NT-pro-BNP: not the prognostic all-rounder in elderly patients undergoing allogeneic stem cell transplantation.

Allogeneic hematopoietic cell transplantation (HCT) is a curative approach for several diseases predominantly affecting elderly patients. Overall survival is compromised by treatment-related mortality (TRM), GvHD, and relapse. Pretransplant clinical risk indicators in elderly patients qualifying for HCT are highly desirable. Pro-BNP is known as a predictor of death in patients with an increasing variety of clinical conditions and frequently used as a routine parameter for organ complications in the allogeneic transplant setting without well-established scientific evidence. Our hypothesis was that pre-HCT NT-pro-BNP could aid in identifying elderly patients at risk for early mortality. We retrospectively evaluated NT-pro-BNP values in 177 consecutive patients of ≥60 years HCT (2005-2010). In 29.4 % of cases, NT-pro-BNP values were within our institute's normal range (<125 pg/ml). Analysis of different NT-pro-BNP cutoff points by receiver operating characteristics curve for mortality at day +100 revealed no single cutoff value with satisfying specificity and sensitivity. The individual outcome of patients with extremely high NT-pro-BNP values was not associated with an increase in mortality or cardiovascular morbidity. NT-pro-BNP values of patients succumbing to TRM did not differ significantly from those alive or having died of relapse-median 276 vs. 217 pg/ml. In conclusion, pre-HCT NT-pro-BNP was of no convincing prognostic relevance for day 100 mortality.

The role of X-inactivation in the gender bias of patients with acquired alpha-thalassaemia and myelodysplastic syndrome (ATMDS).

Alpha thalassaemia myelodysplastic syndrome (ATMDS) is an unusual complication of chronic myeloid malignancy that is associated with a striking red cell phenotype. It represents an acquired form of alpha-thalassaemia that most commonly arises in the context of myelodysplasia. It has recently been shown that this condition occurs in association with somatic mutations of a known X-encoded trans-acting regulator of alpha globin gene (HBA) expression, ATRX. There is an unexplained, strong male preponderance of individuals with the ATMDS phenotype with a >5:1 male-female ratio and furthermore, all the somatic ATRX mutations described to date have been in males. Here we report the identification, in a single centre, of two females with ATMDS and mutations in the ATRX gene, proving that ATMDS associated with such mutations may occur, albeit rarely, in females. It seemed possible that females might be less likely to develop ATMDS if the inactivated copy of the ATRX gene (ATRX) became progressively re-activated throughout life. This study ruled out this hypothesis by investigating the pattern of ATRX inactivation in a cross-sectional analysis of normal females at ages ranging from newborn to 90 years.

State of the art therapy in multiple myeloma and future perspectives.

Treatment for multiple myeloma (MM) has changed beyond recognition in the past decades. While until the early 1980s, MM caused a slow progressive decline in quality of life until death after about two years, today's patients can expect a 50% chance of achieving a complete remission, a median survival time of five years and a 20% chance of surviving longer than ten years. State of the art therapy comprises: evidence-based supportive care; highly effective and well tolerated chemotherapeutic regimens; and for patients qualifying for intensive high-dose conditioning, autologous haematopoietic stem cell transplantation (HSCT) is an option. Maintenance therapy has become increasingly important since a majority of patients is able to achieve a good remission after front-line therapy which is aimed to be preserved as long as possible. In addition, improved understanding of the disease biology has led to the development of novel biological treatment agents, such as thalidomide, bortezomib and others, targeted at cellular mechanisms and interactions, e.g. with the bone marrow microenvironment. These strategies are incrementally integrated into modern MM care. This review considers recent clinical advancements in anti-myeloma strategies and provides an overview of the state of the art management of MM patients.

Treatment of myelodysplastic syndrome with a DNA methyltransferase inhibitor: lack of evidence for induction of chromosomal instability.

In several large phase II trials, low-dose treatment with the azanucleoside 5-aza-2'-deoxycytidine (decitabine, DAC) resulted in complete hematologic and cytogenetic responses in 23 and 31% of MDS patients, respectively. The question of induction of chromosomal instability by this demethylating agent was addressed by serial karyotypic analyses. 53/122 DAC-treated patients had all normal metaphases at time of treatment start. In 46/53 patients, sequential cytogenetic analyses were performed. 9/46 patients (20%) acquired clonal chromosomal abnormalities during follow-up (4/9 transient). 8/9 abnormalities were gains or losses of entire chromosomes. The rate and pattern of cytogenetic evolution are thus not higher than in historical MDS cohorts not receiving specific treatment.