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Untreated advanced hepatocellular carcinoma (HCC) has an overall poor prognosis. Currently there are 2 ongoing prospective randomized controlled trials that are evaluating the efficacy and safety of sorafenib and selective internal radiation therapy (SIRT) with yttrium-90 resin microspheres in patients with advanced HCC. The SorAfenib versus Radioembolisation in Advanced Hepatocellular carcinoma (SARAH; 459 patients) trial is being performed in Europe and the SIRt VErsus SorafeNIB (SIRveNIB; 360 patients) trial in the Asia Pacific region. Prospectively combining the results, these trials will not only allow for increased precision to estimate efficacy (in terms of survival), but will also provide increased statistical power for subgroup analyses.
To ensure the prospectivity and transparency of the meta-analysis.
The sirVEnib and SARAH merge PROject (VESPRO) is an individual, patient-data prospective meta-analysis of the SIRveNIB and SARAH randomized trials. The VESPRO protocol includes prespecified hypotheses, inclusion criteria, and outcome measures. The primary outcome measure is overall survival and secondary outcomes include tumor response rate, progression-free survival, progression in the liver as first event, and disease control in the liver. Pooling of toxicity results will allow for robust safety profiles to be established for both therapies, and provides increased statistical power to investigate treatment effects in key subgroups. Analyses will be performed in the intent-to-treat population stratified by trial.
Both studies are expected to demonstrate a survival benefit for SIRT together with a better toxicity profile compared with sorafenib. It is also anticipated that liver progression as the first event would be longer in the intervention compared with the control.
As the results of the 2 trials are not yet known, the methodological strength is enhanced, as biases inherent in conventional meta-analyses are avoided. This has the effect of providing this meta-analysis with the advantages of a single, large,randomized study of 819 patients. It is anticipated that the SARAH and SIRveNIB trial results will be published separately and together with the combined meta-analysis results from VESPRO. The combined dataset will allow the effect of the interventions to be explored with improved reliability/precision with respect to prespecified patient and intervention-level characteristics.
Australian New Zealand Trials Registry: ACTRN12617000030370.
Hepatocellular carcinoma (HCC) is the most common type of malignant primary liver tumor, accounting for 80% to 90% of all liver cancers, and most frequently develops in patients with chronic liver disease [
Curative treatment (by surgical resection, liver transplantation, or radiofrequency ablation) is feasible in very early or early stage HCC, but most patients with intermediate or advanced HCC receive palliative treatment. Advanced HCC is defined as stage C of the Barcelona Clinic Liver Cancer (BCLC) staging system, Eastern Cooperative Oncology Group (ECOG) performance status 1 to 2, portal invasion or extrahepatic spread, and Child-Pugh A-B. The prognosis is poor for patients with untreated advanced HCC, but survival varies depending on the Child‐Pugh score [
Radioembolization (also called selective internal radiation therapy, or SIRT) with yttrium-90 (Y-90) resin microspheres delivered into the hepatic arteries via transfemoral catheterization, is an alternative treatment for advanced unresectable HCC. Several retrospective cohort trials have suggested that SIRT with Y-90 resin microspheres offers similar OS in patients with BCLC stage B or C diseases compared with sorafenib, but with fewer adverse events and better quality of life [
Several RCTs comparing SIRT with Y-90 resin microspheres with sorafenib for the treatment of HCC are currently underway. The SorAfenib versus Radioembolisation in Advanced Hepatocellular carcinoma (SARAH; [ClinicalTrials.gov identifier NCT01482442]) [
A prospective meta-analysis on individual patient-level data from the SARAH and SIRveNIB studies would increase the power of the studies to assess the treatment effects in this population with advanced HCC and also in key subgroups. This will be useful as treatment effects may differ between patients with HCC in Western and Asian populations. Individual patient data overviews provide more information than conventional meta-analyses. They allow more a detailed investigation and a common statistical analysis plan with an agreement on a standardized methodological approach to the examination.
