Fact-checked by Grok 2 weeks ago

Embolization

Embolization is a minimally invasive medical procedure used to intentionally block blood vessels by introducing embolic agents, such as particles, coils, or liquids, into the bloodstream to control bleeding, treat vascular malformations, or devascularize tumors.^[1]^[2] Performed primarily by interventional radiologists, it serves as an alternative to open surgery for conditions involving abnormal blood flow in the brain, liver, kidneys, or other organs.^[3] The procedure typically begins with a small incision in the groin or wrist to access an artery, through which a thin catheter is inserted and guided to the target vessel using real-time imaging like fluoroscopy or angiography.^[3] Once positioned, embolic materials—ranging from mechanical devices like detachable coils and plugs to liquid agents such as cyanoacrylate glue or ethylene-vinyl alcohol copolymers—are deployed to occlude the vessel, either temporarily (e.g., with absorbable Gelfoam) or permanently.^[2] The process usually requires local anesthesia or sedation and lasts 1 to several hours, depending on the complexity.^[3] Embolization is widely applied in trauma to stop internal hemorrhages from organs like the spleen or pelvis, in oncology for hepatic artery embolization to starve liver tumors of blood supply (often combined with chemotherapy as transarterial chemoembolization), and in neurovascular cases to seal brain aneurysms or arteriovenous malformations (AVMs) and prevent rupture.^[2]^[4] It also addresses conditions such as uterine fibroids, gastrointestinal bleeding, and varicoceles, with success rates varying by site but often exceeding 80-90% for hemorrhage control.^[5] Potential risks include vessel perforation, unintended embolization to non-target areas, infection, or stroke, particularly in neurointerventions, necessitating careful patient selection and post-procedure monitoring.^[3]

Overview

Definition and Mechanism

Embolization is a minimally invasive endovascular procedure that intentionally occludes blood vessels to block blood flow, typically using embolic materials delivered through a catheter.^[6] This therapeutic approach targets arteries or veins supplying abnormal tissues, such as tumors or sites of hemorrhage, to achieve controlled vascular shutdown.^[7] The procedure relies on real-time imaging guidance, such as fluoroscopy or angiography, to ensure precise placement and minimize off-target effects.^[8] The core mechanism of embolization involves deploying embolic agents that induce vessel occlusion through multiple pathways, including mechanical obstruction, promotion of thrombosis, or chemical adhesion.^[8] For instance, particulate agents or coils create a physical barrier that slows blood flow and provides a scaffold for clot formation, while liquid embolics polymerize or precipitate to form adherent casts within the vessel lumen.^[7] These actions halt perfusion to the targeted vascular bed, depriving downstream tissues of oxygen and nutrients.^[9] Physiologically, embolization induces ischemia in the affected tissue by reducing or eliminating blood supply, which can lead to necrosis in pathological areas like tumors while sparing vital organs through potential collateral circulation compensation.^[9] In non-critical regions, alternative vascular pathways may develop or activate to maintain adequate perfusion, mitigating widespread tissue damage.^[10] This contrasts with related interventions like angioplasty, which dilate stenotic vessels to restore flow rather than obstruct it.^[11]

Historical Development

The origins of therapeutic embolization trace back to the late 1960s, when pioneers in interventional radiology began exploring percutaneous techniques to occlude blood vessels and control bleeding. In 1968, John L. Doppman and Thomas H. Newton performed the first documented percutaneous therapeutic embolization procedures, initially targeting spinal cord arteriovenous malformations. By 1970, Charles T. Dotter and Josef Rösch advanced the field with clinical applications, using autologous blood clots to embolize vessels for gastrointestinal hemorrhage control—the first successful transcatheter embolization of the right gastroepiploic artery in a patient with upper GI bleeding reported by Rösch's team. These early efforts, building on Dotter's foundational work in catheter-based interventions, marked the shift from surgical to endovascular approaches for hemostasis.^[12] During the 1970s, embolization evolved with the introduction of synthetic agents that offered more reliable and controllable occlusion. Gelfoam, a gelatin sponge first reported as an embolic material in 1964 by Speakman but widely adopted in therapeutic procedures by the early 1970s, became a staple for temporary vessel occlusion in bleeding control. Simultaneously, metallic coils emerged as a key innovation; in 1975, César Gianturco and colleagues developed the first pushable coils, such as the cotton-tailed device, which were particularly effective for treating aneurysms by promoting thrombosis within the sac. These advancements expanded embolization's utility beyond acute bleeding to vascular malformations, solidifying its role in interventional radiology.^[12]^[12] The 1980s and 1990s saw significant expansion in embolic agent diversity and applications, establishing embolization as a standard technique in interventional radiology. Cyanoacrylate glues, initially explored in the 1970s for arteriovenous malformations, gained prominence in the 1980s for precise, permanent occlusion in high-flow lesions and tumor devascularization, with modifications like isobutyl cyanoacrylate enabling safer endovascular delivery. Polyvinyl alcohol (PVA) particles, introduced in the mid-1970s but refined in the 1980s for calibrated sizing, revolutionized tumor embolization by allowing selective peripheral vessel occlusion without proximal recanalization risks. By the late 1990s, these agents had transformed embolization into a cornerstone therapy for conditions like hepatocellular carcinoma and aneurysms, supported by growing evidence from clinical series.^[13]^[14]^[15] From the 2000s onward, embolization integrated advanced imaging and novel agents, enhancing precision and therapeutic outcomes. Computed tomography (CT) angiography, maturing in the late 1990s and widely adopted by the early 2000s, became essential for preoperative planning and real-time guidance during procedures, improving vessel mapping and reducing complications. Drug-eluting beads, first clinically introduced around 2007 with devices like DC Bead loaded with doxorubicin, combined embolization with localized chemotherapy delivery, particularly for liver tumors, marking a paradigm shift toward multifunctional agents. In the post-2020 era, focus has shifted to bioresorbable materials, such as gelatin microspheres and novel hydrogels, enabling temporary occlusion with reduced long-term risks; early clinical trials, including first-in-human studies for genicular artery embolization in 2024, demonstrate their safety and efficacy for applications like osteoarthritis pain management.^[16]^[17]^[18]

Indications

Hemorrhage Control

Embolization plays a critical role in managing acute and chronic hemorrhage from vascular sources, particularly in emergency settings where rapid control of bleeding is essential to stabilize patients and avoid more invasive interventions. Transcatheter arterial embolization (TAE) targets specific arteries to occlude blood flow to the hemorrhage site, minimizing damage to surrounding tissues and preserving organ function. This technique is especially valuable in hemodynamically unstable patients, where it serves as a bridge to recovery or definitive treatment.^[19] In trauma scenarios, embolization is a primary intervention for controlling arterial bleeding, such as from pelvic fractures or liver lacerations, significantly reducing the need for open surgical exploration. For pelvic trauma, TAE effectively addresses arterial extravasation in unstable fractures, achieving hemostasis in the majority of cases and allowing nonoperative management. Similarly, in blunt hepatic injuries, TAE halts ongoing hemorrhage with success rates ranging from 85% to 100%, often averting laparotomy and associated complications. These applications demonstrate embolization's ability to lower transfusion requirements by promptly stabilizing patients, with overall technical success in trauma exceeding 90% across high-volume centers.^[20]^[21]^[22] For epistaxis and gastrointestinal hemorrhage, embolization involves selective catheterization of key vessels like the sphenopalatine artery for severe nosebleeds or the gastroduodenal artery for upper GI bleeds, providing a targeted approach when endoscopic methods fail. In refractory epistaxis, superselective embolization of the sphenopalatine artery achieves control in approximately 90% of patients, offering a minimally invasive alternative to ligation. In nonvariceal upper gastrointestinal bleeding, TAE of the gastroduodenal artery yields technical success rates of 92-100% and clinical success around 98%, serving as a safe option refractory to endoscopy and reducing rebleeding risks.^[23]^[24]^[25] In postpartum and obstetric hemorrhage, uterine artery embolization (UAE) effectively controls severe bleeding while preserving fertility, making it a preferred alternative to hysterectomy in stable patients desiring future pregnancies. UAE achieves high clinical success, with shorter hospital stays and fewer red blood cell transfusions compared to surgical options, and complication rates remain low even in cases of placental abnormalities. Overall, embolization for life-threatening hemorrhages demonstrates technical success rates of 90-95%, underscoring its reliability in emergency vascular control.^[26]^[27]^[28]

