目的:探讨液相芯片检测胰腺炎患者外周血中细胞因子浓度的可行性,及其在胰腺炎中的临床应用价值。方法: 收集90例胰腺炎患者(包括重症和轻症)和30例正常对照者的外周血,离心提取血清,利用液相芯片检测血清中细胞因子IL10,IL6,TNFα的浓度,比较不同程度炎症患者以及与对照之间细胞因子的浓度差异,分析血清中细胞因子浓度差异与临床表现之间的关系。结果:液相芯片可以方便地在仅25 μl的血清样本中同时准确检测这三种细胞因子的含量,检测的有效范围为0.10~2000 pg/mL。IL10 的浓度在对照、轻型和重型胰腺炎组中分别为51.97±31.72 pg/mL, 32.88±9.70 pg/mL和3.57±0.99 pg/mL, 轻型组与重型组间以及重型组和对照间差异有显著性(P lt; 005)。IL10在发病三天内和三天后的浓度分别为 42.47±10.15 pg/mL和12.28±5.04 pg/mL, 两者间差异有显著性(P lt; 0.01). Il6 的浓度在三天后从60.90±24.37 pg/mL下降到34.52±13.57 pg/mL,但差异没有显著性(Pgt;0.05);TNF-α的浓度在各组间没有显著差异(Pgt;0.05)。结论:液相芯片检测技术可以快速准确的检测少量血样标本中IL10,IL-6,TNFα等细胞因子的浓度,在胰腺炎患者中细胞因子IL-10的浓度与胰腺炎轻重程度以及患病时间密切相关,IL-10的浓度可以作为该病临床处理的依据和药物疗效的监测指标。
ObjectiveTo assess the value of simplified clinical pulmonary infection score (sCPIS) in predicting prognosis of patients with ventilator-associated pneumonia (VAP). MethodsThe clinical data of 52 patients with VAP,admitted in ICU between January 2011 and December 2012,were retrospectively analyzed. The sCPIS was calculated at the onset,and on 3rd,5th and 7th day after onset of VAP. Results24 cases survived and 28 cases died in 28-day's hospitalization. 28-day mortality was 53.8%. A significant decrease in sCPIS scores was found on 3rd,5th and 7th day after onset compared with at the onset of VAP in the survivors(4.8±1.2,4.0±1.1,3.3±1.6 vs. 5.5±1.4,P<0.05). An increase in sCPIS scores was found on 3rd,5th and 7th days after onset compared with at the onset of VAP in the non-survivors (6.8±1.3,7.5±1.4,7.8±1.2 vs. 5.8±1.5,P<0.05). The sCPIS determined at the time of VAP diagnosis and on 3rd,5th and 7th day after onset was significantly higher in the non-survivors than that in the survivors respectively (P<0.05). The duration of mechanical ventilation and the length of ICU stay were longer in the non-survivors than those in the survivors[(18.4±5.2) d vs. (12.0±4.1) d,(22.5±8.5) d vs. (16±6.3) d,P<0.05]. ConclusionSerial measurement of sCPIS is valuable in evaluating the severity of illness and predicting the prognosis.
ObjectiveTo identify the pathogenic mutation in a three generation Chinese family with low penetrance retinoblastoma (RB). Methods8 from 9 family members received complete ophthalmic examinations. DNA was extracted from 6 family members. Using exon combined target region capture sequencing chip to screen the candidate disease-causing mutations. Sanger sequencing were used to confirm the disease-causing mutation. ResultsAmong 9 family members, the proband (Ⅲ2) was bilateral RB, Ⅲ1 was unilateral RB, Ⅲ3 was dead for bilateral RB. Normal fundus were observed in the left eye ofⅢ1 and the eyes of other family members except the proband. Sequence analysis of RB1 gene revealed a missense mutation c.1981C > T (p.Arg661Trp) in the proband and two carriers (Ⅱ2, Ⅱ3), but not in the two normal subjects (Ⅱ1, Ⅱ4). We suspect that the RB penetrance in the family was 50%. ConclusionsThere is a missense mutation c.1981C > T in a Chinese family with low penetrance RB. The RB penetrance is 50%.
Error related negativity (ERN) is generated in frontal and central cortical regions when individuals perceive errors. Because ERN has low signal-to-noise ratio and large individual difference, it is difficult for single trial ERN recognition. In current study, the optimized electroencephalograph (EEG) channels were selected based on the brain topography of ERN activity and ERN offline recognition rate, and the optimized EEG time segments were selected based on the ERN offline recognition rate, then the low frequency time domain and high frequency time-frequency domain features were analyzed based on wavelet transform, after which the ERN single detection algorithm was proposed based on the above procedures. Finally, we achieved average recognition rate of 72.0% ± 9.6% in 10 subjects by using the sample points feature in 0~3.9 Hz and the power and variance features in 3.9~15.6 Hz from the EEG segments of 200~600 ms on the selected 6 channels. Our work has the potential to help the error command real-time correction technique in the application of online brain-computer interface system.
