Purpose To evaluate the feasibility of cardiac magnetic resonance fractal analysis in evaluating left ventricular trabecular complexity in hypertrophic cardiomyopathy(HCM),and to study the degree of left ventricular trabecular complexity in HCM and the relationship between excessive trabecular complexity and cardiac function.Materials and Methods From August 2020 to December 2022,a total of 80 patients with HCM from the Second Affiliated Hospital of Nanchang University were retrospectively analyzed.Additionally,80 healthy volunteers were recruited as the control group.Left ventricular functional parameters and fractal dimension(FD)of left ventricular trabecular myocardium were measured.The differences of mean global FD,max basal FD and max apical FD were compared between the HCM group and the control group,the correlation between FDs and cardiac function parameters was evaluated.The diagnostic efficiency of mean global FD,max apical FD and max basal FD was analyzed via receiver operating characteristic curve.Results The mean global FD of HCM group was significantly higher than that of normal group,and the difference was statistically significant(1.303±0.047 vs.1.229±0.026;t=-12.387,P<0.001).Mean global FD showed the best performance in differentiating HCM from normal control group.The optimal cut-off value for the diagnosis of HCM was 1.251,with the area under curve of 0.933(95%CI 0.896-0.969).Mean global FD was positively correlated with maximum wall thickness and left ventricular mass index(r=0.686,0.687,P<0.001),and max apical FD was positively correlated with left ventricular ejection fraction(r=0.520,P<0.001).Conclusion The FD obtained by cardiac magnetic resonance fractal analysis technique is reproducible and has definite value in the diagnosis of HCM,with association with the structure and function of left heart.

Objective To observe the value of machine learning model for predicting the risk of dementia in patients with depression.Methods Totally 31 587 depression patients from UK Biobank database were retrospectively enrolled and divided into dementia group(n=896)or non-dementia group(n=30 691)based on follow-up data showed developed dementia or not,also divided into training set(n=18 952)or test set(n=12 635)at the ratio of 6:4.Based on interviews and questionnaire surveys,a total of 190 factors including demographic characteristics,lifestyle,health status,physical indicators and imaging data were included and screened to establish models with light gradient boosting machine(LightGBM),ridge regression(Ridge)and adaptive boosting(AdaBoost),and the value for predicting the risk of dementia in patients with depression was observed.Results A total of 10 factors were ultimately enrolled,including age,waist circumference,employment status,daytime rest,daytime doze or drowsiness,duration of mobile phone use,number of family members,duration of depression,guilt and seeking medical attention due to psychological issues.Based on the above factors,the models were established.In training set,the area under the curve(AUC)of LightGBM,Ridge and AdaBoost model for predicting dementia risk in patients with depression was 0.914,0.832 and 0.889,respectively,and the differences between each 2 models were significant(all P＜0.05);while in test set,the AUC was 0.866,0.842 and 0.859,respectively,except for LightGBM and AdaBoost,the other with significant differences between each two(both P＜0.05).The calibration curve showed that the LightGBM model had the best fit.Conclusion LightGBM machine learning model was helpful for predicting the risk of dementia in patients with depression.

With the development of cancer treatment,patient survival rates have substantially improved.But cancer therapies may come along with potential cardiotoxic effects resulting in cardiovascular disease with increased morbidity and mortality.Ultimately,patients may survive their malignancy but die as a result of cancer treatment.It is crucial that being able to identify cardiovascular damage early and develop strategies that may ameliorate the damage secondary.Cardiovascular magnetic resonance imaging can provide a"one-stop"assessment of cardiac architecture,cardiac function,myocardial tissue characteristics,and cardiac macrovascular hemodynamics,and it is useful in assessing cardiovascular injury,particularly early injury.The objective of this review is to review the application and progress of various cardiovascular magnetic resonance imaging methods in the evaluation of cancer treatment-related cardiovascular disease.

Digital subtraction angiography examination is a common reexamination method after intracranial aneurysm embolization,but it is poorly tolerated by patients.With the development of medical imaging technology,MRI examination is less affected by metal artifacts and has the advantages of non-radiation,non-invasive and high resolution.Zero echo magnetic resonance angiography and high resolution vessel wall imaging technology will have better clinical application value:it can not only better show the degree of vascular stenosis and the size of residual aneurysm,but also show the degree of vascular wall enhancement and prognosis.With the development of spectral CT,the application value of computed tomography angiography in the postoperative review of aneurysm has been further improved.This article mainly describes the application of different imaging techniques in postoperative reexamination of intracranial aneurysms.

