Monosomic karyotype (MK) has recently been associated with poor prognosis of myelodysplastic syndromes (MDS). The objective of the current study was to investigate the prevalence and spectrum of autosomal monosomies in an unselected cohort of patients with known or suspected MDS by using retrospective analysis. The results showed that bone marrow cytogenetic studies (1532 cases) were performed between 2004 and 2012, and an abnormal karyotype was found in 538 cases (35.1%). In the 538 cases, 202 (37.5%) cases had autosomal monosomies including sole (n = 47, 23.3%), part of two (n = 33, 21.3%) or more (n = 122, 78.7%) anomalies. Almost all 22 autosomes were involved, but monosomy 7 was by far the most frequent, constituting 66.1% of all isolated monosomies and the highest fraction of those with two or more abnormalities. Other recurrent sole monosomies included chromosomes 20 (15.0%) and 13 (8.5%). Monosomy 13 (12.5%), 18 (8.3%), 20 (6.3%), 17 (7.3%), 21 (5.2%), 5 (5.2%) and 12 (5.2%) were also recurrent in the setting of 3 abnormalities. Bone marrow histology and clinical information were reviewed in all cases with isolated monosomy; associated clinical phenotypes were found in RCMD (n = 20, 13 were -7), RAEB (n = 12, 11 were -7), RA (n = 9, 3 were -7) and chronic myelomonocytic leukemia (CMML, n = 6, 4 were -7) cases. Sole monosomy 20 (n = 7, RA 3 case and RCMD 4 cases) was not detected in RAEB or CMML cases. It is concluded that the presence of at least 1 autosomal monosomy was documented in approximately 37.5% of all abnormal cases, which has potential impact on a more than trivial fraction of patients with MDS. The preponderance of monosomy 7 implicates a pathogenetic role for haploinsufficiency of genes associated with chromosome 7. The rarity of sole monosomy involving other chromosomes other than 7, 20, and 13 suggests that haploinsufficiency involving entire chromosomes is detrimental to cell survival, unless their effect is overcome by the presence of other genetic changes that are often associated with additional chromosomal abnormalities. The observation is consistent with the usually favorable prognostic profile associated with sole monosomy 20.
Abnormal Karyotype ; Chromosome Aberrations ; Chromosome Deletion ; Humans ; Karyotyping ; Monosomy ; Myelodysplastic Syndromes ; genetics ; Prognosis ; Retrospective Studies

All complete monosomy 21 appear to be lethal early in their development in humans and only survive in mosaic forms. Complete monosomy 21 is a very rare and usually debilitating genetic disorder. Partial monosomy 21 is also rare and is thought to constitute a clinical syndrome consisting of peculiar faces, hypertonia, psychomotor retardation, and slow growth. We experienced a case of monosomy 21 mosaicism. Chromosome analysis demonstrated mosaicism for cell lines in the lymphocytes examined; 45, XX, -21/46, XX. The main clinical features were craniofacial dysmorphism including high arched palate, submucosal cleft, micrognathia and arthrogryposis-like symptoms including flexion deformity of fingers. And hematological findings were revealed dyserythropoiesis, thrombocytopenia and eosinophilia. Currently, the patient has nearly compatible growth, but a mild degree of mental retardation. We report here an 8 years old female child with apparent monosomy 21 mosaicism associated with dyserythropoiesis, thrombocytopenia and eosinophilia, with a review of the associated literatures.
Cell Line ; Child* ; Chromosome Deletion ; Congenital Abnormalities ; Eosinophilia ; Female ; Fingers ; Humans ; Intellectual Disability ; Lymphocytes ; Monosomy* ; Mosaicism* ; Palate ; Thrombocytopenia

