Clinical study of standard residual liver volume and transient elastography in predicting poor prognosis of patients after hemihepatectomy

BACKGROUND Liver cancer resection,especially in patients with hemihepatectomy or extended hemihepatectomy,often leads to poor prognosis,such as liver insufficiency and even liver failure and death,because the standard residual liver volume(SRLV)cannot be fully compensated after surgery.AIM To explore the risk factors of poor prognosis after hemihepatectomy for hepatocellular carcinoma and evaluate the application value of related prognostic approaches.METHODS The clinical data of 35 patients with primary liver cancer in Nantong Third People's Hospital from February 2016 to July 2020 were retrospectively analyzed.The receiver operating characteristic curve was created using medcac19.0.4 to compare the critical values of the SRLV in different stages of liver fibrosis after hemihepatectomy with those of liver dysfunction after hemihepatectomy.It was constructed by combining the Child-Pugh score to evaluate its application value in predicting liver function compensation.RESULTS The liver stiffness measure(LSM)value and SRLV were associated with liver dysfunction after hemihepatectomy.Logistic regression analysis showed that an LSM value≥25 kPa[odds ratio(OR)=6.254,P<0.05]and SRLV≤0.290 L/m^(2)(OR=5.686,P<0.05)were independent risk factors for postoperative liver dysfunction.The accuracy of the new liver reserve evaluation model for predicting postoperative liver function was higher than that of the Child-Pugh score(P<0.05).CONCLUSION SRLV and LSM values can be used to evaluate the safety of hemihepatectomy.The new liver reserve evaluation model has good application potential in the evaluation of liver reserve function after hemihepatectomy.

Displacement of the Residual Liver Cavity in Laparoscopic Echinococcectomy

Aim: This article aimed to investigate the analysis of various methods for eliminating the residual liver cavity after laparoscopic echinococcectomy in patients. Methods: The authors used the following methods of eliminating the residual cavity: omentoplasty (36.8%), abdominalization (30%), drainage of the residual cavity (26.2%), and a combination of omentoplasty with drainage of the residual cavity (7%). Results: In the postoperative period, complications occurred in 2 (3.5%) cases in the form of bile leakage from the residual liver cavity. Conclusions: It is recommended to use abdominalization and omentoplasty when choosing a method for eliminating the residual liver cavity.

Predicting liver function after hemihepatectomy in patients with hepatocellular carcinoma using different modalities

In response to Dr.Yue et al's study on prognostic factors for post-hemihep-atectomy outcomes in hepatocellular carcinoma(HCC)patients,this critical review identifies methodological limitations and proposes enhancements for future research.While the study identifies liver stiffness measure and standard residual liver volume as potential predictors,concerns regarding small sample size,reliance on biochemical markers for safety assessment,and inadequate ad-justment for confounding variables are raised.Recommendations for rigorous methodology,including robust statistical analysis,consideration of confounding factors,and selection of outcome measures with clinical components,are proposed to strengthen prognostic assessments.Furthermore,validation of novel evaluation models is crucial for enhancing clinical applicability and advancing understanding of postoperative outcomes in patients with HCC undergoing hem-ihepatectomy.

Scoring criteria for determining the safety of liver resection for malignant liver tumors

BACKGROUND Liver resection has become safer as it has become less invasive.However,the minimum residual liver volume(RLV)required to maintain homeostasis is unclear.Furthermore,the formulae used to calculate standard liver volume(SLV)are complex.AIM To review previously reported SLV formulae and the methods used to evaluate the minimum RLV,and explore the association between liver volume and mortality.METHODS A systematic review of Medline,PubMed,and grey literature was performed.References in the retrieved articles were cross-checked manually to obtain further studies.The last search was conducted on January 20,2019.We developed an SLV formula using data for 86 consecutive patients who underwent hepatectomy at our institution between July 2009 and August 2011.RESULTS Linear regression analysis revealed the following formula:SLV(mL)=822.7×body surface area(BSA)?183.2(R2=0.419 and R=0.644,P<0.001).We retrieved 25 studies relating to SLV formulae and 12 studies about the RLV required for safe liver resection.Although the previously reported formulae included various coefficient and constant values,a simplified version of the SLV,the common SLV(cSLV),can be calculated as follows:cSLV(mL)=710 or 770×BSA.The minimum RLV for normal and damaged livers ranged from 20%-40%and 30%-50%,respectively.The Sapporo score indicated that the minimum RLV ranges from 35%-95%depending on liver function.CONCLUSION We reviewed SLV formulae and the minimum RLV required for safe liver resection.The Sapporo score is the only liver function-based method for determining the minimum RLV.