This study, sirVEnib and Sarah merge PROject (VESPRO), is an individual patient data prospective meta-analysis (IPD-PMA) of the OS survival data of the SARAH and SIRveNIB studies. The primary aim of this meta-analysis is to improve the strength of the evidence on the benefit or potential noninferiority of SIRT compared with sorafenib with respect to OS.
The core trials that make up VESPRO are conducted in accordance with the Declaration of Helsinki and current Good Clinical Practice guidelines, and all participating centers will have obtained the relevant ethics committee approval before patient enrollment.
The primary endpoint of VESPRO is to compare the efficacy of a single SIRT procedure with daily sorafenib, assessed by OS in patients with advanced HCC. Secondary endpoints are to compare the following: cumulative incidence of progression in the liver; progression-free survival (PFS); tumor response rate; disease control rate; and safety and tolerability measured by the incidence of serious adverse events (SAEs).
All patients from the SARAH and SIRveNIB trials will be included in this IPD-PMA. Patients had to satisfy the inclusion and exclusion criteria for the respective trials. These are summarized in
SARAH trial and SIRveNIB trial
Written informed consent provided
Aged ≥18 years of age
Eastern Cooperative Oncology Group (ECOG) performance status 0-1
Liver cirrhosis Child-Pugh A-B (up to 7 points)
Adequate hematological function
Adequate renal function
Adequate hepatic function
SARAH trial
Histologically or cytologically confirmed diagnosis, or American Association for the Study of Liver Disease criteria for the diagnosis of hepatocellular carcinoma (HCC) and at least one measurable lesion on a computed tomography (CT) scan according to response evaluation criteria in solid tumors (RECIST) criteria
Patients not eligible for surgical resection, liver transplantation, or radiofrequency ablation who have advanced HCC according to the Barcelona criteria (stage C), with or without portal invasion, or patients with recurrent HCC (new lesion in a different place) after surgical or locoregional treatment who are not eligible for any other treatment or patients in whom chemoembolization has failed after 2 rounds. Treatment failure is defined as the absence of objective response in the treated nodule after 2 rounds (objective response according to the modified RECIST criteria and/or European Association for the Study of the Liver [EASL] criteria)
Affiliated to a social security scheme or beneficiary
SIRveNIB trial
Unequivocal diagnosis of locally advanced HCC without extrahepatic metastases
Patients with HCC that is not amenable to surgical resection, immediate liver transplantation, or that could be treated with local ablative techniques (eg, radiofrequency ablation)
Locally advanced HCC as defined by Barcelona Clinic Liver Cancer (BCLC; B) intermediate stage or BCLC (C) advanced stage.
At least one lesion that can be accurately measured in at least one dimension (longest diameter to be recorded) as ≥10 mm with spiral CT scan or magnetic resonance imaging (MRI)
Life expectancy of at least 3 months without active treatment
SARAH and SIRveNIB trials
Advanced liver disease with a Child-Pugh score >B7 or active digestive hemorrhage or encephalopathy or refractory ascites
Extrahepatic metastases except nonspecific pulmonary tumors <1 cm and abdominal lymph node tumors <2 cm
Patient unable or unwilling to provide informed consent or comply with the treatment and follow-up required by the trial
Previously treated advanced hepatocellular carcinoma (excluding chemoembolization)
Contraindication to hepatic artery catheterisation
Allergy to trial medications or contrast agents
Pregnant or breastfeeding women
SARAH trial
Other primary tumor except for basal-cell carcinomas or superficial bladder cancers
Unable to take oral medication
SIRveNIB trial
Intractable ascites, or other clinical signs of liver failure
Complete thrombosis of the main portal vein
Other concurrent malignancy, except for adequately treated basal cell or squamous cell skin cancer, in situ cervical cancer, or other cancer for which the patient has been disease free for ≥5 years
Uncontrolled intercurrent illness
Currently enrolled in another investigational therapeutic drug or device study
Men unwilling to use effective contraception during the course of the trial
Adequate hematological function was defined in SARAH as hemoglobin ≥9 g/100 mL, neutrophils ≥1500/mm3, platelets ≥50,000/mm3, and international normalized ratio () ≤1.5; and defined in SIRveNIB as hemoglobin >9.5 g/dL, leukocytes ≥2500/mm3, platelets ≥80,000/mm3, and INR ≤2.0. Adequate renal function was defined in SARAH as creatinine <150 µmol/L, and defined in SIRveNIB as albumin ≥2.5 g/dL and creatinine ≤2.0 mg/dL. Adequate hepatic function was defined in SARAH as bilirubin ≤50 µmol/L, aspartate transaminase (AST) or alanine aminotransferase (ALT) ≤5 × upper limit of normal (ULN), and defined in SIRveNIB as bilirubin <2 mg/dL; alkaline phosphatase (ALP), AST, or ALT ≤5 × ULN.
