Objective To summarize the methods and applications for quantitative measurement of iron in human.Methods The methods and applications for quantitative measurement of iron in human were analyzed retrospectively via reviewing the literatures domesticly and abroad, and summarized the advantages and disadvantages respectively. Results The methods for quantitative measurement of iron included laboratory tests, pathology examinations, CT, superconducting quantum interference device investigation (SQUID), and MRI. Conclusions Laboratory test is the most simple and economic method for quantitative measurement of iron in human. Percutaneous liver biopsy is the gold standardmethod. Radiologic examinations, especially MRI, may be main methods of measuring liver iron content in future.
【摘要】 目的 通过观察单肺通气患者术中氧合指数(oxygenation index,OI)、呼吸指数(respiratory index,RI)及动态肺顺应性(dynamic lung compliance,Cdyn)的变化,探讨高渗氯化钠溶液对术中单肺通气患者的肺保护作用。 方法 选择2009年12月-2011年2月完成的美国麻醉师协会分级为Ⅰ~Ⅲ级,心肺功能筛查、血常规、肝肾功能及凝血功能无明显异常,拟在全麻双腔气管插管下行开胸手术,术中需行单肺通气患者60例,随机分为高渗氯化钠组(A组)和对照组(B组),每组30例。A组在开始单肺通气后30 min快速输注7.5%高渗氯化钠溶液2 mL/kg,15 min内输注完毕,B组输注等量生理盐水,分别记录输注前(T1)、输注完毕时(T2)、输注后30 min(T3)、输注后1 h(T4)的OI、RI及Cdyn变化,并比较两组各时间点生命体征变化。 结果 两组患者OI、RI及Cdyn在T1、T2时差异无统计学意义(Pgt;0.05);两组患者不同时间点平均动脉压、心率、脉搏血氧饱和度、中心静脉压、呼气末CO2分压比较差异无统计学意义(Pgt;0.05);A组患者在T3、T4时的OI和Cdyn较B组明显升高,RI明显降低(Plt;0.05);且A组患者在T3、T4时的OI和Cdyn较T1时明显增高,RI明显降低(Plt;0.05)。 结论 高渗氯化钠溶液能改善术中单肺通气患者的OI、RI及Cdyn,对肺功能有一定的保护作用。【Abstract】 Objective To observe the oxygenation index (OI), respiratory index (RI) and dynamic lung compliance (Cdyn) changes of the patients with one-lung ventilation, in order to determine if hypertonic saline has lung protective effects. Methods Sixty ASA Ⅰ-Ⅲ patients who needed one-lung ventilation during thoracotomy under general anesthesia with double-lunmen endotracheal tubes were chosen to be the study subjects. No obvious abnormalities were detected by cardiopulmonary function screening, blood test, hepatorenal function and blood coagulation examinations in these patients. They were randomly divided into hypertonic saline group (group A) and control group (group B) with 30 patients in each group. For patients in group A, 30 minutes after one-lung ventilation, infusion of 7.5% hypertonic saline solution at 2 mL/kg was carried out and completed in 15 minutes. For patients in group B, the same amount of saline solution was infused. We recorded OI, RI and Cdyn changes before the infusion (T1), on the completion of the infusion (T2), 30 minutes after the infusion (T3), and 1 hour after the infusion (T4). The changes of vital signs in patients of the two groups were compared. Results OI, RI and Cdyn were not significant different between the two groups at T1 and T2 (Pgt;0.05). Mean arterial pressure (MAP), heart rate (HR), SpO2, central venous pressure (CVP), and PetCO2 were not significant different between the two groups at all time points (Pgt;0.05). OI and Cdyn of group A patients were significantly higher than those of group B, while RI was significantly lower at T3 and T4 (Plt;0.05). Cdyn and OI of group A patients at T3 and T4 were significantly higher when compared with T1, and RI was significantly lower (Plt;0.05). Conclusion Hypertonic saline has the lung protection effect in patients with one-lung ventilation by improving OI, RI and Cdyn.
ObjectiveTo investigate the diagnostic value of spectral saturation inversion recovery, gradient-echo chemical shift MRI, and proton magnetic resonance spectroscopy in quantifying hepatic fat content. MethodsConventional T1-weighted and T2-weighted scanning (without fat saturation and with fat saturation), gradient-echo T1W in-phase (IP) and opposedphase (OP) images and 1H-MRS were performed in 31 healthy volunteers and 22 patients who were candidates for liver surgery. Signal intensities of T1WI amp; T1WIFS (SInonfat1, SIfat1), T2WI amp; T2WI-FS (SInonfat2, SIfat2), and IP amp; OP (SIin, SIout) were measured respectively, the relative signal intensity one (RSI1), relative signal intensity two (RSI2), and fat index (FI) were calculated. Peak values and the area under peak of 1H-MRS were measured, and the relative lipid content of liver cells (RLC ) were calculated. Twenty-two patients accepted liver resection and histological examination after MRI scanning, the proportion of fatty degenerative cells were calculated by image analysis software. Results①Hepatic steatosis group showed higher average values of RSI1, FI, and RLC to non-hepatic steatosis group (Plt;0.05), while there was no significant difference in RSI2 between two groups (Pgt;0.05). ②There was a statistical significant difference in RLC among different histopathological grades of hepatic steatosis, and RLC increased in parallel with histopathological grade (Plt;0.05).There was no significant difference in RSI2, RSI1, and FI among different histopathological grades, although the latter two had a tendency of increasing concomitant with histopathological grade (Pgt;0.05). ③The values of FI and RLC were positively correlated with the PFDC (r=0468, P=0.027; r=0771, Plt;0.000 1), while they were not in RSI1 and RSI2 (r=0.411, P=0.057; r=0.191, P=0.392). ConclusionsSPIR, Gradient-echo chemical shift MRI and 1H-MRS can help to differentiate patients with hepatic steatosis from normal persons, the latter also can help to classify hepatic steatosis. In quantifying hepatic fat content, 1H-MRS is superior to gradient-echo chemical shift MRI, while SPIR’s role is limited.
