To evaluate left ventricular diastolic function in patients with coronary artery disease, gate radionuclide ventriculography was performed prospectively in 42 patients who were admitted to Seoul National University Hospital from November 1985 to August 1986 because of anterior chest pain. All patients had no valvular heart disease, congenital heart disease, cardiomyopathy and arrhythmia, and no abnormal vall motion in gated nuclide ventriculography and contrast left ventriculography. 25 patients with more than 50% of stenosis in coronary arteriography were compared with 17 control subjects without stenosis. The following results were obtained; 1) There were no significant differences between normal controls and patients with coronary artery disease in the analysis of the parameters of the left ventricular systolic function, such as ejection fraction (EF), peak ejection rate (PER), time to peak ejection rate (TPER) and ejection time (TES, TES/BCL). 2) Same results were found with those of the left vnetricular diastolic function, such as peak filling rate (PFR), diastolic time interval (DTI, DTI/BCL), rapid diastolic filling interval and time to late diastolic filling (TLDF). 3) The percent contribution of late diastolic filling to stroke volume (%LDF/SV) was more increased in patients with coronary artery disease than the normal control subjects (38.2+/-12.4% vs 28.3+/-7.8%, P<0.01). 4) As the results of above, it can be concluded that the percent contribution of late diastolic filling to stroke volume (%LDF/SV) obtained by using the non-invasive method of gated radionuclide ventriculography can be a sensitive parameter for early evaluation of the left ventricular diastolic dysfunction in coronary artery disease.
Angiography ; Arrhythmias, Cardiac ; Cardiomyopathies ; Chest Pain ; Constriction, Pathologic ; Coronary Artery Disease* ; Coronary Vessels* ; Gated Blood-Pool Imaging ; Heart Defects, Congenital ; Heart Valve Diseases ; Humans ; Prospective Studies ; Radionuclide Ventriculography ; Seoul ; Stroke Volume

Carbon dioxide (CO2) is a colorless, odorless gas which occurs naturally in the atmosphere and human body. With the advent of digital subtraction angiography, the gas has been used as a safe and useful alternative contrast agent in both arteriography and venography. Because of its lack of renal toxicity and allergic potential, CO2 is a preferred contrast agent in patients with renal failure or contrast allergy, and particularly in patients who require large volumes of contrast medium for complex endovascular procedures. Understanding of the unique physical properties of CO2 (high solubility, low viscosity, buoyancy, and compressibility) is essential in obtaining a successful CO2 angiogram and in guiding endovascular intervention. Unlike iodinated contrast material, CO2 displaces the blood and produces a negative contrast for digital subtraction imaging. Indications for use of CO2 as a contrast agent include: aortography and runoff, detection of bleeding, renal transplant arteriography, portal vein visualization with wedged hepatic venous injection, venography, arterial and venous interventions, and endovascular aneurysm repair. CO2 should not be used in the thoracic aorta, the coronary artery, and cerebral circulation. Exploitation of CO2 properties, avoidance of air contamination and facile catheterization technique are important to the safe and effective performance of CO2 angiography and CO2-guided endovascular intervention.
Aneurysm ; Angiography* ; Angiography, Digital Subtraction ; Aorta, Thoracic ; Aortography ; Atmosphere ; Carbon Dioxide* ; Carbon* ; Catheterization ; Catheters ; Coronary Vessels ; Endovascular Procedures ; Hemorrhage ; Human Body ; Humans ; Hypersensitivity ; Phlebography ; Portal Vein ; Renal Insufficiency ; Solubility ; Viscosity