VESPRO is an IPD-PMA of the results of the SARAH and SIRveNIB trials (
Overview of the VESPO trial design.
The SARAH and SIRveNIB trials are randomized open-label trials comparing OS in advanced HCC patients who received SIRT using Y-90 resin microspheres or standard of care (sorafenib). The designs, objectives, and patient recruitment into these trials are summarized in
Characteristics of studies included in VESPRO.
Characteristics | SARAH | SIRveNIB | |
Trial design | Multicenter, open-label, randomized controlled phase III trial comparing SIRT using Y-90 resin microspheres with sorafenib 800 mg/day | Multicenter, open-label, randomized controlled phase III trial comparing SIRT using Y-90 resin microspheres with sorafenib 800 mg/day | |
Primary objective | To compare the efficacy of Y-90 SIRT with that of sorafenib in the treatment of advanced HCC | To compare the efficacy of Y-90 SIRT with that of sorafenib in the treatment of advanced HCC | |
Secondary objectives | To compare: |
To compare: |
|
Primary endpoint | Overall survival (OS) |
OS | |
Secondary endpoints | Adverse events reported according to the National Cancer Institute criteria version 3.0; |
PFS in the liver; |
|
Planned | 400 | 360 | |
Accrued | 467 | 360 | |
Sample size assumptions | 4.3-month increase in median survival from 10.7 to 15 months (hazard ratio [HR] 0.71) 80% power, 95% confidence | 4.65-month increase in median survival from 9.35 to 14 months (HR 0.67) 90% power, 95% confidence | |
Required number of events | Time driven and not event driven | 266 | |
Accrual time | 24 months | 36 months | |
Follow-up time | 12 months | 24 months | |
Randomization | 1:1 randomization (stratified blocks). | 1:1 randomization (stratified blocks) | |
Stratification factors | Center; |
Center; |
|
France | Asia Pacific |
Patients were randomized to either receive sorafenib or SIRT with Y-90 resin microsphere on a 1:1 basis.
In the sorafenib arms, patients received oral treatment with sorafenib (400 mg, twice daily), commencing as soon as possible after randomization in SIRveNIB, but at most within 35 days, and in SARAH within 1 week (7 days) of randomization. Treatment was continued until disease progression, with an anticipated duration of at least 3 months. Treatment suspensions or dose reductions were permitted.
Patients randomized to SIRT were required to have a hepatic angiogram and a liver-to-lung shunt preassessment with technetium-99 m (99mTc)-marked human serum albumin to determine their suitability for the SIRT procedure. The activity of SIRT was calculated using the body surface area or partition model method. SIRT was administrated within 35 days after randomization in SIRveNIB and between 2 and 5 weeks after randomization in SARAH, to allow time for the pretreatment assessments.
Patients in SIRveNIB were assessed monthly for the first 3 months during protocol treatment and then at 3-month intervals until 24 months following randomization or death. In SARAH, patients were followed up with monthly with an assessment of response every 3 months from randomization until disease progression, death, or the end of the trial. The last enrolled patient was followed up with for up to 12 months after the start of treatment, and all other patients followed up until the final visit of the last enrolled patient; expected duration of patient follow-up was between 12 and 51 months. The full treatment trial schedules are shown in
SARAH trial assessment schedule.