Objective To determine feasibility of texture analysis of non-enhanced CT scan for differential diagnosis of liver cancer and hepatic hemangioma. Methods Fifty-six patients with liver cancer or hepatic hemangioma confirmed by pathology were enrolled in this retrospective study. After exclusion of images of 4 patients with artifacts and lesion diameter less than 1.0 cm, images of 52 patients (57 lesions) were available to further analyze. Texture features derived from the gray-level histogram, co-occurrence and run-length matrix, absolute gradient, autoregressive model, and wavelet transform were calculated. Fisher, probability of classification error and average correlation (POE+ACC), and mutual information coefficients (MI) were used to extract 10 optimized texture features. The texture characteristics were analyzed by using linear discriminant analysis (LDA) and nonlinear discriminant analysis (NDA) provided by B11 module in the Mazda software, the minimum error probability of differential diagnosis of liver cancer and hepatic hemangioma was calculated. Most discriminating features (MDF) of LDA was applied to K nearest neighbor classification (KNN); NDA to extract the data used in artificial neural network (ANN) for differential diagnosis. Results The NDA/ANN-POE+ACC was the best for identifying liver cancer and hepatic hemangioma, and the minimum error probability was the lowest as compared with the LDA/KNN-Fisher, LDA/KNN-POE+ACC, LDA/KNN-MI, NDA/ANN-Fisher, and NDA/ANN-MI respectively, the differences were statistically significant (χ2=4.56, 4.26, 3.14, 3.14, 3.33;P=0.020, 0.018, 0.026, 0.026, 0.022). Conclusions The minimum error probability is low for different texture feature selection methods and different analysis methods of Mazda texture analysis software in identifying liver cancer and hepatic hemangioma, and NDA/ANN-POE+ACC method is best. So it is feasible to use texture analysis of non-enhanced CT images to identify liver cancer and hepatic hemangioma.
Objective To summarize the research progress of magnetic resonance quantitative technique in the iron overload of the abdominal parenchyma organ. Methods By reviewing the related literatures domesticly and abroad, the present status and progress of abdominal magnetic resonance quantitative technique and other examinations in the study of iron overload were analyzed. Results MRI multi-sequence examination technique had changed the research model of iron overload in different organs, and had important clinical significance in imaging diagnosis of abdominal parenchyma organ damage. so far, many techniques of MRI had been used in detection of iron overload, which included signal intensity measurements(including signal intensity ratio and signal intensity difference of positive and negative phases), T2/R2 measurements, T2*/R2* measurements, Dixon and its derivatization, ultrashort echo time technique and susceptibility weighted imaging (including conventional susceptibility weighted imaging and quantitative magnetic sensitive imaging). Conclusion Magnetic resonance quantitative examination technique is expected to be the first choice for detection of hepatic iron overload, and can improve the early detection rate of iron overload pancreatic damage.
Hepatoid adenocarcinoma is a rare extrahepatic malignant tumor with pathological characteristics similar to hepatocellular carcinoma. It is more common in the gastrointestinal tract and patients often have a history of hepatitis and elevated serum alpha fetoprotein (AFP). In clinical practice, patients may seek medical treatment due to liver lesions or elevated AFP, while primary gastrointestinal lesions are easily ignored. The author presents imaging findings of two patients who were diagnosed with hepatoid adenocarcinoma of stomach (HAS) due to elevated AFP in our hospital. By summarizing their clinical imaging characteristics and sorting out various clinical conditions that may cause elevated serum AFP, in order to improve the recognition and differential diagnosis of HAS.
