82 research outputs found
Interest of pet imaging in multiple myeloma
The interest of 18Fluoro-deoxyglucose (FDG) positron emission tomography (PET) imaging in the management of patients with multiple myeloma (MM) for the workup at diagnosis and for therapeutic evaluation has recently been demonstrated. FDG-PET is a powerful imaging tool for bone lesions detection at initial diagnosis with high sensitivity and specificity values. The independent pejorative prognostic value on progression-free survival (PFS) and overall survival (OS) of baseline PET-derived parameters (presence of extra-medullary disease (EMD), number of focal bone lesions (FLs), and maximum standardized uptake values [SUVmax]) has been reported in several large independent prospective studies. During therapeutic evaluation, FDG-PET is considered as the reference imaging technique, because it can be performed much earlier than MRI which lacks specificity. Persistence of significant FDG uptake after treatment, notably before maintenance therapy, is an independent pejorative prognostic factor, especially for patients with a complete biological response. So FDG-PET and medullary flow cytometry are complementary tools for detection of minimal residual disease before maintenance therapy. However, the definition of PET metabolic complete response should be standardized. In patients with smoldering multiple myeloma, the presence of at least one hyper-metabolic lytic lesions on FDG-PET may be considered as a criterion for initiating therapy. FDG-PET is also indicated for initial staging of a solitary plasmacytoma so as to not disregard other bone or extra-medullary localizations. Development of nuclear medicine offer new perspectives for MM imaging. Recent PET tracers are willing to overcome limitations of FDG. (11)C-Methionine, which uptake reflects the increased protein synthesis of malignant cells seems to correlate well with bone marrow infiltration. Lipid tracers, such as Choline or acetate, and some peptide tracers, such as (68) Ga-Pentixafor, that targets CXCR4 (chemokine receptor-4, which is often expressed with high density by myeloma cells), are other promising PET ligands. 18F-fludarabine and immuno-PET targeting CD138 and CD38 also showed promising results in preclinical models
Obinutuzumab versus Rituximab in young patients with advanced DLBCL, a PET-guided and randomized phase 3 study by LYSA.
Rituximab plus polychemotherapy is standard of care in diffuse large B-cell lymphoma (DLBCL). GAINED trial
compares obinutuzumab to rituximab. GAINED (NCT01659099) is an open-label, randomized phase 3 trial.
Transplant-eligible patients (18-60yrs) with untreated aged-adjusted international prognostic index (aaIPI) ≥1
DLBCL were randomized (1:1) between obinutuzumab or rituximab. Patients were stratified by aaIPI (1; 2-3)
and chemotherapy regimen (ACVBP; CHOP). Consolidation treatment was determined according to response
assessed by centrally reviewed interim semi-quantitative PET. Responders after cycle 2 and 4 (PET2-/PET4-)
received planned immuno-chemotherapy consolidation. Responders only after cycle 4 (PET2+/4-) received highdose methotrexate plus transplantation. The primary objective was an 8% improvement (HR=0.73; 80% power;
alpha risk 2.5%; one-sided) in 2-year event-free survival (EFS) in the obinutuzumab arm. Events included death,
progression, PET 2 or 4 positivity, modification of planned treatment. From September 20, 2012, 670 patients
were enrolled (obinutuzumab n=336; rituximab n=334). 383 (57.2%) were aaIPI 2-3, 339 (50.6%) received
CHOP and 324 (48.4%) received ACVBP. Median follow-up was 38.7 months. The 2-year EFS were similar in
obinutuzumab and rituximab groups (59.8% vs 56.6%; p=0.123; HR=0.88). The 2-year PFS in the whole cohort
was 83.1% (95%CI 80–85.8). PET2-/4- and PET2+/4- had similar 2-year PFS and OS (89.9% vs 83.9%) and
94.8% vs 92.8%). The 2-year PFS and OS for PET4+ patients were 62% and 83.1%. Grade 3-5 infections were
more frequent in the obinutuzumab arm (21% vs 12%). Obinutuzumab is not superior to rituximab in untreated
aaIPI≥1 DLBCL transplant-eligible patients
A first-in-human phase I, dose-escalation, multicentre study of HSP990 administered orally in adult patients with advanced solid malignancies