Tumor and Growth Management

Embolization serves as a key interventional strategy in tumor and growth management by selectively occluding the arterial blood supply to neoplastic tissues, inducing ischemia and necrosis to shrink tumors or alleviate associated symptoms. This approach is particularly valuable for hypervascular tumors that derive most of their nutrition from arterial sources, allowing for targeted devascularization while sparing surrounding normal parenchyma supplied by portal venous flow. In palliative settings, it reduces tumor burden and improves quality of life for patients with unresectable malignancies, while in neoadjuvant contexts, it facilitates surgical resection by minimizing intraoperative bleeding and tumor size.^[10] Tumor devascularization through embolization is commonly employed for bone metastases from hepatocellular carcinoma (HCC), where preoperative transcatheter arterial embolization reduces bleeding during resection of non-spinal bone metastases, enabling safer surgical intervention.^[29] Similarly, in renal cell carcinoma (RCC), preoperative renal artery embolization before radical nephrectomy decreases intraoperative blood loss, particularly for large, hypervascular tumors, with studies showing significant volume reduction and technical ease during surgery.^[30] For hepatic metastases from endocrine tumors, hepatic arterial embolization stabilizes progression and prolongs progression-free survival (PFS) and overall survival (OS) by depriving metastatic lesions of vascular support.^[10] A specialized variant, transarterial chemoembolization (TACE), enhances devascularization by delivering chemotherapy-laden embolic particles directly into tumor-feeding arteries, combining vascular occlusion with localized, sustained drug release to maximize cytotoxic effects on liver tumors. TACE is the standard first-line therapy for intermediate-stage HCC, where it induces tumor necrosis through ischemia and chemotherapy, often using drug-eluting beads to prolong intra-tumoral drug exposure while blocking arterial flow. This technique leverages the dual blood supply of the liver, selectively targeting arterial-dependent HCC nodules while preserving portal venous flow to healthy tissue.^[31]^[32] For benign growths, uterine artery embolization (UAE) provides a non-surgical option to treat symptomatic uterine fibroids by occluding the uterine arteries, leading to fibroid ischemia, volume reduction, and relief from pain and heavy menstrual bleeding. UAE achieves substantial fibroid shrinkage, with long-term studies reporting symptom improvement in approximately 80-90% of patients, avoiding the need for hysterectomy in many cases. This procedure is particularly beneficial for women seeking fertility preservation, though outcomes include variable pregnancy rates post-treatment.^[33]^[34] Clinical outcomes of embolization in tumor management demonstrate tumor shrinkage in 50-80% of cases across HCC and metastatic lesions, with objective response rates often exceeding 50% following TACE, reflecting necrosis and size reduction on imaging. In palliative care for unresectable HCC, TACE improves median survival by several months compared to supportive care alone, with 1-year survival rates ranging from 74% to 97% in intermediate-stage disease, depending on technique and patient factors.^[35] For uterine fibroids, UAE yields durable symptom relief and fibroid volume decreases of 40-70% at 1 year, enhancing patient-reported quality of life metrics.^[36]^[37]^[34]

Vascular Abnormalities

Embolization plays a crucial role in treating congenital and acquired vascular abnormalities by targeting structural defects to restore normal blood flow and prevent complications such as hemorrhage or tissue ischemia. These procedures involve selective occlusion of abnormal vessels, often using liquid embolic agents or coils, to correct high-flow shunts or weakened vessel walls. Common applications include arteriovenous malformations (AVMs), aneurysms, varicoceles, and problematic dialysis access sites, where embolization offers a minimally invasive alternative to surgery, promoting thrombosis and vessel remodeling.^[38] In arteriovenous malformations (AVMs), embolization aims to occlude the nidus—the central tangle of abnormal vessels—to eliminate high-flow shunts that can lead to rupture or steal syndrome, where blood is diverted from surrounding tissues causing ischemia. This is particularly relevant for brain and spinal cord AVMs, which carry an annual hemorrhage risk of 2-4% if untreated. Using liquid embolics like Onyx, curative embolization achieves complete occlusion rates of 78-88% in prospective studies of selected cases, such as small lesions under 3 cm, with even higher rates (up to 92%) in low-grade (Spetzler-Martin I-II) brain AVMs. Multimodal approaches combining embolization with surgery or radiosurgery further improve outcomes, yielding overall occlusion rates of 73.7% and lower recurrence compared to standalone surgical resection in some series. Complications are relatively low, with morbidity at 2.7-8% and mortality under 5%, making it a preferred initial step for reducing rupture risk and alleviating steal-related symptoms like neurological deficits.^[38]^[39]^[40] For aneurysms, particularly intracranial ones, endovascular techniques such as coiling or flow diversion promote thrombosis within the aneurysmal sac while preserving the parent artery, thereby reducing rupture risk, which can exceed 1-2% annually for unruptured lesions. In coiling, detachable platinum coils are deployed to fill the sac, achieving immediate complete occlusion (Raymond-Roy Class I) in 58-74% of cases depending on adjuncts like balloon assistance (73.9%) or stents (56%). Flow diversion devices, such as pipeline stents, redirect flow away from the sac to induce endothelialization and exclusion, with long-term complete occlusion rates approaching 80-90% in follow-up studies and a low retreatment need (10-30%). In the ISAT trial of ruptured aneurysms, endovascular coiling showed a 23% relative risk reduction in death or dependence at 1 year compared to clipping, with good neurological outcomes (modified Rankin Scale 0-2) in 77% vs. 69% of patients. For unruptured aneurysms, good recovery rates exceed 95%. These methods demonstrate favorable outcomes, with a 23% lower risk of death or dependence at five years compared to surgical clipping.^[41]^[42]^[43]^[44] Selective embolization is also effective for varicoceles—dilated scrotal veins contributing to male infertility—and maintenance of dialysis access fistulas. In varicoceles, percutaneous embolization via the internal spermatic vein occludes refluxing vessels, improving semen parameters (motility, count, morphology) and achieving pregnancy rates of 11-60% in infertile couples, comparable to surgical varicocelectomy but with technical success of 93-100% and shorter recovery. For dialysis access, embolization of accessory or collateral veins prevents steal syndrome or fistula failure, promoting maturation in 76.2% of immature native arteriovenous fistulas, with an average time to usability of 38 days and no major complications in most cases. These interventions enhance fistula longevity and support ongoing hemodialysis without the need for repeated surgical revisions.^[45]^[46]

Other Therapeutic Uses

Embolization serves as a targeted intervention for managing malignant hypertension in patients with end-stage renal disease (ESRD), where renal artery embolization (RAE) reduces renin secretion from ischemic kidneys, thereby alleviating severe, drug-resistant hypertension. This approach is particularly indicated when hypertension is renovascular in origin and unresponsive to medical therapy, offering a minimally invasive alternative to nephrectomy. In clinical series, RAE has demonstrated efficacy in normalizing blood pressure, with one case report documenting a reduction in plasma renin activity from over 20 ng/mL/hr to approximately 7 ng/mL/hr post-procedure, alongside sustained normotension without antihypertensive medications. Complications are generally low, including transient post-infarction syndrome in up to 74% of cases, but overall morbidity remains minimal compared to surgical options.^[47]^[48]^[49] Corpora cavernosal embolization is employed to treat high-flow priapism, a condition characterized by prolonged, non-painful erections due to traumatic arteriocavernosal fistulas that increase arterial inflow to the corpora cavernosa. Selective transarterial embolization using agents such as Gelfoam, microcoils, or autologous blood clots occludes the fistula, restoring normal venous drainage and detumescence while preserving erectile function in most cases. Success rates reach 75%, though recurrence occurs in 30-40% of patients, often necessitating repeat procedures; erectile dysfunction post-embolization affects 15-22% of individuals. This technique is especially valuable for recurrent idiopathic cases, as evidenced by a report of complete resolution without further episodes after five months of follow-up.^[50]^[51] In portal hypertension, embolization addresses complications such as hemorrhoidal (rectal) and gastric variceal bleeding by occluding collateral veins, reducing portal pressure gradients and preventing recurrent hemorrhage. For rectal varices, often linked to cirrhosis, transjugular or percutaneous approaches using vascular plugs, Gelfoam, or coils achieve hemostasis in refractory cases post-TIPS, with one study reporting no rebleeding at three months and stabilized hemoglobin levels. Similarly, for gastric varices, particularly in sinistral portal hypertension from pancreatic diseases, splenic artery or transsplenic embolization with particles, coils, or cyanoacrylate glue effectively controls bleeding, leading to variceal resolution on imaging in all treated patients across a series of 14 cases, with mild post-embolization syndrome as the primary complication. Combined with TIPS, these methods lower one-year rebleeding rates significantly.^[52]^[53]^[54]^[55] Post-2020 advancements have expanded embolization to genicular artery embolization (GAE) for knee osteoarthritis (OA) pain relief, targeting hypervascular synovitis by occluding neovessels in the genicular arteries to decrease inflammation and nociceptor stimulation. Prospective studies show significant pain reduction, with Visual Analog Scale scores dropping by 26-39 points over 12 months and Western Ontario and McMaster Universities Osteoarthritis Index scores improving by 28-34 points, achieving minimal clinically important differences in 78-92% of patients. Functional gains include enhanced Knee Injury and Osteoarthritis Outcome Scores and physical performance, such as a 45% improvement in chair-stand tests at six months. GAE is safe, with transient minor adverse events like skin discoloration in 11-24% of cases and low retreatment rates of 8%. Recent advancements include middle meningeal artery embolization for chronic subdural hematomas, which has shown promise in reducing recurrence and improving outcomes in clinical trials as of 2025.^[56]^[57]^[58]

