1.Surgical Removal of the Inferior Vena Cava Filter Using Minimal Cavotomy: A Case Report
Kyung Yun KIM ; Seung Jae BYUN ; Byung Jun SO
Vascular Specialist International 2019;35(1):48-51
The use of retrievable inferior vena cava (IVC) filters has markedly increased in the recent years. However, the failure rate for the retrieval of the IVC filters using the endovascular method is reported to be up to 19%. Open surgical removal of the IVC filters is technically challenging and may require longitudinal cavotomy, clamping, and repair of the IVC. Here, we present a case of successful open surgical removal of the IVC filter using minimal cavotomy. This technique is an effective method after a failed endovascular removal attempt.
Constriction
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Methods
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Vena Cava Filters
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Vena Cava, Inferior
2.Effect of different structural parameters of filter rod on mechanical properties of new vena cava filter.
Budan ZHOU ; Haiquan FENG ; Yonggang WANG ; Xiaotian WANG
Journal of Biomedical Engineering 2020;37(4):622-629
The dynamic analysis of the implantation process of a new vena cava filter was carried out by finite element analysis method to reveal the influence of the angle, length, width and thickness of the filter rod on its mechanical properties and the inner wall of the blood vessel. The results showed that the high-stress and high-strain areas of the filter were mainly concentrated in the connection between the filter rod and the filter wire. With the increase of the angle of the filter rod, the maximum equivalent stress and the maximum elastic strain on the filter wall decreased, while the maximum equivalent stress on the vascular wall increased. With the increase of the length of the filter rod, the maximum equivalent stress and strain peak of the filter wall increased, but the maximum equivalent stress of the vessel wall decreased. With the increase of the width and thickness of the filter rod, the maximum equivalent stress of the filter wall, the maximum elastic strain and the maximum equivalent stress of the vessel wall all showed an upward trend. The static safety factor of all filter models was greater than 1, and the structure after implantation was safe and reliable. The results of this study are expected to provide a theoretical basis for the structural optimization and deformation mechanism of the new type vena cava filter.
Finite Element Analysis
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Vena Cava Filters
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Vena Cava, Inferior
3.Effect analysis of the modified wire-loop snare technique in retrieving severely tilted inferior vena cava filters.
Hong YANG ; Wei Ning GE ; Jing Tao ZHANG ; Kong Juan ZHU ; Li Yuan NIU ; Hao Fu WANG ; Yue Wei WANG
Chinese Journal of Surgery 2022;60(12):1063-1068
Objective: To examine the application effect of the modified wire-loop snare technique in retrieving severely tilted inferior vena cava filters (IVCF). Methods: The clinical data of 18 patients (12 males and 6 females, aged (62.1±13.1) years (range: 29 to 78 years)) who underwent the modified wire-loop snare technique to retrieve IVCF at the Affiliated Hospital of Qingdao University, Qingdao Eighth People's Hospital, and Jimo District Hospital of Traditional Chinese Medicine from November 2017 to April 2022 were retrospectively analyzed. The applied filters included drum-type filters (OptEase in 7 cases, Aegisy in 2 cases) and conical filters (Celect in 6 cases and Denali in 3 cases). Preoperative CT angiography and intraoperative digital subtraction angiography showed that the filter was severely tilted and the hook was covered by hyperplastic intima of the vena cave vein. A modified wire-loop snare technique was used to retrieve drum-type filters and conical filters via femoral and jugular vein approaches, respectively. After successful puncture, the long sheath was placed, the 4 F (1 F≈0.33 mm) vertebral catheter and a snare were inserted through the long sheath, and the 5 F pigtail catheter was inserted simultaneously to guide a 0.035 inch soft guide-wire (260 cm in length) to pass through the top of the filter and turning back. The tip of the soft guide-wire was snared by the vertebral catheter and pulled out of the sheath. The 4 F vertebral catheter was inserted following the tip of the guide-wire to form a wire-loop using the vertebral catheter and the pigtail catheter. After fixing the tip and tail of the soft guide-wire in vitro, the long sheath was pushed forward to cut the hyperplastic intima and the hook was pulled away from the vena cava wall to retrieve the filter under the support of two catheters. Results: The filters were successfully retrieved in 17 cases, the operation time was (25.5±8.7) minutes (range: 15 to 45 minutes), no complication occured. The hook of one filter (Celect) penetrated out of the vena vava wall and the wire-loop could not pull the hook back into the vena cava. Then the filter was removed by laparotomy. Conclusion: The modified wire-loop snare technique could retrieve the severely tilted retrivable drum-type filters and conical filters, even when serve adhesion exists between the filter and the vena cava wall.
Humans
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Vena Cava Filters
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Retrospective Studies
4.Duodenal Perforation Caused by an Inferior Vena Cava Filter.
