By selecting the optimal pressure parameters for filtering chyle plasma under low-temperature conditions, the efficiency of chyle plasma filtration under low-temperature conditions has been improved, and the practicality and reliability of low-temperature filtration technology have been enhanced.

Deep brain stimulation(DBS)has become an established technique for the treatment of neurodegenerative diseases such as Parkinson disease(PD).This technique significantly improves the clinical symptoms of PD patients by directly stimulating specific basal ganglia nuclei with implanted electrodes,but its physiological mechanism of action remains unclear.The control mechanisms of eye movement involve the cerebral cortex and basal ganglia,which are extensively overlapped with the targeted network of DBS,but there are relatively few studies on the combined analysis of DBS and eye movement.This article explores the interaction mechanism between DBS and eye movement control to deeply understand the influence of DBS on eye movement function,which is of great significance for optimizing stimulation parameters and improving therapeutic effect.In addition,these studies provide new perspectives for revealing the mechanism of action of DBS and the pathophysiology of PD.

BACKGROUND:Mechanical stimulation has been confirmed to promote osteogenic differentiation of bone marrow stromal stem cells,but the mechanism is unknown.Primary cilia are important mechanoreceptors and regulate various signaling pathways such as TGF-β1/BMP-2/SMAD.They are likely to be important targets for mechanical regulation of bone marrow stromal stem cells. OBJECTIVE:To investigate the effect and mechanism of fluid shear stress on osteogenic differentiation of bone marrow stromal stem cells. METHODS:Rat bone marrow stromal stem cells were divided into control group,mechanical stimulation group(fluid shear mechanics intervention by shaking table),mechanical stimulation + IFT88 silencing group(mechanical stimulation + silencing IFT88 expression with siRNA).After 24 hours of intervention,qRT-PCR was utilized to determine the expression of transforming growth factor β1 and bone morphogenetic protein 2.Western blot assay was used to detect the expression of phosphorylated SMAD2/3 protein.Immunofluorescent staining of primary cilia was conducted and morphology was analyzed. RESULTS AND CONCLUSION:Shear stress stimulation could promote the transcriptional activity of transforming growth factor β1 and bone morphogenetic protein 2 genes,and increase the expression of phosphorylated SMAD2/3 protein.After siRNA interfered with primary cilia,this mechanical response effect was significantly reduced.There was a Spearman correlation between the change ratio of the primary cilium area of bone marrow stromal stem cells and the increased ratio of transforming growth factor β1 and bone morphogenetic protein 2 gene transcription.These findings indicate that primary cilia/intraflagellar transport mediates the activation of fluid shear stress-responsive transforming growth factor β1/bone morphogenetic protein 2/SMAD signaling pathway and promotes osteogenic differentiation of bone marrow stromal stem cells.

