We have located links that may give you full text access.
Interventional Treatment Strategy for Primary Budd-Chiari Syndrome with Both Inferior Vena Cava and Hepatic Vein Involvement: Patients from Two Centers in China.
Cardiovascular and Interventional Radiology 2019 June 20
OBJECTIVE: This retrospective study evaluated interventional treatments (recanalization, balloon dilation, and/or stent placement) for Budd-Chiari syndrome (BCS), caused by combined obstruction of the inferior vena cava (IVC) and hepatic veins (HVs).
METHODS: Before and after interventional therapy, patients with BCS (n = 162; asymptomatic 105.2 ± 103.3 mo; follow-up 15 [6-24] mo) underwent imaging studies (color Doppler ultrasound, CT, or MRI), and inferior vena cavography and manometry. Venous lesions were characterized by occlusion features, and presence of thrombosis and peripheral collateral vessels.
RESULTS: One, 2, and 3 main HV occlusions were observed, respectively, in 25 (15.4%), 61 (37.7%), and 76 (46.9%) patients. Eighty-three (51.2%), 98 (60.5%), and 104 (64.2%) patients had, respectively, large accessory HVs, venous collaterals formed between the HVs, or venous communicating branches between the HV and the peritoneal veins. The middle, left, and right HV was patent in 32 (19.8%), 35 (21.6%), and 44 (27.2%) patients. Recanalization of both hepatic and caval occlusions was successful in 96% (51/53) of those attempted; recanalization of IVC occlusion was successful in 97% (106/109). Among 157 patients successfully treated, 146 were cured and 11 showed clinical improvement. Clinical symptoms were relieved in 82.4% after the initial intervention, and 94.2% after the second intervention.
CONCLUSION: Recanalization and balloon angioplasty was effective for the management of BCS with concurrent HV and IVC occlusions. The majority of patients required only IVC recanalization. The outcome of patients treated only by IVC intervention was similar to that of patients given combined HV and IVC intervention.
METHODS: Before and after interventional therapy, patients with BCS (n = 162; asymptomatic 105.2 ± 103.3 mo; follow-up 15 [6-24] mo) underwent imaging studies (color Doppler ultrasound, CT, or MRI), and inferior vena cavography and manometry. Venous lesions were characterized by occlusion features, and presence of thrombosis and peripheral collateral vessels.
RESULTS: One, 2, and 3 main HV occlusions were observed, respectively, in 25 (15.4%), 61 (37.7%), and 76 (46.9%) patients. Eighty-three (51.2%), 98 (60.5%), and 104 (64.2%) patients had, respectively, large accessory HVs, venous collaterals formed between the HVs, or venous communicating branches between the HV and the peritoneal veins. The middle, left, and right HV was patent in 32 (19.8%), 35 (21.6%), and 44 (27.2%) patients. Recanalization of both hepatic and caval occlusions was successful in 96% (51/53) of those attempted; recanalization of IVC occlusion was successful in 97% (106/109). Among 157 patients successfully treated, 146 were cured and 11 showed clinical improvement. Clinical symptoms were relieved in 82.4% after the initial intervention, and 94.2% after the second intervention.
CONCLUSION: Recanalization and balloon angioplasty was effective for the management of BCS with concurrent HV and IVC occlusions. The majority of patients required only IVC recanalization. The outcome of patients treated only by IVC intervention was similar to that of patients given combined HV and IVC intervention.
Full text links
Related Resources
Get seemless 1-tap access through your institution/university
For the best experience, use the Read mobile app
All material on this website is protected by copyright, Copyright © 1994-2024 by WebMD LLC.
This website also contains material copyrighted by 3rd parties.
By using this service, you agree to our terms of use and privacy policy.
Your Privacy Choices
You can now claim free CME credits for this literature searchClaim now
Get seemless 1-tap access through your institution/university
For the best experience, use the Read mobile app