The influence of pressure injury risk on the association between left ventricular ejection fraction and all-cause mortality in patients with acute myocardial infarction 80 years or older

BACKGROUND: We aimed to investigate whether the pressure injury risk mediates the association of left ventricular ejection fraction(LVEF) with all-cause death in patients with acute myocardial infarction(AMI) aged 80 years or older.METHODS: This retrospective cohort study included 677 patients with AMI aged 80 years or older from a tertiary-level hospital. Pressure injury risk was assessed using the Braden scale at admission, and three risk groups(low/minimal, intermediate, high) were defined according to the overall score of six different variables. LVEF was measured during the index hospitalization for AMI. All-cause death after hospital discharge was the primary outcome.RESULTS: Over a median follow-up period of 1,176 d(interquartile range [IQR], 722–1,900 d), 226(33.4%) patients died. Multivariate Cox regression analysis showed that reduced LVEF was associated with an increased risk of all-cause death only in the high-risk group of pressure injury(adjusted hazard ratios [HR]=1.81, 95% confidence interval [CI]: 1.03–3.20;P=0.040), but not in the low/minimal-(adjusted HR=1.29, 95%CI: 0.80–2.11;P=0.299) or intermediate-risk groups(adjusted HR=1.14, 95%CI: 0.65–2.02;P=0.651). Significant interactions were detected between pressure injury risk and LVEF(adjusted P=0.003). The cubic spline with hazard ratio plot revealed a distinct shaped curve relation between LVEF and all-cause death among different pressure injury risk groups.CONCLUSIONS: In older patients with AMI, the risk of pressure injury mediated the association between LVEF and all-cause death. The classification of older patients for both therapy and prognosis assessment appears to be improved by the incorporation of pressure injury risk assessment into AMI care management.

Buyang Huanwu Decoction fraction protects against cerebral ischemia/reperfusion injury by attenuating the inflammatory response and cellular apoptosis

Buyang Huanwu Decoction fraction extracted from Buyang Huanwu Decoction contains saponins of Astragalus, total paeony glycoside and safflower flavones. The aim of this study was to demonstrate the neuroprotective effect and mechanism of Buyang Huanwu Decoction fraction on ischemic injury both in vivo and in vitro. In vivo experiments showed that 50-200 mg/kg Buyang Huanwu Decoction fraction reduced infarct volume and pathological injury in ischemia/reperfusion rats, markedly inhibited expression of nuclear factor-KB and tumor necrosis factor-a and promoted nestin protein expression in brain tissue. Buyang Huanwu Decoction fraction （200 mg/kg） exhibited significant effects, which were similar to those of 100 mg/kg Ginkgo biloba extract. In vitro experimental results demonstrated that 10-100 mg/L Buyang Huanwu Decoction fraction significantly improved cell viability, decreased the release of lactate dehydrogenase and malondialdehyde levels, and inhibited the rate of apoptosis in HT22 cells following oxygen-glucose deprivation. Buyang Huanwu Decoction fraction （100 mg/L） exhibited significant effects, which were similar to those of 100 mg/L Ginkgo biloba extract. These findings suggest that Buyang Huanwu Decoction fraction may represent a novel, protective strategy against cerebral ischemia/reperfusion injury in rats and oxygen-glucose deprivation-induced damage in HT22 cells in vitro by attenuating the inflammatory response and cellular apoptosis.

Diffusion tensor imaging reveals brain structure changes in dogs after spinal cord injury

Based on the Wallerian degeneration in the spinal cord pathways,the changes in synaptic connections,and the spinal cord-related cellular responses that alter the cellular structure of the brain,we presumed that brain diffusion tensor imaging(DTI)parameters may change after spinal cord injury.However,the dynamic changes in DTI parameters remain unclear.We established a Beagle dog model of T10 spinal cord contusion and performed DTI of the injured spinal cord.We found dynamic changes in DTI parameters in the cerebral peduncle,posterior limb of the internal capsule,pre-and postcentral gyri of the brain within 12 weeks after spinal cord injury.We then performed immunohistochemistry to detect the expression of neurofilament heavy polypeptide(axonal marker),glial fibrillary acidic protein(glial cell marker),and NeuN(neuronal marker).We found that these pathological changes were consistent with DTI parameter changes.These findings suggest that DTI can display brain structure changes after spinal cord injury.