Heat-shock protein 990 (HSP990) is a potent and selective synthetic small-molecule HSP90 inhibitor. The primary objectives of this phase I first-in-human study were to determine dose-limiting toxicities (DLTs), maximum-tolerated dose (MTD) and recommended phase II dose (RP2D). Secondary objectives included characterisation of the safety profile, pharmacokinetics (PKs) and pharmacodynamics (PDs). Heat-shock protein 990 was administered orally once or two times weekly on a 28-day cycle schedule in patients with advanced solid tumours. Dose escalation was guided by a Bayesian logistic regression model with overdose control. A total of 64 patients were enrolled. Fifty-three patients received HSP990 once weekly at 2.5, 5, 10, 20, 30, 50 or 60 mg, whereas 11 patients received HSP990 two times weekly at 25 mg. Median duration of exposure was 8 weeks (range 1-116 weeks) and 12 patients remained on treatment for >16 weeks. Dose-limiting toxicities occurred in seven patients and included diarrhoea, QTc prolongation, ALT/AST elevations and central neurological toxicities. The most common drug-related adverse events were diarrhoea, fatigue and decreased appetite. Further dose escalation beyond 60 mg once weekly was not possible owing to neurological toxicity. Rapid absorption, no drug accumulation and large interpatient variability in PK exposures were observed. No objective responses were seen; 25 patients had a best overall response of stable disease. Heat-shock protein 990 is relatively well tolerated, with neurological toxicity being the most relevant DLT. The single agent MTD/RP2D of HSP990 was declared at 50 mg once weekly
Techniques de médecine nucléaire pour l'imagerie et le traitement des tumeurs neuroendocrines gastro-entéro-pancréatiques
International audienceCe travail a bénéficié d'une aide de l'État gérée par l'Agence nationale de la recherche au titre du programme « Investissements d'Avenir » portant la référence ANR-LABX-0018-01. La médecine nucléaire apporte des outils performants pour l'imagerie et la thérapie des tumeurs neu-roendocrines gastro-entéro-pancréatiques, caractérisées par l'expression de biomarqueurs spécifiques. La scintigraphie des récepteurs de la somatostatine (OctreoScan ®) a été considérée comme l'examen d'imagerie fonctionnelle de référence jusqu'à récemment, complémentaire de la tomodensitométrie et de l'imagerie par résonance magnétique (IRM) et permettant de sélectionner les patients pour des thérapies ciblées par analogues de la somatostatine froids ou radiomarqués dans une approche théranostique. Aujourd'hui la tomographie par émission de positons avec des analogues de la somatostatine marqués au gallium 68 est développée dans des études cliniques, avec d'excellentes performances diagnostiques par rapport à l'OctreoScan ® et aux examens d'imagerie morphologique. Disponible en routine, la tomo-graphie par émission de positons à la 6-fluoro-(18F)-L-3,4-dihydroxyphénylalanine présente une très bonne sensibilité pour la détection des tumeurs sérotoninergiques et la tomographie par émission de positons au fluorodésoxyglucose pour les formes peu différenciées. La captation du fluorodésoxyglucose est considérée comme un marqueur de mauvais pronostic dans les tumeurs neuroendocrines digestives. Les analogues de la somatostatine marqués au lutétium 177 et à l'yttrium 90, radionucléides émetteurs de particule bêta-, sont également développés pour la radiothérapie interne vectorisée de ces tumeurs, avec une efficacité démontrée, dépendant de l'intensité de la captation tumorale évaluée par une ima-gerie préthérapeutique des récepteurs de la somatostatine, de l'envahissement hépatique qui doit être limité et de l'état général du patient qui doit être conservé. La toxicité, essentiellement hématologique et rénale, peut être en partie réduite par une bonne sélection des patients
Clinical dosimetry in the treatment of bone tumors: old and new agents
Treatment of multisite, sclerotic bone metastases is successfully performed by radionuclide therapy. Pain palliation is the most common aim for the treatment. Two radiopharmaceuticals are currently approved by the European Medicines Agency (Sm-153-EDTMP and Sr-89-Cl-2) whilst other radiopharmaceuticals are at different stages of development, or are approved in some European countries (Re-186-HEDP, Sn-117(m)-DTPA and Ra-223-Cl-2). The tissues at risk for the treatment are bone marrow and normal bone. A review of the methods applied for dosimetry for these tissues and for tumours is performed, including the calculation of S values (the absorbed dose per decay) and optimal procedures on how to obtain biodistribution data for each radiopharmaceutical. The dosimetry data can be used to individualise and further improve the treatment for each patient. Dosimetry for radionuclide therapy of bone metastases is feasible and can be performed in a routine clinical practice
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