Procedure

Preoperative Preparation

Preoperative preparation for embolization begins with a comprehensive patient assessment to evaluate suitability and minimize risks. This includes detailed imaging studies, such as computed tomography (CT) angiography or magnetic resonance (MR) angiography, to precisely map the target vessels and identify potential collateral pathways.^[59]^[60] Laboratory tests are essential, focusing on coagulation status through prothrombin time (PT), international normalized ratio (INR), and activated partial thromboplastin time (aPTT) to assess bleeding risk, alongside renal function tests like serum creatinine to ensure safe contrast administration.^[61]^[59] A thorough review of medical history, including allergies to iodinated contrast media, current medications (such as antiplatelet agents or anticoagulants that may need adjustment), and recent illnesses, is conducted to tailor the procedure.^[59] Informed consent is obtained after a detailed discussion of the procedure's benefits, potential risks, and alternatives. Patients are informed of risks including non-target embolization leading to ischemia in unintended tissues, contrast-induced nephropathy, allergic reactions, and vascular complications like pseudoaneurysm formation.^[62]^[63] Alternatives such as surgical resection or conservative management are reviewed to ensure patient understanding and voluntary agreement.^[64] Sedation and vascular access planning are individualized based on patient factors and procedure complexity. Moderate sedation with intravenous agents is commonly used for patient comfort, though general anesthesia may be selected for cases involving high pain potential or patient anxiety; local anesthesia is applied at the puncture site.^[59] Access is typically planned via the femoral artery due to its size and direct path to the aorta, but the radial artery may be chosen for lower bleeding risk in select patients.^[59] Antibiotic prophylaxis is administered in infection-prone scenarios, such as tumor embolization where bacterial seeding risk is elevated, using agents like cefazolin to prevent post-procedural infections; however, routine use remains controversial for non-visceral bleeding control cases.^[65]^[66] Embolic agent selection is preliminarily determined based on the clinical indication to align with procedural goals.^[59]

Interventional Technique

The interventional technique for embolization is a minimally invasive endovascular procedure performed under fluoroscopic guidance by interventional radiologists or similar specialists. It involves navigating catheters through the vascular system to deliver embolic agents that occlude targeted vessels, thereby interrupting blood flow to pathological sites such as tumors, aneurysms, or bleeding vessels.^[2]^[67] The process emphasizes precision to achieve selective occlusion while minimizing damage to surrounding tissues.^[8] Access begins with percutaneous insertion of a vascular sheath, typically via the common femoral artery using the Seldinger technique, though radial access may be employed in select cases. A guidewire is advanced under real-time fluoroscopy to the target vessel, followed by the introduction of a catheter over the wire for navigation through the arterial tree.^[2]^[68] Selective or superselective catheterization is achieved by exchanging for shaped catheters or microcatheters, ensuring proximity to the lesion without compromising non-target vessels.^[8] Diagnostic angiography is then performed by injecting iodinated contrast through the catheter to confirm the catheter's position, visualize vascular anatomy, and identify abnormal flow patterns such as extravasation or hypervascularity. Digital subtraction angiography enhances clarity by isolating the vascular structures from overlying tissues.^[2] This step guides the final positioning and helps assess potential collateral circulation.^[8] Agent deployment involves the selective delivery of embolic materials, such as coils via detachment mechanisms or liquid/particulate agents through injection, directly into the target vessel. Real-time fluoroscopic monitoring ensures proper placement and immediate evaluation of occlusion, with adjustments made to prevent reflux or migration.^[2]^[68] The choice of agent and method depends on the desired permanence and vessel size, but deployment is titrated to achieve stasis without over-embolization.^[8] Upon completion, a post-embolization angiogram is conducted to verify successful occlusion, confirm absence of residual flow in the target area, and evaluate for any unintended effects on adjacent vessels or collaterals. Hemostasis at the access site is secured, typically with manual compression or closure devices, marking the end of the acute intervention.^[2]^[68]^[8]

Postoperative Management

Following embolization, patients are typically monitored closely for 24-48 hours in an intensive care unit (ICU) or general ward to assess vital signs, pain levels, and potential signs of re-bleeding or ischemia, such as hemodynamic instability or worsening abdominal pain.^[69] This observation period allows for early detection and intervention if complications arise, with close follow-up being an integral part of embolotherapy practice as emphasized by the Society of Interventional Radiology.^[70] Vital signs monitoring includes frequent checks of blood pressure, heart rate, and temperature to ensure stability post-procedure.^[71] Post-embolization syndrome, characterized by fever, nausea, pain, and malaise, is a common occurrence particularly in cases involving tumor embolization, commonly affecting 60% to 80% of patients and typically resolving within 24 hours but occasionally lasting up to 14 days.^[70]^[72] Management focuses on symptomatic relief with pain control using multimodal approaches, such as intravenous acetaminophen (1 g) combined with nonsteroidal anti-inflammatory drugs like ibuprofen (800 mg) or metamizole (2 g), which reduce opioid requirements and effectively control symptoms.^[73] Antiemetics, such as ondansetron, are administered to address nausea and vomiting, while prophylactic glucocorticoids like dexamethasone (4-8 mg IV) have been shown to significantly decrease the incidence and severity of fever, pain, and nausea in tumor embolization cases.^[74] Hydration and anti-inflammatory measures further support recovery from this self-limited response to tissue ischemia.^[75] Follow-up imaging, such as contrast-enhanced ultrasound or computed tomography (CT), is recommended at 1-3 months post-procedure to evaluate the durability of vascular occlusion and assess for recanalization or residual flow.^[76] These modalities provide non-invasive confirmation of technical success, with clinical outcomes often reassessed within 30 days initially and extended as needed based on the embolization target.^[70] For instance, in cases of peripheral or visceral embolization, Doppler ultrasound can effectively monitor patency without radiation exposure.^[76] For uncomplicated cases, discharge typically occurs within 1-2 days after the procedure, once vital signs are stable, pain is controlled, and there are no signs of active bleeding or infection.^[77] Patients receive instructions to restrict strenuous activities, avoid heavy lifting (over 10-15 pounds), and limit standing or walking for prolonged periods for at least 1 week to prevent puncture site complications and promote healing.^[77] Short daily walks are encouraged to reduce risks like blood clots, and patients are advised to monitor for any unusual symptoms at the access site, such as swelling or redness, before resuming normal activities.^[77]