BACKGROUND:Cervical neutral position magnetic resonance imaging is widely used for the diagnosis and treatment of cervical spondylotic myelopathy.However,it is not possible for patients to maintain the exact same position of the head and neck during repeated cervical magnetic resonance imaging examinations.The cervical spine undergoes minor flexion and extension movements in the sagittal plane,and the head may have a certain degree of variation in flexion and extension.Whether these changes in the neutral position of the cervical spine affect the volume of cervical discs herniation and cervical curvature is unclear. OBJECTIVE:Using artificial intelligence-assisted measurement,this study aimed to analyze the accuracy and reliability of magnetic resonance imaging examinations for measuring the volume of cervical discs herniation and cervical curvature in patients with cervical spondylotic myelopathy undergoing two consecutive cervical neutral positions in the short term. METHODS:A retrospective study was conducted on patients with cervical spondylotic myelopathy who underwent conservative treatment and underwent two consecutive cervical magnetic resonance imaging examinations within three months between June 2012 and June 2023.We proposed the use of occipital-thoracic distance and occipital-thoracic angle to evaluate the variation in flexion and extension of the head in the neutral position of the cervical spine.Based on the changes in occipital-thoracic angle,patients were divided into occipital-thoracic angle increase group and occipital-thoracic angle decrease group.Cervical discs herniation volume,C2-6 Cobb angle,and cervical(C3-C7)curvature were measured using artificial intelligence-assisted measurement software.Normal distribution data were represented by mean±SD,while non-normal distribution data were represented by the median(interquartile range).Spearman's rank correlation coefficient was used to analyze the correlation between changes in Cobb angle,cervical(C3-C7)curvature,and cervical discs herniation volume. RESULTS AND CONCLUSION:(1)A total of 104 patients and 326 cervical discs herniation were included in the study.There were 47 patients in the occipital-thoracic angle increase group and 57 patients in the occipital-thoracic angle decrease group.(2)Extension and flexion index of the head:There were no significant differences in occipital-thoracic distance and occipital-thoracic angle during the initial diagnosis and follow-up examination.The variation of occipital-thoracic distance was 0.035(3.23)mm,and the variation of occipital-thoracic angle was-0.31(3.28)°.The deviation range of occipital-thoracic distance and occipital-thoracic angle was small,and there was no significant correlation.(3)Cervical curvature index:There were no significant differences in C2-6 Cobb angle and C3-C7 curvature during the initial diagnosis and follow-up examination.There were no significant differences in C2-6 Cobb angle and C3-C7 curvature between the occipital-thoracic angle increase group and occipital-thoracic angle decrease group.(4)There was no significant difference in volume of cervical discs herniation during the initial diagnosis and follow-up examination.There was no significant difference in volume of cervical discs herniation between the occipital-thoracic angle increase group and occipital-thoracic angle decrease group.There was no significant correlation between the change of cervical discs herniation volume and the change of C2-6 Cobb angle and the cervical(C3-C7)curvature.(5)These results indicate that in the neutral position of the cervical spine,there were negligible minor flexion and extension movements in the sagittal plane,and the head was limited to a specific position.Although the head has a certain range of flexion and extension variation,it does not affect the accuracy and reliability of parameters including cervical discs herniation volume,C2-6 Cobb angle,and cervical(C3-C7)curvature.

Objective:To explore the feasibility of MRI to assist the early diagnosis of midfoot tendon and ligament injuries.Methods:Fifty-two patients with midfoot ligament and tendon injuries who visited Beijing Jishuitan Hospital from September 2016 to December 2021 were enrolled in the study, and 20 healthy volunteers were recruited as controls. All participants underwent mid foot coronal (short axis), sagittal, and axial (long axis) MRI T1 weighted imaging and proton fat suppression sequence examination. The MRI images were evaluated by 2 senior radiologists independently.Results:The consistency of the two radiologists in diagnosis of tendons, ligaments, bones, and soft tissues were good ( κ=0.916, 0.896, and 0.893, respectively). The tendons and ligaments of the midfoot in 20 healthy volunteers (40 feet) showed uniform bands of varying thickness with slightly low signal intensity; the anterior tibial tendon showed a thin line shape, the posterior tibial tendon showed a slightly thick band with uniform low signal intensity, and the calcaneonavicular ligament showed a thin line-like low signal intensity running in different directions. In 52 patients with midfoot tendon and ligament injuries, 18 had anterior tibial tendon injuries, 20 had posterior tibial tendon injuries, and 14 had calcaneonavicular ligament injuries. The injured tendon or ligament was characterized by uneven thickness, blurred edges, and continuous interruption on T1WI sequence, uneven enhancement of signal in the tendon or ligament running area on PD-FS sequence, accumulation of fluid in the tendon sheath, and partial tearing. The partial tear showed discontinuity and thickening of tendons, while the complete tear showed that the tendons were interrupted and retracted, the fiber structure disappeared and was filled with liquid, and the surrounding soft tissue edema was present. Conclusion:MRI can clearly display the course and anatomical structure of the attachment end of the midfoot tendon and ligament, which may assist in early diagnosis of midfoot tendon and ligament injuries.