Mi Ju BAE ; Sung Woon CHUNG ; Chung Won LEE ; Sangpil KIM ; Seunghwan SONG
The Korean Journal of Thoracic and Cardiovascular Surgery 2012;45(1):69-71
The inferior vena cava (IVC) filter is known as an effective and safe method for preventing fatal pulmonary thromboembolism in patients with deep vein thrombosis. Usually, the remaining IVC filters are asymptomatic and do not cause clinical problems. We report a case of duodenal perforation caused by a remaining IVC filter.
Foreign Bodies
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Humans
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Pulmonary Embolism
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Vena Cava Filters
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Vena Cava, Inferior
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Venous Thrombosis
5.Suprarenal Filter Placement in the Inferior Vena Cava to Prevent Tumor Emboli During Radical Nephrectomy in Renal Cell Carcinoma Invading the Inferior Vena Cava.
Chang Sik JANG ; Jin Seon CHO ; Hyun Beom KIM ; Jung Yub KIM ; Chang Hee HONG ; Byung Soo CHUNG
Korean Journal of Urology 2004;45(8):834-836
A renal cell carcinoma with tumor thrombus extension into the inferior vena cava occurs in approximately 5 percent of cases. Despite invasion of the inferior vena cava, an aggressive surgical approach for these neoplasms is recommended, but pulmonary and tumor embolisms have been common complications. Therefore, the prevention of tumor emboli during operation is necessary. Placement of a suprarenal filter in the inferior vena cava has become the procedure of choice for preventing tumor emboli during a radical nephrectomy.
Carcinoma, Renal Cell*
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Neoplastic Cells, Circulating
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Nephrectomy*
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Thrombosis
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Vena Cava Filters
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Vena Cava, Inferior*
6.Trapping of Massive Thrombus in an Inferior Vena Cava Filter: Treatment with Additional Filter Placement and Aspiration Thrombectomy.
Jin Soo CHOI ; Young Whan KIM ; Won Hyun CHO ; Hyong Tae KIM ; Ja Hyun KOO ; Seong Ku WOO
Journal of the Korean Radiological Society 2006;55(2):123-128
For the patients suffering from extensive deep vein thrombosis (DVT), the placement of an inferior vena cava (IVC) filter in conjunction with anticoagulant therapy has been used to prevent pulmonary embolisms. However, for the patients who anticoagulant is contraindicated or if this is complicated, the use of an IVC filter without concurrent anticoagulation may become the sole treatment for pulmonary embolisms. In this situation, the thrombi trapped in the IVC filter may cause significant clinical problems. We report here on a case of IVC filter thrombosis that was successfully treated by aspiration thrombectomy after placing another filter proximal to the previous filter.
Humans
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Pulmonary Embolism
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Thrombectomy*
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Thrombosis*
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Vena Cava Filters*
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Vena Cava, Inferior*
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Venous Thrombosis
7.Mechanical Thrombectomy by the Rolling Technique Using a Coronary Wire in a Patient with Recurrent Inferior Vena Cava Filter Thrombosis.
Jong Ik PARK ; Su Hong KIM ; Chang Bae SOHN ; Sea Won LEE ; Song Hee OH ; Min Woong JEONG ; Se Ryeong PARK
Korean Journal of Medicine 2015;88(3):303-307
A permanent inferior vena cava (IVC) filter with anti-coagulation therapy may be considered in patients with recurrent pulmonary embolism. IVC filter thrombosis is a challenging clinical problem. Here, we report our experience in treating one such patient using mechanical thrombectomy via the rolling technique with a 0.014-inch coronary wire.
Humans
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Pulmonary Embolism
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Thrombectomy*
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Thrombosis*
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Vena Cava Filters*
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Vena Cava, Inferior
8.Hemodynamic analysis of a new retrievable vena cava filter.
Siyuan CHEN ; Haiquan FENG ; Xiaoqiang LI ; Jianping GU ; Xiaotian WANG ; Ping CAO ; Yonggang WANG
Journal of Biomedical Engineering 2019;36(2):245-253
Vena cava filter is a filter device designed to prevent pulmonary embolism caused by thrombus detached from lower limbs and pelvis. A new retrievable vena cava filter was designed in this study. To evaluate hemodynamic performance and thrombus capture efficiency after transplanting vena cava filter, numerical simulation of computational fluid dynamics was used to simulate hemodynamics and compare it with the commercialized Denali and Aegisy filters, and in vitro experimental test was performed to compare the thrombus capture effect. In this paper, the two-phase flow model of computational fluid dynamics software was used to analyze the outlet blood flow velocity, inlet-outlet pressure difference, wall shear stress on the wall of the filter, the area ratio of the high and low wall shear stress area and thrombus capture efficiency when the thrombus diameter was 5 mm, 10 mm, 15 mm and thrombus content was 10%, 20%, 30%, respectively. Meanwhile, the thrombus capture effects of the above three filters were also compared and evaluated by in vitro experimental data. The results showed that the Denali filter has minimal interference to blood flow after implantation, but has the worst capture effect on 5 mm small diameter thrombus; the Aegisy filter has the best effect on the trapping of thrombus with different diameters and concentrations, but the low wall shear stress area ratio is the largest; the new filter designed in this study has a good filtering and capture efficiency on small-diameter thrombus, and the area ratio of low wall shear stress which is prone to thrombosis is small. The low wall shear stress area of the Denali and Aegisy filters is relatively large, and the risk of thrombosis is high. Based on the above results, it is expected that the new vena cava filter designed in this paper can provide a reference for the design and clinical selection of new filters.