Objective:To explore the clinical application of time of flight-magnetic resonance angiography (TOF-MRA), silent magnetic resonance angiography (SilenZ-MRA) and high-resolution vessel wall imaging (HR-VWI) in non-invasive evaluation of intracranial aneurysm after embolization.Methods:From February 2021 to February 2022, 39 patients, including 8 males and 31 females, who were 29-86 (54.50±11.80) years old and had received intracranial aneurysm embolization were collected in the Second Affiliated Hospital of Nanchang University. Kruskal-Wallis test was used to compare the image quality score and the evaluation results of lumen stenosis rate in the stent segments by TOF-MRA, SilenZ-MRA and HR-VWI. The diagnostic value of TOF-MRA, SilenZ-MRA and HR-VWI was analyzed by receiver operating characteristic (ROC) curve with DSA as the reference standard.Results:The image quality scores of TOF-MRA, SilenZ-MRA and HR-VWI were 2(1, 3), 4(3, 4) and 4(4, 4), respectively, with statistically significant difference ( H=80.78, P<0.05). The pairwise comparison results were as follows: TOF-MRA vs SilenZ-MRA, P<0.017; TOF-MRA vs HR-VWI, P<0.017; SilenZ-MRA vs HR-VWI, P>0.017. The lumen stenosis rates of stent segments measured by TOF-MRA, SilenZ-MRA, HR-VWI and DSA were 45.00% (29.60%, 61.05%), 17.60% (10.80%, 26.80%), 13.35% (8.90%, 15.95%) and 7.95% (4.80%, 11.25%), respectively, with statistically significant difference ( H=67.96, P<0.05). The results of comparison between TOF-MRA, SilenZ-MRA, HR-VWI and DSA were respectively as follows: TOF-MRA vs DSA, P<0.017; SilenZ-MRA vs DSA, P<0.017; HR-VWI vs DSA, P>0.017. DSA review showed that 12 (27.91%,12/43) aneurysms were not completely embolized, and 31 (72.09%, 31/43) aneurysms were completely embolized. The area under the curve of TOF-MRA, SilenZ-MRA and HR-VWI for evaluating the postoperative complete embolization of aneurysm was 0.75, 1.00 and 0.94, respectively, with statistically significant differences between TOF-MRA and HR-VWI ( Z=2.53, P<0.05) as well as between TOF-MRA and SilenZ-MRA ( Z=3.32, P<0.05). Conclusions:HR-VWI can clearly display the stent-segment lumen of the parent artery, and evaluate the stent-segment arterial wall and whether the stent-segment lumen is unobstructed or not. SilenZ-MRA is significantly superior to TOF-MRA in the evaluation of postoperative embolization status of aneurysms, and slightly superior to HR-VWI in tumor neck display. Combined application of HR-VWI and SilenZ-MRA has certain clinical significance for non-invasive evaluation of intracranial aneurysm after embolization.

Objective:To explore the technical feasibility of CT feature tracking (CT-FT) technique in evaluating left ventricular myocardial strain and evaluate the change of myocardial strain in patients with coronary heart disease.Methods:Eighty-one patients with coronary heart disease (lesion group) and 33 patients with normal coronary artery (control group) matched with age and sex were collected retrospectively from the Second Affiliated Hospital of Nanchang University from April 2019 to October 2020. The lesion group was first divided into single vessel stenosis group (42 cases) and multi vessel stenosis group (39 cases) according to the number of coronary artery stenosis branches, and the global myocardial strains of the left ventricle between the groups were analyzed. Lesion site included the left anterior descending branch (LAD), right coronary artery (RCA) and left circumflex branch (LCX), respectively. According to the degree of vascular stenosis, the lesion groups were divided into normal group, mild stenosis group, moderate stenosis group and severe stenosis group. The segmental myocardial strains of the branch segment of LAD, RCA or LCX were analyzed between groups. All CCTA examinations were performed with retrospective electrocardiogram gating. CVI 42 cardiac postprocessing software was used to obtain myocardial strain parameters, including global peak longitudinal strain (GPLS), global peak circumferential strain (GPCS), global peak radial strain (GPRS), and the segmental myocardial strains of the branch segment of LAD, RCA or LCX. The segmental myocardial strains included the peak longitudinal strain (PLS), peak circumferential strain (PCS) and peak radial strain (PRS). One way ANOVA or Kruskal Wallis H test were used for multi group analysis. Results:With the increased number of coronary artery stenosis branches, the absolute value of GPLS gradually decreased. The GPLS of the control group, single vessel stenosis group and multi vessel stenosis group were -14.1%±2.7%, -11.5%±2.3% and -8.8%±2.0%, respectively. The difference of GPLS between the 3 groups or any 2 groups was statistically significant (all P<0.001). The absolute values of GPRS and GPRS in multi vessel stenosis group were significantly lower than those in control group and single vessel stenosis group (all P<0.001). There was no significant difference in GPRS or GPRS between single vessel stenosis group and control group ( P=0.083, 0.118). And there were significant differences in the segmental myocardial strains of the branch segment of LAD, RCA or LCX among 3 groups ( P<0.001). In severe stenosis group, the absolute values of PRS, PCS and PLS in LAD, RCA or LCX were significantly lower than those in moderate stenosis group, mild stenosis group and normal group (all P<0.05). In the moderate stenosis group, the absolute value of PLS in each branch segment was lower than that of the mild stenosis and normal group (all P<0.05), and there was no significant difference in any 2 other myocardial strain parameters of each branch (all P>0.05). Conclusions:CT-FT technique was feasible to evaluate left ventricular myocardial function. With the increased number or degree of coronary artery stenosis, the global and segmental myocardial strain parameters of left ventricle gradually decreased, and the longitudinal strain was more sensitive.

