Summary:Peripheral blood progenitor cells (PBPC) can be mobilized by chemotherapy, cytokines, or the combination of both. Recently, data from two non-randomized studies were published, showing an advantage for a combination of rhG-CSF plus rhEpo compared to rhG-CSF alone in mobilization of PBPC. To address this question we initiated a prospective, randomized trial in patients with breast cancer. Thirty (28 female, two male) of 32 randomized patients were evaluable. After primary surgery, therapy consisted of two cycles of VIP-E chemotherapy followed by high-dose (HD) chemotherapy with VIC. Mobilization and harvest of PBPC followed cycle 2. Group A received 5 g rhG-CSF/kg body weight (bw) plus 150 IU rhEpo/kg bw. Group B was treated with 5 g rhG-CSF/kg bw from d1 until end of harvest. In the peripheral blood CD34 + cells as well as colony-forming units (CFU) started to rise on d8 with a peak on d10, followed by a decrease. No significant differences were observed between the groups. Furthermore, there was no significant difference with regard to MNC, CD34 + cells BFU-E and CFU-GM in apheresis products. Transplantation of Ͼ1 × 10 6 CD34 + cells/kg bw after HD chemotherapy resulted in normal hematological recovery of all patients. No differences were observed in time to neutrophil or platelet recovery and need for blood product support. In this study addition of rhEpo to our standard mobilization chemotherapy did not result in improved mobilization of PBPC or in clinical benefits after HD chemotherapy. Keywords: PBPC mobilization; cytokines; erythropoietin; rhG-CSF; breast cancer Bone marrow toxicity has been the limiting factor for doseintensity of chemotherapy in the past. High-dose (HD) chemotherapy with subsequent transplantation of autologous hematopoietic progenitor cells has offered a new therapeutic modality to increase dose-intensity compared to stan-
Invasive opportunistic mycoses are common complications in patients suffering from hematological disorders. Brain abscesses in the immunocompromised host are known to be most frequently caused by fungi of the Aspergillus species and are often associated with concomitant pulmonary disease. As the penetration of the currently available antifungal agents into the brain tissue is limited, only very few patients have been described to survive this life-threatening condition. We report the case of a 62 year old female patient who presented with multiple aspergillus brain abscesses during prolonged neutropenia following induction chemotherapy for acute myeloblastic leukemia and was successfully treated with high dose (8 mg/kg/day) liposomal amphotericin B.
The 21-kD protein Ras of the low-molecularweight GTP-binding (LMWG) family plays an important role in transduction of extracellular signals. Ras functions as a 'molecular switch' in transduction of signals from the membrane receptors of many growth factors, cytokines, and other second messengers to the cell nucleus. Numerous studies have shown that in multiple malignant tumors and hematopoietic malignancies, faulty signal transduction via the Ras pathway plays a key role in tumorigenesis. In this work, a non-radioactive assay was used to quantify Ras activity in hematologic malignancies. Ras activation was measured in six different cell lines and 24 patient samples, and sequence analysis of Nand K-ras was performed. The 24 patient samples comprised of seven acute myelogenous leukemia (AML) samples, five acute lymphocytic leukemia (ALL) samples, four myeloproliferative disease (MPD) samples, four lymphoma samples, four juvenile myelomonocytic leukemia (JMML) samples, and WBC from a healthy donor. The purpose of this study was to compare Ras activity determined by percentage of Ras-GTP with the mutational status of the Ras gene in the hematopoietic cells of the patients. Mutation analysis revealed ras mutations in two of the seven AML samples, one in codon 12 and one in codon 61; ras mutations were also found in two of the four JMML samples, and in one of the four lymphoma samples (codon 12). We found a mean Ras activation of 23.1% in cell lines with known constitutively activating ras mutations, which was significantly different from cell lines with ras wildtype sequence (Ras activation of 4.8%). Two of the five activating ras mutations in the patient samples correlated with increased Ras activation. In the other three samples, Ras was probably activated through "upstream" or "downstream" mechanisms.
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