Visits | Enrollment | D0a | D15 | M1b | M2 | M3 | M4 | M5 | M6 | M7 | M8 | M9 | End of participation |
Identification | X | ||||||||||||
Verification of selection criteria | X | ||||||||||||
Consent signature | X | ||||||||||||
Initial assessment/history | X | ||||||||||||
CTcscan | X | X | X | X | X | X | |||||||
CT perfusion | X | X | X | X | |||||||||
Lab tests | X | X | X | X | X | X | X | X | X | X | X | X | X |
Classification | X | X | X | X | X | X | X | X | X | X | X | ||
Clinical examination | X | X | X | X | X | X | X | X | X | X | |||
Quality of life questionnaires | X | X | X | X | X | X | |||||||
Preparatory angiography | X | ||||||||||||
Scintigraphy | X | ||||||||||||
SIRT | X | ||||||||||||
Start of sorafenib treatment | X | ||||||||||||
Retreatmentd | X | X | X | X | X | X | X | X | X | ||||
Cancer progression monitoring | X | X | X | X | X | X | X | X | X | X | |||
Sorafenib monitoring | X | X | X | X | X | X | X | X | X | X | |||
Concomitant medication | X | X | X | X | X | X | X | X | X | X | |||
Adverse events | X | X | X | X | X | X | X | X | X | X |
aD, day.
bM, month.
cCT, computed tomography.
dTiming of retreatment depends upon type of retreatment (see text).
SIRveNIB trial assessment schedule.
Schedule | Screening/ baseline |
During protocol therapy | Trial conclusion | Post trial conclusion follow-up | |||||
Week 2b | Week 4 | Week 8 |
Week 12 | 12-weekly thereafter | As appropriatec | 12 weekly | |||
Informed consent | X | ||||||||
Demographics | X | ||||||||
Medical and surgical history | X | ||||||||
Concurrent illness | X | ||||||||
Concomitant medicationsg | Xd | Xd,e | Xd | Xd | Xd | Xd | Xd | ||
Height (baseline only) | X | X | X | X | X | X | |||
Weight | X | X | X | X | X | X | |||
Blood pressure | X | X | X | X | X | X | |||
Body temperature | X | X | X | X | X | X | |||
Performance status | Eastern Cooperative Oncology Group | X | X | X | X | X | X | ||
Leukocytes | X | X | X | X | X | X | |||
Platelets | X | X | X | X | X | X | |||
Hemoglobin | X | X | X | X | X | X | |||
International normalized ratio (INR) | X | X | X | X | X | X | |||
Hepatitis Bsag | Xe | ||||||||
Anti-hepatitis C virus immunoglobulin (IgG ) | Xe | ||||||||
Hepatitis B core antibody IgG (optional) | Xe | ||||||||
Renal function | Creatine | X | X | X | X | X | X | ||
Aspartate transaminase (AST)/ alanine aminotransferase (ALT) | X | X | X | X | X | X | |||
Alkaline phosphatase (ALP) | X | X | X | X | X | X | |||
Total bilirubin | X | X | X | X | X | X | |||
Albumin | X | X | X | X | X | X | |||
Pregnancy test (as appropriate) | Xf | ||||||||
Tumor marker | Serum alpha-fetoprotein (AFP) | Xf | X | Xf | Xf | ||||
EuroQol five dimensions questionnaire (EQ-5D) health-related quality of life | X | Xg | X | X | Xg | Xg | Xg | ||
Computer tomography or magnetic resonance imaging scan: chest/abdomen/pelvish,i | X | X | X | ||||||
Hepatic angiogram | Xe | ||||||||
99mTc-microaggregated albumin (MAA) lung shunt study | Xe | ||||||||
Response assessmenti | X | X | X | ||||||
Toxicity assessment | Xb | X | X | X | X | X | |||
Dose delay/modification | Xb | X | X | X | X | X | |||
Adverse events (AE)/serious adeverse events (SAE) | AE/SAE for the Sorafenib arm will be recorded from the time of signing the informed consent form (ICF) until 30 days after the final dose of Sorafenib, or until commencement of the next alternative therapy, whichever is earlier. |
||||||||
Survival | X |
aScreening assessments performed within 28 days before signing of informed consent can be used to confirm eligibility
bSorafenib arm only. Sorafenib patients contacted at week 2 to assess treatment related toxicity and interrupt/modify the dose as necessary
cDisease progression, death, complete regression, unacceptable toxicity, patient responds to treatment and becomes eligible for surgical resection, liver transplantation or ablative therapy, lost to follow-up, patient’s request for withdrawal
dConcomitant medication to be recorded from screening/baseline up to 30 days post study conclusion (or until commencement of the next alternative therapy, whichever is earlier).