Embolic Agents

Mechanical Devices

Mechanical devices represent a cornerstone of embolization therapy, consisting of solid, deployable structures designed to physically obstruct blood vessels and promote thrombosis for permanent occlusion. These agents are particularly suited for focal, precise interventions in conditions such as aneurysms, hemorrhages, and vascular malformations, where controlled placement is essential. Unlike flowable materials, mechanical devices enable retrievability in certain designs and provide immediate mechanical blockage, enhancing procedural safety and efficacy.^[78] Coils are among the most widely used mechanical embolic agents, constructed from biocompatible metals such as platinum or stainless steel to ensure durability and visibility under fluoroscopy. Platinum coils, being softer and more malleable, allow for dense packing within target vessels, while stainless steel variants offer cost-effectiveness for peripheral applications. Available in various configurations—including helical, conical, and tornado shapes—these devices range in wire diameter from 0.008 to 0.052 inches, lengths from 1 to 300 mm, and diameters from 1 to 27 mm, enabling customization based on vessel size and anatomy. Bare coils provide basic mechanical obstruction, whereas fibered coils (coated with materials like Dacron or nylon) and hydrogel-coated coils enhance thrombogenicity by accelerating clot formation; hydrogel variants can expand up to four times their original size within 20 minutes of deployment. Coils are deployed via microcatheters in pushable or detachable systems, with the latter allowing repositioning to minimize nontarget embolization. Seminal developments include the introduction of copper coils by Sean Mullan in 1974 for aneurysm treatment and Cesare Gianturco's 1975 innovation of wool-stranded coils for endovascular use.^[78]^[78]^[79]^[8] Pushable devices, including non-detachable coils and vascular plugs, are favored for rapid occlusion in peripheral vessels, particularly during hemorrhage control in trauma settings. Pushable coils, often made of stainless steel or platinum with thrombogenic fibers, are advanced through a catheter using a pusher wire, enabling straightforward deployment without complex detachment mechanisms; they are commonly employed in the "sandwich technique" for proximal and distal vessel sealing in organs like the liver, spleen, or kidney. Vascular plugs, such as the Amplatzer Vascular Plug (AVP), consist of nitinol mesh frameworks—sometimes covered with polytetrafluoroethylene—that expand upon deployment to conform to vessel walls, oversized by 30-50% for secure anchoring. These plugs achieve complete occlusion with a single device, reducing procedure time compared to multiple coils, and are ideal for larger vessels or arteriovenous fistulas where migration risk is high. For instance, the AVP, introduced as a versatile tool, supports applications in pulmonary arteriovenous malformations and peripheral bleeding, with deployment via guiding catheters for precise placement. Pushable devices excel in cost-efficiency and simplicity, though they may require operator skill to avoid reflux or kick-back during advancement.^[79]^[8]^[80]^[79] Flow diverters are specialized stent-like mechanical devices designed for treating wide-necked intracranial aneurysms by redirecting blood flow rather than directly filling the sac. These self-expanding, braided mesh cylinders, typically composed of platinum-tungsten or cobalt-chromium-nickel alloys, cover 30-35% of the vessel surface to promote laminar flow along the parent artery while stagnating flow within the aneurysm, thereby inducing progressive thrombosis and endothelialization. Key examples include the Pipeline Embolization Device (PED), a 48-strand braided construct approved by the FDA in 2011, which has demonstrated high efficacy in large (>15 mm) and giant (>25 mm) aneurysms through studies like the Pipeline for Uncoilable or Failed Aneurysms trial. Second-generation iterations, such as the Pipeline Flex introduced in 2015, incorporate improved flexibility and deliverability via microcatheters. Flow diverters maintain patency of branch vessels due to their high porosity and low radial force, making them suitable for complex, fusiform aneurysms where traditional coiling is inadequate.^[81]^[81]^[81] Key properties of mechanical devices include radiopacity for real-time fluoroscopic guidance—achieved through metallic compositions like platinum—and inherent thrombogenicity that fosters rapid clot formation, often within minutes of deployment. These agents provide permanent vascular occlusion, with retrievability features in detachable coils and plugs allowing adjustments during procedures to optimize outcomes. Their design emphasizes biocompatibility to minimize inflammatory responses, though sizing and material selection are critical to prevent migration or incomplete sealing.^[78]^[79]^[80]

Liquid and Particulate Materials

Liquid and particulate embolic agents are injectable materials that adapt to the irregular shapes of blood vessels, enabling broad occlusion in endovascular procedures. These agents include polymerizing liquids and microspherical particles, which are delivered through catheters to block blood flow in targeted vascular beds, such as those in arteriovenous malformations (AVMs) or hypervascular tumors.^[7] Cyanoacrylate glues, such as n-butyl cyanoacrylate (NBCA), are liquid adhesives that polymerize rapidly upon contact with blood or ionic fluids, forming a permanent seal suitable for high-flow lesions like AVMs. This polymerization creates an immediate, solid cast that adheres to vessel walls, preventing recanalization and providing durable occlusion. To control penetration depth and avoid proximal reflux, NBCA is often diluted with agents like Lipiodol, allowing operators to adjust viscosity and monitor deployment under fluoroscopy. Clinical studies have demonstrated high efficacy in AVM embolization, with cure rates exceeding 70% in select cases when used in staged procedures.^[13]^[82]^[83]^[84] Particulate agents, including polyvinyl alcohol (PVA) particles and gelatin-based spheres, consist of non-adherent microspheres that lodge in vessels to achieve devascularization, particularly in tumors. PVA particles, available in calibrated sizes such as 300–1000 microns, are permanent embolic materials that occlude arterioles and capillaries, reducing tumor blood supply and facilitating surgical resection or palliation. For instance, in abdominal neoplasms, PVA embolization has been shown to achieve significant devascularization by conforming to branching vessels without causing systemic effects when sized appropriately. Gelatin sponge particles (e.g., Gelfoam), cut into 1–2 mm pledgets or microspheres, provide temporary occlusion as they are absorbable by the body within 10–14 days, making them ideal for scenarios requiring collateral preservation, such as preoperative tumor embolization.^[85]^[86]^[87] Onyx, composed of ethylene vinyl alcohol (EVOH) copolymer dissolved in dimethyl sulfoxide (DMSO), is a non-adhesive liquid embolic agent designed for precise, controlled injection in neurointerventional procedures. Its radiopaque properties allow real-time visualization under fluoroscopy, enabling incremental delivery to fill nidal compartments in AVMs without catheter entrapment. Unlike adhesive glues, Onyx precipitates in a lava-like flow, casting vessels progressively and achieving permanent occlusion with lower recanalization rates in brain AVMs compared to earlier agents. Multicenter studies report technical success rates over 90% for acute hemorrhage control using Onyx, highlighting its safety profile in peripheral and intracranial applications.^[88]^[89]^[90] These materials are categorized as temporary or permanent based on their biodegradability and interaction with tissues. Absorbable agents like Gelfoam dissolve via enzymatic degradation, allowing vessel recanalization and minimizing long-term ischemia, whereas permanent options such as PVA, cyanoacrylate, and Onyx induce fibrosis and endothelialization for lasting blockade. A key risk associated with particulates and liquids is distal migration, where agents travel beyond the target site, potentially causing unintended infarction in normal tissues; this is mitigated by size selection and flow arrest techniques. Liquid agents also carry risks of catheter adhesion (for glues) or DMSO-related toxicity (for Onyx), though overall complication rates remain low at 5–10% in experienced centers.^[7]^[91]^[7]

Advanced and Emerging Agents

Drug-eluting beads represent a significant advancement in transarterial chemoembolization (TACE) for hepatocellular carcinoma (HCC), consisting of microspheres loaded with chemotherapeutic agents such as doxorubicin to achieve sustained drug release following vascular occlusion. These beads, typically 100–300 μm in diameter, allow for precise delivery and prolonged exposure of the tumor to the drug, improving local efficacy while minimizing systemic toxicity compared to conventional TACE.^[92] Clinical studies have demonstrated non-inferior survival rates and reduced post-embolization syndrome with doxorubicin-eluting beads, with meta-analyses confirming their safety and effectiveness in unresectable HCC.^[93] Hydrogel-based embolic agents, developed prominently in the 2020s, utilize swellable polymers to form temporary or shape-conforming emboli that adapt to irregular vascular geometries, particularly beneficial for reducing aneurysm recurrence. These materials, often based on polyethylene glycol or polyvinyl alcohol, expand upon deployment to achieve dense packing and promote endothelialization, as seen in photopolymerizable hydrogels that minimize non-target embolization in wide-necked aneurysms.^[94] In preclinical models, such as canine and porcine aneurysms, hydrogel coils have shown comparable occlusion rates to traditional agents but with lower recanalization after short-term follow-up.^[94] Recent innovations include bioactive nanocomposite hydrogels that enhance vascular healing post-embolization.^[95] Bioresorbable embolic options, including degradable particles and stents, offer the advantage of temporary occlusion followed by vessel recanalization, making them suitable for pediatric arteriovenous malformations (AVMs) where long-term patency is desirable to accommodate growth. Materials like poly(ethylene glycol) derivatives or alginate microspheres degrade over weeks to months, reducing the risk of permanent ischemia in developing vasculature.^[96] Preclinical evaluations in renal artery models have confirmed complete resorption within 12 weeks with minimal inflammatory response, supporting their potential in pediatric applications.^[97] Emerging alginate-based resorbable microspheres have demonstrated 100% technical success in embolization procedures, with ongoing comparisons to permanent agents highlighting faster recanalization. As of 2025, clinical trials are investigating shape-memory alloys and nanoparticle-enhanced agents to further refine targeted embolization therapies. The AAA-SHAPE randomized controlled trial evaluates shape-memory polymer plugs (e.g., IMPEDE-FX) for abdominal aortic aneurysm sac management post-EVAR, reaching 50% enrollment (90 of 180 patients) with promising safety data as of October 2025.^[98] For nanoparticle enhancements, thermosensitive nanogels like Embogel have shown 90% disease control rates in a 2024 phase I study of 10 HCC patients, enabling conformal TACE with sustained doxorubicin release.^[99] The VEROnA phase 0 trial (2019–2022) evaluated vandetanib-eluting radiopaque nanoparticle beads for resectable liver malignancies, focusing on capillary-level targeting and imaging integration.^[100] Magnesium microspheres, tested in 2025 preclinical TACE models, enhance lipiodol retention and tumor necrosis by 2–3 fold via degradable occlusion.^[101]