Reduced non-CpG methylation is a potential epigenetic target after spinal cord injury

DNA methylation is a critical epigenetic regulator in the occurrence and development of diseases and is closely related to various functional responses in relation to spinal cord injury.To investigate the role of DNA methylation in spinal cord injury,we constructed a library with reduced-representation bisulfite sequencing data obtained at various time points(day 0-42)after spinal cord injury in mice.Global DNA methylation levels,specifically non-CpG(CHG and CHH)methylation levels,decreased modestly following spinal cord injury.Stages post-spinal cord injury were classified as early(day 0-3),intermediate(day7-14),and late(day 28-42)based on similarity and hie rarchical cluste ring of global DNA methylation patterns.The non-CpG methylation level,which included CHG and CHH methylation levels,was markedly reduced despite accounting for a minor proportion of total methylation abundance.At multiple genomic sites,including the 5’untranslated regions,promoter,exon,intron,and 3’untranslated regions,the non-CpG methylation level was markedly decreased following spinal cord injury,whereas the CpG methylation level remained unchanged at these locations.Approximately one-half of the differentially methylated regions were located in intergenic areas;the other differentially methylated regions in both CpG and non-CpG regions were cluste red in intron regions,where the DNA methylation level was highest.The function of genes associated with differentially methylated regions in promoter regions was also investigated.From Gene Ontology analysis results,DNA methylation was implicated in a number of essential functional responses to spinal cord injury,including neuronal synaptic connection creation and axon regeneration.Notably,neither CpG methylation nor non-CpG methylation was implicated in the functional response of glial or inflammatory cells.In summary,our work elucidated the dynamic pattern of DNA methylation in the spinal co rd following injury and identified reduced nonCpG methylation as an epigenetic target after spinal cord injury in mice.

维立西呱联合重组人脑利钠肽治疗HFrEF伴心房颤动的临床效果研究

目的研究维立西呱联合重组人脑利钠肽治疗射血分数降低的心力衰竭(HFrEF)伴心房颤动的临床效果。方法本研究为回顾性研究,根据治疗方案不同按1:1配对原则将2022年8月至2023年7月郑州大学第一附属医院收治的124例HFrEF伴心房颤动患者分为对照组和研究组各62例。两组患者均行常规治疗,对照组另给予重组人脑利钠肽治疗,研究组则给予维立西呱联合重组人脑利钠肽治疗,均持续治疗6个月。比较两组患者治疗6个月后的治疗效果,以及治疗前和治疗3个月、6个月后的心功能指标[左心室高峰充盈率(LVPER)、左室射血分数(LVEF)、左心室收缩末期内径(LVESD)]、心肌损伤相关指标[可溶性人基质裂解素(sST2)、N末端脑钠肽前体(NT-proBNP)、心肌肌钙蛋白Ⅰ(cTnⅠ)]、运动耐力[无氧域摄氧量(VO2AT)、峰值公斤摄氧量(VO_(2max))、最大运动负荷]、预后相关指标[半乳糖凝集素3(Gal-3)、胱抑素C(CysC)、Periostin蛋白、脂肪细胞型脂肪酸结合蛋白4(FABP4)],同时比较两组患者治疗期间的不良反应发生率和6个月内心力衰竭再入院率。结果治疗6个月后,研究组患者的临床总有效率为93.55%,明显高于对照组的80.65%,差异有统计学意义(P<0.05);治疗3个月、6个月后,研究组患者的LVPER、LVEF明显高于对照组,而LVESD明显低于对照组,差异均有统计学意义(P<0.05);治疗3个月、6个月后,研究组患者的sST2、NT-proBNP、cTnⅠ明显低于对照组,差异均有统计学意义(P<0.05);治疗3个月、6个月后,研究组患者的VO_(2)AT、VO_(2max)、最大运动负荷明显高于对照组,差异均有统计学意义(P<0.05);治疗3个月、6个月后,研究组患者的Gal-3、CysC、Periostin蛋白和FABP4明显低于对照组,差异均有统计学意义(P<0.05);6个月内研究组患者的心力衰竭再入院率为20.97%,明显低于对照组的41.94%,差异有统计学意义(P<0.05);研究组患者治疗期间的不良反应发生率为8.06%,略高于对照组的6.45%,但差异无统计学意义(P>0.05)。结论维立西呱联合重组人脑利钠肽治疗HFrEF伴心房颤动疗效确切,安全性高,可减轻心肌损伤,改善心功能,提高运动耐力,预后良好。

