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OHAVM: Long-term Outcomes After Different Management Strategies for High-level Cerebral Arteriovenous Malformation

Sponsor
Beijing Tiantan Hospital (Other)
Overall Status
Recruiting
CT.gov ID
NCT04136860
Collaborator
Peking University International Hospital (Other)
1,000
Enrollment
1
Location
152
Anticipated Duration (Months)
6.6
Patients Per Site Per Month

Study Details

Study Description

Brief Summary

Arteriovenous malformations (AVMs) are complex and rare cerebral vascular dysplasia. The main purpose of treatment is to avoid the neurological impairment caused by hemorrhagic stroke. The Spetzler-Martin (SM) grading system is widely used to estimate the risk of postoperative complication based on maximum AVM nidus diameter, pattern of venous drainage, and eloquence of location. Generally, grade I and II are amenable to surgical resection alone. Grade III is typically treated via a multimodal approach, including microsurgical resection, embolization, and radiosurgery (SRS). Grade IV and V are generally observed unless ruptured. However, some previous studies indicated that despite the high rate of poor outcomes for high-level unruptured AVMs, the mortality for high-level unruptured AVMs are likely lower than untreated patients. With the development of new embolic materials and new intervention strategies, patients with high-level AVMs may have more opportunities to underwent more aggressive interventions. The OHAVM study aims to clarify the clinical outcomes for patients with SM grade IV and V AVMs after different management strategies.

Condition or Disease Intervention/Treatment Phase

    Detailed Description

    Follow-up: In our neurosurgical center, follow-up was conducted for all patients at the first 3-6 months and annually after discharge by clinical visit and telephone interview.

    Study overview: The population in the OHAVM study will be divided into two parts. Clinical and imaging data of high-level AVM patients from 2012/04 to 2019/09 were retrospectively collected. And the high-level AVM patients from 2019/09 to 2019/12 were prospectively collected. The intervention strategies in our institution for high-level AVMs are of four categories: microsurgical resection, embolization, embolization+radiosurgery, and single-stage hybrid surgery (embolization-resection). Each participants will be followed at least for 5 year since enrollment. Finally, we will clarify the clinical outcomes and prognostic predictors for patients with SM grade IV and V AVMs after different management strategies.

    Sample size: About 1000 patients will be enrolled in this study, and half of them were unruptured. The population distribution of different management strategies is expected as follows: conservative:100 cases, microsurgical resection: 300 cases, embolization:250 cases, embolization+radiosurgery: 250 cases, single-stage hybrid surgery: 100 cases.

    Study endpoints: The neurological function prognosis, occlusion rate and complications were evaluated at 2 weeks, 1 year, 3 years, 5 years after the treatment and the last follow-up, respectively.

    Study Design

    Study Type:
    Observational
    Anticipated Enrollment :
    1000 participants
    Observational Model:
    Cohort
    Time Perspective:
    Prospective
    Official Title:
    Study on the Long-term Outcomes of High-level Cerebral Arteriovenous Malformation
    Actual Study Start Date :
    Apr 1, 2012
    Anticipated Primary Completion Date :
    Nov 1, 2024
    Anticipated Study Completion Date :
    Dec 1, 2024

    Arms and Interventions

    Arm Intervention/Treatment
    Conservative management

    Patients refused to accept any interventional treatment or patients were not suitable for any interventional treatment.
    Microsurgical resection

    All microsurgical procedures were performed with intraoperative neuronavigation, ultrasonography, indocyanine fluorescence angiography (ICG), continuous monitoring of electroencephalogram and somatosensory evoked potential.
    Embolization

    Embolization or radiosurgery was recommended as a priority for lesions located in deep functional locations such as brainstem and basal ganglia. Multi-stage embolization and target embolization were widely used within the embolization. Onyx was the main embolization material.
    Embolization+Radiosurgery

    Embolization or radiosurgery was recommended as a priority for lesions located in deep functional locations such as brainstem and basal ganglia. Radiosurgery management was recommended for the residual lesions about 3 months after the embolization if necessary.
    Single-stage hybrid surgery

    Hybrid surgery is a new surgical strategy defined as single-stage combined microsurgical resection and embolization in which embolization is performed firstly on the deep feeding artery, aneurysm, AVF, and meningeal arteries involved in blood supply of the nidus, and then, the microsurgical resection was performed immediately. Intraoperative angiography was performed repeatedly before the skull was closed, confirming complete occlusion of the malformation.

    Outcome Measures

    Primary Outcome Measures

    1. modified Ranking Scale score at 2 weeks after the operation [2 weeks after operation]

      The scale runs from 0-6, running from perfect health without symptoms to death. 0 - No symptoms. No significant disability. Able to carry out all usual activities, despite some symptoms. Slight disability. Able to look after own affairs without assistance, but unable to carry out all previous activities. Moderate disability. Requires some help, but able to walk unassisted. Moderately severe disability. Unable to attend to own bodily needs without assistance, and unable to walk unassisted. Severe disability. Requires constant nursing care and attention, bedridden, incontinent. Dead

    2. modified Ranking Scale score at 1 year after the operation [1 year after operation]

      The scale runs from 0-6, running from perfect health without symptoms to death. 0 - No symptoms. No significant disability. Able to carry out all usual activities, despite some symptoms. Slight disability. Able to look after own affairs without assistance, but unable to carry out all previous activities. Moderate disability. Requires some help, but able to walk unassisted. Moderately severe disability. Unable to attend to own bodily needs without assistance, and unable to walk unassisted. Severe disability. Requires constant nursing care and attention, bedridden, incontinent. Dead