BACKGROUND: In patients with myocardial infarction, one needs to know the location, extent and severity of wall motion abnormalities to assess prognosis and guide therapy. Thus more precise quantatative estimates of regional ventricular function are required. Regional wall motion has generally been assessed by displaying the multiple cardiac images of RVG as endless-loop movie, but the cinematic display was not objective. We used the usefulness of the phase analysis in evaluating the global left ventricular function and regional wall motion abnormalities of patients with myocardial infarction. The accuracy of the RVG cinematic display in detecting regional wall motion abnormalities in patients with myocardial infarction was also evaluated. METHODS: Studied cases were 97 patients with myocardial infarction and 20 normals with low likelihood of coronary artery disease. Coronary angiography and contrast left ventriculography were performed in all patients with myocardial infarction. The regional wall myocardial infarction(presence) is defined when the EKG presented the evidence of myocardial infarction, left ventriculogram showed RWMA(regional wall motion abnormality) along with stenosis of 50% or greater of the regional supplying coronary artery. Each patient was imaged in 45 left anterior oblique(LAO) view, anterior(Ant) view and left lateral(Lt Lat) view. We evaluated Left ventricular ejection fraction(LVEF) from time-activity curve. We constructed the histogram for the left ventricle and both ventricle separately to obtain the global and total phase angle(GPA, TPA), standard deviation of phase angle(GSDPh, TSDPh), full width half maximum(GFWHM, TFWHM). The left ventricle was divided into 7 segments. LAO projection ; septal, apical, basal lateral, apical lateral, Ant projection ; anterolateral, Lt Lat projection ; inferior, posterior, Phase angle(RPA) and full width half maximum(RFWHM) from the histogram (regional 7 segments) were examined. On the RVG cinematic display, the standard 4 grading system was used, normal, hypokinesia, akinesia, dyskinesia. The observer evaluated regional wall motion abnormality of the 7 segments for all cases. The sensitivity of the above parameters and RVG cinematic display was evaluated. We analyzed the regional parameters among the patents with regional wall myocardial infarction(presence), those without regional wall myocardial infarction(absence) and control group using the t-test. The statistical analysis was done by one way ANOVA between regional phase analysis and RVG cinematic display. RESULTS: The sensitivity of LVEF was lowest(70.1%) and the GFWHM was highest among the global parameters(89.1%). But RFWHM showed even higher sensitivity(96.9%), thus regional phase analysis was also required. The RVG cinematic display was also sensitive(92.7%), but less sensitive than the RFWHM. On regional phase analysis the RPA of septal, apical, inferior, posterior walls of the left ventricle was able to separate presence group from absence group and also presence group from control group and the RPA of the apical lateral wall could separate presence group from absence group. The RPA of basal lateral and anterolateral wall was inaccurate in diagnosing the regional wall myocardial infarction, because basal lateral wall was overlapped by adjacent vascular structures, and the area of anterolateral wall dose not correlate completely beteen the RVG & the left ventriculogram, also the anterolateral wall can be supplied by the obtuse marginal branch of left circumflex artery. The RFWHM of all regional walls of left ventricle could separate presence group from absence group and presence group from control group. We found good correlation between regional phase analysis & left ventriculogram for detection of regional wall myocardial infartion. On RVG cinematic display, the RPA of the normal group was different from that of dyskinesia, akinesia and hypokinesia groups. The RPA of the dyskinesia group was also different from that of skinesia and hypokinesia groups by oneway ANOVA(p<0.05). The RFWHM of the dskinesia group was different from that of the normal group and hypokinesia group. RVG cinematic display correlated well with regional phase analysis and also quantitation of wall motion. CONCLUSIONS: Thus RVG cinematic display was useful and can not be replaced by phase analysis. But the regional phase analysis was sensitive and objective in diagnosing the wall motion abnormality in myocardial infarction.
Ants ; Arteries ; Constriction, Pathologic ; Coronary Angiography ; Coronary Artery Disease ; Coronary Vessels ; Dyskinesias ; Electrocardiography ; Heart Ventricles ; Humans ; Hypokinesia ; Myocardial Infarction* ; Prognosis ; Radionuclide Ventriculography ; Ventricular Function ; Ventricular Function, Left

BACKGROUNDRegional ejection fraction (EF(R)) measured by real-time three-dimensional echocardiography (RT-3DE) provides a novel method for quantifying left-ventricular (LV) regional systolic function. We aimed to explore the diagnostic value of regional ejection fraction (EFR) derived from RT-3DE in detecting LV aneurysms in patients with myocardial infarction.

METHODSThirty-eight patients with myocardial infarction were prospectively enrolled and underwent electrocardiography (ECG), two-dimensional echocardiography (2-DE), RT-3DE and left ventriculography (LVG). Subjects with a negative EFR in at least one segment on RT-3DE were considered as having a ventricular aneurysm. We compared the sensitivity, specificity, Youden's index, and positive and negative predictive values of ECG, 2-DE and RT-3DE in determining LV aneurysm with detection by LVG.

RESULTSOn LVG an LV aneurysm was diagnosed in 16 (42.1%) patients. The sensitivity and specificity were 62.5% and 86.4% for ECG, 81.2% and 95.4% for 2-DE, and 100.0% and 90.9% for RT-3DE in diagnosing LV aneurysm. Youden's indexes for ECG, 2-DE and RT-3DE were 0.49, 0.77 and 0.91, respectively. Positive and negative predictive values were 76.9% and 76.0% for ECG, 92.9% and 87.5% for 2-DE, and 88.9% and 100.0% for RT-3DE.

CONCLUSIONSRT-3DE-derived EFR provides a novel, reliable index in the diagnosis of LV aneurysm and has excellent sensitivity and specificity.

