Neurofibromatosis Type 1 Clinical Trial
Official title:
A Phase 3 Randomized Study of Selumetinib Versus Carboplatin/Vincristine in Newly Diagnosed or Previously Untreated Neurofibromatosis Type 1 (NF1) Associated Low-Grade Glioma (LGG)
| Verified date | March 2024 |
| Source | National Cancer Institute (NCI) |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Interventional |
This phase III trial studies if selumetinib works just as well as the standard treatment with carboplatin/vincristine (CV) for subjects with NF1-associated low grade glioma (LGG), and to see if selumetinib is better than CV in improving vision in subjects with LGG of the optic pathway (vision nerves). Selumetinib is a drug that works by blocking some enzymes that low-grade glioma tumor cells need for their growth. This results in killing tumor cells. Drugs used as chemotherapy, such as carboplatin and vincristine, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. It is not yet known whether selumetinib works better in treating patients with NF1-associated low-grade glioma compared to standard therapy with carboplatin and vincristine.
| Status | Recruiting |
| Enrollment | 290 |
| Est. completion date | May 1, 2027 |
| Est. primary completion date | May 1, 2027 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 2 Years to 21 Years |
| Eligibility | Inclusion Criteria: - Patients must be >= 2 years and =< 21 years at the time of enrollment - Patients must have a body surface area (BSA) of >= 0.5 m^2 at enrollment - Patients must have neurofibromatosis type 1 (NF1) based on clinical criteria and/or germline genetic testing - Patients must be newly diagnosed or have previously diagnosed NF-1 associated LGG that has not been treated with any modality other than surgery - For patients with optic pathway gliomas (OPGs): - Newly-diagnosed patients with OPG are eligible if there are neurologic symptoms (including visual dysfunction, as defined below) or other exam findings associated with the tumor - Previously-diagnosed patients with OPG are eligible if they have new or worsening neurologic symptoms (including visual dysfunction, as defined below) or have tumor growth - For both newly-diagnosed and previously-diagnosed OPG, the patient may be eligible, irrespective of whether there has been tumor growth or other neurological symptoms or worsening, if they meet at least one of the following visual criteria: - Visual worsening, defined as worsening of visual acuity (VA) or visual fields (VF) documented within the past year (by examination or history); OR - Significant visual dysfunction (defined as VA worse than normal for age by 0.6 logMAR [20/80, 6/24, or 2.5/10] or more in one or both eyes) - For patients with LGG in other locations (i.e., not OPGs): - Newly-diagnosed patients with LGG are eligible if there are neurologic symptoms or other exam findings associated with the tumor - NOTE: Newly-diagnosed patients with LGG without associated neurologic symptoms or exam findings are not eligible - Previously-diagnosed patients with LGG are eligible if they have new or worsening neurologic symptoms or have tumor growth - Although not required, if a biopsy/tumor resection is performed, eligible histologies will include all tumors considered LGG or low-grade astrocytoma (World Health Organization [WHO] grade I and II) by 5th edition WHO classification of central nervous system (CNS) tumors with the exception of subependymal giant cell astrocytoma - Patients must have two-dimensional measurable tumor >= 1 cm^2 - Patients with metastatic disease or multiple independent primary LGGs are allowed on study - Creatinine clearance or radioisotope glomerular filtration Rate (GFR) >= 70 mL/min/1.73 m^2 OR a serum creatinine based on age/gender (within 7 days prior to enrollment) as follows: - Age; maximum serum creatinine (mg/dL) - 2 to < 6 years; 0.8 (male) and 0.8 (female) - 6 to < 10 years; 1 (male) and 1 (female) - 10 to < 13 years; 1.2 (male) and 1.2 (female) - 13 to < 16 years; 1.5 (male) and 1.4 (female) - >= 16 years; 1.7 (male) and 1.4 (female) - Total bilirubin =< 1.5 x upper limit of normal (ULN) for age (within 7 days prior to enrollment) (children with a diagnosis of Gilbert's syndrome will be allowed on study regardless of their total and indirect [unconjugated] bilirubin levels as long as their direct [conjugated] bilirubin is < 3.1 