点阵光电技术在眶周年轻化中的应用进展

眶周是最早体现衰老的区域之一,能真实地反映一个人的衰老程度。眶周老化涉及到黑眼圈、皱纹、泪沟、眼袋等多种问题,会让人出现疲惫、沮丧或愤怒的外观。点阵光电技术采用局灶性光热作用原理,可形成数十个显微热损伤区,刺激胶原再生,使周围正常皮肤组织快速修复,被广泛应用于眶周年轻化的治疗中。本文将对点阵光电技术在眶周年轻化中的应用进行综述,以期为临床实践提供参考。

甘草预防气管插管致呼吸道损伤的有效成分筛选

背景术后咽喉痛(POST)是全身麻醉后常见的轻微但令人不悦的术后并发症之一。研究发现甘草能有效降低POST的发生率,但其有效成分尚不清楚。目的筛选甘草预防气管插管致呼吸道损伤的有效成分。方法2021年4月—2022年7月将60只SPF级Wistar大鼠依据随机数字表法分为对照组、气管插管组、利多卡因组、总多糖组、总皂苷组、总黄酮组,每组10只。除对照组外,其余组制备气管插管模型,插管前各治疗组按1 mL/100 g(按体质量计)分别经口喷入1%利多卡因、总多糖、总皂苷、总黄酮,浸润悬雍垂及软腭周围组织,对照组和气管插管组经口喷入等体积0.9%氯化钠溶液。机械通气2 h后拔除气管导管,深麻醉下收集大鼠咽部黏膜组织和血液标本,通过苏木精-伊红染色法(HE染色)和免疫组化(IHC)观察大鼠咽部黏膜病理变化和Toll样受体2(TLR2)、Toll样受体4(TLR4)表达水平;酶联免疫吸附测定法(ELISA)检测大鼠血清炎性因子[肿瘤坏死因子α(TNF-α)、白介素(IL)-2、IL-4、IL-10]、氧化应激[超氧化物歧化酶(SOD)、丙二醛(MDA)、总抗氧化能力(T-AOC)]及应激激素[皮质醇(Cor)、肾上腺素(E)和去甲肾上腺素(NE)]表达水平。结果HE染色显示气管插管组可见黏膜脱落,黏膜下结构严重破坏并伴有大量炎性细胞浸润,总皂苷组大鼠咽部黏膜组织破坏较轻,炎性细胞明显减少。ELISA结果显示:与对照组相比,气管插管组大鼠血清中的TNF-α、IL-2水平升高,IL-4、IL-10水平降低(P<0.05);与气管插管组相比,总皂苷组大鼠血清中TNF-α和IL-2水平降低,IL-4和IL-10水平升高(P<0.05)。与对照组相比,气管插管组大鼠血清中MDA水平升高,SOD和T-AOC水平下降(P<0.05);与气管插管组相比,总皂苷组和总黄酮组大鼠血清中MDA水平降低,SOD和T-AOC水平升高(P<0.05)。与对照组相比,气管插管组大鼠血清Cor、E和NE水平升高(P<0.05);与气管插管组相比,总皂苷组大鼠血清Cor、E和NE水平降低(P<0.05)。IHC结果显示:气管插管组大鼠咽部黏膜组织TLR2和TLR4表达的平均光密度(AOD)高于对照组(P<0.05)。与气管插管组相比,总皂苷组大鼠咽部黏膜组织TLR4表达的AOD降低(P<0.05)。结论甘草预防全身麻醉气管插管致呼吸道损伤的主要有效成分为总皂苷。