Benefits and Outcomes

Advantages of Embolization

Embolization represents a minimally invasive therapeutic approach that utilizes endovascular access via a small skin nick, eliminating the need for large incisions associated with open surgery. This technique substantially lowers the risk of postoperative infections and enables shorter hospital stays, often limited to 1-2 days or even overnight observation, in contrast to the extended recovery periods of weeks typical in surgical interventions.^[59]^[102] Additionally, blood loss during the procedure is markedly reduced compared to traditional surgery, contributing to faster overall patient stabilization.^[59] A key advantage lies in the precision of embolization, facilitated by real-time imaging guidance such as fluoroscopy or angiography, which allows for superselective catheterization and targeted occlusion of specific vessels. This capability minimizes damage to adjacent healthy tissues and organs, preserving function and reducing the potential for ischemia or necrosis in non-target areas.^[19] Embolization offers versatility, particularly for high-risk patients who may not tolerate open surgery due to advanced age, comorbidities, or overall frailty. It serves as an effective alternative in scenarios like trauma or oncologic interventions where surgical risks are prohibitive, enabling treatment in patients previously deemed inoperable.^[103]^[19] From an economic perspective, the procedure's shorter recovery and reduced resource utilization—such as fewer days in intensive care—render it more cost-effective than comparable surgical options, with analyses demonstrating lower overall healthcare expenditures per patient.^[102]^[104]

Evidence from Clinical Studies

Clinical studies have demonstrated high efficacy of embolization in controlling hemorrhage in trauma patients. Meta-analyses from the 2020s, including reviews of pelvic and abdominal trauma cases, report technical success rates ranging from 90% to 100% and clinical success rates of 85% to 95% for hemorrhage control, with reduced transfusion requirements and mortality compared to surgical alternatives.^[105] For instance, in pelvic trauma, a systematic review and meta-analysis found a 91.4% clinical success rate, highlighting embolization's role in stabilizing hemodynamically unstable patients.^[105] Long-term follow-up data from the International Subarachnoid Aneurysm Trial (ISAT) underscore the durability of endovascular coiling for ruptured intracranial aneurysms. Over 18 years, coiling was associated with a 1.2% rerupture rate from the target aneurysm, contributing to an absolute risk reduction of 7.4% in death or dependency at 1 year compared to surgical clipping, with sustained benefits in functional outcomes.^[106] These findings validate coiling's effectiveness in preventing re-hemorrhage, particularly when compared to historical observation strategies that carry high early mortality risks exceeding 50% without intervention.^[107] Comparative trials of transarterial chemoembolization (TACE) in hepatocellular carcinoma (HCC) show significant survival advantages over supportive care alone. Multiple randomized studies and meta-analyses indicate median overall survival of 16 to 20 months with TACE, versus less than 12 months with conservative management, particularly in intermediate-stage disease.^[108] For example, a prospective trial reported median survival of 20.9 months in TACE-treated unresectable HCC patients, emphasizing its role in prolonging life and delaying progression.^[109] Recent evidence from 2023 to 2025 highlights advancements in embolic agents, such as hydrogel-coated coils, which demonstrate improved outcomes in vascular malformations including arteriovenous malformations (AVMs). Studies report lower recurrence rates with hydrogel agents compared to traditional bare platinum coils, attributed to enhanced volumetric filling and reduced recanalization.^[110]^[111] In pulmonary AVM embolization, hydrogel variants achieved lower recurrence during follow-up, supporting their adoption for complex lesions.^[110]

Risks and Complications

Common Adverse Events

Post-embolization syndrome is a frequent complication following embolization procedures for tumors, characterized by flu-like symptoms including fever, abdominal pain, nausea, and fatigue, resulting from tissue ischemia and the release of inflammatory mediators and necrotic byproducts.^[112] This syndrome occurs in 60-80% of patients undergoing arterial embolization for hepatic malignancies, though rates may vary by tumor type and size, with larger tumors increasing the likelihood due to greater ischemic burden.^[113] Symptoms typically emerge within 72 hours post-procedure and resolve within 1-2 weeks, often without specific intervention beyond supportive care.^[72] Non-target embolization represents an unintended occlusion of adjacent normal vessels by embolic agents, leading to ischemia in non-diseased tissues such as the skin, gallbladder, or bowel, which can manifest as localized pain, ulceration, or organ dysfunction.^[114] The incidence of non-target embolization is reported at approximately 5-10% across various embolization procedures, with higher rates (up to 32%) observed in hepatic interventions involving accessory vessels, though clinically significant complications arise in only 4-5% of these cases.^[114] Underlying causes include inadvertent catheter migration, collateral vessel flow, or variability in vascular anatomy, emphasizing the need for precise angiographic targeting.^[115] Access site complications, primarily occurring at the arterial puncture location (e.g., femoral or radial artery), include hematoma formation and pseudoaneurysm development, which arise from vessel wall injury or inadequate hemostasis post-procedure.^[116] Hematomas are the most common, with an incidence of 1-10% in peripheral vascular interventions including embolization, while pseudoaneurysms occur in about 2-5% of cases, particularly in patients on anticoagulation therapy due to impaired clotting.^[63] These events are often linked to sheath size, procedural duration, and patient factors like obesity or hypertension.^[116] Allergic reactions to iodinated contrast media used during embolization are uncommon but can present as urticaria, pruritus, or more severe anaphylactoid symptoms like bronchospasm, stemming from a pseudo-allergic response rather than true IgE-mediated allergy.^[117] The overall incidence of mild to moderate reactions is approximately 0.5-3% in intravascular procedures, with prior reactions or asthma elevating risk up to 35% in susceptible individuals.^[118] Agent-related risks, such as those from specific embolic materials, may contribute to localized inflammatory responses but are generally procedure-specific.^[59]

Prevention and Mitigation Strategies

Prevention of complications in embolization procedures begins with meticulous patient selection and pre-procedural evaluation. Candidates should undergo comprehensive imaging, such as CT or MRI angiography, to map vascular anatomy, identify variants, and assess tumor burden or lesion characteristics, thereby minimizing risks like nontarget embolization or ischemia.^[119] Laboratory assessments of liver, kidney, and coagulation function are essential to exclude contraindications, such as decompensated cirrhosis (e.g., Child-Pugh class C) or severe renal impairment, which elevate the risk of liver failure or contrast-induced nephropathy.^[120] Informed consent must detail potential adverse events, including post-embolization syndrome (PES), infection, and vascular injury, to align expectations and facilitate early reporting of symptoms.^[63] Intra-procedural strategies emphasize precision and safety to mitigate technical complications. Superselective catheterization using microcatheters allows targeted delivery of embolic agents, reducing the incidence of nontarget embolization, which can lead to tissue infarction in adjacent organs like the gastrointestinal tract or lungs.^[119] Embolic material selection is critical: particles or coils sized appropriately (e.g., >300 μm for vascular beds prone to distal migration) prevent unintended occlusion, while slow, controlled injection under fluoroscopic guidance avoids reflux or stasis.^[121] Prophylactic embolization of extrahepatic vessels, such as the right gastric artery in hepatic procedures, safeguards against gastric ulceration.^[119] For patients with biliary interventions or immunosuppression, broad-spectrum antibiotics (e.g., cephalosporins) administered pre- and post-procedure reduce abscess formation rates from up to 15% to near zero in high-risk cases.^[120] In neuroendocrine tumor embolizations, octreotide prophylaxis prevents carcinoid crisis by inhibiting serotonin release.^[120] Post-procedural mitigation focuses on vigilant monitoring and supportive care to address common adverse events like PES, which affects 60-80% of patients with symptoms of fever, pain, and nausea. Routine administration of analgesics (e.g., opioids for severe pain) and antiemetics (e.g., 5-HT3 antagonists) alleviates PES, with prophylactic corticosteroids showing efficacy in reducing fever incidence in transarterial chemoembolization (TACE).^[122] Hydration and nephroprotective agents like N-acetylcysteine mitigate contrast-related kidney injury, particularly in patients with baseline creatinine >1.5 mg/dL.^[63] For suspected nontarget embolization, such as gastrointestinal ulceration from radioembolization, prompt initiation of proton pump inhibitors (PPIs) and sucralfate promotes mucosal healing, often resolving symptoms without surgery.^[121] Follow-up imaging at 4-6 weeks using modified RECIST criteria detects residual vascular patency or ischemia early, guiding potential re-intervention while tracking liver function to prevent radioembolization-induced liver disease.^[120] Multidisciplinary teams, including interventional radiologists and hepatologists, ensure coordinated care, with thresholds for adverse events (e.g., <4% major liver failure) informing quality improvement.^[120]