eHepatic angiogram and Tc-99m MAA lung shunt study to be performed after randomization and prior to treatment commencement ONLY for SIRT Arm group
fSerum AFP to be performed during screening/baseline and every 12 weeks from date of randomization thereafter. Serum AFP does not need to be repeated for study conclusion visit if it has been performed within the last 28 days.
gEQ-5D quality of life questionnaires to be filled out at baseline, while on study (ie, week 4, 8, 12, and every 12 weeks thereafter), at study conclusion, and 12 weekly during post study conclusion follow-up. EQ-5D quality of life questionnaire does not need to be repeated for study conclusion if it has been performed within the last 28 days.
hThe same radiological assessment method must be used throughout the study.
iAssessment for tumor response rate to be done every 12 weeks plus at first disease progression. Radiological assessment for tumor response rate to be done every 12 weeks from date of randomization until first evidence of disease progression.
The primary endpoint of VESPRO is all-cause mortality measured by OS time. Secondary endpoints include: cumulative incidence of progression in the liver; PFS time; tumor response rate; disease control rate; and incidence of grade 3-4 SAEs. The outcomes are defined in
Overall survival is defined as the time from randomization to death from any cause, with living patients censored on the date of last follow-up.
Progression-free survival is defined as the time from randomization until disease progression at any site (response evaluation criteria in solid tumors criteria 1.1) [
Progression in the liver as first event is defined from randomization until the first progression in the liver. Patients alive and progression free will be censored on the date of last evaluable tumor assessment.
Tumor response rate is defined as the number of patients whose best overall response is complete response (CR) or partial response (PR), divided by the total number of patients in the analysis population.
Disease control rate is defined as the number of patients whose best overall response is PR, CR, or stable disease, divided by the total number of patients in the analysis population.
The toxicity profiles of the 2 groups will be described as the frequency of the worst toxicity grade of adverse event (AE) experienced (according to National Cancer Institute Common Terminology Criteria for Adverse Events). AE rates for the pooled data from the studies will be compared between treatment groups, stratified by trial, using the Mantel-Haenszel technique. The principal comparison will be the proportion of grade 3-4 AEs in each group. In an observational series of 325 patients, SIRT for HCC showed grade 3-4 toxicity profile of: 2.5% fatigue; 1.5% abdominal pain; and 1.5% gastrointestinal (GI) ulceration [
In the SARAH trial, hypothetical median survival times, estimated from OS data reported in previous studies [
In the SIRveNIB trial, the hypothetical median survival times based on OS data reported in previous clinical trials [
Regardless of the results of the individual trials (statistical significance, or extent of therapeutic benefit), a prospectively designed pooled analysis may help clarify several findings useful for medical decision-making. Thus, the total number of events for the 2 trials combined will provide increased power or precision for assessing the overall treatment effect, and for performing additional analyses among prespecified subgroups. However, pooled analyses resulting in estimates of benefit, which may be small and/or statistically not significant, will raise challenges as to how the results should be clinically interpreted. In this context, a complementary approach is to define a noninferiority (NI) margin to not be appreciably worse clinically
As it is anticipated that both trials will show a benefit, no specific hypotheses will be tested, and issues of statistical power do not arise. The question of interest is whether the 95% confidence interval (CI; one-sided) crosses the NI margin if the pooled result does not reach statistical significance. By exploiting the prospective nature of determining the NI margin, a scientific underpinning can be provided for subsequent clinical interpretation of the results. This approach is based on the assumption that, beside the specific therapeutic actions of SIRT, other aspects of the SIRT intervention could be advantageous, compared with the standard of care (sorafenib). For example, SIRT with Y-90 resin microspheres is administered in a single procedure, while sorafenib is taken daily until disease progression; consequently a better toxicity profile and lower cost could be anticipated with SIRT. In the absence of superiority over sorafenib, SIRT may still be considered a desirable option if the NI boundary is satisfied.