Adult ; Aged ; Coronary Angiography ; methods ; Echocardiography, Three-Dimensional ; methods ; Female ; Heart Aneurysm ; diagnosis ; Humans ; Male ; Middle Aged ; Prospective Studies ; Radionuclide Ventriculography ; methods ; Stroke Volume ; physiology

OBJECTIVE: The spot sign on computed tomography angiography is little known about the relationship between the spot sign and the results of cerebral angiography We retrospectively analyzed the spot sign, digital subtraction angiography results, and other factors.MATERIAL AND METHODS: From December 2009 to May 2014, DSA was performed in 52 ICH patients with non-specific location or abnormalities on CTA findings. 26 of those patients, whose initial CTA showed the spot sign, were analyzed. Two groups, one with the spot sign in the ventricle (Group A) and others with the spot sign in another location (Group B) were statistically compared.RESULTS: The mean age of the study subjects was 46.9 years (range, 15 to 80 years) and the percentage of males was 53.8%. Thirteen of 26 patients had ICH without intraventricular hemorrhage, and 6 patients had co-existing IVH. In 17 cases, the DSA results were negative. Seven patients were diagnosed with pseudoaneurysms, and two cases showed developmental venous anomalies. Group A consisted of the 8 patients (30.8%) who showed the spot sign in a ventricle. The number of pseudoaneurysms was statistically significantly higher in Group A than in Group B (71.4% versus 28.6%; OR, 13.3; 95% CI, 1.7-103.8 P = 0.014). All three patients who underwent endovascular treatment were members of Group A (P = 0.022), whereas most (92.3%) of those in Group B underwent surgical evacuation. (P = 0.030).CONCLUSION: When CTA shows the spot sign in a ventricle, it is a clue that an existing underlying vascular lesion requires endovascular treatment.
Aneurysm, False ; Angiography ; Angiography, Digital Subtraction ; Cerebral Angiography ; Cerebral Hemorrhage ; Hemorrhage ; Humans ; Male ; Retrospective Studies

Background: Contrast-induced nephropathy (CIN) is a complication that occurs in patients undergoing an imaging procedure with intravenous injection of contrast media, most notably iodinated dyes. Fluorescein angiography is a diagnostic procedure performed by ophthalmologists to determine abnormalities in retinal blood vessels. It uses sodium fluorescein, an organic dye, to capture and visualize these blood vessels. There have been conflicting data and practices on how to approach the procedure especially in patients with renal insufficiency. Objective: To determine the risk of CIN among patients undergoing fluorescein angiography. Methods: We searched PubMed, HerdIn, Cochrane Library, and Google Scholar, for published articles on the topic. Other sources were searched for unpublished data or ongoing clinical trials. All research articles pertaining to fluorescein angiography and its effect on renal function with serum creatinine monitoring were included. Two independent authors separately screened records, assessed full texts, and extracted data. We used RevMan computer software to analyze data from the included studies. The primary outcome was the risk of CIN among patients undergoing fluorescein angiography based on the differences on serum creatinine levels and estimated glomerular filtration rates pre- and post-angiography, while the secondary outcome included risk factors for CIN. Results: A total of 6 studies were included in the meta-analysis. Four studies had poor quality as assessed using the Newcastle-Ottawa Scale. One study was deemed to have good quality. Data analysis showed that hemoglobin (p = 0.002) and albumin (p < 0.001) levels may be associated with CIN using sodium fluorescein but were not independent risk factors for CIN (multivariable logistic regression, p = 0.648 and p = 0.069, respectively); while sex, diabetes mellitus and chronic kidney disease were not significantly associated. As a primary outcome, only 6.8% of included patients had CIN with serum creatinine levels post-exposure showed significant differences from baseline values (mean difference 0.05; 95% CI 0.02, 0.07; I2 = 49%), but translating it to eGFR yielded non-significant differences (mean difference -0.37; 95% CI -2.33, 1.59; I2 = 0%). Conclusion Among patients undergoing fluorescein angiography, sodium fluorescein does not pose an increased risk for CIN.
fluorescein angiography ; renal function