Image Processing Tool Promoting Decision-Making in Liver Surgery of Patients with Chronic Kidney Disease

Preoperative assessment of the liver volume and function of the remnant liver is a mandatory prerequisite before performing major hepatectomy. The aim of this work is to develop and test a software application for evaluation of the residual function of the liver prior to the intervention of the surgeons. For this purpose, a complete software platform consisting of three basic modules: liver volume segmentation, visualization, and virtual cutting, was developed and tested. Liver volume segmentation is based on a patient examination with non-contrast abdominal Computed Tomography (CT). The basis of the segmentation is a multiple seeded region growing algorithm adapted for use with CT images without contrast-enhancement. Virtual tumor resection is performed interactively by outlining the liver region on the CT images. The software application then processes the results to produce a three-dimensional (3D) image of the “resected” region. Finally, 3D rendering module provides possibility for easy and fast interpretation of the segmentation results. The visual outputs are accompanied with quantitative measures that further provide estimation of the residual liver function and based on them the surgeons could make a better decision. The developed system was tested and verified with twenty abdominal CT patient sets consisting of different numbers of tomographic images. Volumes, obtained by manual tracing of two surgeon experts, showed a mean relative difference of 4.5%. The application was used in a study that demonstrates the need and the added value of such a tool in practice and in education.

基于CT和磁共振成像人工智能图像融合技术的适形消融用于肝癌TACE术后残留的疗效分析

目的分析基于CT和磁共振成像人工智能图像融合技术的适形消融用于肝癌肝动脉灌注化疗栓塞术(TACE)术后残留的效果及并发症发生情况。方法选取2019年1月至2023年11月收治的肝癌TACE术后残留患者61例,将CT和磁共振成像人工智能图像融合技术指导下适形消融30例(38个病灶)作为观察组,进行常规消融的31例(40个病灶)作为对照组。比较2组消融情况,消融前、消融后1个月肿瘤标志物[甲胎蛋白、癌胚抗原、糖类抗原125(CA125)],消融前、消融后24 h、消融后3 d肝功能指标[天冬氨酸转氨酶(AST)、丙氨酸转氨酶(ALT)];比较2组并发症发生率及无进展生存期。结果观察组术中即时补充消融率、术中满足消融边界率、完全消融率高于对照组,不完全消融率低于对照组(P<0.05,P<0.01);观察组消融后1个月甲胎蛋白、癌胚抗原、CA125低于对照组(P<0.05)。观察组消融后24 h、3 d AST、ALT低于对照组(P<0.05,P<0.01)。观察组并发症发生率[20.00%(6/30)]与对照组[32.26%(10/31)]比较差异无统计学意义(P>0.05);观察组再次消融率[3.33%(1/30)]与对照组[16.13%(5/31)]比较差异无统计学意义(P>0.05);观察组无进展生存期长于对照组(P<0.05)。结论CT和磁共振成像人工智能图像融合技术对TACE术后残留病灶消融治疗效果较好,且安全性较高。