OBJECTIVE: To explore the genetic cause for a patient with intellectual disability, short stature and multiple congenital anomalies, and to correlate the result with the clinical phenotype. METHODS: Routine karyotyping analysis was carried out on GTG-banded metaphase chromosomes. Single nucleotide polymorphism (SNP) microarray was used to detect microdeletions or microduplications in the patient. Fluorescence in situ hybridization (FISH) was used to ascertain the origin of aberrant chromosomes. RESULTS: The karyotype of the patient was 46,XY,der(18), while both of his parents had a normal karyotype. SNP array identified a 1.23 Mb deletion at 18p11.32-pter (chr18: 136 227-1 370 501, hg19) and a 33.76 Mb duplication at 18q21.1-qter (chr18: 44 250 359-78 013 728, hg19) in the patient. Above finding was confirmed by dual-color FISH with one color for 18p and another for 18q. The patient presented with some common features of 18p deletion and 18q duplication including intellectual disability and growth retardation, in addition with some features of 18p deletion including pectus excavatum, short stature and growth hormone (GH) deficiency. The patient showed progressive improvement of stature with GH therapy. Comparison of patients with previously reported dup(18q)+del(18p) recombinations suggested that, even for patients with similar breakpoints, their phenotypes have ranged from normal to severe and there were no consistent findings. CONCLUSION As aberrations involving double chromosomal segments often result in phenotypic variability, it has been difficult to correlate the genotype of our patient with his phenotype.
Abnormalities, Multiple ; Chromosome Deletion ; Chromosomes, Human, Pair 18 ; Genotype ; Humans ; In Situ Hybridization, Fluorescence ; Karyotyping ; Monosomy ; Phenotype ; Trisomy

Partial trisomy of the long arm of chromosome 5 distal to 5q33 is rare. Only 16 cases have so far been reported. We report on a three-year-old boy with microcephaly, growth and developmental delay, mild mental retardation, and facial dysmorphism caused by partial 5q trisomy and partial 7p monosomy. The patient has an apparently unbalanced translocation resulting from a rearrangement between chromosomes 5 and 7 (46,XY,der (7)t (5;7) (q33;p22)de novo). Fluorescence in situ hybridization with chromosome 5 and 7 painting probes and a cri-du-chat critical region probe confirmed this chromosome rearrangement. Most cases of partial trisomy 5q33-q35 described to date are due to the unbalanced transmission of a familial translocation. To the best of our knowledge, there are no previous reports of de novo unbalanced translocations of these two chromosome abnormalities together with similar breakpoints.
Arm ; Chromosome Aberrations ; Chromosome Deletion* ; Chromosomes, Human, Pair 5 ; Fluorescence ; Growth and Development ; Humans ; In Situ Hybridization ; Intellectual Disability ; Male ; Microcephaly ; Monosomy ; Paint ; Paintings ; Trisomy*

OBJECTIVE: To determine the nature and origin of aberrant chromosomes in a child with multiple anomalies and psychomotor retardation. METHODS: Routine G-banding was carried out to analyze the karyotypes of the patient and his parents, and next generation sequencing for copy number variations (CNV-seq) was used for the fine mapping of the aberrant chromosomal regions. RESULTS: The proband and his uncle exhibited psychomotor retardation, craniofacial malformation, infantile external genitalia, and concealed penis. Cytogenetic analysis indicated that the child has a 46,XYqh+,+(9),t(9;13)(q13;q12),pat,-13 karyotype. His uncle was XYqh+,+(9),t(9;13)(q13;q12)mat,-13, his father was 46,XYqh+,t(9;13)(q13;q12)mat, his grandmother was 46,XX,t(9;13)(q13;q12), and his grandfather was 46,XYqh+. The result of CNV-seq assay for the child was 46,XY,+9p(pter-p13.2,-40 Mb×3). No deletion was detected. CONCLUSION The partial trisomy 9 and partial monosomy 13 probably underlie the phenotypic abnormalities in the child. Combined chromosomal karyotyping and DNA sequencing can facilitate delineation of the nature and origin of the aberrant chromosomes.
Abnormalities, Multiple ; Child ; Chromosome Deletion ; Chromosomes, Human, Pair 13 ; Chromosomes, Human, Pair 9 ; DNA Copy Number Variations ; Humans ; Karyotyping ; Male ; Monosomy ; Pedigree ; Translocation, Genetic ; Trisomy

