Osteosarcoma Clinical Trial
Official title:
Evaluation of Myocardial Injury After Anthracycline Chemotherapy in Osteosarcoma Patients Using CMR
using a contrast-enhanced (CE) cardiac magnetic resonance imaging(CMR) which included the measurement of T1 mapping, T2 mapping, T2* mapping and late gadolinium enhancement(LGE) sequences, as well as LVEF and extracellular volume(ECV) to evaluate the respective changes before and after anthracycline chemotherapy.
Osteosarcoma is the most common primary malignant bone tumor in children and young adults and
accounts for 5% of all pediatric malignancies. The long-standing chemotherapy regimen of
doxorubicin and cisplatin with or without methotrexate remains a standard treatment of
osteosarcoma.But anthracyclines such as doxorubicin have a notorious cardiotoxic side effect,
which causes chemotherapy-related cardiac dysfunction(CTRCD). The American Society of
Echocardiography (ASE) and the European Association of Cardiovascular Imaging (EACVI) defines
it as a decrease in left ventricular ejection fraction (LVEF) of more than 10% to below the
lower limit of normal, which is considered an LVEF of 53%, despite symptoms.
Cardiac magnetic resonance imaging is the gold standard for detection of ventricular volume
and function. The parametric mapping techniques provide a non-invasive tool for quantifying
tissue alterations in myocardial disease and is capable of in vivo tissue characterization.
In this study, the investigators used a contrast-enhanced (CE) cardiac magnetic resonance
imaging(CMR), which included the measurement of T1 mapping, T2 mapping, T2* mapping and late
gadolinium enhancement(LGE) sequences, as well as LVEF and extracellular volume(ECV) to
evaluate the respective changes before and after anthracycline chemotherapy.
Study Population:
This prospective study was conducted at the Second Affiliated Hospital, School of Medicine,
Zhejiang University. All chemotherapy naive patients whose biopsy results show high grade
osteosarcoma were considered. Patients with underlying heart disease, severe hypertension,
diabetes mellitus and previous history of gadolinium contrast agent allergy were
excluded.Patients were treated with a standard chemotherapy protocol containing
anthracyclines.
Study Protocol:
All patients underwent a contrast-enhanced (CE) cardiac magnetic resonance imaging(CMR),
including measurement of LVEF, T1mapping, T2mapping, T2*mapping, ECV, LGE before starting
chemotherapy (baseline), after neoadjuvant chemotherapy treatment, at the end of treatment
(within 1 month), or whenever required by the clinical situation. These times points
corresponded to scheduled oncological controls.
The CMR protocol included a standard segmented cine steady-state free-precession sequence, a
T2 gradient spin-echo mapping sequence, a T2* gradient spin-echo mapping sequence, native and
post-contrast T1 mapping sequences, and late gadolinium enhancement (LGE) sequence. The
imaging parameters for the standard segmented cine steady-state free-precession sequence were
as follows: field of view (FOV) 340 X340 mm², slice thickness 8 mm , repetition time (TR)
34.84ms, echo time (TE) 1.14ms, flip angle 67°, voxel size 1.8 X1.8 mm, and number of
excitation. The imaging parameters for the T2-gradient-spin-echo mapping sequence were FOV
340X 340 mm², acquisition voxel size 1.8 X1.8 mm², slice thickness 8 mm, 8 echo times ranging
from 6.7 to 53.6ms, and flip angle 70°. The T2* mapping sequence parameter were FOV 340X340
mm², acquisition voxel size 1.3X1.3mm², slice thickness 8mm, 8 echo times ranging from 2.22
to 17.48 (2.22,4.4,6.58,8.76,10.94,13.12,15.3,17.48), and flip angle 20°. The T1 mapping
sequence (Modified Look-Locker Inversion recovery [MOLLI]) was acquired before and 10 min
after contrast administration. All MOLLI sequences were based on a 5(3)3 scheme using a
single shot steady-state free precession readout sequence (TR/TI/TE/flip angle
291.84ms/183ms/1.22ms/35°) with an in-plane acquisition resolution of 1.2 X1.2 mm² and an 8mm
slice thickness. LGE imaging was performed 8 min after intravenous administration of
0.2mmol/kg gadopentetate dimeglumine contrast agent using a 3-dimensional inversion-recovery
spoiled turbo field echo sequence (TR/TE/flip angle 813.6ms/1.09ms/40). Inversion time was
adjusted before acquisition using a look-locker scout sequence with different inversion times
to ensure proper nulling of the healthy myocardium signal.
The primary end point of the study was completion of chemotherapy with anthracycline drugs.
The secondary end point was cardiotoxicity. The time of occurrence of cardiotoxicity was
recorded. Cardiotoxicity was defined as an LVEF reduction >10% from baseline, or LVEF <53%.
The following cardiac events were also considered as secondary end points: cardiac death,
acute coronary syndromes, acute pulmonary edema, overt HF, and life-threatening arrhythmias.
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