超高效液相色谱-串联三重四极杆质谱法测定猪肉及猪肝中56种抗生素残留量

目的建立一种检测猪肉和猪肝中喹诺酮类、磺胺类、大环内酯类、四环素类、林可酰胺类、截短侧耳类共6类56种抗生素残留的固相萃取(solid phase extraction,SPE)-超高效液相色谱-串联三重四极杆质谱(ultra performance liquid chromatography-tandem triple quadrupole mass spectrometry,UPLC-MS/MS)法。方法使用2种不同的提取液[2 mL乙二胺四乙酸(ethylenediaminetetraacetic acid,EDTA)-McIlvaine缓冲液、1.5 mL甲醇和4.5 mL乙腈与8 mL乙腈]先后提取样品中目标药物,经正己烷去脂,使用HLB固相萃取柱净化,3 mL洗脱液(甲醇:乙酸乙酯=7:3,V:V)洗脱,采用UPLC-MS/MS检测。结果56种抗生素在2~100μg/kg范围内线性关系良好,相关系数均大于0.990。该方法检出限为0.2~2.0μg/kg,定量限为0.6~4.5μg/kg。猪肉样品中大部分抗生素(83.93%)回收率为60.04%~106.59%,猪肝样品中大部分抗生素(83.93%)回收率为50.04%~124.41%。采用本方法对市售20份猪肉样品和13份猪肝样品检验,只有1份猪肝样品中检出恩诺沙星残留,且残留浓度低于国家标准。结论此方法灵敏度较高、重现性好,可用于猪肉和猪肝中目标抗生素残留含量准确检测,满足日常动物源性食品安全监测和风险监测的需求,为保障动物产品安全提供技术支撑。

一种结合注意力残差的肝脏及肝肿瘤分割算法

长时间的肝脏医学图像人工诊断容易使医生产生疲劳,导致误诊和漏诊情况发生。针对以上现象提出一种改进的Unet网络用于肝脏和肝肿瘤自动分割。改进Unet模型,引入注意力残差结构和特征复用结构,提高输入图像中特征信息的利用效率;对损失函数进行改进,在Dice系数中加入欠分割和过分割惩罚因子,提高模型的预测能力。在公开数据集上的实验结果表明:该算法对肝脏和肝肿瘤的分割相似系数分别达到了0.962和0.713,优于现有的分割模型且具有较强的鲁棒性。

原发性肝癌患者双源CT全肝灌注成像特点及对TACE术后残余病灶的评估价值

目的探讨原发性肝癌(PLC)病灶双源CT全肝灌注成像特点及其评估经肝动脉化疗栓塞术(TACE)后残余病灶的价值。方法2021年1月~2023年8月我院收治的PLC患者94例,均接受TACE术治疗。使用双源CT机扫描和后处理工作站处理图像,记录感兴趣区血容量(BV)、开始增强时间(TTS)、血流量(BF)、肝动脉灌注量(ALP)、门静脉灌注量(PVP)和肝灌注指数(HPI)。应用受试者工作特征曲线(ROC)评估CT全肝灌注成像参数评估残余病灶的价值。结果术前,59例病灶ALP为均匀高灌注,35例出现不均匀高灌注,PVP均呈低灌注;术后一个月CT检查显示21例(22.3%)肿瘤病灶被完全栓塞,ALP显示为无血流灌注,73例病灶内出现碘油沉积或部分缺损,ALP呈高灌注;术后,21例病灶完全栓塞区BV、BF、ALP和HPI分别为(5.3±1.2)ml/100 ml、(42.7±7.6)ml/(100 ml·min^(-1))、(15.1±3.7)ml/(100 ml·min^(-1))和(19.5±2.1)%,显著低于术前【分别为(11.2±1.9)ml/100ml、(84.4±10.4)ml/(100 ml·min^(-1))、(38.9±5.7)ml/(100 ml·min^(-1))和(74.4±8.9)%,P<0.05】,而TTS和PVP分别为(11.9±2.1)s和(45.7±4.5)ml/(100 ml·min^(-1)),均显著大于术前【分别为(6.4±1.4)s和(12.2±2.1)ml/(100 ml·min^(-1)),P<0.05】;TACE术后病灶残余区ALP和HPI分别为(46.1±6.2)ml/(100 ml·min^(-1))和(81.0±5.9)%,显著大于术前【分别为(38.5±5.3)ml/(100 ml·min^(-1))和(75.3±5.6)%,P<0.05】,而PVP为(7.7±2.5)ml/(100 ml·min^(-1)),显著小于术前【(11.8±2.1)ml/(100 ml·min^(-1)),P<0.05】;经ROC曲线分析显示,多参数联合诊断TACE术后病灶残余区的曲线下面积(AUC)为0.940,其敏感性为87.7%,特异度为89.4%。结论PLC病灶CT全肝灌注成像呈高灌注,应用成像多参数联合判断TACE术后残余病灶具有很大的临床应用价值.