References

[1]
Definition of embolization - NCI Dictionary of Cancer Terms
A procedure that uses particles, such as tiny gelatin sponges or beads, to block a blood vessel. Embolization may be used to stop bleeding.
[2]
Basic embolization techniques: tips and tricks - PMC - NIH
The goal of embolization is to obtain the occlusion or decrease of the blood/ lymph flow through the endovascular application of different agents or materials.Missing: definition | Show results with:definition
[3]
Endovascular embolization: MedlinePlus Medical Encyclopedia
Jan 29, 2025 · Endovascular embolization is a procedure to treat abnormal blood vessels in the brain and other parts of the body. It is an alternative to open surgery.
[4]
Vascular and Neurovascular Embolization Devices Guidance - FDA
Jun 29, 2018 · A vascular embolization device is an intravascular implant intended to control hemorrhaging due to aneurysms, certain types of tumors (e.g., ...<|control11|><|separator|>
[5]
Advances in Biomaterials and Technologies for Vascular Embolization
Embolization refers to the deliberate occlusion of blood vessels with intravascular deposition of embolic agents from catheters for therapeutic purposes.
[6]
An Overview of Embolic Agents - PMC - NIH
Therapeutic embolization is the intentional endovascular occlusion of an artery or vein. The embolic agent of choice depends on the desired clinical outcome, as ...Missing: definition | Show results with:definition
[7]
Embolization in Trauma: Principles and Techniques - PMC - NIH
Embolization in trauma is the intentional and controlled occlusion of vessels to stop hemorrhage. Most of the embolization agents work by creating a mechanical ...Missing: definition | Show results with:definition
[8]
Transcatheter embolization therapy in liver cancer: an update ... - NIH
The embolic agent(s) causes ischemia and necrosis of the tumor, and slows ... Analysis of nontarget embolization mechanisms during embolization and ...
[9]
Hepatic Arterial Embolization for the Treatment of Metastatic ...
While not curative, hepatic arterial embolization procedures slow tumor growth and prolong progression-free survival, until the eventual revascularization from ...<|control11|><|separator|>
[10]
Angioplasty - StatPearls - NCBI Bookshelf - NIH
Angioplasty with or without stenting is a nonsurgical procedure used to open clogged or narrow coronary arteries due to underlying atherosclerosis.
[11]
Brief History and Classification of Embolic Agents | Radiology Key
Dec 3, 2016 · Doppman and Newton have been credited with performing the first percutaneous therapeutic embolization procedures. In 1968, these early ...
[12]
The Use of Cyanoacrylate Adhesives in the Management of ... - NIH
Cyanoacrylates are the main liquid adhesives used for endovascular procedures, especially for embolization of high-flow AVM. Chemically synthesized in 1949 by ...
[13]
Modification of cyanoacrylate for therapeutic embolization
Cyanoacrylate is a satisfactory material for therapeutic embolization, but it has the disadvantage of not being radiopaque and polymerizing within 1 sec ...
[14]
Endovascular Embolization by Transcatheter Delivery of Particles
Apr 3, 2017 · PVA particles were first introduced as a transcatheter embolization tool in the 1970s [6]. PVA has since been used in a myriad of applications ...
[15]
CT Angiography after 20 Years: A Transformation in Cardiovascular ...
This review recounts the evolution of CT angiography from its development and early challenges to a maturing modality that has provided unique insights into ...
[16]
Bench-to-clinic development of imageable drug-eluting embolization ...
This review describes the historical development of an imageable spherical embolic agent and focuses on work performed in collaboration between Biocompatibles ...
[17]
(PDF) First-in-Human Evaluation of a New Resorbable ...
Jul 25, 2025 · No significant difference between embolic agents was seen with regard to post-GAE pain reduction. No severe or life-threatening ...
[18]
Embolization in Trauma: Review of Basic Principles and Techniques
Embolization is the intentional and controlled occlusion of vessels to stop hemorrhage in traumatic injuries of solid abdominal organs, extremities, and pelvis.Missing: definition | Show results with:definition
[19]
Transcatheter Arterial Embolization for Hemorrhagic Pelvic Fracture
Transcatheter artery embolization (TAE) is often used for arterial bleeding. For patients with unstable pelvic fractures, it is common to use these techniques ...
[20]
Efficacy of Transcatheter Arterial Embolization for Hemorrhage ... - NIH
Transcatheter arterial embolization (TAE) has emerged as a prominent nonoperative strategy for blunt hepatic trauma with success rates between 85% and 100% [4].
[21]
Transcatheter Arterial Embolization in the Trauma Patient: A Review
A temporary occlusive agent is adequate to stop active extravasation in the trauma population, to stop the hemorrhage, and to allow the artery to heal itself.
[22]
Transcatheter Embolization in the Management of Epistaxis - PMC
Embolization has been used to treat epistaxis for more than 30 years and success can be achieved in approximately 90% of patients, with major complications ...
[23]
Role of transcatheter arterial embolization for massive bleeding from ...
Our review shows that transcatheter arterial embolization is a safe alternative to surgery for massive gastroduodenal bleeding that is refractory to endoscopic ...
[24]
Treatment of Nonvariceal Gastrointestinal Hemorrhage by ... - NIH
The use of therapeutic transcatheter embolization for treatment of acute gastrointestinal hemorrhage is highly successful and relatively safe with 98% ...
[25]
Primary postpartum hemorrhage: outcome of uterine artery ... - NIH
Uterine artery embolization (UAE) has been the standard treatment option for PPH because of its low invasiveness and high success rate.
[26]
Uterine Artery Embolization vs Hysterectomy for PPH
May 11, 2024 · Uterine Artery Embolization is associated with a shorter hospitalization duration and reduced use of red blood cell units when compared with ...
[27]
Recent Update of Embolization of Postpartum Hemorrhage - NIH
Jun 14, 2018 · Transcatheter arterial embolization (TAE) is an effective therapeutic strategy for PPH with the advantages of fast speed, repeatability, and the possibility of ...
[28]
Preoperative embolization for bone metastasis from hepatocellular ...
Preoperative transcatheter arterial embolization is an effective means to reduce bleeding during surgery for nonspine metastases from hepatocellular carcinoma.
[29]
Renal Artery Embolization Before Radical Nephrectomy for Complex ...
The role of preoperative renal artery embolization (PRAE) in management of renal masses has been often debated and its real benefits are still unclear.
[30]
Transarterial Chemoembolization for Hepatocellular Carcinoma
Jun 8, 2023 · TACE is a commonly used non-surgical treatment modality for patients with HCC who are unsuitable for curative treatment.Superselective Tace · Ctace · Deb-Tace
[31]
Transarterial chemoembolization for hepatocellular carcinoma
INTRODUCTION. Transarterial chemoembolization (TACE) is an interventional treatment to deliver chemoembolic materials via the tumor-feeding arteries to induce ...
[32]
Uterine-Artery Embolization or Myomectomy for Uterine Fibroids
Jul 29, 2020 · The complications in the uterine-artery embolization group were anemia (2 participants), sciatica, constipation, atypical cells found during the ...
[33]
Long-Term Outcomes of Uterine Artery Embolization Using Gelatin ...
A number of articles have reported rates of improvement in clinical symptoms associated with uterine fibroids of approximately 80-90% on short- and middle-term ...
[34]
Chemoembolization in the Management of Liver Tumors
Hepatocellulaire in Europe demonstrated a 53% rate of tumor shrinkage. ... Hepatic arterial embolization for hepatocellular carcinoma. Comparison of CT.
[35]
Transcatheter Arterial Chemoembolization: History for More than 30 ...
This technique is a procedure to obtain safe access to hollow organs, especially blood vessels. It was developed in 1953 by Dr Sven-Ivar Seldinger (1921–1998), ...
[36]
State of the Art in the Role of Endovascular Embolization in the ...
Dec 4, 2022 · According to a systematic review of 18 studies with a total of 8418 bAVMs, the average annualized hemorrhage rate was 2.2% for unruptured bAVMs ...
[37]
Expert Consensus on the Management of Brain Arteriovenous ... - NIH
Nov 25, 2019 · , the standard occlusion rate was only 29.8% with endovascular embolization alone but a high overall occlusion rate of 73.7% in combination ...
[38]
Recurrence Rates Following Treatment of Spinal Vascular ... - PubMed
Conclusions: Surgical resection of SVMs provided higher rates of initial complete occlusion and lower rates of recurrence than endovascular techniques.
[39]
Systematic Review and Meta‐Analysis of Endovascular Therapy ...