Objective:To analyze the MRI findings of tendinopathy of the common extensor tendon (CET) and common flexor tendon (CFT) and to explore its application for injury classification.Methods:Sixty-two patients with elbow tendinopathy of CET and/or CFT who were examined in the Radiology Department of Beijing Jishuitan Hospital from August 2019 to April 2022 were enrolled as the case group, and 20 healthy subjects (40 elbows) were recruited as the control group. The clinical data of patients and MRI findings of elbow joint of all subjects were reviewed. The MRI of tendinopathy of CFT and CET were read by 2 senior radiologists independently, and the consistency was tested by the κ test. The MRI manifestations for injury classification were discussed. Results:The κ values of CFT, CET, medial collateral ligament complex and lateral collateral ligament complex were 0.645, 0.657, 0.615 and 0.653 respectively. MRI clearly showed the anatomical structure of CFT, CET and surrounding soft tissue. The CFT and CET of the elbow of 20 normal volunteers (40 sides) in the control group showed thin line or banded low signal in each MRI sequence, and the muscle fibers were continuous. In 27 patients with classification Ⅰ injury of CFT and/or CET of elbow joint, MRI showed thickening or thinning of tendons and increased signal intensity on fat suppression T2-weighted imaging. In 27 cases of classification Ⅱ injury, MRI showed that the fluid signal involved 20% to 80% of the tendon thickness. In 8 cases of classification Ⅲ injury, MRI showed that the fluid signal involved more than 80% of the tendon thickness. Conclusions:Tendinopathy of CFT and CET of elbow joint has its characteristic MRI manifestations, indicating that MRI can be used for the diagnosis of tendinopathy. In addition, MRI can also be used for the injury classification.

OBJECTIVE To establish an analytical method for the simultaneous determination of multiple anesthetics and their metabolites in aquatic products by ultra performance liquid chromatography-tandem mass spectrometry with pass-through solid phase extraction purification. METHODS After homogenization, the samples were extracted by 80% acetonitrile aqueous solution, and purified by ProElt PLS-A pass-through solid phase extraction column. The extract was determined by positive ion mode with mobile phase of 0.1% formic acid water and 0.1% formic acid acetonitrile in the separation by programmed gradient. Multiple reaction monitoring mode was used to draw standard curves with the matrix-matched method. RESULTS The calibration curves of the 14 anesthetics showed good linearity in the concentration range of 1-50 µg·L-1 and their metabolites showed good linearity in the concentration range of 10-500 μg·L-1, with the correlation coefficients >0.99. The limits of detection were 0.5 μg·kg-1 in anesthetics and 5 µg·kg-1 in their metabolites. The lower limits of quantification were 1 μg·kg-1 in anesthetics and 10 μg·kg-1 in their metabolites. The recoveries at high, medium and low concentrations ranged from 62.48% to 116.5% with RSDs<10%. CONCLUSION The method is simple and can be used for the accurate detection of anesthetics and their metabolites in aquatic products with high reliabilities.

Parkinson disease (PD) is a common neurodegenerative disease with motor and non-motor symptoms that seriously affect the quality of life and social function of patients. The current non-invasive techniques in PD brain function studies mainly include functional magnetic resonance imaging and electroencephalography, which made it difficult to assess brain function under motor state or magnetoelectric treatment. As an emerging functional neuroimaging technique, functional near-infrared spectroscopy (fNIRS) can monitor the real movement-related cortical responses of PD patients in real time, providing a safe and non-invasive method with high ecological validity for direct monitoring of brain activity. This article presented a review of recent advances in the application of fNIRS technology in PD research, intending to provide new ideas for functional neuroimaging studies in PD. The results suggested that PD gait and balance deficits were closely associated with abnormal activation of the cerebral cortex, particularly the prefrontal cortex, involving a compensatory strategy of cortical cognitive resources for basal ganglia dysfunction. Drugs, deep brain stimulation, and other interventions could be applied to fNIRS techniques to evaluate neurorehabilitation effects and reveal the neural basis of intervention effects. This area of research is currently in its infancy, but the evidence provided supports for the translation of fNIRS into clinical practice. Future research should develop multimodal imaging techniques and in-depth studies of broad areas of the cerebral cortex to obtain more valuable findings for clinical practice.

