Adverse Events During Hematopoietic Stem Cell Infusion: Analysis of the Infusion Product.

BACKGROUND: Stem cell transplantation is a treatment option for patients with cancer. However, a risk of adverse events might be associated with the infusion itself. An understanding of the types and grades of adverse events occurring during infusion and the patient and infusion characteristics that might be associated with these events could allow for interventions to minimize these complications. The risk factors associated with transplant-related adverse events are not well understood. MATERIALS AND METHODS: We retrospectively analyzed the adverse events occurring within 1 hour after infusion in 460 patients with cancer undergoing stem cell transplantation at the Northwestern University Robert H. Lurie Comprehensive Cancer Center from January 1, 2008 and May 1, 2011. Of the 460 patients, 382 received autologous transplants and 78 allogeneic transplants. The incidence, types, and National Cancer Institute Common Terminology Criteria grade of toxicity for adverse events were noted (primary objective). Univariate analyses were performed to study which patient and infusion characteristics might be associated with the occurrence of adverse events (secondary objectives). RESULTS: Of the 460 patients, 261 (56.7%) experienced adverse events (66.7% during allogeneic infusion and 54.7% during autologous infusion). Most events were cardiopulmonary. Univariate analysis of the infusion and patient characteristics revealed that a second transplant (P = .005) was associated with more adverse events for autologous transplant patients. For allogeneic transplant patients, a higher infusion red blood cell volume (P = .01) was associated with more adverse events. CONCLUSION: Adverse events are common during stem cell infusion and are generally cardiopulmonary.

Multiple myeloma exhibits novel dependence on GLUT4, GLUT8, and GLUT11: implications for glucose transporter-directed therapy.

Multiple myeloma is one of numerous malignancies characterized by increased glucose consumption, a phenomenon with significant prognostic implications in this disease. Few studies have focused on elucidating the molecular underpinnings of glucose transporter (GLUT) activation in cancer, knowledge that could facilitate identification of promising therapeutic targets. To address this issue, we performed gene expression profiling studies involving myeloma cell lines and primary cells as well as normal lymphocytes to uncover deregulated GLUT family members in myeloma. Our data demonstrate that myeloma cells exhibit reliance on constitutively cell surface-localized GLUT4 for basal glucose consumption, maintenance of Mcl-1 expression, growth, and survival. We also establish that the activities of the enigmatic transporters GLUT8 and GLUT11 are required for proliferation and viability in myeloma, albeit because of functionalities probably distinct from whole-cell glucose supply. As proof of principle regarding the therapeutic potential of GLUT-targeted compounds, we include evidence of the antimyeloma effects elicited against both cell lines and primary cells by the FDA-approved HIV protease inhibitor ritonavir, which exerts a selective off-target inhibitory effect on GLUT4. Our work reveals critical roles for novel GLUT family members and highlights a therapeutic strategy entailing selective GLUT inhibition to specifically target aberrant glucose metabolism in cancer.

NCCN task force: clinical utility of PET in a variety of tumor types.

Use of PET is widespread and increasing in the United States, mainly for oncologic applications. In November 2006, the National Comprehensive Cancer Network (NCCN) gathered a panel of experts to review the literature and develop clinical recommendations for using PET scans in lymphoma and non-small cell lung, breast, and colorectal cancers. However, because its use is not restricted to these diseases, and evidence is accumulating for its application in other types of cancers, NCCN convened a second meeting in December 2008 to expand on the initial report. A multidisciplinary panel met to discuss the current data on PET application for various tumor types, including genitourinary, gynecologic, pancreatic, hepatobiliary, thyroid, brain, small cell lung, gastric, and esophageal cancers, and sarcoma and myeloma. This report summarizes the proceedings of this meeting, including discussions of the background of PET, the role of PET in oncology, principles of PET use, emerging applications, and possible future developments.