mg/dL) - Serum glutamate pyruvate transaminase (SGPT) (alanine aminotransferase [ALT]) =< 3 x upper limit of normal (ULN) = 135 U/L (within 7 days prior to enrollment). For the purpose of this study, the ULN for SGPT is 45 U/L - Albumin >= 2 g/dL (within 7 days prior to enrollment) - Left ventricular ejection fraction (LVEF) >= 53% (or institutional normal; if the LVEF result is given as a range of values, then the upper value of the range will be used) by echocardiogram (within 4 weeks prior to enrollment) - Corrected QT (QTc) interval =< 450 msec by electrocardiography (EKG) (within 4 weeks prior to enrollment) - Absolute neutrophil count >= 1,000/uL (unsupported) (within 7 days prior to enrollment) - Platelets >= 100,000/uL (unsupported) (within 7 days prior to enrollment) - Hemoglobin >= 8 g/dL (may be supported) (within 7 days prior to enrollment) - Patients with a known seizure disorder should be stable and should have not experienced a significant increase in seizure frequency within 2 weeks prior to enrollment - Patients 2-17 years of age must have a blood pressure that is =< 95th percentile for age, height, and gender at the time of enrollment. Patients >= 18 years of age must have a blood pressure =< 130/80 mmHg at the time of enrollment (with or without the use of antihypertensive medications). - Note: Adequate blood pressure can be achieved using medication for the treatment of hypertension - All patients must have ophthalmology toxicity assessments performed within 4 weeks prior to enrollment - For all patients, an MRI of the brain (with orbital cuts for optic pathway tumors) and/or spine (depending on the site(s) of primary disease) with and without contrast must be performed within 4 weeks prior to enrollment - For patients who undergo a surgery on the target tumor (not required), a pre- and post-operative* MRI of the brain (with orbital cuts for optic pathway tumors) or spine (depending on the site(s) of primary disease) with and without contrast must also be performed within 4 weeks prior to enrollment - The post-operative MRIs should be performed ideally within 48 hours after surgery if possible - Patients must have a performance status corresponding to Eastern Cooperative Oncology Group (ECOG) scores of 0, 1, or 2. Use Karnofsky for patients > 16 years of age and Lansky for patients =< 16 years of age - Patients must have the ability to swallow whole capsules - Patients must have receptive and expressive language skills in English or Spanish to complete the quality of life (QOL) and neurocognitive assessments - All patients and/or their parents or legal guardians must sign a written informed consent. - All institutional, Food and Drug Administration (FDA), and National Cancer Institute (NCI) requirements for human studies must be met. Exclusion Criteria: - Patients must not have received any prior tumor-directed therapy including chemotherapy, radiation therapy, immunotherapy, or bone marrow transplant. Prior surgical intervention is permitted - Patients with a concurrent malignancy or history of treatment (other than surgery) for another tumor within the last year are ineligible - Patients may not be receiving any other investigational agents - Patients with any serious medical or psychiatric illness/ condition, including substance use disorders likely in the judgement of the investigator to interfere or limit compliance with study requirements/treatment are not eligible - Patients who, in the opinion of the investigator, are not able to comply with the study procedures are not eligible - Female patients who are pregnant are not eligible since fetal toxicities and teratogenic effects have been noted for several of the study drugs. A pregnancy test is required for female patients of childbearing potential - Lactating females who plan to breastfeed their infants are not eligible - Sexually active patients of reproductive potential who have not agreed to use an effective contraceptive method for the duration of their study participation and for 12 weeks after stopping study therapy are not eligible - Note: Women of child-bearing potential and males with sexual partners who are pregnant or who could become pregnant (i.e., women of child-bearing potential) should use effective methods of contraception for the duration of the study and for 12 weeks after stopping study therapy to avoid pregnancy and/or