OBJECTIVE: Different angiographic protocols may influence the radiation dose and image quality. In this study, we aimed to investigate the effects of filtration and focal spot size on radiation dose and image quality for diagnostic cerebral angiography using an in-vitro model and in-vivo patient groups. MATERIALS AND METHODS: Radiation dose and image quality were analyzed by varying the filtration and focal spot size on digital subtraction angiography exposure protocols (1, inherent filtration + large focus; 2, inherent + small; 3, copper + large; 4, copper + small). For the in-vitro analysis, a phantom was used for comparison of radiation dose. For the in-vivo analysis, bilateral paired injections, and patient cohort groups were compared for radiation dose and image quality. Image quality analysis was performed in terms of contrast, sharpness, noise, and overall quality. RESULTS: In the in-vitro analysis, the mean air kerma (AK) and dose area product (DAP)/frame were significantly lower with added copper filtration (protocols 3 and 4). In the in-vivo bilateral paired injections, AK and DAP/frame were significantly lower with filtration, without significant difference in image quality. The patient cohort groups with added filtration (protocols 3 and 4) showed significant reduction of total AK and DAP/patient without compromise to the image quality. Variations in focal spot size showed no significant differences in radiation dose and image quality. CONCLUSION: Addition of filtration for angiographic exposure studies can result in significant total radiation dose reduction without loss of image quality. Focal spot size does not influence radiation dose and image quality. The routine angiographic protocol should be judiciously investigated and implemented.
Angiography, Digital Subtraction ; Cerebral Angiography* ; Cohort Studies ; Copper ; Filtration* ; Humans ; Noise ; Radiation Exposure

OBJECTIVE: Computed tomography angiography (CTA) has recently been used for detecting cerebral aneurysm because of the accuracy of the images and the large supply of high-resolution CT scanners, and there is no need to perform cerebral digital subtraction angiography (DSA) when performing CTA. In contrast with DSA, CTA is unable to show the realtime cerebral blood flow. The aim of the present study is to find an appropriate aneurysm clipping method to reduce the risk during operation, and we did this by comparing the performance of CTA for detecting ruptured cerebral aneurysm with that of DSA. METHODS: We performed a systemic review of patients suffering from ruptured anterior communicating artery aneurysm. We report here on the results obtained from November 2002 to March 2006. We reviewed a total of 37 patients who had undergone both CTA and DSA before surgery. RESULTS: With performing CTA, 15 patients (40.5%) were observed to have the same thickness of both sides of the A1 (group A); there were 2 patients with right dominance (group B), and 20 patients with left dominance (group C). The total numbers of patients with an anomalous artery was 3 (12.5%). Two of them were in Group A and one of them was in Group B. Two of them (one in Group A and the other in Group B) were accessory A2 patients and the other was an azygous A2 patient. Also, there was no difference between CTA and DSA for the patients with an abnormal artery. CONCLUSION: In the case of observing a severe hypoplastic A1 or an anomalous artery in the patients with anterior communicating artery aneurysm seen on the CTA, it is expected that checking the accurate structure and status of their aneurysm and the surrounding artery through performing DSA and also checking the contralateral carotid artery compression may help prepare the strategy for the operation and reduce the risk during operation.
Aneurysm ; Angiography* ; Angiography, Digital Subtraction* ; Anterior Cerebral Artery ; Arteries* ; Carotid Arteries ; Humans ; Intracranial Aneurysm

In recent years, in the absence of venous component, dilated, overlapping, and tortuous arteries forming a mass of arterial loops with a coil-like appearance have been defined as pure arterial malformation (PAM). It is extremely rare, and its etiology and treatment have not yet been fully elucidated. Here, we reported 2 cases of PAM with associated aneurysmal subarachnoid hemorrhage in this paper. Both patients had severe headache as the first symptom. Subarachnoid hemorrhage was found by CT and computed tomography angiography (CTA) and PAM with associated aneurysm was found by digital subtraction angiography (DSA). In view of the distribution of blood and the location of aneurysms, the aneurysm rupture was the most likely to be considered. Based on the involvement of the lesion in the distal blood supply, only the aneurysm was clamped during the operation. It used to be consider that PAM is safety, because of the presentation and natural history of previously reported cases. Through the cases we reported, we have doubted about "the benign natural history" and discussed its treatment. PAM can promote the formation of aneurysms and should be reviewed regularly. The surgical indications for PAM patients with aneurysm formation need to be further clarified. Management of PAM patients with ruptured aneurysm is the same as that of ruptured aneurysm. Whether there are indications needed to treat simple arterial malformations remains to be further elucidated with the multicenter, randomized controlled studies on this disease.
Aneurysm, Ruptured/surgery* ; Angiography, Digital Subtraction ; Cerebral Angiography ; Humans ; Intracranial Aneurysm/surgery* ; Subarachnoid Hemorrhage/etiology*

Artificial chorioretinal inflammation was produced by the application of the cryothermy, diathermy, or photocoagulation in man. The inflammatory reactions were followed-up by fluorescein angiography. Inflammatory lesion showed fluorescein leakage and pooling at the first postoperative day Cessation of leakage was seen niter the 10th postoperative dey regardless of method of inflammation production. Pigment stippling was seen at about 4-5 days after moderate to heavy cryo-application, but about 11-12 days after moderate intensity of photocoagulation and diathermy.
Diathermy ; Fluorescein Angiography ; Fluorescein* ; Inflammation* ; Light Coagulation