Objective: To investigate the application value of cardiovascular magnetic resonance tissue-tracking (CMR-TT) in the quantitative assessment of global and segmental myocardial strain after myocardial infarction. Methods: From June 2013 to June 2017, 45 patients with chronic myocardial infarction from the Second Affiliated Hospital of Nanchang University and eighteen normal volunteers as a control group were included in our research. All participants received CMR examination on a 3.0 T MRI scanner. Imaging protocol including FIESTA cine sequence (left ventricle short-axis planes, four chamber and two chamber long-axis planes) and late gadolinium enhancement (LGE). CMR-TT was undertaken using cvi 42 dedicated commercial software, global peak systolic circumferential, longitudinal, radial strains (GPCS, GPLS, GPRS) and segmental peak systolic circumferential, longitudinal, radial strains (PCS, PLS, PRS) in accordance with the American Heart Association's sixteen segment model were all derived. All segments were divided into five groups according to transmural extent expressed as enhanced area per segment: 0% as non-LGE segments group, 1 %-25 % as mild LGE segments group, 26%-50 % as moderate LGE segments group, 51%-75% as severe LGE segments group and >75% as complete LGE segments group. Two-independent samples t-test and Kruskal-Wallis H test were used, respectively, to compare means of 2 and 3 or more groups of continuous variables. Variables with normal distribution were presented as ±s, non-normal variables were reported as median (interquartile range). Results: Patients showed significant lower GPRS, GPCS and GPLS than the control group (15.13%±8.18%, -8.25%±3.23%, -7.11%±2.41% versus 32.41%±12.99%, -14.92%±3.32%, -11.50%±2.51%). PRS, PCS and PLS statistically significantly decreased with increasing extent of myocardial enhancement (t=-6.35,7.33,6.44, P<0.001).Segmental peak systolic strains of five groups were:PRS:24.87% (10.95%,39.02%), 13.26%(5.94%,24.24)%, 9.47%(4.01%,18.40%), 5.98%(-3.74%,11.86%), -2.65%(-6.62%,8.59%), respectively; PCS: -11.84%±5.34%, -8.60%±5.48%, -7.32%±5.59%, -5.30%±5.52%, -2.74%±5.24%, respectively; PLS: -9.47%±6.82%, -7.72%±6.22%, -7.07%±6.49%, -5.55%±5.95%, -3.54%±5.44%, respectively. The differences in the groups were statistically significant (H=164.47,166.61, 59.06, P<0.001). GPRS was positively correlated with LVEF(r=0.543, P<0.001), while GPCS and GPLS were both negatively associated with LVEF (r=-0.654, P<0.001; r=-0.682, P<0.001, respectively). Conclusions CMR-TT can quantitatively assess the severity of myocardial infarction accurately and reliably.Strain parameters have a good correlation with cardiac function indexes, this may be helpful in the recognition of left ventricular remodel after MI.

Objective To explore clinical value of cardiac MRI feature tracking (CMR-FT) in evaluation of left ventricular global and regional myocardial strain in hypertrophic cardiomyopathy (HCM).Methods Totally 60 patients with HCM (HCM group) and 10 healthy volunteers (control group) were enrolled and underwent cardiac MR.MR Sequences included fast imaging employing steady state acquisition (FIESTA) and late gadalinum enhancement (LGE) at ventricular short-axis,two-chamber and four-chamber planes.The patients in HCM group were divided into LGE negative subgroup and LGE positive subgroup.CMR-FT processing software was used to measure myocardial global radial peak strain (GPSR),global circumferential peak strain (GPSC) and global longitudinal peak strain (GPSL).The radial,circumferential and longitudinal peak strain (PSR,PSC and PSL) at the apex,middle and basal parts of left ventricular were also measured as well.Resuits GPSR,GPSC,GPSL in LGE positive subgroup,LGE negative subgroup and control group had significant differences (all P＜0.05),and showed upward trends.Except PSL at the apex had no significent difference among three groups,PSR,PSC and PSL at the apex,middle and basal parts had significant differences (all P＜0.05),and also showed upward trends.There were positive correlations between the LVEF,SV and GPSR,GPSC,GPSL (all P＜0.05).The area under ROC curve of GPSR,GPSC and GPSL in diagnosis of HCM were 0.79,0.82,0.77 (all P＜0.05),and the area under ROC curve of GPSC was the largest.Conclusion The CMR-FT technology can find myocardial strain dysfunction in HCM sensitively,and the longitudinal strain is damaged earlier or worse than circumferential and radial strains.