To establish a NI margin, the minimum fraction of retained benefit from the active control (sorafenib) is determined. The International Committee on Harmonization E10 guidance from the Food and Drug Administration (FDA) recommends that NI margins should not exceed the smallest effect size that would be expected if the intervention were compared with placebo [
Fractions of active control retained noninferiority (NI) margins.
Active control retained |
NI boundary |
50% | 1.10 |
70% | 1.06 |
75% | 1.05 |
80% | 1.04 |
A boundary of 10% is considered to be clinically acceptable for potential relative detriment of SIRT compared with sorafenib. Assuming a pooled median survival for sorafenib of 9.5 months, such a margin would translate to an absolute detriment between the 2 groups of less than 5% at 9.5 months. With a 10% NI margin and a fixed sample size of the pooled cohort of 819 with greater than 495 expected events, a survival benefit with SIRT compared with sorafenib of at least 7% (HR: 0.93) would be needed to satisfy this margin at a median survival with sorafenib of 9.5 months.
Statistical analysis of the primary endpoint will be performed in the intent-to-treat population, keeping patients in their randomization groups. The primary outcome (OS) will be compared between treatment arms using the inverse-variance weighted HR of the individual trials. A sensitivity analysis using a stratified log-rank test and an unadjusted stratified proportional hazards model test (stratified by trial) will also be performed. The comparison will be based on superiority. In the event that the 95% CI for the HR crosses the null, if the one-sided upper 95% CI for this HR does not breach the NI boundary of 1.10, this will be interpreted as supporting evidence that SIRT is not appreciably worse than sorafenib.
Subgroup analyses will be performed according to the following baseline characteristics: age (<65 years, ≥65 years); sex; ECOG performance status (0, 1); tumor size (≤50% of liver, >50% of liver); presence or absence of portal vein thrombosis; BCLC stage (B1 and B2, B3 and B4 and C; using Bolondi Criteria); previous treatment for HCC (yes, no); hepatitis status (B, C, both); unilobal versus bilobal disease; single focal versus multifocal disease; and serum alpha-feto protein level (≤100 vs >100 ng/mL).
As advanced HCC has a poor prognosis, a landmark analysis [
As SIRT is a locoregional treatment, treatment effect based on progression in the liver as the first event, will be investigated using a competing risk analysis. In this analysis, death or progression outside the liver as the first event will be considered as a competing risk for liver progression. The Gray method [
Patient follow-up in the SARAH trial was completed in March 2016 and patient follow-up in the SIRveNIB trial is currently ongoing (expected completion September 2017).
It is anticipated that the results of SARAH, SIRveNIB, and VESPRO will be published soon after the results are released. As per the individual study protocols, it is anticipated that each study will demonstrate a survival benefit favoring treatment with SIRT. However, practically the intervention could not be given to some patients who were allocated SIRT due to clinical suitability and the results may not be as strongly in favor of SIRT as anticipated. SIRT is a local therapy directed at the liver and the expectation is an increased time to liver progression as the first event in the SIRT cohort compared with sorafenib. It is expected that SIRT will have a lower toxicity profile than sorafenib, which may help guide clinical choice in the event of either or both studies failing to show a significant survival benefit.