从肝论治百合病

百合病最早见于《金匮要略》:“百合病,百脉一宗,悉致其病也。”百合病是一种表现为精神恍惚、精神不定的情志病,在治疗时又以百合为主药,因而称之百合病。此病起于伤寒大病之后,余热未解,或患者平素即情志不遂,而遇外界精神刺激所致。在对于百合病的认识上,虽然不同医家见解不同,但是众多医家基于“百合病者,百脉一宗,悉致其病也”,鉴于百脉一宗指的是人体所有的血脉与经脉,心肺包括其中,从而认为百合病的病机与心肺密不可分,即其病机为心肺阴虚内热。不过从心肺论治百合病,其情志、饮食等相关症状无法得到准确解释,患者之肺、脾见证无法互相关联,若是从肝论治百合病则能更好地解释百合病神志异常及肺、脾见证。作者首先从经脉循行探讨该病与肝经的关系,其次根据百合病的相关症状分析其与肝的内在联系,进而推测百合病为肝经有余热所导致,再结合章节撰写规律进一步探讨百合病与肝经余热的关系。此外通过百合病主要症状及次要症状,解释肝经有余热深浅不同时,百合病疾病进程的时间亦有所不同。通过对百合与肝经余热关系的探讨,在治疗时根据疾病的特点,得出百合病主方百合地黄汤之作用为清除肝经之余热,在百合病的诊疗过程中应该尽早调治并清余热,同时治疗时亦可根据其情志相关的表现,条畅情志加以疏肝。

浙南山区肉用牛羊肝脏中药物残留、重金属蓄积现状及成因探究

目的评估浙南山区肉用牛羊肝脏中代表性农药、兽药及重金属元素蓄积情况,并分析成因。方法对来源于浙南山区的162户肉用牛羊养殖场的肝脏中倍硫磷等25种代表性农药、磺胺二甲嘧啶等24种代表性兽药及铅等3种代表性金属元素的残留进行检测,并对从这些养殖场抽取的325份饲草样本开展相应的农药残留和金属元素含量分析。结果162份牛羊肝脏样本中除13份检出除联苯菊酯外,未检出其他农兽药残留,农兽药残留合格率100%,但6份不同来源的牛羊肝脏样本铅或镉残留量不符合食品中污染物限量要求,不符合率为3.7%。在肝脏联苯菊酯呈阳性的场点发现4批次饲草中存在低浓度联苯菊酯残留,牛羊饲草混合物中铜、铅、镉整体水平分别为5.40~8.30mg/kg、0.21~1.53mg/kg和低于0.074mg/kg。结论浙南山区肉用牛羊的肝脏中药物残留符合限量求,检出的联苯菊酯、铅、镉等与其饲草呈正相关。

超声造影检查对肝癌患者微波消融治疗后局部残余及复发的评估价值

目的探讨超声造影(CEUS)检查对肝癌患者微波消融(MWA)治疗后局部残余及复发的评估价值。方法选取86例行MWA治疗的肝癌患者,分别于术前、术后1个月进行CEUS检查,以临床综合诊断结果为金标准,分析CEUS检查对肝癌患者MWA治疗后局部残余的评估价值。术后随访1年,根据复发情况将患者分为复发组(n=27)和未复发组(n=59),比较两组患者的临床特征,采用Logistic回归模型分析肝癌患者MWA治疗后复发的影响因素。绘制受试者工作特征(ROC)曲线,计算曲线下面积(AUC),分析峰值强度(PI)、达峰时间(TTP)单独及联合检测对肝癌患者MWA治疗后复发的评估价值。结果临床综合诊断结果显示,117个病灶中,完全消融91个,局部残余26个;CEUS检查结果显示,完全消融87个,局部残余30个。CEUS检查评估肝癌患者MWA治疗后局部残余的灵敏度、特异度、准确度、阳性预测值、阴性预测值分别为84.62%、91.21%、89.74%、73.33%、95.40%。复发组中边界不清晰、形态不规则、肿瘤最大径>3 cm的患者比例及PI均高于未复发组,TTP、到达时间(AT)均短于未复发组,差异均有统计学意义(P<0.05)。多因素Logistic回归分析结果显示,肿瘤最大径>3 cm、PI升高均是肝癌患者MWA治疗后复发的独立危险因素(P<0.01),TTP升高是肝癌患者MWA治疗后复发的独立保护因素(P<0.01)。ROC曲线显示,PI、TTP联合检测评估肝癌患者MWA治疗后复发的AUC、灵敏度及特异度均高于二者单独检测。结论CEUS检查对肝癌患者MWA治疗后局部残余及复发具有较高的评估价值,值得临床推广应用。