Blood Flow Velocity
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Hemodynamics
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Humans
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Software
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Thrombosis
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therapy
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Vena Cava Filters
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Vena Cava, Inferior
9.Should We Remove the Retrievable Cook Celect Inferior Vena Cava Filter? Eight Years of Experience at a Single Center.
Joohyung SON ; Miju BAE ; Sung Woon CHUNG ; Chung Won LEE ; Up HUH ; Seunghwan SONG
The Korean Journal of Thoracic and Cardiovascular Surgery 2017;50(6):443-447
BACKGROUND: The inferior vena cava filter (IVCF) is very effective for preventing pulmonary embolism in patients who cannot undergo anticoagulation therapy. However, if a filter is placed in the body permanently, it may lead to other complications. METHODS: A retrospective study was performed of 159 patients who underwent retrievable Cook Celect IVCF implantation between January 2007 and April 2015 at a single center. Baseline characteristics, indications, and complications caused by the filter were investigated. RESULTS: The most common underlying disease of patients receiving the filter was cancer (24.3%). Venous thrombolysis or thrombectomy was the most common indication for IVCF insertion in this study (47.2%). The most common complication was inferior vena cava penetration, the risk of which increased the longer the filter remained in the body (p=0.032, Exp(B)=1.004). CONCLUSION: If the patient is able to retry anticoagulation therapy and the filter is no longer needed, the filter should be removed, even if a long time has elapsed since implantation. If the filter cannot be removed, it is recommended that follow-up computed tomography be performed regularly to monitor the progress of venous thromboembolisms as well as any filter-related complications.
Follow-Up Studies
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Humans
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Pulmonary Embolism
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Retrospective Studies
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Thrombectomy
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Thromboembolism
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Vena Cava Filters*
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Vena Cava, Inferior*
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Venous Thrombosis
10.Can Pre-Retrieval Computed Tomography Predict the Difficult Removal of an Implementing an Inferior Vena Cava Filter?.
Shinho HONG ; Keun Myoung PARK ; Yong Sun JEON ; Soon Gu CHO ; Kee Chun HONG ; Woo Young SHIN ; Yun Mee CHOE
Vascular Specialist International 2016;32(4):175-179
PURPOSE: Implementing an inferior vena cava (IVC) filter is a relatively safe procedure but potential negative long-term effects. The complications for filter retrieval have been noted. We examined filter characteristics on pre-retrieval computed tomography (CT) that were associated with complicated retrieval (CR) of IVC filters. MATERIALS AND METHODS: A retrospective review of IVC filter retrievals between January 2008 and June 2014 was performed to identify patients who had undergone a pre-retrieval CT for IVC filter retrieval. CR was defined as the use of nonstandard techniques, procedural time over 30 min, filter fractures, filter tip incorporation into the IVC wall, and retrieval failure. Pre-retrieval CT images were evaluated for tilt angle in the mediolateral and anteroposterior directions, tip embedding into the IVC wall, degree of filter strut perforation, and distance of the filter tip from the nearest renal vein. RESULTS: Of seventy-six patients, twenty-four patients (31.6%) with CRs and 56 patients (73.7%) with non-CR were evaluated for pre-retrieval CT. For IVC filter retrieval with a dwelling time of over 45 days, a tilt of over 15 degrees, the appearance of tip embedding and grade 2 perforation were associated with CR on multivariate analysis. However, for IVC filter retrievals with a dwelling time of less than 45 days, there were no factors associated with CR. CONCLUSION: Pre-retrieval CTs may be more effective for IVC filters with a dwelling time of over 45 days. Therefore, a pre-retrieval CT may be helpful in predicting CR of IVC filters with long dwelling times.
Device Removal
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Humans
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Multivariate Analysis
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Renal Veins
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Retrospective Studies
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Vena Cava Filters*
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Vena Cava, Inferior*
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Venous Thrombosis