Jan 25, 2024 · The RROC‐I rate was the highest in balloon‐assisted coiling (73.9%, 95% CI: 65.0%–81.2%) and the lowest in the Woven EndoBridge (27.8%, 95% CI: ...
[40]
Long-term outcomes of coil embolization of unruptured intracranial ...
Jan 5, 2018 · This study demonstrates a low risk of rupture of coiled UIAs with long-term follow-up periods of up to 20 years.RESULTS · CONCLUSIONS · Methods · Results
[41]
After Five Years, Coiled Aneurysm Has A Better Death Rate Than ...
Mar 28, 2009 · After five years, 11 percent of the coiled group and 14 percent of the clipped group had died. The risk of death was 23 percent lower for ...<|separator|>
[42]
Varicocele Embolization for Infertility - Endovascular Today
Varicocele embolization is safe and technically effective and achieves comparable results to surgery while offering the advantages of shorter recovery time ...
[43]
Effectiveness of collateral vein embolization for salvage of ... - PubMed
Results: Fistula maturity was achieved in 32 of 42 patients (76.2%). No major complications occurred. Average time from CVE to fistula maturity was 38.4 days.
[44]
Renovascular Hypertension Treated by Renal Artery Embolization
Renal embolization is indicated in the patients with end-stage kidneys and uncontrollable hypertension or massive proteinuria.Missing: malignant | Show results with:malignant
[45]
Renal artery embolization: clinical indications and ... - PubMed
Renal artery embolization: clinical indications and experience from ... vascular lesions, malignant hypertension, and sequelae of end-stage renal disease.
[46]
Renal Artery Embolization-Indications, Technical Approaches and ...
Dec 23, 2014 · RAE represents an alternative to nephrectomy in various medical conditions, including severe uncontrolled hypertension among patients with end- ...
[47]
Embolization Treatment of High-Flow Priapism - PMC - NIH
In low-flow priapism, the corpora cavernosa are rigid and very tender to palpation. In patients with high-flow priapism, there is minimal to no pain, and ...
[48]
Recurrent idiopathic high-flow priapism treated with selective arterial ...
Pelvic angiography revealed an abnormal communication between the left cavernosal artery and the left corpus cavernosum and led to the diagnosis of high-flow ...
[49]
Successful hemostasis of intractable rectal variceal bleeding using ...
Portal hypertension involves the vascular system and causes varices in any part of the gastrointestinal tract as the result of dilated collateral veins[3]. In ...
[50]
Management of rectal varices in portal hypertension - PubMed Central
The combination of TIPS and embolization has been described as efficient in the prevention of recurrent bleeding from esophagogastric varices[58]. After ...
[51]
Splenic Arterial Embolization in the Treatment of Severe Portal ... - NIH
Aug 25, 2015 · The patients with acute gastric variceal bleeding were treated with one-step embolization, in which the spleen and splenic artery were embolized ...
[52]
Percutaneous Transsplenic Embolization of Gastric Varices in Left ...
Percutaneous transsplenic embolization was effective in treating gastric variceal bleeding caused by left-sided portal hypertension.
[53]
Genicular artery embolization for treatment of knee osteoarthritis pain
Limited evidence suggests that GAE is a safe procedure that confers improvement in knee OA symptoms at established MCID thresholds.
[54]
Transarterial Embolization of Geniculate Arteries Reduces Pain and ...
Jul 27, 2024 · This study indicates that GAE is a promising minimally invasive treatment for knee OA, providing significant pain relief and functional ...
[55]
Catheter Embolization - Radiologyinfo.org
You may be advised to stop taking aspirin, nonsteroidal anti-inflammatory drugs (NSAIDs) or blood thinners several days prior to your procedure. You also may be ...
[56]
Preoperative Hepatic Vascular Evaluation with CT and MR ...
Multisection CT angiography and MR angiography are complementary modalities that permit comprehensive, accurate preoperative delineation of the hepatic vascular ...
[57]
Society of Interventional Radiology Consensus Guidelines for ... - JVIR
Jun 19, 2019 · Screening coagulation laboratory testing before low bleeding risk procedures should be considered for patients with risk factors for bleeding or ...
[58]
Embolization Consent | Society of Interventional Radiology
This informed consent document for interventional radiologists provides procedural benefits, purpose and likelihood of success of a procedure, as well as what ...
[59]
Complications of Embolization Procedures and Their Management
Risk Factors: Small particle size, high injection pressure, high-flow shunts, unrecognized anastomoses, unstable catheter position, poor visualization.
[60]
The Importance of the Informed Consent for Interventional Radiology ...
Ideally, the consent process should include a clear understanding of the patient's health condition, explanation of the procedure, discussion of benefits, risks ...
[61]
Practice Guideline for Adult Antibiotic Prophylaxis during Vascular ...
Routine pro- phylaxis remains controversial in the setting of embolization for the pur- poses of controlling bleeding from a viscus or solid organ, such as in ...
[62]
A Guide to Antibiotics for the Interventional Radiologist - PMC
Currently, antibiotic prophylaxis is recommended for interventional radiological procedures that are not classified as clean. The selected antibiotic is based ...
[63]
Endovascular embolization: MedlinePlus Medical Encyclopedia
Jan 29, 2025 · A thin, flexible tube called a catheter is passed through the open skin and into the artery. · Dye is injected through this tube so that the ...
[64]
Uterine Fibroid Embolization - StatPearls - NCBI Bookshelf - NIH
Apr 27, 2025 · Embolization is intentionally barricading an anatomic structure, such as an artery, vein, ureter, or other passage. Arterial embolization is ...
[65]
https://www.jvir.org/article/S1051-0443%2810%2900781-5/pdf
[66]
https://pmc.ncbi.nlm.nih.gov/articles/PMC3036265/
[67]
Selective arterial embolization of symptomatic and asymptomatic ...
... 24–48 h stay and usually discharged the day after embolization. Vital signs were monitored and post-embolization syndrome (PES) (low-grade fever, pain and ...
[68]
Managing Postembolization Syndrome–Related Pain after Uterine ...
Studies have shown that glucocorticoids, particularly dexamethasone, are effective at reducing postoperative inflammation and pain in procedural settings.Acetaminophen · Nonsteroidal... · Superior Hypogastric Nerve...
[69]
Dexamethasone-Based Prophylactic Therapy for Prevention of Post ...
Dexamethasone-based prophylactic therapy significantly reduces the risk of postembolization pain, fever, nausea, and vomiting compared to placebo or no ...
[70]
Management of Post-embolization Syndrome | SpringerLink
Regimens involve pre-medication with analgesia, sedation, antiemetic therapy, and hydration. ... Acetaminophen helps control pain, reduces the inflammatory ...
[71]
Can Color Doppler Ultrasound Be Effectively Used as the Follow-Up ...
Jan 19, 2023 · All patients underwent post-procedural follow-up imaging 3 months after the initial procedure or 3 months after a secondary redo procedure ...
[72]
Embolization Procedure: Definition, Purpose & Types
Embolization procedures stop blood flow to a specific vessel. It treats conditions such as AVMs, frequent nosebleeds, traumatic injuries and certain cancers.Missing: Mayo | Show results with:Mayo
[73]
Embolic Agents: Coils - PMC - NIH
History. One of the first reported techniques using metal coils to induce thrombosis was performed by Dr. Sean Mullan in 1974. After performing a ...
[74]
Review of Embolic Materials for the Interventional Radiologist - PMC
Nov 24, 2021 · Liquid embolics have several different potential mechanisms of action, including polymerizing, precipitating, and phase-transitioning agents.Particle Embolics · Liquid Embolics · Vascular Plugs
[75]
The Amplatzer Vascular Plug: Review of Evolution and Current ...
The AVP is a very versatile embolization agent that allows the operator to treat a variety of conditions including very challenging vascular lesions.
[76]
The Evolution of Flow-Diverting Stents for Cerebral Aneurysms
Intracranial flow-diverting stents (FDS) were developed to address these challenges by targeting aneurysm hemodynamics to promote aneurysm occlusion.
[77]
Is percutaneous glue injection one of the treatments for ...
May 27, 2021 · The glue used in our patient is a mode of permanent embolisation and it acts by polymerising instantaneously on coming in contact with an ionic ...
[78]
Embolization of Arteriovenous Malformation with Diluted Mixture of ...
The technique of nidus embolization with diluted NBCA glue is presented. We believe this technique is very useful and effective method for the treatment of AVM.
[79]
Super-selective and staged glue embolization for labral AVMs using ...