potential adverse effects on the developing embryo - Cardiac conditions: - Known genetic disorder that increases risk for coronary artery disease. Note: The presence of dyslipidemia in a family with a history of myocardial infarction is not in itself an exclusion unless there is a known genetic disorder documented - Symptomatic heart failure - New York Heart Association (NYHA) class II-IV prior or current cardiomyopathy - Severe valvular heart disease - History of atrial fibrillation - Ophthalmologic conditions: - Current or past history of central serous retinopathy - Current or past history of retinal vein occlusion or retinal detachment - Patients with uncontrolled glaucoma - If checking pressure is clinically indicated, patients with intraocular pressure (IOP) > 22 mmHg or ULN adjusted by age are not eligible - Ophthalmological findings secondary to long-standing optic pathway glioma (such as visual loss, optic nerve pallor, or strabismus) or longstanding orbito-temporal plexiform neurofibroma (PN), such as visual loss, strabismus) will NOT be considered a significant abnormality for the purposes of the study - Treatments and/or medications patient is receiving that would make her/him ineligible, such as: - Supplementation with vitamin E greater than 100% of the daily recommended dose. Any multivitamin containing vitamin E must be stopped prior to study enrollment even if less than 100% of the daily recommended dosing for vitamin E - Surgery within 2 weeks prior to enrollment, with the exception of surgical placement for vascular access or cerebrospinal fluid (CSF) diverting procedures such as endoscopic third ventriculostomy (ETV) and ventriculo-peritoneal (VP) shunt. - Note: Patients must have healed from any prior surgery prior to enrollment - Patients who have an uncontrolled infection are not eligible |
| Country | Name | City | State |
|---|---|---|---|
| Canada | IWK Health Centre | Halifax | Nova Scotia |
| Canada | Centre Hospitalier Universitaire Sainte-Justine | Montreal | Quebec |
| Canada | The Montreal Children's Hospital of the MUHC | Montreal | Quebec |
| Canada | Centre Hospitalier Universitaire de Sherbrooke-Fleurimont | Sherbrooke | Quebec |
| Canada | Hospital for Sick Children | Toronto | Ontario |
| Puerto Rico | HIMA San Pablo Oncologic Hospital | Caguas | |
| United States | Children's Hospital Medical Center of Akron | Akron | Ohio |
| United States | Albany Medical Center | Albany | New York |
| United States | Presbyterian Hospital | Albuquerque | New Mexico |
| United States | University of New Mexico Cancer Center | Albuquerque | New Mexico |
| United States | C S Mott Children's Hospital | Ann Arbor | Michigan |
| United States | Children's Healthcare of Atlanta - Egleston | Atlanta | Georgia |
| United States | Children's Hospital Colorado | Aurora | Colorado |
| United States | Dell Children's Medical Center of Central Texas | Austin | Texas |
| United States | Johns Hopkins University/Sidney Kimmel Cancer Center | Baltimore | Maryland |
| United States | Eastern Maine Medical Center | Bangor | Maine |
| United States | Walter Reed National Military Medical Center | Bethesda | Maryland |
| United States | Children's Hospital of Alabama | Birmingham | Alabama |
| United States | Saint Luke's Cancer Institute - Boise | Boise | Idaho |
| United States | Dana-Farber Cancer Institute | Boston | Massachusetts |
| United States | Massachusetts General Hospital Cancer Center | Boston | Massachusetts |
| United States | Roswell Park Cancer Institute | Buffalo | New York |
| United States | University of Vermont and State Agricultural College | Burlington | Vermont |
| United States | UNC Lineberger Comprehensive Cancer Center | Chapel Hill | North Carolina |
| United States | Medical University of South Carolina | Charleston | South Carolina |
| United States | Carolinas Medical Center/Levine Cancer Institute | Charlotte | North Carolina |
| United States | Lurie Children's Hospital-Chicago | Chicago | Illinois |
| United States | University of Chicago Comprehensive Cancer Center | Chicago | Illinois |
| United States | University of Illinois | Chicago | Illinois |
| United States | Cincinnati Children's Hospital Medical Center | Cincinnati | Ohio |
| United States | Rainbow Babies and Childrens Hospital | Cleveland | Ohio |
| United States | Columbia Regional | Columbia | Missouri |