    3. modified Ranking Scale score at 3 years after the operation [3 years after operation]

      The scale runs from 0-6, running from perfect health without symptoms to death. 0 - No symptoms. No significant disability. Able to carry out all usual activities, despite some symptoms. Slight disability. Able to look after own affairs without assistance, but unable to carry out all previous activities. Moderate disability. Requires some help, but able to walk unassisted. Moderately severe disability. Unable to attend to own bodily needs without assistance, and unable to walk unassisted. Severe disability. Requires constant nursing care and attention, bedridden, incontinent. Dead

    4. modified Ranking Scale score at 5 years after the operation [5 years after the operation]

      The scale runs from 0-6, running from perfect health without symptoms to death. 0 - No symptoms. No significant disability. Able to carry out all usual activities, despite some symptoms. Slight disability. Able to look after own affairs without assistance, but unable to carry out all previous activities. Moderate disability. Requires some help, but able to walk unassisted. Moderately severe disability. Unable to attend to own bodily needs without assistance, and unable to walk unassisted. Severe disability. Requires constant nursing care and attention, bedridden, incontinent. Dead

    5. modified Ranking Scale score at the last follow-up [up to 10 years after the operation]

      The scale runs from 0-6, running from perfect health without symptoms to death. 0 - No symptoms. No significant disability. Able to carry out all usual activities, despite some symptoms. Slight disability. Able to look after own affairs without assistance, but unable to carry out all previous activities. Moderate disability. Requires some help, but able to walk unassisted. Moderately severe disability. Unable to attend to own bodily needs without assistance, and unable to walk unassisted. Severe disability. Requires constant nursing care and attention, bedridden, incontinent. Dead

    6. Long-term hemorrhagic rate [Conservative group: from the diagnosis to the last follow-up (up to 10 years); Intervention group: from 2 weeks after the operation to the last follow-up (up to 10 years)]

      For conservative group, the observation period was from the diagnosis to the last follow-up. For the intervention group, to rule out the influence of transient unstable blood flow in the perioperative period, the observation period was defined as from 2 weeks after the operation to the last follow-up.

    Secondary Outcome Measures

    1. Obliteration rate [At least 3 years, up to 10 years]

      Confirmed by postoperative DSA or MRI/MRA

    Other Outcome Measures

    1. Incidence of postoperative epilepsy [2 weeks and 1 years after the operation and the last follow-up (up to 10 years)]

      It can only be diagnosed as postoperative epilepsy with the evidence of typical convulsions and other systemic seizures or EEG evidence.

    2. Incidence of perioperative hemorrhage [2 weeks after the operation]

      Bleeding within two weeks after the operation may be related to the redistribution of cerebral blood flow. The diagnosis of perioperative hemorrhage requires CT confirmation.

    3. Incidence of perioperative infarction [2 weeks after the operation]

      Perioperative infarction within two weeks after the operation may be related to the redistribution of cerebral blood flow. The diagnosis of perioperative infarction requires CT confirmation or MRI confirmation.

    4. Incidence of endovascular embolization injury [2 weeks after the operation]

      Endovascular embolization injuries include arterial dissection, catheter failure, etc.

    5. Incidence of radiation necrosis [Half a year and 1 years after the operation and the last follow-up (up to 10 years)]

      Radiation necrosis usually starts to appear within half a year after gamma knife operation. MRI evidence is needed to diagnose radiation necrosis.

    Eligibility Criteria

    Criteria

    Ages Eligible for Study:
    1 Year to 80 Years
    Sexes Eligible for Study:
    All
    Accepts Healthy Volunteers:
    No
    Inclusion Criteria:

    1. The diagnosis of AVM was confirmed with digital subtraction angiography (DSA) and/or magnetic resonance imaging(MRI).

    2. The SM grade was IV and V.

    Exclusion Criteria:

    1. Patients with multiple AVMs.

    2. Patients with hereditary hemorrhagic telangiectasia (HHT).

    3. Patients with missing clinical and imaging data.

    Contacts and Locations

    Locations

    Site City State Country Postal Code
    1 Capital medical university affiliated Beijing Tiantan hospital Beijing Beijing China 101100

    Sponsors and Collaborators

    • Beijing Tiantan Hospital
    • Peking University International Hospital

    Investigators

    • Principal Investigator: Yu Chen, MD, Beijing Tiantan Hospital

    Study Documents (Full-Text)

    None provided.

    More Information

    Publications

    None provided.
    Responsible Party:
    yuanli Zhao, Director of Department of Cerebrovascular Neurosurgery, Beijing Tiantan Hospital
    ClinicalTrials.gov Identifier:
    NCT04136860
    Other Study ID Numbers:
    • KY 2019-09-15
    First Posted:
    Oct 23, 2019
    Last Update Posted:
    Nov 30, 2020
    Last Verified:
    Nov 1, 2020
    Studies a U.S. FDA-regulated Drug Product:
    No
    Studies a U.S. FDA-regulated Device Product:
    No
    Additional relevant MeSH terms:
    Hemangioma
    Intracranial Arteriovenous Malformations
    Arteriovenous Malformations
    Congenital Abnormalities

    Study Results

    No Results Posted as of Nov 30, 2020