Nov 17, 2022 · Staged and super-selective TAE may prevent complications and provide high curability and might be a useful treatment in cases of AVM.
[80]
Ivalon embolization in abdominal neoplasms - PubMed
Polyvinyl alcohol foam (Ivalon) particles were used in arterial embolization of abdominal neoplasms for tumor devascularization. The Ivalon particles are ...
[81]
Preoperative embolization of meningiomas with polyvinyl alcohol ...
POE of meningiomas using PVA particles is effective in reducing surgical time, when extensive tumor devascularization is achieved. However, radiation ...
[82]
Short-interval recanalization after gelfoam occlusion - PMC - NIH
Gelfoam® is a temporary embolization agent often used in trauma where permanent arterial occlusion is not desired. Gelfoam occlusions have been shown to resolve ...
[83]
Efficacy and Safety of Ethylene-Vinyl Alcohol (EVOH) Copolymer ...
Apr 4, 2023 · In this multicenter retrospective cohort study, non-adhesive EVOH-based agents (Onyx and Squid) have been effective in the embolization of acute ...
[84]
Onyx (Ethylene-vinyl Alcohol Copolymer) in Peripheral Applications
Onyx is an effective embolic agent, with several applications in peripheral embolizations and it is relatively simple to use.Missing: neurointerventions | Show results with:neurointerventions
[85]
Evaluation of an Established (Onyx) and a Novel (PHIL) Embolic ...
Jul 1, 2017 · CONCLUSIONS: While the embolization success was comparable for Onyx and PHIL, pause time had a considerable effect on the embolization success ...Liquid Embolic Agents For... · Materials And Methods · Embolization Technique
[86]
A Case-Based Approach to Common Embolization Agents Used in ...
Most modern embolic agents produce permanent vessel occlusion and can be classified as nonabsorbable microparticles (polyvinyl alcohol [PVA], tris-acryl gelatin ...
[87]
Comparison of drug-eluting bead transarterial chemoembolization ...
Nov 13, 2024 · During the embolization process of DEB-TACE, embolization with drug-loaded microspheres can create new spaces within the tumor mass ...
[88]
Drug-eluting beads transarterial chemoembolization vs conventional ...
Prospective randomized comparison of chemoembolization with doxorubicin-eluting beads and bland embolization with beadBlock for hepatocellular carcinoma.
[89]
Advancements in hydrogel‐based embolic agents: Categorized by ...
Oct 23, 2024 · This review tackles the challenge of categorizing hydrogel‐based embolic agents based on their therapeutic mechanisms, including transportation, accumulation, ...Missing: bioresorbable | Show results with:bioresorbable
[90]
https://www.ajnr.org/content/38/7/1377
[91]
Emerging Polymer Materials in Trackable Endovascular ...
This review aims to summarize recent advances in current and emerging polymeric materials as embolization agents with varying material architectures.
[92]
Calibrated Bioresorbable Microspheres as an Embolic Agent
To evaluate the time frame of resorption and tissue response of newly developed bioresorbable microspheres (BRMS) and vessel recanalization after renal ...
[93]
Shape Memory Medical Announces Midway Milestone in the AAA ...
Oct 16, 2025 · Oct 16, 2025 8:00 AM Eastern Daylight Time. Shape Memory Medical Announces Midway Milestone in the AAA-SHAPE Randomized Controlled Pivotal Trial.Missing: alloys | Show results with:alloys
[94]
Thermosensitive nanogel: An embolic agent for durable and ...
Embolic agents play a vital role in transarterial chemoembolization (TACE), and continuous advancements in embolic materials have significantly improved ...
[95]
Application of Nanotechnology in TACE Treatment of Liver Cancer
Aug 4, 2025 · This review synthesizes recent advancements in nanotechnology to address these challenges, focusing on nanoparticles (NPs) as embolic agents, ...
[96]
Magnesium microspheres for enhanced transarterial ... - Science
Jul 2, 2025 · Magnesium microspheres (Mg MSs) were used as embolic devices to enhance lipiodol-mediated TACE. After being dispersed in lipiodol and injected into tumors.
[97]
Uterine-Artery Embolization versus Surgery for Symptomatic Uterine ...
Jan 25, 2007 · The embolization group had a shorter median duration of hospitalization than the surgical group (1 day vs. 5 days, P<0.001) and a shorter time ...
[98]
Efficacy and Safety of Prostatic Artery Embolization in the Treatment ...
May 17, 2022 · Conclusion. For high-risk patients with BPH, prostate embolization is an effective and safe method, which can significantly improve the quality ...
[99]
Cost-effectiveness of endovascular therapy in the surgical ...
This resulted in a 9% average savings per treated patient. Cost per quality-adjusted life-year calculations resulted in a cost of $6734 for embolization and ...Missing: review | Show results with:review
[100]
Transcatheter Arterial Embolization for Bleeding Related to Pelvic ...
Sep 1, 2023 · Conclusions: Angioembolization is an effective and safe option for the management of traumatic pelvic arterial lesions even in hemodynamically ...
[101]
A decade after International Subarachnoid Aneurysm Trial - NIH
The ISAT revealed a complete occlusion rate of 66% (584 of 988) in the coiled patients, whereas other case series of ruptured coiled aneurysms revealed ...
[102]
Advances in transarterial chemoembolization for hepatocellular ...
Apr 17, 2025 · TACE is a minimally invasive procedure that combines targeted chemotherapy with vascular embolization to treat HCC. It leverages the liver's ...Review Article · Recent Advances In... · Efficacy And Outcomes Of...
[103]
Unresectable Hepatocellular Carcinoma: Transcatheter Arterial ...
Aug 6, 2020 · The median OS was 20.9 months (95% CI 14.3–27.6 months) in TACE-MWA group, and 13.0 months (95% CI 8.8–17.1 months) in TACE-CRA group (P = 0.096) ...
[104]
Hydrogel Coils versus Bare Platinum Coils for the Treatment of ...
Background and purpose: Whether hydrogel coils (HGCs) can reduce intracranial aneurysm recurrences when compared with bare platinum coils (BPCs) ...
[105]
Embolization of De Novo Pulmonary Arteriovenous Malformations ...
Jan 23, 2024 · Propensity-matched survival analysis demonstrated PAVMs treated with HVDNF coils recurred significantly less frequently than PAVMs treated with ...
[106]
Post-embolization syndrome | Radiology Reference Article
Jan 8, 2023 · PES usually occurs within the first 72 hours after solid organ embolization such as that of liver lesions (TACE) or uterine fibroids (UFE), ...Missing: monitoring 24-48
[107]
Dexamethasone-Based Prophylactic Therapy for Prevention of Post ...
Jan 23, 2025 · Dexamethasone-based prophylactic therapy significantly reduces the risk of postembolization pain, fever, nausea, and vomiting compared to ...
[108]
Prevalence and Risk Factors of Post-chemoembolization Syndrome ...
Jul 4, 2023 · Results: Of the 298 patients and 739 transarterial chemoembolization procedures, the incidence of post-embolization syndrome was 68.1% (203/298) ...
[109]
Incidence and Consequence of Nontarget Embolization ... - PubMed
May 9, 2019 · There were three complications in the NTE group (3/64, 4.7%) following the embolization procedure, one of which was cholecystitis directly ...
[110]
Non-target embolic events during prostatic ... - CVIR Endovascular
Nov 3, 2023 · In humans, Sakamoto et al. reported that more than 20% of complications of arterial embolization with particles were directly related to NTE [8] ...Missing: incidence | Show results with:incidence
[111]
Access Site Complications Following Peripheral Vascular ... - NIH
Dec 1, 2015 · Access site hematomas and pseudoaneurysms are the most frequent complications of peripheral vascular intervention (PVI); however, their incidence and risk ...
[112]
Adverse Reactions to Contrast Material: Recognition, Prevention ...
Oct 1, 2002 · Adverse reactions to contrast agents range from a mild inconvenience, such as itching associated with hives, to a life-threatening emergency.
[113]
Intravenous CT & X-ray Contrast Guidelines - UCSF Radiology
Aug 22, 2025 · Prior allergic-type reaction to intravascular iodinated contrast is the greatest risk factor for subsequent reaction, with up to 35% of patients ...Management of Acute... · Vascular Access and Use of...<|control11|><|separator|>
[114]
Complications of Embolization - PMC - PubMed Central - NIH
Ischemic injury may not only affect the mucosa but also the cranial nerves, possibly resulting in temporary or permanent cranial nerve palsy., Depending on the ...
[115]
https://cvirendovasc.springeropen.com/articles/10.1186/s42155-023-00402-w
[116]
[PDF] Complications of Radioembolization: Prevention and Management
This review aimed to classify the complications associated with radioemboliza- tion into three categories: 1) complications due to local effects, such as ...
[117]
Summary of the evidence of best practices for the prevention and ...
Jan 15, 2024 · This study presents a comprehensive summary of the best available evidence on the prevention and treatment of embolism syndrome following TACE for primary ...