Hydroxyurea Optimization through Precision Study (HOPS): study protocol for a randomized, multicenter trial in children with sickle cell anemia

Hydroxyurea Optimization through Precision Study (HOPS): study protocol for a randomized, multicenter trial in children with sickle cell anemia

Abstract Background Sickle cell disease (SCD) is a severe and devastating hematological disorder that affects over 100,000 persons in the USA and millions worldwide. Hydroxyurea is the primary disease-modifying therapy for the SCD, with proven benefits to reduce both short-term and long-term complic...

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Main Authors: Emily R. Meier, Susan E. Creary, Matthew M. Heeney, Min Dong, Abena O. Appiah-Kubi, Stephen C. Nelson, Omar Niss, Connie Piccone, Maa-Ohui Quarmyne, Charles T. Quinn, Kay L. Saving, John P. Scott, Ravi Talati, Teresa S. Latham, Amanda Pfeiffer, Lisa M. Shook, Alexander A. Vinks, Adam Lane, Patrick T. McGann
Format: Article
Language:English
Published: BMC 2020-11-01
Series:Trials
Subjects:
Sickle cell anemia
Pharmacokinetics
Hydroxyurea
Pediatrics
Online Access:https://doi.org/10.1186/s13063-020-04912-z
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language English
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author Emily R. Meier
Susan E. Creary
Matthew M. Heeney
Min Dong
Abena O. Appiah-Kubi
Stephen C. Nelson
Omar Niss
Connie Piccone
Maa-Ohui Quarmyne
Charles T. Quinn
Kay L. Saving
John P. Scott
Ravi Talati
Teresa S. Latham
Amanda Pfeiffer
Lisa M. Shook
Alexander A. Vinks
Adam Lane
Patrick T. McGann
spellingShingle Emily R. Meier
Susan E. Creary
Matthew M. Heeney
Min Dong
Abena O. Appiah-Kubi
Stephen C. Nelson
Omar Niss
Connie Piccone
Maa-Ohui Quarmyne
Charles T. Quinn
Kay L. Saving
John P. Scott
Ravi Talati
Teresa S. Latham
Amanda Pfeiffer
Lisa M. Shook
Alexander A. Vinks
Adam Lane
Patrick T. McGann
Hydroxyurea Optimization through Precision Study (HOPS): study protocol for a randomized, multicenter trial in children with sickle cell anemia
Trials
Sickle cell anemia
Pharmacokinetics
Hydroxyurea
Pediatrics
author_facet Emily R. Meier
Susan E. Creary
Matthew M. Heeney
Min Dong
Abena O. Appiah-Kubi
Stephen C. Nelson
Omar Niss
Connie Piccone
Maa-Ohui Quarmyne
Charles T. Quinn
Kay L. Saving
John P. Scott
Ravi Talati
Teresa S. Latham
Amanda Pfeiffer
Lisa M. Shook
Alexander A. Vinks
Adam Lane
Patrick T. McGann
author_sort Emily R. Meier
title Hydroxyurea Optimization through Precision Study (HOPS): study protocol for a randomized, multicenter trial in children with sickle cell anemia
title_short Hydroxyurea Optimization through Precision Study (HOPS): study protocol for a randomized, multicenter trial in children with sickle cell anemia
title_full Hydroxyurea Optimization through Precision Study (HOPS): study protocol for a randomized, multicenter trial in children with sickle cell anemia
title_fullStr Hydroxyurea Optimization through Precision Study (HOPS): study protocol for a randomized, multicenter trial in children with sickle cell anemia
title_full_unstemmed Hydroxyurea Optimization through Precision Study (HOPS): study protocol for a randomized, multicenter trial in children with sickle cell anemia
title_sort hydroxyurea optimization through precision study (hops): study protocol for a randomized, multicenter trial in children with sickle cell anemia
publisher BMC
series Trials
issn 1745-6215
publishDate 2020-11-01
description Abstract Background Sickle cell disease (SCD) is a severe and devastating hematological disorder that affects over 100,000 persons in the USA and millions worldwide. Hydroxyurea is the primary disease-modifying therapy for the SCD, with proven benefits to reduce both short-term and long-term complications. Despite the well-described inter-patient variability in pharmacokinetics (PK), pharmacodynamics, and optimal dose, hydroxyurea is traditionally initiated at a weight-based dose with a subsequent conservative dose escalation strategy to avoid myelosuppression. Because the dose escalation process is time consuming and requires frequent laboratory checks, many providers default to a fixed dose, resulting in inadequate hydroxyurea exposure and suboptimal benefits for many patients. Results from a single-center trial of individualized, PK-guided dosing of hydroxyurea for children with SCD suggest that individualized dosing achieves the optimal dose more rapidly and provides superior clinical and laboratory benefits than traditional dosing strategies. However, it is not clear whether these results were due to individualized dosing, the young age that hydroxyurea treatment was initiated in the study, or both. The Hydroxyurea Optimization through Precision Study (HOPS) aims to validate the feasibility and benefits of this PK-guided dosing approach in a multi-center trial. Methods HOPS is a randomized, multicenter trial comparing standard vs. PK-guided dosing for children with SCD as they initiate hydroxyurea therapy. Participants (ages 6 months through 21 years), recruited from 11 pediatric sickle cell centers across the USA, are randomized to receive hydroxyurea either using a starting dose of 20 mg/kg/day (Standard Arm) or a PK-guided dose (Alternative Arm). PK data will be collected using a novel sparse microsampling approach requiring only 10 μL of blood collected at 3 time-points over 3 h. A protocol-guided strategy more aggressive protocols is then used to guide dose escalations and reductions in both arms following initiation of hydroxyurea. The primary endpoint is the mean %HbF after 6 months of hydroxyurea. Discussion HOPS will answer important questions about the clinical feasibility, benefits, and safety of PK-guided dosing of hydroxyurea for children with SCD with potential to change the treatment paradigm from a standard weight-based approach to one that safely and effectively optimize the laboratory and clinical response. Trial registration ClinicalTrials.gov NCT03789591 . Registered on 28 December 2018.
