High-Dose Deferoxamine in Intracerebral Hemorrhage

Phase 2

Terminated

Conditions: Intracerebral Hemorrhage

Interventions: Drug: Normal saline
Drug: Deferoxamine

Registration Number: NCT01662895

Lead Sponsor: Beth Israel Deaconess Medical Center

Brief Summary: The main purpose of this study is to determine whether treatment with deferoxamine mesylate is of sufficient promise to improve outcome before pursuing a larger clinical trial to examine its effectiveness as a treatment for brain hemorrhage.

Detailed Description: Several studies show that hemoglobin breakdown and subsequent iron accumulation in the brain play a role in mediating secondary neuronal injury after intracerebral hemorrhage (ICH); and that treatment with the iron chelator, deferoxamine (DFO), provides neuroprotection in animal models of ICH. The investigators recently concluded a phase-I, safety and dose-finding study of DFO in patients with ICH; repeated daily intravenous (IV) infusions of DFO in doses up to 62 mg/kg/day (up to a maximum daily dose of 6000 mg/day) were well-tolerated and did not increase serious adverse events or mortality. The current study builds on these results to assess the potential utility of DFO as a therapeutic intervention in ICH.

This is a prospective, multi-center, double-blind, randomized, placebo-armed, phase-II, futility clinical study to determine if this maximum tolerated dose of DFO is of sufficient promise to improve outcome prior to embarking on a large-scale and costly phase III study to assess its efficacy in ICH. The investigators will randomize 324 subjects with ICH equally (1:1) to either DFO at 62 mg/kg/day (up to a maximum daily dose of 6000 mg/day), or saline placebo, given by continuous IV infusion for 5 consecutive days. Treatment will be initiated within 24 hours after ICH symptom onset. Subjects will be stratified based on baseline ICH score (0-2 vs. 3-5) and ICH onset-to-treatment time (OTT) window (≤12h vs. \>12-24h), so that the resulting randomization ratio is 1:1 within each ICH score and OTT window strata.

The main objectives are:

1. To assess whether it would be futile to move DFO forward into a Phase III trial based on the end point of good outcome (defined as dichotomized modified Rankin Scale score of 0-2 at 3 months). At the conclusion of the study, the proportion of DFO-treated subjects with a good outcome will be compared to the placebo proportion in a futility analysis. If the DFO-treated proportion is less than 12% greater than the placebo proportion, then it would be futile to move DFO forward to future Phase III testing.

2. To collect more data on treatment-related adverse events in order to ascertain that patients with ICH can tolerate this dose given over an extended 5-day duration of infusion without experiencing unreasonable neurological complications, increased mortality, or other serious adverse events related to DFO use.

Secondary and exploratory objectives include:

1- Determining the overall distribution of scores on mRS at 3 months in DFO-treated subjects, and to perform a dichotomized analysis considering the proportion of DFO- and placebo-treated subjects with mRS 0-3.

Successful completion of this study will provide a crucial "go/no-go" signal for DFO in ICH. Futility will discourage a major phase III trial, whereas non-futility will offer strong support for a phase III study to detect clinical efficacy. Results from this study can provide valuable information to guide the design and sample size estimation of a potential future Phase III trial. ICH is a frequent cause of disability and death. A successful study demonstrating the efficacy of DFO would be of considerable public health significance.

Update: Enrollment into the trial was terminated by the Data and Safety Monitoring Board because of an imbalance in subjects with reported ARDS. At the time of termination, 42 subjects had been enrolled. As a result, any formal evaluation of these objectives would be under-powered, but descriptive statistics are provided. The protocol was subsequently modified to protect subject safety, and the trial was re-initiated as iDEF (NCT02175225).

Recruitment & Eligibility

Status: TERMINATED

Sex: All

Target Recruitment: 42

Inclusion Criteria

Age ≥ 18 and ≤ 80 years
The diagnosis of ICH is confirmed by brain CT scan
NIHSS score ≥ 6 and GCS > 6 upon presentation
The first dose of the study drug can be administered within 24h of ICH symptom onset
Functional independence prior to ICH, defined as pre-ICH mRS ≤ 1
Signed and dated informed consent is obtained.

