Effect of single-unit transfusion in patients treated for haematological disease including acute leukemia: A multicenter randomized controlled clinical trial.

BACKGROUND: Retrospective studies in hematological unit have suggested that single red blood cell (1-RBC) unit transfusion policy may reduce the number of RBC used without negative clinical impact. METHOD: Acute leukemia patients requiring intensive chemotherapy or patients receiving autologous or allogeneic transplantation were randomly assigned to receive either single RBC (1-RBC arm) or double RBC (2-RBC arm) per transfusion with a hemoglobin trigger of 8 g/dL. The primary composite endpoint was the percentage of patients experiencing serious complications, such as a non-hematological adverse event grade ≥ 3 or intensive care admission or death. FINDINGS: A total of 981 and 592 RBC transfusions were required in the 1-RBC arm (n = 125) and the 2-RBC arm (n = 120), respectively. The mean pre-transfusion hemoglobin levels were 7.49 ± 0.83 g/dL in the 1-RBC arm and 7.46 ± 0.67 g/dL in the 2-RBC arm (p = 0.275). The predefined non-inferiority criteria was achieved with 28/125 patients reaching the primary endpoint in the 1-RBC arm (22.4 %) and 28/120 patients in the 2-RBC arm (23.3 %) (Risk difference 0.009; 95 %, Confidence interval [-0.0791 to 0.0978], p = 0.021). The median (IQR) of RBC units transfused per patient was 7 (4-12) in the 1-RBC arm and 8 (4-12) in 2-RBC arm. Hemoglobin levels at discharge were also comparable in both arms. INTERPRETATION: The results of this trial indicate that a single RBC transfusion policy is not inferior to a double RBC transfusion policy for patients receiving a bone marrow transplant or intensive chemotherapy in a hematological intensive care unit. However, the single RBC transfusion policy did not reduce the number of RBC units transfused per stay. FUNDING: This trial was funded by a grant from the French Ministry of Health.

Unusual Extramedullary Plasmacytoma: A Rare but Possible Cause of Lymphadenopathy in Chronic Lymphocytic Leukemia.

Cervical bilateral lymphadenopathy is a frequent event during chronic lymphocytic leukemia (CLL) natural history. However, lymph node biopsy is generally not required as long as transformation into an aggressive lymphoma (Richter syndrome) is not suspected. We present here a rare case of CLL patient who developed progressive bilateral cervical lymph node and bilateral tonsillar hypertrophy. CLL front-line therapy was ineffective leading to adenectomy and diagnosis of concomitant extramedullary plasmacytoma. Radiotherapy did not result in the disappearance of lymphadenopathy. Adenectomy should be performed in CLL cases to avoid misdiagnosis.

Candida albicans and Pseudomonas aeruginosa interactions: more than an opportunistic criminal association?

Pseudomonas aeruginosa and Candida albicans are frequently coexisting opportunistic pathogens, responsible for colonization and infection in predisposed patients. They share a virulence specificity relying on auto-inducing, cell density-dependent molecules named quorum-sensing (QS). C. albicans virulence depends on its QS that influences morphological switch from yeast to filamentous form. Similarly, the production of P. aeruginosa virulence factors depends partly on QS molecules. Interactions have been investigated and demonstrated in vitro. P. aeruginosa may kill C. albicans either by producing toxins, such as pyocyanin, or by direct contact on its biofilm-dependent filamentous form. Cross-kingdom communication is a more subtle interaction: C. albicans can adapt its morphology in the presence of P. aeruginosa QS molecules, and inhibit P. aeruginosa QS-dependent virulence factor secretion, through farnesol, one of its QS molecule. But the in vivo relevance of these interactions is still controversial, as models of airway colonization/infection by C. albicans followed by subsequent P. aeruginosa pneumonia give contradictory results, suggesting the probable involvement of the immune system as a third party player. Finally, the authors of clinical studies performed in ventilated patients, indicate that C. albicans colonization could be a risk factor for P. aeruginosa pneumonia. The clinical outcome of C. albicans and P. aeruginosa interaction is uncertain, the virulence modulation demonstrated in these interactions opens new possibilities for future anti-infectious therapeutics.