基于TBSS方法对急性轻度创伤性脑损伤患者脑白质改变的扩散峰度成像研究

目的 采用扩散峰度成像(diffusion kurtosis imaging, DKI)研究急性轻度创伤性脑损伤(mild traumatic brain injury,mTBI)患者脑白质微结构的变化特点,探讨DKI在mTBI患者的临床应用价值。材料与方法 分析2018年1月至12月于我院就诊的27例mTBI患者和性别、年龄、受教育年限相匹配的27例健康志愿者的临床及DKI影像数据,采用基于纤维束示踪的空间统计分析(tract-based spatial statistics, TBSS)方法分析mTBI组和对照组存在差异的脑区及其各向异性分数(fractional anisotropy, FA)值、平均峰度(mean kurtosis, MK)值、轴向峰度(axial kurtosis, AK)值、径向峰度(radial kurtosis, RK)值、峰度各向异性(kurtosis fractional anisotropy, KFA)值。结果 mTBI组左侧上纵束-颞叶部FA值(0.450±0.048)低于对照组(0.480±0.028,t=-2.253,P=0.028 5);mTBI组胼胝体辐射线枕部AK值(0.68±0.05)低于对照组(0.72±0.05,t=-2.407,P=0.019 7);mTBI组右侧扣带束海马部RK值(0.89±0.15)低于对照组(0.99±0.18,t=-2.044,P=0.046 0);mTBI组右侧丘脑前辐射、右侧扣带束的扣带皮层部、右侧下额枕束、右侧下纵束、右侧上纵束-颞叶部KFA值[(0.49±0.19)、(0.50±0.32)、(0.48±0.30)、(0.49±0.03)、(0.54±0.59)]均低于对照组[(0.51±0.13)、(0.52±0.20)、(0.50±0.02)、(0.51±0.26)、(0.57±0.46), t=-2.15、-2.95、-2.37、-2.38、-2.25,P均<0.05];mTBI组MK值与对照组相比差异无统计学意义(P>0.05)。结论 DKI参数可作为评估急性mTBI患者脑白质改变的神经影像生物标志物,可揭示脑白质微结构的微小变化。

利用CO_(2)点阵激光精准构建小鼠背侧皮肤深Ⅱ度烧伤模型

目的利用CO_(2)点阵激光精准控制烧伤强度及面积,并摸索最适能量强度,制备皮肤浅Ⅱ度至深Ⅱ度烧伤模型。方法首先通过50 mJ、80 mJ能量强度的CO_(2)点阵激光对小鼠进行造模,得到两组不同能量强度的烧伤模型;观察造模后烧伤部位表面皮肤变化情况,在造模后0、3、7、14 d拍照,观察伤口愈合情况,分析伤口愈合率;随后,对不同时间点所取烧伤部位组织进行HE染色、Masson染色,以及ColⅠ、ColⅢ免疫组织化学染色,并进行结果分析。结果对不同时间点的组织进行组织学染色发现,两组的激光打孔深度、毛囊再生情况及瘢痕生成情况存在显著差异;ColⅠ、ColⅢ免疫组织化学染色结果显示,两组间胶原蛋白再生情况同样存在显著差异。综合分析发现,80 mJ能量强度对小鼠皮肤组织所造成的损伤更符合深Ⅱ度烧伤模型特点。结论本研究成功利用CO_(2)点阵激光在小鼠背部构建出皮肤组织再生明显障碍的背侧深Ⅱ度烧伤模型,并通过组织学、免疫组织化学等方法对其损伤程度进行了详细评估,最终筛选出80 mJ的能量强度用于构建皮肤深Ⅱ度烧伤模型,有望为烧伤病理生理研究及皮肤组织再生药物筛选提供新工具。

沙库巴曲缬沙坦钠片联合左西孟旦治疗射血分数降低型心力衰竭患者的效果

目的:探讨沙库巴曲缬沙坦钠片联合左西孟旦治疗射血分数降低型心力衰竭患者的效果。方法:选取2021年1月-2023年12月龙口市人民医院收治的86例射血分数降低型心力衰竭患者。根据随机数表法将其均分为对照组和研究组,各43例。对照组给予沙库巴曲缬沙坦钠片,研究组在对照组基础上给予左西孟旦注射液。比较两组治疗前及治疗4周时心肌损伤标志物、心功能指标及不良反应。结果:治疗4周时,两组心肌肌钙蛋白T(cTnT)、心肌肌钙蛋白I(cTnI)、游离脂肪酸(FFA)水平均降低,研究组cTnT、FFA、cTnI水平均低于对照组,差异有统计学意义(P<0.05)。治疗4周时,两组左心室舒张末期内径(LVEDD)、左心室收缩末期内径(LVESD)均降低,左室射血分数(LVEF)升高,研究组LVEDD、LVESD均低于对照组,LVEF高于对照组,差异有统计学意义(P<0.05)。两组不良反应发生率比较,差异无统计学意义(P>0.05)。结论:射血分数降低型心力衰竭患者采取沙库巴曲缬沙坦钠片联合左西孟旦治疗可有效改善心功能,效果确切。