The brain-computer interface (BCI) systems used in practical applications require as few electroencephalogram (EEG) acquisition channels as possible. However, when it is reduced to one channel, it is difficult to remove the electrooculogram (EOG) artifacts. Therefore, this paper proposed an EOG artifact removal algorithm based on wavelet transform and ensemble empirical mode decomposition. Firstly, the single channel EEG signal is subjected to wavelet transform, and the wavelet components which involve EOG artifact are decomposed by ensemble empirical mode decomposition. Then the predefined autocorrelation coefficient threshold is used to automatically select and remove the intrinsic modal functions which mainly composed of EOG components. And finally the ‘clean’ EEG signal is reconstructed. The comparative experiments on the simulation data and the real data show that the algorithm proposed in this paper solves the problem of automatic removal of EOG artifacts in single-channel EEG signals. It can effectively remove the EOG artifacts when causes less EEG distortion and has less algorithm complexity at the same time. It helps to promote the BCI technology out of the laboratory and toward commercial application.
Uncovering the alterations of neural interactions within the brain during epilepsy is important for the clinical diagnosis and treatment. Previous studies have shown that the phase-amplitude coupling (PAC) can be used as a potential biomarker for locating epileptic zones and characterizing the transition of epileptic phases. However, in contrast to the θ-γ coupling widely investigated in epilepsy, few studies have paid attention to the β-γ coupling, as well as its potential applications. In the current study, we use the modulation index (MI) to calculate the scalp electroencephalography (EEG)-based β-γ coupling and investigate the corresponding changes during different epileptic phases. The results show that the β-γ coupling of each brain region changes with the evolution of epilepsy, and in several brain regions, the β-γ coupling decreases during the ictal period but increases in the post-ictal period, where the differences are statistically significant. Moreover, the alterations of β-γ coupling between different brain regions can also be observed, and the strength of β-γ coupling increases in the post-ictal period, where the differences are also significant. Taken together, these findings not only contribute to understanding neural interactions within the brain during the evolution of epilepsy, but also provide a new insight into the clinical treatment.
ObjectiveTo explore the efficacy of using a single branch stent-graft to treat primary intramural hematoma located at the distal arch or descending aorta in Stanford A type aortic intramural hematoma. MethodsFrom July 2020 to November 2022, 10 patients with primary intramural hematoma of Stanford A type aortic intramural hematoma were treated with endovascular repair using a single branch stent-graft in the Department of Cardiovascular Surgery at The University of Hong Kong-Shenzhen Hospital. There were 9 males and 1 female, aged from 32 to 66 years, with a mean age of (47±10.4) years. All patients had intramural hematoma involving the ascending aorta and aortic arch, diagnosed as type A intramural hematoma, with the tear located in the descending aorta. Among them, 6 patients were complicated by ulceration of the descending aorta with intramural hematoma, and 4 patients had changes of the descending aortic dissection. All patients underwent endovascular stent repair, with 8 patients undergoing emergency surgery (≤14 days) and 2 patients undergoing subacute surgery (15 days to 3 months). Results There were no neurological complications, paraplegia, stent fracture or displacement, or limb or visceral ischemia during the perioperative period in all patients. One patient had continuous chest pain after surgery, and the stent had a new tear at the proximal end, requiring ascending aorta and partial arch replacement. As of the latest follow-up, all patients had obvious absorption or complete absorption of the intramural hematoma in the ascending aorta and aortic arch compared with before the operation. ConclusionSingle branch stent-graft treatment of retrograde ascending aortic intramural hematoma is safe and effective, with good short-term results.
Neurofeedback, as an alternative treatment method of behavioral medicine, is a technique which translates the electroencephalogram (EEG) signals to styles as sounds or animation to help people understand their own physical status and learn to enhance or suppress certain EEG signals to regulate their own brain functions after several repeated trainings. This paper develops a neurofeedback system on the foundation of brain-computer interface technique. The EEG features are extracted through real-time signal process and then translated to feedback information. Two feedback screens are designed for relaxation training and attention training individually. The veracity and feasibility of the neurofeedback system are validated through system simulation and preliminary experiment.
The present paper is aimed to study the effect of sand-therapy with Uyghur medicine on biomechanical properties and femoral bone volume of the femur of osteoarthritis (OA) rabbits at two different ages. In the experiments, we injected Papain through the joint space of right knees into the bodies of New Zealand rabbits (16 in the growing group, and 16 in the mature group), and established an OA model. The 16 rabbits in the mature group were divided randomly into 2 sub-groups: 8 in control group (no sand therapy), and 8 sand-therapy group. The 16 rabbits in the growing group were divided randomly into 2 groups as well: 8 in the control group (no sand therapy), and 8 in the sand-therapy group. We carried out CT scanning four times (1 day before, 13th, 27th and 41st days after the establishment of the model, respectively). After importing the CT data to MIMICS, the different volumes of each sclerotin were recorded and change of the percentage of each sclerotins in total femur bone volume were analyzed. Finally the rabbit femurs were given three-point bending test, the elastic load and the elastic deflection were obtained and the inertia of the section, the maximum bending stresses, the bending modulus of elasticity and the structural rigidity were calculated. The experimental results showed that ① Compared with 1 day before and 13th day after establishment of model at maturity, the cancellous bone volume increased and cortical bone volume decreased (P<0.05), but compared with those in the control group, the cancellous bone volume of femurs decrease and cortical bone volume increased under sand-therapy (P<0.05). Compared with those in the control group, there were no significant changes in the deflection and cross-sectional moment of inertia in the sand-therapy group (P>0.05), but the maximum bending normal stress, maximum load, elastic modulus, and structural stiffness (P<0.05) in the sand therapy group were larger than those in the control group. The study showed that sand-therapy in Uyghur medicine has benign effect on bone volume of the OA rabbit femur in two ages and the mechanical properties of the OA rabbit femur at the two ages induced by sand-therapy in Uyghur medicine have been improved.