AIM: To compare the efficacy and safety of bronchial artery embolization (BAE) with n-butyl cyanoacrylate (NBCA) and gelatin sponge particles (GSPs). METHODS: Six healthy female swine were divided into two groups to b...AIM: To compare the efficacy and safety of bronchial artery embolization (BAE) with n-butyl cyanoacrylate (NBCA) and gelatin sponge particles (GSPs). METHODS: Six healthy female swine were divided into two groups to be treated with BAE using NBCA-lipiodol (NBCA-Lp) and using GSPs. The occlusive durability, the presence of embolic materials, the response of the vessel wall, and damage to the bronchial wall and pulmonary parenchyma were compared. RESULTS: No animals experienced any major complication. Two days later, no recanalization of the bronchial artery was observed in the NBCA-Lp group, while partial recanalization was seen in the GSP group. Embolic materials were not found in the pulmonary artery or pulmonary vein. NBCA-Lp was present as a bubble-like space in bronchial branch arteries of 127-1240 μm, and GSPs as reticular amorphous substance of 107-853 μm. These arteries were in the adventitia outside the bronchial cartilage but not in the fine vessels inside the bronchial cartilage. No damage to the bronchial wall and pulmonary parenchyma was found in either group. Red cell thrombus, stripping of endothelial cells, and infiltration of inflammatory cells was observed in vessels embolized with NBCA-Lp or GSP. CONCLUSION: NBCA embolization is more potent than GSP with regard to bronchial artery occlusion, and both materials were present in bronchial branch arteries≥100 μm diameter.展开更多
We report a case of an asymptomatic 36-year-old man with a bronchial artery aneurysm in the right hilum. Selective angiography revealed a 25mmsaccular aneurysm and an efferent artery of the aneurysm forming a high flo...We report a case of an asymptomatic 36-year-old man with a bronchial artery aneurysm in the right hilum. Selective angiography revealed a 25mmsaccular aneurysm and an efferent artery of the aneurysm forming a high flow bronchial artery-pulmonary artery fistula. Because of dilatation and tortuosity of the bronchial artery, the microcatheter could reach the efferent artery but not the fistula. Therefore, we embolized the fistula by sending microcoils through the bloodstream from the efferent artery to the fistula (the “flow-dependent” coil embolization technique), and further embolized the aneurysm by coil isolation and packing technique.展开更多
Purpose: To evaluate the role of multislice computed angiography of the bronchial arteries and nonbronchial systemic arteries in patients with hemoptysis when performed before arterial embolization procedure. Material...Purpose: To evaluate the role of multislice computed angiography of the bronchial arteries and nonbronchial systemic arteries in patients with hemoptysis when performed before arterial embolization procedure. Materials and Methods: Twenty-eight patients with hemoptysis underwent multislice CT angiography of the bronchial arteries with dual-source 64 × 2 detector row scanner before embolization. The transverse CT images as well as the multiplanar reconstructions, the maximum intensity projections and the three-dimensional CT images were used for the depiction of bronchial arteries (the total number of the bronchial arteries, the abnormal bronchial arteries, their origin at the aorta and the diameter of the ostium). The presence of nonbronchial systemic arteries regarded as causing hemoptysis was also evaluated. Digital angiography and selective arteriograms of abnormal bronchial and nonbronchial systemic arteries were performed based on the findings of multislice computed tomography (MDCT). Results: Seventy-eight (40 right and 38 left) bronchial arteries were detected at computed angiography (CTA). Forty of the seventy-eight bronchial arteries that were detected at CTA, were considered abnormal. On selective angiography 38 of these bronchial arteries were regarded as causing hemoptysis. Two of these arteries could not be selectively catheterized and therefore could not be evaluated. All 38 bronchial arteries regarded as causing hemoptysis at selective angiography were detected prospectively at CTA as abnormal. Four bronchial arteries that were found to be responsible for hemoptysis had diameter <2 mm. Twelve nonbronchial systemic arteries were considered to be abnormal on CTA scans. Ten of these twelve nonbronchial systemic arteries were regarded on selective angiography as causing hemoptysis. Two of these arteries were found normal on angiography. All 10 nonbronchial arteries regarded as causing hemoptysis were detected at CTA scans. All bronchial and nonbronchial arteries causing hemoptysis were successfully embolized. Conclusion: MDCT angiography allows detailed identification of abnormal bronchial and nonbronchial systemic arteries using a variety of reformatted images, providing a precise road map for the interventional radiologist.展开更多
Aim: Purpose of the study was to investigate the efficacy of empiric arterial embolization in order to achieve hemostasis in patients with massive hemoptysis. Materials and Methods: A retrospective review of histories...Aim: Purpose of the study was to investigate the efficacy of empiric arterial embolization in order to achieve hemostasis in patients with massive hemoptysis. Materials and Methods: A retrospective review of histories and interventional studies of 56 patients (40 male, 16 female, median age 57 years;range, 16 - 83 years) referred for endovascular treatment of massive hemoptysis over a period of 17 years. Arteries supposed to supply the bleeding bronchoalveolar sections were embolized with particles in all cases. Digital subtraction angiographical (DSA) studies were analyzed with respect to the morphology of the embolized arteries. Arteries were termed pathologic when they were either hypertrophic or supplied hypervascular lung sections as well as actively bleeding branches. Empiric embolization was defined as endovascular occlusion of arteries without visible contrast-material extravasation on DSA studies. Results: Continuing hemoptysis was encountered in one (25%) of 4 patients with active contrast extravasation and in 11 (21%) of 52 empirically embolized patients: Six (19%) of 32 patients with pathologic arteries visible on aortography, 3 (18%) of 17 with pathologic arteries visible by selective arteriography and 2 (67%) of 3 with no visible pathologic arteries. From 6 patients (11%, 5 male, 1 female) who died within 30 days after embolization, 3 suffered from tuberculosis while 3 had malignant tumors. Three had ongoing hemoptysis. One patient died of multiple organ failure caused by post-interventional paraplegia and consecutive pneumonia. Conclusion: In patients with hemoptysis, empirical embolization is effective when pathologic bronchial arteries can be identified by DSA.展开更多