topic Sickle cell anemia
Pharmacokinetics
Hydroxyurea
Pediatrics
url https://doi.org/10.1186/s13063-020-04912-z
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spelling doaj-f4848c1e5cb84d1ca9d6331a034404f02020-11-29T12:14:26ZengBMCTrials1745-62152020-11-0121111410.1186/s13063-020-04912-zHydroxyurea Optimization through Precision Study (HOPS): study protocol for a randomized, multicenter trial in children with sickle cell anemiaEmily R. Meier0Susan E. Creary1Matthew M. Heeney2Min Dong3Abena O. Appiah-Kubi4Stephen C. Nelson5Omar Niss6Connie Piccone7Maa-Ohui Quarmyne8Charles T. Quinn9Kay L. Saving10John P. Scott11Ravi Talati12Teresa S. Latham13Amanda Pfeiffer14Lisa M. Shook15Alexander A. Vinks16Adam Lane17Patrick T. McGann18Indiana Hemophilia and Thrombosis CenterDivision of Hematology/Oncology/BMT, Nationwide Children’s HospitalDivision of Hematology/Oncology, Boston Children’s HospitalDivision of Clinical Pharmacology, Cincinnati Children’s Hospital Medical CenterPediatric Hematology, Children’s Hospitals and Clinics of MinnesotaDivision of Hematology, Cincinnati Children’s Hospital Medical CenterUniversity of Cincinnati College of MedicineCase Western Reserve University School of Medicine, Department of Hematology and Oncology, University Hospitals Rainbow Babies and Children’sEmory University School of Medicine & Sickle Cell Disease Program, Children’s Healthcare of AtlantaUniversity of Cincinnati College of MedicineUniversity of Illinois PeioriaMedical College of WisconsinCleveland ClinicDepartment of Pediatrics, Division of Pediatric Hematology, Oncology, and Stem Cell Transplantation, Cohen Children’s Medical Center of New YorkDepartment of Pediatrics, Division of Pediatric Hematology, Oncology, and Stem Cell Transplantation, Cohen Children’s Medical Center of New YorkUniversity of Cincinnati College of MedicineDivision of Clinical Pharmacology, Cincinnati Children’s Hospital Medical CenterUniversity of Cincinnati College of MedicineUniversity of Cincinnati College of MedicineAbstract Background Sickle cell disease (SCD) is a severe and devastating hematological disorder that affects over 100,000 persons in the USA and millions worldwide. Hydroxyurea is the primary disease-modifying therapy for the SCD, with proven benefits to reduce both short-term and long-term complications. Despite the well-described inter-patient variability in pharmacokinetics (PK), pharmacodynamics, and optimal dose, hydroxyurea is traditionally initiated at a weight-based dose with a subsequent conservative dose escalation strategy to avoid myelosuppression. Because the dose escalation process is time consuming and requires frequent laboratory checks, many providers default to a fixed dose, resulting in inadequate hydroxyurea exposure and suboptimal benefits for many patients. Results from a single-center trial of individualized, PK-guided dosing of hydroxyurea for children with SCD suggest that individualized dosing achieves the optimal dose more rapidly and provides superior clinical and laboratory benefits than traditional dosing strategies. However, it is not clear whether these results were due to individualized dosing, the young age that hydroxyurea treatment was initiated in the study, or both. The Hydroxyurea Optimization through Precision Study (HOPS) aims to validate the feasibility and benefits of this PK-guided dosing approach in a multi-center trial. Methods HOPS is a randomized, multicenter trial comparing standard vs. PK-guided dosing for children with SCD as they initiate hydroxyurea therapy. Participants (ages 6 months through 21 years), recruited from 11 pediatric sickle cell centers across the USA, are randomized to receive hydroxyurea either using a starting dose of 20 mg/kg/day (Standard Arm) or a PK-guided dose (Alternative Arm). PK data will be collected using a novel sparse microsampling approach requiring only 10 μL of blood collected at 3 time-points over 3 h. A protocol-guided strategy more aggressive protocols is then used to guide dose escalations and reductions in both arms following initiation of hydroxyurea. The primary endpoint is the mean %HbF after 6 months of hydroxyurea. Discussion HOPS will answer important questions about the clinical feasibility, benefits, and safety of PK-guided dosing of hydroxyurea for children with SCD with potential to change the treatment paradigm from a standard weight-based approach to one that safely and effectively optimize the laboratory and clinical response. Trial registration ClinicalTrials.gov NCT03789591 . Registered on 28 December 2018.https://doi.org/10.1186/s13063-020-04912-zSickle cell anemiaPharmacokineticsHydroxyureaPediatrics

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