Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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UNKNOWN
PHASE2/PHASE3
60 participants
INTERVENTIONAL
2010-06-30
2015-12-31
Brief Summary
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Detailed Description
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Percutaneous or surgical therapy can lead to non-negligible side-effects and limited efficacy for pediatric population or young adults with osteoid osteoma. We investigate whether selective focal ablation of osteoid lesions can reduce this treatment burden without compromising long-term clinical efficacy.
Treatments will be performed using a 3.0-T MR unit (Discovery MR 750; GE Medical Systems, Milwaukee,Wis) featuring a Conformité Européenne-approved ExAblate MR-guided focused ultrasound system (InSightec,Tirat-Carmel, Israel) in which the ultrasound transducer is housed in the patient table. Alignment between the lesion and the transducer will be obtained in each patient by using a moistened gel pad and degassed water for acoustic coupling. This approach avoided air- skin interfaces, which can cause energy reflection and skin burns. After patient positioning, the lesion is localized with MR for treatment by using variably orientated non enhanced T1- and T2-weighted acquisitions. In general, an ideal 90° incidental angle between the planned focused ultrasound path and the lesion, relative to the bone long axis, is obtained or at least approximated. The shortest skin-lesion distance is selected for the beam pathway. Care will be taken to avoid multiple interfaces (skin, muscle, fasciae) as much as possible so as to minimize deflection of the focused ultrasound beam. Each lesion will be manually segmented by the operator to precisely delineate the nidus, skin surface, and cortical surface of the bone. Sensitive areas surrounding the target volumes will also be drawn to limit the energy and prevent unwanted thermal damage. The treatment plan is than calculated automatically by the ExAblate software according to previously acquired parameters, including the energy (in joules), the interval between two sonications, the sonication duration, and the spot size, which are modifiable by the operator. Thereafter, a low-energy sonication test will be performed to confirm the path and correct direction of the ultrasound beam into the target area and to confirm the planned energy dose and the effective dose deployed to the lesion.
The increase in tissue temperature is evaluated by using real-time MR thermometry of phase-difference fast spoiled gradient-echo sequences (proton resonant frequency shift method). The sequences are acquired to provide temperature-dependent images and real-time mapping of the thermal dose on a preferred imaging plane. The proton resonant frequency shift method starts simultaneously with each sonication. Similar to other treatments of bone lesions that use MR-guided focused ultrasound, the temperature increase is determined on the adjacent periskeletal tissue. In fact, proton resonant frequency sequences cannot effectively measure the temperature on the bone surface because of the absence of moving protons in the cortical zone. Thus, MR thermometry reveals a temperature increase, which propagates by conductive processes from the bone to the immediately adjacent soft tissues that respond linearly to an increase in bone temperature, thereby allowing an accurate measure of heating. Portions of periosteum and adjacent tumor that are not fully ablated can be re-treated if deemed necessary. The critical temperature threshold for ablation is set at 65°C in the soft tissues adjacent to the targeted bone structures. Postprocedural care includes evaluation of possible skin burns, monitoring of vital signs for 2 hours after treatment in the MR department, and administration of analgesic and/or antiemetic drugs if requested. Treatment-related adverse events will be recorded as minor or major on the basis of medical severity, additional treatment, and long-term consequences for patients. Treatment will be performed on an outpatient basis in the patients who receive only local and peripheral anesthesia; the patient who receives general anesthesia is usually hospitalized for 24 hours after treatment.
Conditions
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Keywords
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Study Design
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NA
SINGLE_GROUP
TREATMENT
NONE
Study Groups
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Osteoid Osteoma
MR guided High Intensity focused ultrasound
MR guided High Intensity focused ultrasound
High Intensity Focused Ultrasound is a totally non-invasive procedure that can destroy tumors transcutaneously; safety and efficacy profile are dramatically increased by the MRI guidance
Interventions
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MR guided High Intensity focused ultrasound
High Intensity Focused Ultrasound is a totally non-invasive procedure that can destroy tumors transcutaneously; safety and efficacy profile are dramatically increased by the MRI guidance
Eligibility Criteria
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Inclusion Criteria
* painful non-vertebral location
Exclusion Criteria
* vertebral location of the lesion
* claustrophobia and prior surgery or RFA are not an absolute exclusion criterion
3 Years
80 Years
ALL
No
Sponsors
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University of Roma La Sapienza
OTHER
Responsible Party
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Alessandro Napoli
MD, PhD
Principal Investigators
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Alessandro napoli, MD, PhD
Role: PRINCIPAL_INVESTIGATOR
Sapienza University of Rome, Policlinico Umberto I Hospital
Locations
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Alessandro Napoli
Rome, , Italy
Countries
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Central Contacts
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Facility Contacts
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Alessandro Napoli
Role: primary
References
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Napoli A, Bazzocchi A, Scipione R, Anzidei M, Saba L, Ghanouni P, Cozzi DA, Catalano C. Noninvasive Therapy for Osteoid Osteoma: A Prospective Developmental Study with MR Imaging-guided High-Intensity Focused Ultrasound. Radiology. 2017 Oct;285(1):186-196. doi: 10.1148/radiol.2017162680. Epub 2017 Jun 7.
Other Identifiers
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OO-MC-MRGFUS-002
Identifier Type: -
Identifier Source: org_study_id