牛肝中地塞米松残留检测技术研究综述

近些年,牛肝中地塞米松的抽检不合格现象时有发生,因而检测牛肝中地塞米松的残留具有重要意义。目前,检测牛肝中地塞米松残留最常用的方法是高效液相色谱-串联质谱法。本文综合评述了包括薄层色谱法、酶联免疫法、气相色谱-质谱法以及高效液相色谱法在内的多种地塞米松检测技术,并特别对高效液相色谱-串联质谱法进行了深入分析,以期为后续研究提供参考和借鉴。

超声声衰减成像定量参数联合RC/HDL-C诊断MAFLD肝脂肪变程度的效能及与脂代谢的相关性

目的探讨超声声衰减成像定量参数联合残余胆固醇/高密度脂蛋白胆固醇(residual cholesterol/high-density lipoprotein cholesterol,RC/HDL-C)诊断代谢相关脂肪性肝病(MAFLD)肝脂肪变程度的效能及与脂代谢的相关性。方法回顾性分析2021年1月至2023年12月于邯郸市人民医院接受检查的146例MAFLD患者的临床资料,根据MAFLD肝脂肪变程度分为轻度组、中度组、重度组,比较各组间声衰减系数(attenuation coefficient,AC)、RC/HDL-C水平,分析AC与RC/HDL-C的相关性,以及MAFLD肝脂肪变程度的影响因素,评估AC、RC/HDL-C对MAFLD肝脂肪变程度的诊断效能。结果146例MAFLD患者中,肝脂肪变轻度36例(24.66%)、中度58例(39.73%)、重度52例(35.62%)。轻度组、中度组、重度组患者的AC分别为(0.71±0.22)、(0.80±0.25)、(0.93±0.28)dB/(cm·MHz),RC/HDL-C分别为(0.18±0.04)、(0.22±0.05)、(0.23±0.07),差异有统计学意义(P<0.05)。AC(OR=3.677,95%CI:1.085~12.453)、RC/HDL-C(OR=4.133,95%CI:1.221~13.998)是MAFLD患者中重度肝脂肪变程度的危险因素(P<0.05)。AC、RC/HDL-C单一及联合诊断中重度肝脂肪变程度的灵敏度分别为0.61、0.68、0.77,特异度分别为0.87、0.79、0.87,曲线下面积分别为0.736、0.738、0.829。结论AC、RC/HDL-C可用于MAFLD肝脂肪变程度的辅助诊断,且诊断效能良好。

市售和试验猪肉内脏相关抗菌素和兴奋剂残留的检测研究

对随机抽取的市售猪肉、肝、肾相关抗生素残留的检测表明 ,背最长肌磺胺类总计有 2例超过最高残留限量 ,所检抗生素在肝脏中的残留量 (除土霉素外 )均超标 ,肾脏仅有 3个符合规定 。

气相色谱质谱法测定肝、肾和肉中11种β-受体激动剂残留量

对用气相色谱质谱法(GC/MS)同时测定肝、肾和肉中11种β受体激动剂残留的方法进行研究。样品经pH5.2的乙酸钠缓冲溶液提取,提取液经β盐酸葡萄糖醛苷酶芳基硫酸酯酶水解,用高氯酸沉淀蛋白质,经异丙醇乙酸乙酯(6∶4,体积比)液液分配,再经阳离子交换树酯(SCX)小柱净化后,用N,O双(三甲基硅基)三氟乙酰胺衍生化。用美托洛尔为内标,同时测定11种β受体激动剂。对肝、肾和肉样品进行添加回收实验,平均回收率为71%～94%,变异系数为4.6%～18.7%,最低检测限(LOQ)为0.002～0.000mg/kg。