The meaningful and relevant data that can be obtained from any clinical trial is restricted by several factors, including the ability to obtain complete outcome data on all (or most) participants, the accuracy and quality of outcomes measurement, and patients’ adherence to the allocated treatment. The SARAH and SIRveNIB trials are evaluating therapies with different modes of delivery; sorafenib is taken orally, twice daily until disease progression or death, whereas SIRT is administered in a single application. The problems of nonadherence that may be encountered with sorafenib include unplanned interruption or cessation of treatment or dose reduction; whereas with SIRT, some patients initially randomized to receive SIRT will be deemed unsuitable after clinical workup and will subsequently receive other treatment. The ability to prospectively pool results from clinical trials in an IPD-PMA will increase the amount of meaningful data available to address important clinical questions.
In a single trial, the ability to draw relevant conclusions from subgroup analyses is also restricted by the low statistical power of the multiple tests in small patient populations. Therefore, there is a disparity between the aim of identifying heterogeneity in the responses of trial participants to treatments and the ability to achieve this goal. Pooling data will provide larger sample sizes that will attenuate the impact of multiple comparisons and enable the detection of small but potentially clinically important differences. The prospective design of such comparisons will add to the credibility of the interpretation of these differences. Additionally, a prospective pooled analysis will facilitate the recognition of signals of clinical interest that in each of the individual trials could potentially be regarded as spurious, and thus disregarded.
If the individual trials and the pooled analysis do not demonstrate statistical significance on the primary endpoint, the question of how the totality of evidence should be interpreted then becomes an issue. These so-called ‘negative results’ may arise due to: a small true benefit; the patients enrolled having a different risk profile to that anticipated; issues with study conduct (nonadherence, lost to follow-up, etc); or changes in clinical practice during the trials. Faced with a ‘negative result’ clinicians may choose to continue with standard care (sorafenib) or introduce the new intervention (SIRT) without strong clinical evidence.
The originality of the VESPRO study is to go beyond classical meta-analysis goals. It is why we propose to consider all the results of the primary and secondary outcomes, and prospective subgroup analyses of the pooled analysis. On a superiority analysis basis, if equality between the 2 treatments is rejected, then due to the greater power the meta-analysis compared with the individual trials a more precise estimate of treatment effects can be provided. If the null hypothesis cannot be rejected, it will be very interesting to determine the reasonable limit within which treatments will be deemed comparable. This margin, while not formally a component of a NI design, will guide interpretation of the results when there is uncertainty. The casual observation suggests that SIRT has a better safety profile than sorafenib, which may be important if efficacy is similar between treatments
Using this information, pooled toxicity profiles and cost estimates will allow clinicians to make informed decisions as to the most appropriate treatment choice for patients with advanced HCC.
adverse event
serum alpha-fetoprotein
alkaline phosphatase
alanine aminotransferase
aspartate transaminase
Barcelona Clinic Liver Cancer
confidence interval
complete response
computed tomography
Eastern Cooperative Oncology Group
EuroQol five dimensions questionnaire
Food and Drug Administration
gastrointestinal
hepatocellular carcinoma
hazard ratio
informed consent form
immunoglobulin
international normalized ratio
noninferiority
microaggregated albumin
magnetic resonance imaging
overall survival
partial response
progression-free survival
randomized control trial
response evaluation criteria in solid tumors
serious adverse event
sorafenib versus radioembolization in advanced hepatocellular carcinoma
selective internal radiation therapy versus sorafenib in locally advanced
sorafenib hepatocellular carcinoma assessment randomized protocol
selective internal radiation therapy
upper limit of normal
Y-90
An ethics committee approved both the SARAH and SIRveNIB trials. Patients consenting to participate in either trial were required to sign an ethically approved patient informed consent form.
SARAH and SIRveNIB studies are investigator-initiated randomized trials. The investigators of VESPRO study are drawn from investigators in the individual studies as well as from the National Health and Medical Research Council Clinical Trials Centre University of Sydney. This study is funded by an unrestricted educational grant from SIRTEX Technology Ltd, Australia. The funders had no role in the study design, the writing of the manuscript, or in the decisions regarding the manuscript or publication.