磁共振弥散张力成像在早产儿脑白质损伤及神经发育预后评估中的应用

目的探讨磁共振(MRI)弥散张力成像(DTI)在早产儿脑白质损伤(WMI)及神经发育预后评估中的应用价值。方法选择早产儿149例,均行头部MRI+DTI检查,记录感兴趣区(ROI)各向异性分数(FA)、表观弥散系数(ADC)值,根据检查结果将早产儿分为WMI组40例、nWMI组109例,并按检查时纠正胎龄分为33~34周、35~36周、≥37周,比较WMI组与nWMI组各胎龄FA值、ADC值。39例早产儿在纠正月龄约6个月时用格塞尔(Gesell)发育量表评估发育情况,其中适应性行为发育落后18例、个人-社会行为发育落后16例、大运动行为发育落后21例、精细运动行为发育落后25例、语言行为发育落后19例,Spearman相关法分析FA值、ADC值与Gesell发育量表评分的相关性。结果nWMI组不同纠正胎龄阶段各ROI的FA值均高于WMI组(P均<0.05)。纠正胎龄33~34周,WMI组侧室旁白质、胼胝体膝部白质的ADC值高于nWMI组(P均<0.05);纠正胎龄35~36周,WMI组胼胝体膝部、内囊后肢ADC值高于nWMI组(P均<0.05);纠正胎龄≥37周,WMI组半卵圆中心白质、脑室旁白质、胼胝体膝部及内囊后肢白质ADC值高于nWMI组(P均<0.05)。大运动发育落后早产儿脑室旁白质的ADC值与Gesell发育量表评分呈负相关(r=-0.594,P<0.05),认知行为发育落后早产儿内囊前肢的ADC值与Gesell发育量表评分呈负相关(r=-0.524,P<0.05)。结论DTI检查的内囊前肢、后肢及脑室旁白质FA值可反映早产儿WMI情况,脑室旁白质ADC值可反映其大运动发育情况。

Diffusion tensor imaging assesses white matter injury in neonates with hypoxic-ischemic encephalopathy

With improvements in care of at-risk neonates, more and more children survive. This makes it increasingly important to assess, soon after birth, the prognosis of children with hypoxic-ischemic encephalopathy. Computed tomography, ultrasound, and conventional magnetic resonance imaging are helpful to diagnose brain injury, but cannot quantify white matter damage. In this study, ten full-term infants without brain injury and twenty-two full-term neonates with hypoxic-ischemic encephalopathy （14 moderate cases and 8 severe cases） underwent diffusion tensor imaging to assess its feasibility in evaluating white matter damage in this condition. Results demonstrated that fractional anisotropy, voxel volume, and number of fiber bundles were different in some brain areas between infants with brain injury and those without brain injury. The correlation between fractional anisotropy values and neonatal behavioral neurological assessment scores was closest in the posterior limbs of the internal capsule. We conclude that diffusion tensor imaging can quantify white matter injury in neonates with hypoxic-ischemic encephalopathy.

Mild hypothermia for treatment of diffuse axonal injury: a quantitative analysis of diffusion tensor imaging

Fractional anisotropy values in diffusion tensor imaging can quantitatively reflect the consistency of nerve fibers after brain damage, where higher values generally indicate less damage to nerve fibers. Therefore, we hypothesized that diffusion tensor imaging could be used to evaluate the effect of mild hypothermia on diffuse axona[ injury. A total of 102 patients with diffuse axonal injury were randomly divided into two groups： normothermic and mild hypothermic treatment groups. Patient＇s modified Rankin scale scores 2 months after mild hypothermia were significant- ly lower than those for the normothermia group. The difference in average fractional anisotropy value for each region of interest before and after mild hypothermia was 1.32-1.36 times higher than the value in the normothermia group. Quantitative assessment of diffusion tensor imaging indicates that mild hypothermia therapy may be beneficial for patients with diffuse axonal injury.