文摘AIM: To compare the efficacy and safety of bronchial artery embolization (BAE) with n-butyl cyanoacrylate (NBCA) and gelatin sponge particles (GSPs). METHODS: Six healthy female swine were divided into two groups to be treated with BAE using NBCA-lipiodol (NBCA-Lp) and using GSPs. The occlusive durability, the presence of embolic materials, the response of the vessel wall, and damage to the bronchial wall and pulmonary parenchyma were compared. RESULTS: No animals experienced any major complication. Two days later, no recanalization of the bronchial artery was observed in the NBCA-Lp group, while partial recanalization was seen in the GSP group. Embolic materials were not found in the pulmonary artery or pulmonary vein. NBCA-Lp was present as a bubble-like space in bronchial branch arteries of 127-1240 μm, and GSPs as reticular amorphous substance of 107-853 μm. These arteries were in the adventitia outside the bronchial cartilage but not in the fine vessels inside the bronchial cartilage. No damage to the bronchial wall and pulmonary parenchyma was found in either group. Red cell thrombus, stripping of endothelial cells, and infiltration of inflammatory cells was observed in vessels embolized with NBCA-Lp or GSP. CONCLUSION: NBCA embolization is more potent than GSP with regard to bronchial artery occlusion, and both materials were present in bronchial branch arteries≥100 μm diameter.
文摘We report a case of an asymptomatic 36-year-old man with a bronchial artery aneurysm in the right hilum. Selective angiography revealed a 25mmsaccular aneurysm and an efferent artery of the aneurysm forming a high flow bronchial artery-pulmonary artery fistula. Because of dilatation and tortuosity of the bronchial artery, the microcatheter could reach the efferent artery but not the fistula. Therefore, we embolized the fistula by sending microcoils through the bloodstream from the efferent artery to the fistula (the “flow-dependent” coil embolization technique), and further embolized the aneurysm by coil isolation and packing technique.
文摘Purpose: To evaluate the role of multislice computed angiography of the bronchial arteries and nonbronchial systemic arteries in patients with hemoptysis when performed before arterial embolization procedure. Materials and Methods: Twenty-eight patients with hemoptysis underwent multislice CT angiography of the bronchial arteries with dual-source 64 × 2 detector row scanner before embolization. The transverse CT images as well as the multiplanar reconstructions, the maximum intensity projections and the three-dimensional CT images were used for the depiction of bronchial arteries (the total number of the bronchial arteries, the abnormal bronchial arteries, their origin at the aorta and the diameter of the ostium). The presence of nonbronchial systemic arteries regarded as causing hemoptysis was also evaluated. Digital angiography and selective arteriograms of abnormal bronchial and nonbronchial systemic arteries were performed based on the findings of multislice computed tomography (MDCT). Results: Seventy-eight (40 right and 38 left) bronchial arteries were detected at computed angiography (CTA). Forty of the seventy-eight bronchial arteries that were detected at CTA, were considered abnormal. On selective angiography 38 of these bronchial arteries were regarded as causing hemoptysis. Two of these arteries could not be selectively catheterized and therefore could not be evaluated. All 38 bronchial arteries regarded as causing hemoptysis at selective angiography were detected prospectively at CTA as abnormal. Four bronchial arteries that were found to be responsible for hemoptysis had diameter <2 mm. Twelve nonbronchial systemic arteries were considered to be abnormal on CTA scans. Ten of these twelve nonbronchial systemic arteries were regarded on selective angiography as causing hemoptysis. Two of these arteries were found normal on angiography. All 10 nonbronchial arteries regarded as causing hemoptysis were detected at CTA scans. All bronchial and nonbronchial arteries causing hemoptysis were successfully embolized. Conclusion: MDCT angiography allows detailed identification of abnormal bronchial and nonbronchial systemic arteries using a variety of reformatted images, providing a precise road map for the interventional radiologist.
文摘Aim: Purpose of the study was to investigate the efficacy of empiric arterial embolization in order to achieve hemostasis in patients with massive hemoptysis. Materials and Methods: A retrospective review of histories and interventional studies of 56 patients (40 male, 16 female, median age 57 years;range, 16 - 83 years) referred for endovascular treatment of massive hemoptysis over a period of 17 years. Arteries supposed to supply the bleeding bronchoalveolar sections were embolized with particles in all cases. Digital subtraction angiographical (DSA) studies were analyzed with respect to the morphology of the embolized arteries. Arteries were termed pathologic when they were either hypertrophic or supplied hypervascular lung sections as well as actively bleeding branches. Empiric embolization was defined as endovascular occlusion of arteries without visible contrast-material extravasation on DSA studies. Results: Continuing hemoptysis was encountered in one (25%) of 4 patients with active contrast extravasation and in 11 (21%) of 52 empirically embolized patients: Six (19%) of 32 patients with pathologic arteries visible on aortography, 3 (18%) of 17 with pathologic arteries visible by selective arteriography and 2 (67%) of 3 with no visible pathologic arteries. From 6 patients (11%, 5 male, 1 female) who died within 30 days after embolization, 3 suffered from tuberculosis while 3 had malignant tumors. Three had ongoing hemoptysis. One patient died of multiple organ failure caused by post-interventional paraplegia and consecutive pneumonia. Conclusion: In patients with hemoptysis, empirical embolization is effective when pathologic bronchial arteries can be identified by DSA.