We thank all the investigators involved in the SARAH trial: René Adam, Isabelle Archambeaud, Eric Assenat, Christophe Aubé, Philippe Bachellier, Gabriele Barabino, Hélène Barraud, Christophe Bazin, Nadia Bouarioua, Hatem Boulahdour, Isabelle Brenot-Rossi, Christophe Cassinotto, Maria-Angéla Castilla-Lievre, Julien Cazejust, Jean-Pierre Cercueil, Dominique Charneau, Patrick Chevallier, Charlotte Costentin, Sylvie Costo, Olivier Couturier, Muriel Cuilleron, Thông Dao, Thierry de Baere, Eric Delabrousse, Elisabeth Delhom-Christol, Jean Yves Devaux, Vincent di Martino, Bernard Duclos, Michel Ducreux, Jérôme Dumortier, Benoît Dupas, Julien Edeline, Thomas Eugene, Benoît Gallix, Etienne Garin, René Gerolami, Francesco Giammarile, Michel Greget, Gilles Grimon, Martine Guyot, Francois Habersetzer, Alexandria Heurgue-Berlot, Patrick Hillon, Alina Diana Ilonca, Alessio Imperiale, Emmanuel Itti, Vincent Leroy, Maïté Lewin, Alain Luciani, Jean Lumbroso, Abakar Mahamat, Sophie Maitre, Claude Marcus, Lysiane Marthey, Elodie Mathias, Philippe Merle, Julie Morvan, Olivier Mundler, Eric Nguyen-Khac, Frédéric Oberti, Georges-Philippe Pageaux, Jean Pierre Pelage, Olivier Pellerin, Rémi Perdrisot, Nathalie Prevot-Bitot, Jean Luc Raoul, Micheline Razzouk, Agnès Rode, Yan Rolland, Olivier Rosmorduc, Julie Roux, Didier Samuel, Marc Sapoval, Anthony Sarran, Jean-Francois Seitz, Christian Sengel, Olivier Seror, Christine Silvain, Daniele Sommacale, Julien Taieb, Jean Pierre Tasu, Michel Toubeau, Jean-Claude Trinchet, Pierre Jean Valette, Julien Vergniol, Vincent Vidal, Julie Vincent, Pierre Weinmann, and Thierry Yzet. The authors would like to thank Dr Juliette Djadi-Prat and Pascaline Aucouturier for their help in managing the SARAH trial.
We thank all the investigators involved in the SIRveNIB trial: Su Pin Choo, Choon Hua Thng, Say Beng Tan, Albert Su Chong Low, Peng Chung Cheow, Anthony Soon Whatt Goh, Kiang Hiong Tay, Richard Hoau Gong Lo, Brian Kim Poh Goh, Jen San Wong, David Chee Eng Ng, Khee Chee Soo, Wei Ming Liew, Tjakra Wibawa Manuaba, LA Lesmana, Jong Yun Won, Hyun Ki Yoon, Kim Yun Hwan, Ho Seong Han, Si Hyun Bae, Aloysius Raj, Yoong Boon Koon, Law Chiong Soon, Ariunaa Khasbazar, Khin Maung Win, Adam Bartlett, Rolley Lobo, Catherine Teh, Ian Cua, Janus Ong, Stephen Chang, Tan Tzu Jen, Chanisa Chotipanich, Hung Chien Fu, Liang Po Chin, Lee Rheun Chuan, Peng Cheng Yuan, Kenneth Kok Yuh Yen. The authors would like to thank Singapore Clinical Research Institute for help in managing the trial operations and data management
The authors acknowledge the editorial assistance provided by Martin Gilmour and Tim Latham of ESP Bioscience (Crowthorne, UK) funded by SIRTEX, during the preparation of this manuscript.
VG drafted the manuscript and managed the incorporation of comments from all authors. All authors have made substantial contribution to design this study. All authors have reviewed the manuscript and given final approval to be published. The authors had full access to the appropriate study data, which are included in the VESPRO project.
PKHC has received honorariums and research grants from Oncosil, pSivida, SIRTEX, Bayer, Ipsen, and Merck Sharp & Dohme. VG has received honorariums and VV has received speaker fees from SIRTEX. All other authors declare that they have no competing interests.