Validation of the new comprehensive cytogenetic scoring system (NCCSS) on 630 consecutive de novo MDS patients from a single institution.

This study evaluated whether the NCCSS truly improves the prognostic stratification of 630 consecutive de novo MDS patients and established which cytogenetic grouping [NCCSS or International Prognostic Scoring System (IPSS)], when combined with the WHO classification, best predicted the clinical outcome of myelodysplastic syndromes (MDS). The frequency of chromosomal defects was 53.8%. Clinical parameters, including number of cytopenias, WHO classification, IPSS cytogenetic categories and scores, NCCSS were all relevant for overall survival (OS) and leukemia-free survival (LFS) and were included in six distinct multivariate models compared by the Akaike Information Criterion (AIC). The most effective model to predict OS included the number of cytopenias, the WHO classification and the NCCSS, whereas the model including the number of cytopenias, blast cell percentage and the NCCSS and the model including the number of cytopenias the WHO classification and the NCCSS were almost equally effective to predict LFS. In conclusion, the NCCS (i) improves the prognostic stratification of the good and poor IPSS cytogenetic categories by introducing the very good and the very poor categories; (ii) is still incomplete in establishing the prognostic relevance of rare/double defects, (ii) applied to patients who receive supportive treatment only identifies five different prognostic subgroups, but applied to patients treated with specific therapies reveals only a trend toward a significantly different OS and LFS when patients of the poor and intermediate cytogenetic categories are compared, (iii) combined with the WHO classification is much more effective than the IPSS in predicting MDS clinical outcom

Chronic lymphocytic leukemia with del13q14 as the sole abnormality: dynamic prognostic estimate by interphase-FISH

This study analyzed 140 patients with isolated del13q14 on interphase FISH (I-FISH), to identify subsets with a different progression risk and to assess the acquisition of additional chromosomal abnormalities (clonal evolution) in treatment-naïve del13q14 patients. A monoallelic deletion (del13qx1) was detected in 123 cases (88%), a biallelic deletion (del13qx2) in eight and a mosaic of monoallelic and biallelic deletions (del13qx1/del13qx2) in nine. In 33% of cases, deletion encompassed the Rb1 locus The median percentage of abnormal nuclei was 50% (15%-96%), and it was higher in patients with a biallelic/mosaic pattern in comparison with patients with monoallelic deletion. Sixty two patients (44%) have been treated; 5-year treatment free survival rate was 56% and the median treatment free survival was 65 months. The baseline percentage of deleted nuclei, as a continuous variable, was related to progression (HR: 1.02; p = 0.001). According to deletion burden, three groups were identified: 64 cases (46%) had <50% deleted nuclei, 47 (33%) had 50-69% deleted nuclei, and 29 (21%) had ≥70% deleted nuclei. The 5-year untreated rate was 70.5% , 52.6% and 28.7% (p < 0.0001), respectively. In multivariate analysis using IGHV mutational status, presence of a nullisomic clone, CD38 expression and percentage of deleted nuclei as covariates, only IGHV mutational status and the percentage of deleted nuclei were independent risk factors for treatment. In 103 patients serially monitored by I-FISH before starting any treatment, we observed a significant increase in the proportion of del13q14 cells, and this increase affected the risk of subsequent treatment requirement (HR 2.54, p = 0.001). The appearance of a new clone was detected in 16 patients (15.5%) and chromosome 13 was involved in 14 of them. I-FISH monitoring proves worthwhile for a dynamic risk stratification and for planning clinical surveillance

A complex translocation (5;7) in a patient with acute nonlymphocytic leukemia evolved from a myelodysplastic syndrome.

Complete or partial monosomy for the long arms of chromosomes 5 or 7 or both is frequently observed in therapy-related myelodysplastic syndromes and acute nonlymphocytic leukemia. Sporadic cases have been reported in which partial monosomy is due to unbalanced translocations. The patient described herein carries one such rearrangement. 46,XY,t(1;2) (q32;p23),del(5)(q13),der(7)(5qter-->5q22::7p15-->7 q21:),del(12)(p12), resulting in partial monosomy for the long arms of chromosomes 5 and 7 and in partial monosomy for the short arm of chromosome 7