Objective To investigate the imaging features of idiopathic hepatic arteriovenous malformation(IHAVM) on multi-detector row spiral CT (MDCT) and magnetic resonance imaging (MRI). Methods Nineteen patients with IHAVM between January 2009 and June 2010 were included for retrospective analysis of the imaging findings on MDCT (n=9) and MRI (n=10), especially the imaging features of IHAVM on contrast-enhanced dynamic scans. Results All IHAVM lesions in 9 patients were isodense in plain scan of MDCT, and showed marked small nodular or linear enhancement with similar intensity to vascular enhancement in arterial phase, and the enhancement continued to persist to portal phase but with reduced enhancement degree. Early visualization of venous tributaries in arterial phase was present in 4 cases, and wedge-shaped or lamellar transient hepatic parenchyma enhancement in arterial phase in the edge of the lesion was observed in 6 cases. In 10 patients with MRI scan, the enhancement patterns of IHAVM were quite similar to the findings on MDCT, with early visualization of venous tributaries in arterial phase in 5 cases and wedge-shaped transient hepatic parenchyma enhancement in arterial phase in the edge of the IHAVM lesion in 7 cases. Conclusion Contrast-enhanced multi-phase MDCT and MRI scans can depict the morphologic and hemodynamic characteristics of IHAVM, thus they are very valuable for the diagnosis of IHAVM.
Objective To investigate the imaging features of Budd-Chiari syndrome (BCS) on 64 slice spiral computed tomography (64SCT) and the diagnostic value of 64SCT for BCS. Methods Twenty-nine patients diagnosed as BCS by 64SCT were retrospectively included into this study and all the patients were researched by digital substraction angiography (DSA). Two abdominal radiologists analyzed the CT imaging features of BCS, paying attention to the vascular lesion, the morphology abnormality of the liver and the degree of portal hypertension, with review of DSA findings. Results ①The accuracy of 64SCT for BCS was 93.1% (27/29), and there were 2 false positive cases and no false negative case. The accuracy of 64SCT for those patients with thrombosis of inferior vena cava (IVC) and (or) hepatic vein (HV) was high as compared to those with stenosis of IVC and (or) HV. ②The morphology abnormality of the liver included hepatomegaly (24 cases), low attenuation (27 cases) and inhomogeneous pattern of parenchymal contrast enhancement (5 patients in arterial phase and 19 patients in portal vein phase). ③The images of all the patients showed the features of portal hypertension. Conclusion The accuracy of 64SCT for BCS is satisfactory and the false negative is seldom. The 64SCT could accurately display the morphology abnormality of the liver and the compensatory circulation in BCS patients. For those patients with stenosis of IVC and (or) HV, however, the diagnostic power of 64SCT is limited.
ObjectiveTo investigate the feasibility of proton magnetic resonance spectroscopy (1H-MRS) imaging, by which to quantitatively analyze liver fat content for therapeutic evaluation of fatty liver at 3.0 T MRI. MethodsTwenty-six patients who diagnosed with fatty liver were examined with proton MRS at Siemens Trio Tim 3.0 T MRI before treatment and 3, 6 months after treatment, respectively. The water peak, fat peak, water peak area, and fat peak area were detected, and the relative lipid content 1 (RLC1) and relative lipid content 2 (RLC2)were calculated. Fatty liver index (FLI) was referred to the standard which was calculated from triglycerides (TG), gammaglutamyl-transferase (GGT), waist circumference, and body mass index. ResultsThere were significantly different differences of RLC1 and RLC2 among before treatment and 3, 6 months after treatment (Plt;0.05). Compared with before treatment, the RLC1 and RLC2 values significantly decreased on month 3 or 6 after treatment (Plt;0.05). There were positive correlation between RLC1 or RLC2 and FLI (r=0.476, Plt;0.00; r=0.475, Plt;0.001). The intraclass correlation coefficient was more than 0.75 before treatment, the repeatability was better. ConclusionsProton MRS can quantitatively measure liver fat content. It can be reliably used for dynamic monitoring the therapeutic effects for fatty liver. Proton MRS is accurate, and has a good clinical application in dynamically monitoring the progression of fatty liver and evaluating the therapeutic effects of various treatments.
Objective To investigate the diagnostic value of proton magnetic resonance spectroscopy (1 H-MRS) on the quantification of hepatic steatosis at 3.0 T MR united.Methods Twenty-two patients who were candidated for liver surgery (living liver transplantation donor candidates, lobectomy or segmental resection for focal liver diseases, etc.) were enrolled in this study. 1 H-MRS was conducted with point resolved selective spectroscopy (PRESS) sequence, using SAGE software packages. The values of water peak (PW), lipid peak (PL) were measured, the area under water peak (AW) and lipid peak (AL), and then the relative lipid content of liver cells (RLC1, RLC2) was calculated. All subjects underwent surgical resection of liver shortly after MR scanning, fresh frozen specimens were obtained for Sudan Ⅲ staining, and staging was conducted.Results In all 22 patients, 7 patients without fatty liver, 11 patients with mild fatty liver, 4 patients with moderate or severe fatty liver. Intercomparison between different histopathological grades showed following findings: the values of PL, AL, RLC1 and RLC2 had statistical significance (Plt;0.05). The values of PL, AL, RLC1 and RLC2 were positively correlated with the proportion of fatty degenerative cells (PFDC), Plt;0.05, and the highest correlation factor was 0.771 (RLC1 to the PFDC).Conclusion 1 H-MRS can accurately quantify liver fat content and reflect the severity of hepatic steatosis. It has the potential to replace invasive liver biopsy.