Dynamic correlation of diffusion tensor imaging and neurological function scores in beagles with spinal cord injury

Exploring the relationship between different structure of the spinal cord and functional assessment after spinal cord injury is important. Quantitative diffusion tensor imaging can provide information about the microstructure of nerve tissue and can quantify the pathological damage of spinal cord white matter and gray matter. In this study, a custom-designed spinal cord contusion-impactor was used to damage the T_（10） spinal cord of beagles. Diffusion tensor imaging was used to observe changes in the whole spinal cord, white matter, and gray matter, and the Texas Spinal Cord Injury Score was used to assess changes in neurological function at 3 hours, 24 hours, 6 weeks, and 12 weeks after injury. With time, fractional anisotropy values after spinal cord injury showed a downward trend, and the apparent diffusion coefficient, mean diffusivity, and radial diffusivity first decreased and then increased. The apparent diffusion-coefficient value was highly associated with the Texas Spinal Cord Injury Score for the whole spinal cord（R = 0.919, P = 0.027）, white matter（R = 0.932, P = 0.021）, and gray matter（R = 0.882, P = 0.048）. Additionally, the other parameters had almost no correlation with the score（P 〉 0.05）. In conclusion, the highest and most significant correlation between diffusion parameters and neurological function was the apparent diffusion-coefficient value for white matter, indicating that it could be used to predict the recovery of neurological function accurately after spinal cord injury.

Acute kidney injury spectrum in patients with chronic liver disease:Where do we stand?

Acute kidney injury (AKI) is a common complication of liver cirrhosis and is of the utmost clinical and prognostic relevance. Patients with cirrhosis, especially decompensated cirrhosis, are more prone to develop AKI than those without cirrhosis. The hepatorenal syndrome type of AKI (HRS–AKI), a spectrum of disorders in prerenal chronic liver disease, and acute tubular necrosis (ATN) are the two most common causes of AKI in patients with chronic liver disease and cirrhosis. Differentiating these conditions is essential due to the differences in treatment. Prerenal AKI, a more benign disorder, responds well to plasma volume expansion, while ATN requires more specific renal support and is associated with substantial mortality. HRS–AKI is a facet of these two conditions, which are characterized by a dysregulation of the immune response. Recently, there has been progress in better defining this clinical entity, and studies have begun to address optimal care. The present review synopsizes the current diagnostic criteria, pathophysiology, and treatment modalities of HRS–AKI and as well as AKI in other chronic liver diseases (non-HRS–AKI) so that early recognition of HRS–AKI and the appropriate management can be established.

Feasibility of 3.0 T diffusion-weighted nuclear magnetic resonance imaging in the evaluation of functional recovery of rats with complete spinal cord injury

Diffusion tensor imaging is a sensitive way to reflect axonal necrosis and degeneration, glial cell regeneration and demyelination following spinal cord injury, and to display microstructure changes in the spinal cord in vivo. Diffusion tensor imaging technology is a sensitive method to diagnose spinal cord injury; fiber tractography visualizes the white matter fibers, and directly displays the structural integrity and resultant damage of the fiber bundle. At present, diffusion tensor imaging is restricted to brain examinations, and is rarely applied in the evaluation of spinal cord injury. This study aimed to explore the fractional anisotropy and apparent diffusion coefficient of diffusion tensor magnetic resonance imaging and the feasibility of diffusion tensor tractography in the evaluation of complete spinal cord injury in rats. The results showed that the average combined scores were obviously decreased after spinal cord transection in rats, and then began to increase over time. The fractional anisotropy scores after spinal cord transection in rats were significantly lower than those in normal rats （P 〈 0.05）; the apparent diffusion coefficient was significantly increased compared with the normal group （P 〈 0.05）. Following spinal cord transection, fractional anisotropy scores were negatively correlated with apparent diffusion coefficient values （r = -0.856, P 〈 0.01）, and positively correlated with the average combined scores （r = 0.943, P 〈 0.01）, while apparent diffusion coefficient values had a negative correlation with the average combined scores （r = -0.949, P 〈 0.01）. Experimental findings suggest that, as a non-invasive examination, diffusion tensor magnetic resonance imaging can provide qualita- tive and quantitative information about spinal cord injury. The fractional anisotropy score and apparent diffusion coefficient have a good correlation with the average combined scores, which reflect functional recovery after spinal cord injury.