动物肝组织中西维因残留的检测——HPLC法研究

以高效液相色谱 (HPL C)法建立了猪、羊、鸡肝组织中西维因残留量的检测方法。采用 ODS色谱柱 ,二极管阵列检测器 ,甲醇 /水 (6 5 / 35 )为流动相 ,2 2 2 nm检测波长下进行检测。西维因对照品溶液的最低检测限为 0 .1mg/ L,线性范围为 0 .1～ 2 0 mg/ L ,标准曲线回归方程为 :y=- 2 2 4 5 9.83+45 4 6 84 .31x,线性关系良好 (r=0 .9999)。样品以乙腈提取 ,并加入无水硫酸钠和正已烷 ,过滤后去除杂质 ,乙腈层在 4 5～ 5 0℃下水浴氮气吹干 ,残渣用甲醇溶解后 ,进样分析。平均回收率均大于 80 % ,日间和日内变异系数均小于 10 %。符合药物残留痕量分析要求。本方法简便 ,并有很好的选择性、重现性和灵敏度。

固相萃取-高效液相色谱法测定鸡肝中磺胺类药物残留量

建立了一种鸡肝中7种磺胺类药物残留量固相萃取-反相高效液相色谱分析方法.对样品提取后磺胺类药物在氨基键合固相萃取柱上的保留行为进行了研究.采用Intersil ODS-3 C18柱, 以甲醇-乙腈-水-乙酸为流动相梯度洗脱,进行高效液相色谱分离,二极管阵列检测器检测,外标法定量.7种磺胺类药物标准曲线的线性回归系数均在0.999以上,线性范围为25～10000 μg/L;检出限在8～12 μg/kg之间;在50、100、200 μg/kg 3个添加浓度水平下添加回收率在69.6%～91.3%范围内;相对标准偏差在4.3%～8.0%之间.该方法具有快速、灵敏、环保的特点,符合现行兽药残留分析的要求.

免疫亲和色谱-HPLC-FLD法测定动物肝脏中10种喹诺酮类药物残留

利用免疫亲和色谱净化技术建立了可同时检测动物肝脏组织中10种喹诺酮类药物(麻保沙星、环丙沙星、诺氟沙星、单诺沙星、洛美沙星、恩诺沙星、沙拉沙星、二氟沙星、恶喹酸和氟甲喹)的高效液相色谱检测方法。对利用喹诺酮抗体制备的免疫亲和色谱柱的性能、操作条件进行了考察和优化。抗体的偶联量为5g/L,其对10种喹诺酮药物的柱容量为3.75～6.67μmol/Lgel(1425～2135mg/Lgel),选用V(甲醇):V(PBS)=7:3作为洗脱溶液,连续使用12次后,QNs的柱容量仍能达到初始柱容量的38%～45%;IAC柱重复使用20次后,药物的回收率与样品的净化效果无明显变化。动物肝脏组织样品用PBS溶液提取,IAC柱净化,HPLC-FLD检测。方法的线性范围为0.15～200μg/L,相关系数大于0.9989,检出限为0.05～0.15μg/kg;10种喹诺酮类药物在动物肝脏的平均回收率为74.7%～94.8%,相对标准偏差为3.9%～12.1%。

RP-HPLC同时测定中华绒螯蟹肝脏中诺氟沙星、环丙沙星和恩诺沙星残留

应用反相高效液相色谱法（RP—HPLC）建立测定中华绒螯蟹（Eriocheir sinensis）肝脏中诺氟沙星（NOR）、环丙沙星（CIP）和恩诺沙星（ENR）残留量的方法。考察了3种喹诺酮类药物残留的分离与流动相组成、pH值及乙腈含量的关系，优化了色谱条件。中华绒螯蟹肝脏成分复杂，脂肪类化合物含量高，色素等干扰物质多，极易干扰目标物的检测。通过改进前处理过程，采用振荡萃取-浓缩-高速离心萃取的前处理技术，有效减少了干扰物质对检测结果的影响。结果表明，该方法线性关系和重复性良好，样品中3种喹诺酮类药物残留的回收率在73．26％～85．82％，最低检测限为10μg／k。用该方法对肌肉注射给药后72h内中华绒螯蟹肝脏组织进行检测，其体内主要代谢物环丙沙星和恩诺沙星都可以检测到，说明本方法能够满足中华绒螯蟹体内诺氟沙星、环丙沙星和恩诺沙星残留量检测的技术要求。