| United States | Prisma Health Richland Hospital | Columbia | South Carolina |
| United States | Nationwide Children's Hospital | Columbus | Ohio |
| United States | UT Southwestern/Simmons Cancer Center-Dallas | Dallas | Texas |
| United States | Geisinger Medical Center | Danville | Pennsylvania |
| United States | Dayton Children's Hospital | Dayton | Ohio |
| United States | Blank Children's Hospital | Des Moines | Iowa |
| United States | Children's Hospital of Michigan | Detroit | Michigan |
| United States | Wayne State University/Karmanos Cancer Institute | Detroit | Michigan |
| United States | Duke University Medical Center | Durham | North Carolina |
| United States | El Paso Children's Hospital | El Paso | Texas |
| United States | Sanford Broadway Medical Center | Fargo | North Dakota |
| United States | Cook Children's Medical Center | Fort Worth | Texas |
| United States | University of Florida Health Science Center - Gainesville | Gainesville | Florida |
| United States | Corewell Health Grand Rapids Hospitals - Helen DeVos Children's Hospital | Grand Rapids | Michigan |
| United States | BI-LO Charities Children's Cancer Center | Greenville | South Carolina |
| United States | East Carolina University | Greenville | North Carolina |
| United States | Connecticut Children's Medical Center | Hartford | Connecticut |
| United States | Penn State Children's Hospital | Hershey | Pennsylvania |
| United States | Memorial Regional Hospital/Joe DiMaggio Children's Hospital | Hollywood | Florida |
| United States | Kapiolani Medical Center for Women and Children | Honolulu | Hawaii |
| United States | Baylor College of Medicine/Dan L Duncan Comprehensive Cancer Center | Houston | Texas |
| United States | M D Anderson Cancer Center | Houston | Texas |
| United States | Ascension Saint Vincent Indianapolis Hospital | Indianapolis | Indiana |
| United States | Riley Hospital for Children | Indianapolis | Indiana |
| United States | University of Iowa/Holden Comprehensive Cancer Center | Iowa City | Iowa |
| United States | University of Mississippi Medical Center | Jackson | Mississippi |
| United States | Nemours Children's Clinic-Jacksonville | Jacksonville | Florida |
| United States | Children's Mercy Hospitals and Clinics | Kansas City | Missouri |
| United States | East Tennessee Childrens Hospital | Knoxville | Tennessee |
| United States | Dartmouth Hitchcock Medical Center/Dartmouth Cancer Center | Lebanon | New Hampshire |
| United States | University of Kentucky/Markey Cancer Center | Lexington | Kentucky |
| United States | Arkansas Children's Hospital | Little Rock | Arkansas |
| United States | Loma Linda University Medical Center | Loma Linda | California |
| United States | Children's Hospital Los Angeles | Los Angeles | California |
| United States | Norton Children's Hospital | Louisville | Kentucky |
| United States | Covenant Children's Hospital | Lubbock | Texas |
| United States | UMC Cancer Center / UMC Health System | Lubbock | Texas |
| United States | University of Wisconsin Carbone Cancer Center - University Hospital | Madison | Wisconsin |
| United States | Saint Jude Children's Research Hospital | Memphis | Tennessee |
| United States | Banner Children's at Desert | Mesa | Arizona |
| United States | Nicklaus Children's Hospital | Miami | Florida |
| United States | Children's Hospital of Wisconsin | Milwaukee | Wisconsin |
| United States | Children's Hospitals and Clinics of Minnesota - Minneapolis | Minneapolis | Minnesota |
| United States | University of Minnesota/Masonic Cancer Center | Minneapolis | Minnesota |
| United States | Morristown Medical Center | Morristown | New Jersey |
| United States | Vanderbilt University/Ingram Cancer Center | Nashville | Tennessee |
| United States | Rutgers Cancer Institute of New Jersey-Robert Wood Johnson University Hospital | New Brunswick | New Jersey |
| United States | Yale University | New Haven | Connecticut |
| United States | The Steven and Alexandra Cohen Children's Medical Center of New York | New Hyde Park | New York |
| United States | Children's Hospital New Orleans | New Orleans | Louisiana |
| United States | Ochsner Medical Center Jefferson | New Orleans | Louisiana |
| United States | Laura and Isaac Perlmutter Cancer Center at NYU Langone | New York | New York |
| United States | Memorial Sloan Kettering Cancer Center | New York | New York |