Objective:To explore the magnetic resonance imaging (MRI)features of the normal anatomy and injuries of ligaments in the elbow joint.Methods:Thirty-eight healthy volunteers (38 sides) and 82 patients with elbow joint injuries were recruited in the Radiology Department of Beijing Jishuitan Hospital from February 2019 to February 2022 and the MRI findings were analyzed. The healthy subjects had no history of trauma, elbow joint ligament injury or pain, and the elbow joint function was normal. Among the 82 patients with elbow joint injuries, 8 cases were confirmed by operation and 74 were confirmed by follow-up. The MRI characteristics of normal anatomy and injuries of the medial collateral ligament and lateral collateral ligament complex of the elbow were compared and analyzed by blind method.Results:The medial collateral ligament and lateral collateral ligament complex in 38 healthy volunteers showed as thin strip low signal on T1-weighted imaging (T1WI) and fat suppression proton density-weighted imaging (PD-FS), and the annular ligament showed as annular linear low signal surrounding the radial head. Among the 82 patients with elbow injuries, in the medial side, there were 6 cases with medial collateral ligament injuries alone, 2 with common flexor tendon injuries alone, and 4 with medial collateral ligament and common flexor tendon injuries; while in the lateral side, there were 9 cases with the lateral collateral ligament complex injuries alone, 21 with common extensor tendon injuries alone, and 31 with the lateral collateral ligament complex and common extensor tendon injuries. In addition, there were 9 cases of medial collateral ligament coupled with lateral collateral ligament complex injuries. Among the 9 cases of combined ligament injuries (5 cases with injuries of the common flexor or extensor tendon), 5 cases were complete tears and 4 cases were partial tears. Among the 10 cases of medial collateral ligament injuries, 9 patients were strain and one was complete tear. Among the 40 cases of lateral collateral ligament complex injuries, 29 patients were strain, 10 were partial tears and one was complete tear. The strained ligament showed as thickened and blurred on T1WI, and the fiber was still continuous; while on PD-FS, the injured ligaments demonstrated as heterogeneously increased signal intensity. Partial tear showed as fiber thickening and partial discontinuity. A complete tear showed that the fiber was discontinuous and retracted with surrounding soft tissue edema.Conclusion:MRI is an accurate method for evaluation of the anatomy and pathological conditions of the medial collateral ligament and lateral collateral ligament complex of the elbow joint, and has important application value in the diagnosis and treatment of elbow ligament injury.

Objective:To evaluate the application high-resolution 3.0-T magnetic resonance imaging (MRI) in diagnosis of ligament and tendon injuries of the forefeet.Methods:From September 2014 to August 2020, 40 patients with forefeet injury (40 forefoot) and 20 healthy subjects (40 forefoot) meeting the including and excluding criteria were enrolled into this retrospective study. All subjects underwent MRI T1-weighted image (T1WI) and fat suppression proton density-weighted imaging (PD-FS) scan on coronal planes, sagittal planes and axial planes, respectively. Then the MRI characteristics of tendons in forefoot of healthy subjects and patients with forefoot injuries were compared. In patients the MR features of ligament and tendons injury were compared with the surgical findings or follow-up results.Results:In 20 normal subjects the tendons and ligament of the forefoot showed homogeneous low-signal-intensity on T1WI and PD-FS images. In the 40 patients with forefoot injuries, 22 cases were confirmed by surgical findings and 18 cases were confirmed by follow-up results. There were 8 cases of collateral ligament injuries, including 2 cases with complete tear, 3 cases with partial tear and 3 cases with sprain; 2 cases of extensor tendon with partial tear; 8 cases of flexor tendon injuries, including 3 cases with complete tear, 3 cases with partial tear and 2 cases with sprain; 3 cases of abductor tendon with partial tear; 13 cases of plantar plate injuries; and 6 cases of Lisfranc ligament injuries including 5 cases with complete tear and 1 case with partial tear. The injured ligament and tendons presented thicker and discontinuity in T1WI; and demonstrated heterogeneously increased signal intensity with edema in the surrounding soft tissues in PD-FS. The partially torn ligament and tendons showed discontinuity and thickening; and the completely torn ligament and tendons showed that they were interrupted and retracted, fiber structure disappeared and was filled with liquid, and edema in the surrounding soft tissue.Conclusion:High resolution magnetic resonance imaging of the forefoot can demonstrate the anatomy and features of ligament and tendon injuries in forefoot accurately, which has clinical application value for the early diagnosis and accurate treatment of the injury.