Secondary Prophylaxis in Non-Hodgkin Lymphoma (NHL) and Chemotherapy-induced Thrombocytopenia (ProRom)
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|ClinicalTrials.gov Identifier: NCT01516619|
Recruitment Status : Unknown
Verified January 2012 by Andres J. M. Ferreri, IRCCS San Raffaele.
Recruitment status was: Recruiting
First Posted : January 25, 2012
Last Update Posted : January 25, 2012
|Condition or disease||Intervention/treatment||Phase|
|Non-Hodgkin Lymphoma||Drug: Romiplostim||Phase 2|
High-dose chemotherapy followed by autologous stem cell transplant is considered standard of care for patients with relapsed and/or refractory aggressive lymphomas. High-dose chemotherapy, with or without ASCT, may also be used as upfront chemotherapy according to lymphoma histotype (e.g. primary central nervous system lymphomas, mantle cell lymphomas), advanced stage disease, extranodal involvement, and high IPI. Chemotherapy-induced myelosuppression results in various degrees of neutropenia, anemia, and thrombocytopenia and related complications can lead to hospitalization, impaired quality of life, death, and increased healthcare costs.
While myeloid growth factors have reduced neutropenia and the incidence of neutropenic fever, and erythropoietic agents have reduced anemia and transfusions, chemotherapy-induced thrombocytopenia (CIT) still remains an unmet treatment need.
Thrombocytopenia is significantly associated with increased bleeding risk, platelet transfusions need, chemotherapy dose reductions and treatment delays, which usually compromise therapeutic efficacy. Platelet transfusions are also limited by cost, supply, and associated risks, such as transfusion reactions, transmission of infection, alloimmunization and platelet refractoriness. Alternative strategies are evaluating pharmacologic options to stimulate platelet production and to overcome CIT.
The predominant reason for a low platelet count in cancer patients receiving chemotherapy is a deficiency in platelet production. Megakaryopoiesis, the process of development of mega-karyocytes and production of platelets, involves a highly complex cascade of events, from differentiation of immature progenitors to maturation of megakaryocytes and release of platelets into the bone marrow sinusoids. Cytokines present within specialized bone marrow niches contribute to survival, proliferation, and differentiation of megakaryocytes. In addition to TPO, an essential growth factor for platelet production, there are several other growth factors and cytokines, such as IL-1, IL-3, IL-6, IL-11, and SCF, that contribute towards megakaryopoiesis at different stages of development and maturation. In the last decade, a number of these cytokines have been evaluated for the prevention and treatment of thrombocytopenia. Unfortunately, none has yet provided a commercially available agent with a high therapeutic index.
Despite very promising thrombopoietic activity, the clinical development of first-generation recombinant TPOs was halted due to immunogenicity concerns. This led to the development of TPO agonists with no homology to TPO that can bind the TPO receptors and activate signal-ling, leading to increase in platelet production.
|Study Type :||Interventional (Clinical Trial)|
|Estimated Enrollment :||20 participants|
|Intervention Model:||Single Group Assignment|
|Masking:||None (Open Label)|
|Official Title:||Pilot Phase II Trial on Safety and Activity of Secondary Prophylaxis With Romiplostim in Patients With Non-Hodgkin Lymphoma and Chemotherapy-induced Thrombocytopenia|
|Study Start Date :||November 2011|
|Estimated Primary Completion Date :||November 2013|
|Estimated Study Completion Date :||September 2014|
Romiplostim will be administered subcutaneously at a dose of 250 μg on the 1st, 3rd and 5th days after the last day of chemotherapy delivery and, then, every two days until the achievement of 75.000 plt/μL.
In the case of unsuccessful use of romiplostim after the second chemotherapy course, dose escalation to 500 μg/day, with the same above-mentioned schedule, will be indicated after the third course and for all the further courses, with a maximum of 8.
- safety [ Time Frame: participants will be followed for the duration of experimental treatment, an expected average of 6 months ]evaluation of safety, defined by the incidence of grade >/= 4 adverse events (NCI CTCAE v. 4.02 Dec 2009)
- activity [ Time Frame: From date of registration until the completion of chemotherapy treatment, an expected average of 6 months ]activity defined by the incidence of grade 4 CIT (</= 25 x 10E9/L) per chemotherapy course during experimental treatment
To learn more about this study, you or your doctor may contact the study research staff using the contact information provided by the sponsor.
Please refer to this study by its ClinicalTrials.gov identifier (NCT number): NCT01516619
|Contact: Andrés JM Ferreri, MD||+39022643 ext firstname.lastname@example.org|
|Contact: Silvia Govi, MD||+39022643 ext email@example.com|
|Dip. Oncoematologia - Fondazione Centro San Raffaele del Monte Tabor||Recruiting|
|Contact: Andrés JM Ferreri, MD +39022643 ext 7649 firstname.lastname@example.org|
|Contact: Silvia Govi, MD +39022643 ext 7612 email@example.com|
|Principal Investigator: Andrés JM Ferreri, MD|
|Study Chair:||Andrés JM Ferreri, MD||San Raffaele Scientific Institute, Milano, Italy|