1,213 research outputs found
GEMTUZUMAB OZOGAMICIN COMBINED WITH INDUCTION CHEMOTHERAPY IN YOUNG ADULTS WITH ACUTE MYELOID LEUKEMIA: REVIEW AND PERSPECTIVES.
Progress in treatment of acute myeloid leukemia (AML) is slow. Many new
agents have been tested, but few were approved. Gemtuzumab Ozogamicin (GO) is a new AML-targeted drug that is composed by a monoclonal antibody targeting a surface antigen of myeloid leukemic cells (CD33) combined with a potent cytotoxic (calicheamicin). We review here the studies of GO in AML,
including an update of the Italian studies, and we trace back the story of a drug that was developed 15 years ago and, regrettably, is no longer available for
the treatment of AML, with the exception of Japan. GO was approved by the US FDA for the second-line treatment of AML in the elderly, and was shown by
several European large prospective and randomized studies to be active also in first line, both alone, but particularly in combination with standard chemotherapy.
Regrettably, a registration study that was performed in US could not confirm the superiority of GO and chemotherapy on chemotherapy alone, and the drug
was withdrawn. The differences among the US and the European studies are discussed. The profile of the AML patients who are expected to benefit more by the reintroduction of GO is proposed: first-line, less than 60 years old, CD33 expressed in more than 20% leukemic cells, low/intermediate cytogenetic risk, and low expression of the PGP multidrug resistance protein
Fusobacterium nucleatum: a rare cause of bacteremia in neutropenic patients with leukemia and lymphoma
Although anaerobic bacteremias are uncommon in oncohematologic patients, nevertheless they have been considered an emergent problem in the last few years. Fusobacterium nucleatum is an anaerobic Gram-negative bacillus commonly present in the oral cavity and in the respiratory and genito-urinary tracts. Over a 10-year period 18 episodes of F. nucleatum bacteremia in patients with hematological malignances (15 leukemias and 3 lymphomas) have been observed in our Department of Hematology. Predisposing factors included oropharyngeal mucositis and severe neutropenia owing to intensive chemotherapy. In our experience no septic shock occurred and the outcome of bacteremias caused by F. nucleatum was favorable
The Role of Meningioma-1 (Mn1) Gene as Marker for Prognosis and Minimal Residual Disease Monitoring in Acute Myeloid Leukemia: A Concise Review
Molecular markers are necessary for prognostic stratification and monitoring of Minimal
Residual Disease (MRD) in Acute Myeloid Leukemia (AML) [1,2]. Cytogenetic aberrations have
long been recognized as the most important prognostic variable in AML, and are still the major
determinant for post-remission therapy [3]. Unfortunately, only 50-60% of AML patients present
an abnormal karyotype at diagnosis, while the remaining cases display a Normal Karyotype (NK).
NK AML patients are generally included in an “intermediate risk” prognostic group, that is however
characterized by a heterogeneous clinical course. To stratify prognosis of NK AML patients,
numerous studies have led, in the last decade, to the introduction of different molecular markers
such as FLT3, NPM1, BAALC and CEBPA [4-7]. Still, their use to monitor disease, either defining
remission status and detecting relapse as early as possible, is still somehow controversial, due to
fluctuations during disease course, low incidence rates in AML and sensitivity of the technologies
detecting the single marker [8-10]. These limitations have, to date, precluded a timely and precise
quantification of disease in NK AML patients, thus preventing from a complete individualization
of post-remission therapy and early treatment in case of impending relapse. In other words, in
NK AML it has not been reached the precision achieved in BCR/ABL-positive chronic myeloid
leukemia and PML/RAR alpha mutated acute promyelocytic leukemia
The OPERA magnetic spectrometer
The OPERA neutrino oscillation experiment foresees the construction of two
magnetized iron spectrometers located after the lead-nuclear emulsion targets.
The magnet is made up of two vertical walls of rectangular cross section
connected by return yokes. The particle trajectories are measured by high
precision drift tubes located before and after the arms of the magnet.
Moreover, the magnet steel is instrumented with Resistive Plate Chambers that
ease pattern recognition and allow a calorimetric measurement of the hadronic
showers. In this paper we review the construction of the spectrometers. In
particular, we describe the results obtained from the magnet and RPC prototypes
and the installation of the final apparatus at the Gran Sasso laboratories. We
discuss the mechanical and magnetic properties of the steel and the techniques
employed to calibrate the field in the bulk of the magnet. Moreover, results of
the tests and issues concerning the mass production of the Resistive Plate
Chambers are reported. Finally, the expected physics performance of the
detector is described; estimates rely on numerical simulations and the outcome
of the tests described above.Comment: 6 pages, 10 figures, presented at the 2003 IEEE-NSS conference,
Portland, OR, USA, October 20-24, 200
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