Human neural stem cell transplants to address multiple pathologies associated with traumatic brain injury

Traumatic brain injury (TBI), an unmet need: TBI is an alteration in brain function caused by an external force with evidence of brain pathology. It could be from a bump, blow, blast or jolt to the head including penetrating the cranium. TBI is a public health concern worldwide due to its economic impact. Most TBIs are survivable, do not need hospitalization but may influence productivity. A smaller percentage of TBI due to falls or penetrating TBI (PTBI) needs hospitalization and accounts for largest fraction of TBI care costs.

DTI and pathological changes in a rabbit model of radiation injury to the spinal cord after ^(125)I radioactive seed implantation

Excessive radiation exposure may lead to edema of the spinal cord and deterioration of the nervous system. Magnetic resonance imaging can be used to judge and assess the extent of edema and to evaluate pathological changes and thus may be used for the evaluation of spinal cord injuries caused by radiation therapy. Radioactive ^125I seeds to irradiate 90% of the spinal cord tissue at doses of 40–100 Gy （D90） were implanted in rabbits at T10 to induce radiation injury, and we evaluated their safety for use in the spinal cord. Diffusion tensor imaging showed that with increased D90, the apparent diffusion coefficient and fractional anisotropy values were increased. Moreover, pathological damage of neurons and microvessels in the gray matter and white matter was aggravated. At 2 months after implantation, obvious pathological injury was visible in the spinal cords of each group. Magnetic resonance diffusion tensor imaging revealed the radiation injury to the spinal cord, and we quantified the degree of spinal cord injury through apparent diffusion coefficient and fractional anisotropy.

Diffusion tensor imaging of the hippocampus reflects the severity of hippocampal injury induced by global cerebral ischemia/reperfusion injury

At present,predicting the severity of brain injury caused by global cerebral ischemia/reperfusion injury(GCI/RI)is a clinical problem.After such an injury,clinical indicators that can directly reflect neurological dysfunction are lacking.The change in hippocampal microstructure is the key to memory formation and consolidation.Diffusion tensor imaging is a highly sensitive tool for visualizing injury to hippocampal microstructure.Although hippocampal microstructure,brain-derived neurotrophic factor(BDNF),and tropomyosin-related kinase B(Trk B)levels are closely related to nerve injury and the repair process after GCI/RI,whether these indicators can reflect the severity of such hippocampal injury remains unknown.To address this issue,we established rat models of GCI/RI using the four-vessel occlusion method.Diffusion tensor imaging parameters,BDNF,and Trk B levels were correlated with modified neurological severity scores.The results revealed that after GCI/RI,while neurological function was not related to BDNF and Trk B levels,it was related to hippocampal fractional anisotropy.These findings suggest that hippocampal fractional anisotropy can reflect the severity of hippocampal injury after global GCI/RI.The study was approved by the Institutional Animal Care and Use Committee of Capital Medical University,China(approval No.AEEI-2015-139)on November 9,2015.

Injury of the dentatorubrothalamic tract in patients with post-traumatic tremor following mild traumatic brain injury: a case-control study

Post-traumatic movement disorder is one of the sequelae of traumatic brain injury. The dentatorubrothalamic tract(DRTT) is reported to be involved in the control of movement. Therefore, injury of the DRTT can be accompanied by abnormal movements, including ataxia, tremor, or dystonia. We investigated DRTT injuries in 27 patients who showed post-traumatic tremor in at least one of four extremities following mild traumatic brain injury. We classified DRTT injuries based on diffusion tensor tractography parameters and configuration: type A: the DRTT showed narrowing, type B: the DRTT showed partial tearing, and type C: the DRTT showed discontinuation. Fractional anisotropy and fiber number of the DRTT were significantly decreased in patients compared with the healthy controls. Based on our DRTT injury classification, among the 54 hemispheres of the 27 patients, type A injury occurred in 22 hemispheres(40.7%) of 17 patients, type B injury was present in 15 hemispheres(27.7%) of 10 patients, and type C injury was observed in 8 hemispheres(14.8%) of 6 patients. Our results suggest that diffusion tensor tractography-based evaluation of the DRTT would be useful when determining cause of post-traumatic tremor in patients with mild traumatic brain injury. The study protocol was approved by the Institutional Review Board of Yeungnam University Hospital(YUMC-2018-09-007) on September 5, 2018.