| United States | Children's Hospital of The King's Daughters | Norfolk | Virginia |
| United States | Kaiser Permanente-Oakland | Oakland | California |
| United States | University of Oklahoma Health Sciences Center | Oklahoma City | Oklahoma |
| United States | Children's Hospital and Medical Center of Omaha | Omaha | Nebraska |
| United States | University of Nebraska Medical Center | Omaha | Nebraska |
| United States | Children's Hospital of Orange County | Orange | California |
| United States | AdventHealth Orlando | Orlando | Florida |
| United States | Arnold Palmer Hospital for Children | Orlando | Florida |
| United States | Nemours Children's Hospital | Orlando | Florida |
| United States | Lucile Packard Children's Hospital Stanford University | Palo Alto | California |
| United States | Sacred Heart Hospital | Pensacola | Florida |
| United States | Children's Hospital of Philadelphia | Philadelphia | Pennsylvania |
| United States | Saint Christopher's Hospital for Children | Philadelphia | Pennsylvania |
| United States | Phoenix Childrens Hospital | Phoenix | Arizona |
| United States | Children's Hospital of Pittsburgh of UPMC | Pittsburgh | Pennsylvania |
| United States | Legacy Emanuel Children's Hospital | Portland | Oregon |
| United States | Oregon Health and Science University | Portland | Oregon |
| United States | Rhode Island Hospital | Providence | Rhode Island |
| United States | Virginia Commonwealth University/Massey Cancer Center | Richmond | Virginia |
| United States | Mayo Clinic in Rochester | Rochester | Minnesota |
| United States | University of Rochester | Rochester | New York |
| United States | Beaumont Children's Hospital-Royal Oak | Royal Oak | Michigan |
| United States | Cardinal Glennon Children's Medical Center | Saint Louis | Missouri |
| United States | Washington University School of Medicine | Saint Louis | Missouri |
| United States | Johns Hopkins All Children's Hospital | Saint Petersburg | Florida |
| United States | Primary Children's Hospital | Salt Lake City | Utah |
| United States | Children's Hospital of San Antonio | San Antonio | Texas |
| United States | Methodist Children's Hospital of South Texas | San Antonio | Texas |
| United States | University of Texas Health Science Center at San Antonio | San Antonio | Texas |
| United States | Naval Medical Center -San Diego | San Diego | California |
| United States | Rady Children's Hospital - San Diego | San Diego | California |
| United States | UCSF Medical Center-Mission Bay | San Francisco | California |
| United States | Maine Children's Cancer Program | Scarborough | Maine |
| United States | Seattle Children's Hospital | Seattle | Washington |
| United States | Providence Sacred Heart Medical Center and Children's Hospital | Spokane | Washington |
| United States | Southern Illinois University School of Medicine | Springfield | Illinois |
| United States | State University of New York Upstate Medical University | Syracuse | New York |
| United States | Madigan Army Medical Center | Tacoma | Washington |
| United States | Mary Bridge Children's Hospital and Health Center | Tacoma | Washington |
| United States | New York Medical College | Valhalla | New York |
| United States | Children's National Medical Center | Washington | District of Columbia |
| United States | Alfred I duPont Hospital for Children | Wilmington | Delaware |
| United States | Wake Forest University Health Sciences | Winston-Salem | North Carolina |
| Lead Sponsor | Collaborator |
|---|---|
| National Cancer Institute (NCI) |
United States, Canada, Puerto Rico,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Other | Change in circumpapillary retinal nerve fiber layer (cpRNFL) thickness by treatment arm | cpRNFL thickness is a measure of optical coherence tomography (OCT). This assessment will be conducted in a subgroup of consenting patients with optic pathway gliomas (OPGs) treated at select COG institutions with the expertise to utilize this technology. Analysis will be conducted on a per-eye basis. | Baseline and 12 months | |
| Other | cpRNFL thickness at baseline by visual acuity (VA) treatment response | Data will be analyzed on a per-eye basis. Children with OPGs will be classified into decline in VA versus (vs.) stable/improved VA, depending on VA treatment response at 12 months. cpRNFL thickness prior to treatment initiation will be compared. | Baseline and 12 months | |