Exclusion Criteria

Previous chelation therapy or known hypersensitivity to DFO products
Known severe iron deficiency anemia (defined as hemoglobin concentration < 7g/dL or requiring blood transfusions)
Abnormal renal function, defined as serum creatinine > 2 mg/dL
Planned surgical evacuation of ICH prior to administration of study drug (placement of a catheter for ventricular drainage is not a contraindication to enrollment)
Suspected secondary ICH related to tumour, ruptured aneurysm or arteriovenous malformation, hemorrhagic transformation of an ischemic infarct, or venous sinus thrombosis
Infratentorial hemorrhage
Irreversibly impaired brainstem function (bilateral fixed and dilated pupils and extensor motor posturing)
Complete unconsciousness, defined as a score of 3 on item 1a of the NIHSS (Responds only with reflex motor or autonomic effects or totally unresponsive, and flaccid)
Pre-existing disability, defined as pre-ICH mRS ≥ 2
Coagulopathy - defined as elevated aPTT or INR >1.3 upon presentation; concurrent use of direct thrombin inhibitors (such as dabigatran), direct factor Xa inhibitors (such as rivaroxaban), or low-molecular-weight heparin
Taking iron supplements containing ≥ 325 mg of ferrous iron, or prochlorperazine
Patients with heart failure taking > 500 mg of vitamin C daily
Known severe hearing loss
Known pregnancy, or positive pregnancy test, or breastfeeding
Patients known or suspected of not being able to comply with the study protocol due to alcoholism, drug dependency, noncompliance, living in another state or any other cause
Positive drug screen for cocaine upon presentation
Any condition which, in the judgement of the investigator, might increase the risk to the patient
Life expectancy of less than 90 days due to comorbid conditions
Concurrent participation in another research protocol for investigation of another experimental therapy
Indication that a new Do Not Resuscitate (DNR) or Comfort Measures Only (CMO) order will be implemented within the first 72 hours of hospitalization.

Study & Design

Study Type: INTERVENTIONAL

Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Normal Saline	Normal saline	0.9% sodium chloride
Deferoxamine	Deferoxamine	Deferoxamine mesylate supplied in vials containing 2 gm of sterile, lyophilized, powdered deferoxamine mesylate. The drug will be reconstituted for injection, by dissolving in 20 ml of sterile water. The reconstituted drug will be further diluted in normal saline to achieve a final concentration of 7.5 mg per ml.

Primary Outcome Measures

Name	Time	Method
Number of Subjects With Modified Rankin Scale (mRS) Score 0-2	90 days	The primary outcome measure of efficacy is the modified Rankin Scale (mRS) score, dichotomized to define good functional outcome as mRS 0-2 at 90 days. The minimum mRS score is 0 (i.e. no disability). The maximum score is 6 (i.e. dead).

Secondary Outcome Measures

Name	Time	Method
Number of Subjects With mRS Score 0-3	90 days	The proportion of DFO- and placebo-treated subjects with mRS 0-3 vs. 4-6 at 90 days

Trial Locations

Locations (29): University of Maryland Medical Center
🇺🇸
Baltimore, Maryland, United States
The Cleveland Clinic Foundation
🇺🇸
Cleveland, Ohio, United States
Tufts Medical Center
🇺🇸
Boston, Massachusetts, United States
Beth Israel Deaconess Medical Center
🇺🇸
Boston, Massachusetts, United States
University of Pennsylvania Medical Center
🇺🇸
Philadelphia, Pennsylvania, United States
University of Massachusetts Memorial Medical Center
🇺🇸
Worcester, Massachusetts, United States
Johns Hopkins Hospital
🇺🇸
Baltimore, Maryland, United States
Mackenzie Health Sciences Centre
🇨🇦
Edmonton, Alberta, Canada
The Ohio State University Medical Center
🇺🇸
Columbus, Ohio, United States
Massachusetts General Hospital
🇺🇸
Boston, Massachusetts, United States
Stanford University Hospital
🇺🇸
Palo Alto, California, United States
Hartford Hospital
🇺🇸
Hartford, Connecticut, United States
Halifax Infirmary
🇨🇦
Halifax, Nova Scotia, Canada
Harborview Medical Center
🇺🇸
Seattle, Washington, United States
Foothills Medical Center
🇨🇦
Calgary, Alberta, Canada
St. Joseph's Hospital
🇺🇸
Phoenix, Arizona, United States
San Francisco General Hospital
🇺🇸
San Francisco, California, United States
Henry Ford Hospital
🇺🇸
Detroit, Michigan, United States
The University of Texas Health Science Center
🇺🇸
Houston, Texas, United States
Oregon Health & Science University
🇺🇸
Portland, Oregon, United States
Hôpital de l'Enfant-Jésus - CHU de Québec
🇨🇦
Québec, Canada
The University of Florida College of Medicine
🇺🇸
Jacksonville, Florida, United States
University of Iowa Hospital
🇺🇸
Iowa City, Iowa, United States
Duke University Hospital
🇺🇸
Durham, North Carolina, United States
University of Virginia Health System
🇺🇸
Charlottesville, Virginia, United States
Yale New Haven Hospital
🇺🇸
New Haven, Connecticut, United States
University of North Carolina Medical Center
🇺🇸
Chapel Hill, North Carolina, United States
Medical University of South Carolina
🇺🇸
Charleston, South Carolina, United States
Rhode Island Hospital
🇺🇸
Providence, Rhode Island, United States