Objective To evaluate the coronary microvascular dysfunction in patients with hypertrophic cardiomyopathy(HCM) by MR first-pass perfusion and late gadolinium enhancement. Methods From January 2011 to May 2015, 47 cases with HCM (HCM group) from the second affiliated hospital of Nanchang University were retrospectively analyzed. Additionally, 21 healthy volunteers were recruited as the control group. HCM group and control group underwent cardiac MR examinations at rest, including short axial cine, first-pass myocardial perfusion and late gadolinium enhancement scanning. Time to peak(tpeak), maximal upslope of time-intensity curve(Slopemax), peak signal intensity(SIpeak), myocardial thickening, and late myocardial gadolinium enhancement(LGE) were assessed for each myocardial segment. HCM group were divided into LGE segments group and non-LGE segments group. LGE segments group were divided into mild, moderate and severe LGE segments group. The SIpeak, Slopemax and tpeak in multiple groups were compared by one-way ANOVA and Kruskal-Wallis test. Spearman correlation tests were used to determine the relationships between perfusion parameter and LGE. Results The average values of tpeak in non-LGE segments group (527 segments), LGE segments group (225 segments) and control group (336 segments) were (67.0 ± 27.4), (79.4 ± 27.4), (59.7 ± 21.6)s, respectively. The average values of Slopemax in the three groups were 17.2±7.0, 16.4±7.4, 20.4±6.3, respectively. The average values of SIpeak in the three groups were 442.7 ± 143.2, 465.1 ± 138.4, 521.9 ± 146.7, respectively. Compared to the control group, tpeak increased and Slopemax, SIpeak decreased in non-LGE segments group and LGE segments group (P<0.01), while tpeak increased more significantly in LGE segments group. The Slopemax and SIpeak showed no statistically significant differences between non-LGE segments group and LGE segments group (P>0.05). There were significant differences among LGE segments groups, as the tpeak and SIpeak increased with increasing degrees of myocardial LGE (P<0.01). The Slopemax showed no statistically significant difference among them (P>0.05). The degree of LGE were positively correlated with tpeak (r=0.237, P<0.01). Conclusions 3.0 T magnetic resonance myocardial perfusion imaging can show microvascular dysfunction accurately and reliably in non-LGE segments. It may be helpful in the early diagnosis of coronary microvascular dysfunction for HCM.

Objective To study the correlation between the diffusion-weighted imaging (DWI) measurements and glomerular filtration rate (GFR), Katafuchi scores in IgA nephropathy. Methods Thirty-five patients with IgA nephropathy (IgAN group) and twenty healthy volunteers (control group) were enrolled in this study. All of the subjects underwent bilateral renal DWI measurements with 3.0T MRI scanner. The values of apparent diffusion coefficient (ADC) of renal cortex and medulla were measured. GFR of IgAN group was detected with 99Tcm-DTPA scintigraphy. Based on the Lee classification and the Katafuchi score system, the pathological grading was carried out in patients of IgAN group. The ADC values were compared between control group and different grades of IgAN group. The correlations between ADC and GFR values were analysed in defferent groups. The correlations between ADC values and Katafuchi scores were analysed in IgAN group. Results The renal cortical ADC values were significantly higher than medulla ADC values in both control group and IgAN group (P < 0.05). There were statistically significant differences in renal cortical ADC values and medulla ADC values between control group and IgAN subgroups (P<0.05). But there was no significant difference in renal cortical ADC value between IgANⅠgroup and control group (P>0.05). There was a positive correlation between the renal cortical and medulla ADC values and the GFR values in IgAN group (P<0.01). Negative correlation was found between the renal cortical and
medulla ADC values and the Katafuchi scores in IgAN group (P<0.05). Conclusion The diffusion-weighted imaging can reflect the physiological functions of kidney. It was feasible for application DWI in IgA nephropathy, which can be used for assessing the renal filtration function and the pathological damage. However, DWI measurement is not sensitive to early renal disease.