| Other | cpRNFL thickness change over time by visual acuity (VA) treatment response | Data will be analyzed on a per-eye basis. Children with OPGs will be classified into decline in VA vs. stable/improved VA, depending on VA treatment response at 12 months. cpRNFL thickness change over time will be compared. | Baseline and 12 months | |
| Other | Change in macular ganglion cell - inner plexiform layer (GCIPL) thickness by treatment arm | GCIPL thickness is another measure of optical coherence tomography (OCT). This assessment will be conducted in a subgroup of consenting patients with optic pathway gliomas (OPGs) treated at select COG institutions with the expertise to utilize this technology. Analysis will be conducted on a per-eye basis. | Baseline and 12 months | |
| Other | GCIPL thickness at baseline by visual acuity (VA) treatment response | Data will be analyzed on a per-eye basis. Children with OPGs will be classified into decline in VA vs. stable/improved VA, depending on VA treatment response at 12 months. GCIPL thickness prior to treatment initiation will be compared. | Baseline and 12 months | |
| Other | GCIPL thickness change over time by visual acuity (VA) treatment response | Data will be analyzed on a per-eye basis. Children with OPGs will be classified into decline in VA vs. stable/improved VA, depending on VA treatment response at 12 months. GCIPL thickness change over time will be compared. | Baseline and 12 months | |
| Other | Novel semi-automated volumetric magnetic resonance imaging (MRI) measure at 3 months | Optic pathway tumors will be classified into progressive disease (PD), stable disease (SD), partial response (PR), and complete response (CR) using novel semi-automated volumetric MRI measurements. This assessment will include patients with OPGs consenting to volumetric MRI study. | 3 months on study | |
| Other | Percent change in tumor size between volumetric measure and traditional 2-dimentional (2-D) measure at 3 months | This assessment includes participants with OPGs consenting to volumetric MRI study. | 3 months on study | |
| Other | Novel semi-automated volumetric MRI measure at 6 months | Optic pathway tumors will be classified into progressive disease (PD), stable disease (SD), partial response (PR), and complete response (CR) using novel semi-automated volumetric MRI measurements. This assessment will include patients with OPGs consenting to volumetric MRI study. | 6 months on study | |
| Other | Percent change in tumor size between volumetric measure and traditional 2-dimentional (2-D) measure at 6 months | This assessment includes participants with OPGs consenting to volumetric MRI study. | 6 months on study | |
| Other | Novel semi-automated volumetric MRI measure at 9 months | Optic pathway tumors will be classified into progressive disease (PD), stable disease (SD), partial response (PR), and complete response (CR) using novel semi-automated volumetric MRI measurements. This assessment will include patients with OPGs consenting to volumetric MRI study. | 9 months on study | |
| Other | Percent change in tumor size between volumetric measure and traditional 2-dimentional (2-D) measure at 9 months | This assessment includes participants with OPGs consenting to volumetric MRI study. | 9 months on study | |
| Other | Novel semi-automated volumetric MRI measure at 12 months | Optic pathway tumors will be classified into progressive disease (PD), stable disease (SD), partial response (PR), and complete response (CR) using novel semi-automated volumetric MRI measurements. This assessment will include patients with OPGs consenting to volumetric MRI study. | 12 months on study | |
| Other | Percent change in tumor size between volumetric measure and traditional 2-dimentional (2-D) measure at 12 months | This assessment includes participants with OPGs consenting to volumetric MRI study. | 12 months on study | |
| Other | Novel semi-automated volumetric MRI measure at 15 months | Optic pathway tumors will be classified into progressive disease (PD), stable disease (SD), partial response (PR), and complete response (CR) using novel semi-automated volumetric MRI measurements. This assessment will include patients with OPGs consenting to volumetric MRI study. | 15 months on study | |
| Other | Percent change in tumor size between volumetric measure and traditional 2-dimentional (2-D) measure at 15 months | This assessment includes participants with OPGs consenting to volumetric MRI study. | 15 months on study | |
| Other | Tumor and blood banking | Up to 10 years | ||
| Primary | Event-free survival (EFS) | EFS is defined as time from randomization to the first occurrence of any of the following events: clinical or radiographic disease progression, disease recurrence, second malignant neoplasm, or death from any cause. Patients who are event-free will be censored at the time of last follow-up. Hazard ratio based on a stratified Cox proportional hazards model will be reported, along with a 90% confidence interval. | From randomization to the first occurrence of any of the following events: clinical or radiographic disease progression, disease recurrence, second malignant neoplasm, or death from any cause, assessed up to 3 years after accrual completion | |
| Primary | Number of participants with visual acuity (VA) improvement per arm | VA will be assessed using Teller acuity cards (TAC). A significant improvement in VA will be defined as a decrease of >= 0.2 logMAR (corrected for age) from baseline (pre-treatment baseline) to end of about 12 months of treatment. The primary analysis will be based on per subject outcome (rather than per eye). | Baseline and end of about 12 months of treatment | |
| Secondary | Radiographic tumor response rate | Tumors will be classified into complete response (CR), partial response (PR), stable disease (SD), and progressive disease (PD). Radiologic response rates will be summarized per arm and be tested for a difference between the two arms using an exact binomial test. | Assessed up to 3 years after accrual completion | |
| Secondary | Overall survival (OS) | OS is defined as the time from randomization until death from any cause or till the time of last follow-up for patients who are alive at the time of analysis. Hazard ratio will be reported, along with a 90% confidence interval. | From randomization until death from any cause or till the time of last follow-up for patients who are alive at the time of analysis, assessed up to 3 years after accrual completion | |
| Secondary | Change in VA using HOTV letter acuity testing | HOTV is a recognition acuity measure. It will be conducted on patients who are developmentally able to perform this testing. | Baseline and end of about 12 months of treatment | |
| Secondary | Change in motor function | The Vineland-3 Motor Scale from the Comprehensive Parent Rating Form will be used to assess motor deficits. Change in Vineland motor scale from baseline to about 12 months of treatment will be compared between two treatment arms. | Baseline and approximately 12 months of treatment | |
| Secondary | Change in quality of life (QOL) | Will be measured by Pain and Hurt subscale score. QOL will be assessed by Pediatric Quality of Life (PedsQL) Generic and Brain Tumor modules. Analysis will be based on a 2-sample t-test comparing change in Pain and Hurt subscale score from baseline to 12 months for the two arms. | Baseline and 12 months of treatment | |
| Secondary | Change in quality of life (QOL) | Will be measured by Movement and Balance subscale score. QOL will be assessed by Pediatric Quality of Life (PedsQL) Generic and Brain Tumor modules. Analysis will be based on a 2-sample t-test comparing change in Movement and Balance subscale score from baseline to 12 months for the two arms. | Baseline and 12 months of treatment | |
| Secondary | Change in executive function | Will be measured by BRIEF Cognitive Regulation Index (CRI). Executive function will be measured by age-appropriate Behavior Rating Inventory of Executive Function (BRIEF) questionnaire. Analysis will be based on a 2-sample t-test comparing change in the designated score from baseline to 24 months for the two arms. | Baseline and 24 months of treatment | |
| Secondary | Change in neurocognitive function | Will be measured by Cogstate composite score. Neurocognitive function will be measured by a computerized battery (Cogstate) testing. Analysis will be based on a 2-sample t-test comparing change in Cogstate composite score from baseline to 24 months for the two arms. | Baseline and 24 months of treatment |
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