OBJECTIVE: To investigate the frequency, karyotype characteristics and prognosis significance of monosomal karyotype (MK) in newly diagnosed MDS patients. METHODS: The clinical, laboratorial and follow-up data of 202 MDS patients received the chromosome karyotype test in Department of Hematology, Ningbo Hospital of Zhejiang University from 2009 to 2018 were analyzed retrospectively, the monosomal karyotype features, clinical characteristics and their effects on the prognosis of MDS patients also were analyzed. RESULTS: Among 202 cases of MDS, 25 (12.38%) confirmed to be the MK. The abnormality of chromosome 5 (60.00%), 7 (56.00%), 17 (56.00%), 15 (56.00%), 13 (40.00%) and 20（40.00%）were common in monosomal karyotype. MK-MDS (MDS with monosomal karyotype) patients had higher bone marrow blast percentage than MK-MDS (MDS without monosomal karyotype) patients, the median are 6.25% and 3.00% (P＜0.01) respectively, but there were no difference in age, sex, hemoglobin level, white blood cell count, neutrophile granulocyte percentage, platelet count, blood blast percentage, serum ferritin, folic acid and vitaminB12 between MK-MDS and MK-MDS. The overall survival time of MK-MDS and MK-MDS patiens with chromosome 3, 5, 7, 13, 15, 17 abnormalities was significantly shorter than MK-MDS and AK+MK-MDS patients (MDS with abnormal karyotype but without monosomal karyotype) , the MK-MDS patients had a median survival time of 7.33 months, but the median survival time had not been reached in MK-MDS and AK+MK-MDS patients had not been reached by the end of the follow-up, and could not be assessed (P＜0.01). CONCLUSION The monosomal karyotype is a poor prognosis factor for newly-diagnosed MDS patients. The poor prognosis suggested by monosomal karyotype may be related with the abnormality of 3, 5, 7, 13, 15 and 17 chromosome.
Humans ; Karyotype ; Karyotyping ; Monosomy ; Myelodysplastic Syndromes ; Prognosis ; Retrospective Studies

Hypodiploidy exists in 3-15% of patients with childhood acute lymphoblastic leukemia(ALL) and is associated with a poor prognosis. Monosomy 7 and monosomy 20 account for most karyotypic abnormalities in patients in whom whole chromosomes are lost and their incidences are rare. Parotid tumors in the pediatric age group are unusual and in 1996, there was a case of invasion of the parotid glands of ALL in a 6-year-old boy with swelling of both parotid glands. But invasion of acute lymphocytic leukemia to the parotid gland has not yet been reported in Korea. Here, we report a 33 month-old boy with swelling of both parotid glands who was diagnosed to have ALL with monosomy 20 & parotid gland invasion.
Child ; Child, Preschool ; Humans ; Incidence ; Korea ; Male ; Monosomy* ; Parotid Gland* ; Precursor Cell Lymphoblastic Leukemia-Lymphoma* ; Prognosis

BACKGROUND: Azacitidine (AZA) is standard care for patients with myelodysplastic syndrome (MDS) who have not had allogeneic stem cell transplantation. Chromosomal abnormalities (CA) including complex karyotype (CK) or monosomal karyotype (MK) are associated with clinical outcome in patients with MDS. METHODS: We investigated which prognostic factors including CAs would predict clinical outcomes in patients with International Prognostic Scoring System (IPSS) higher risk MDS treated with AZA, retrospectively. CK was defined as the presence of three or more numerical or structural CAs. MK was defined as the presence of two or more distinct autosomal monosomies or single autosomal monosomy with at least one additional structural CA. RESULTS: A total of 243 patients who treated with AZA, were enrolled. CK was present in 124 patients and MK was present in 90 patients. Bone marrow blasts > or =15% and CK were associated with poorer response (P=0.038, P=0.007) and overall survival (OS) (P<0.001, P<0.001) independently. Although MK in CK group was not associated with prognosis, non-MK status in non-CK group reflected favorable OS (P=0.005). The group including >3 CAs was associated with poorer OS (group including <3 CAs vs. only three CAs, P=0.001; group with >3 CAs vs. only three CAs, P=0.001). CONCLUSION: CK was an important prognostic parameter associated with worse outcome. MK may predict poor survival in only non-CK status. The higher number of CAs was associated with poorer survival.
Azacitidine* ; Bone Marrow ; Chromosome Aberrations ; Humans ; Karyotype* ; Monosomy ; Myelodysplastic Syndromes* ; Prognosis ; Retrospective Studies ; Stem Cell Transplantation

OBJECTIVETo explore the clonal evolution of monosomy 7 in patients with aplastic anemia (AA).

METHODSMonosomy 7 (-7) in 81 AA patients with normal karyotype at diagnosis and 46 AA treated with immunosuppressive therapy (IST) and more than 6 months of recombinant human granulocyte colony-stimulating factor (rhuG-CSF) were detected by interphase- fluorescence in situ hybridization (FISH) retrospectively.

RESULTSThere were 5.4% - 7.6% of -7 cells in 11 (13.6%) of 81 patients at diagnosis, the survival and response rate to IST in -7 positive patients did not differ significantly from that in -7 negative patients (P = 0.481, 0.865); -7 cells disappeared after IST in all of the 11 patients including 5 received long-term rhuG-CSF therapy, and none of them evolved to myelodysplastic syndromes/acute myeloid leukemia (MDS/AML) at a median follow-up of 44 months. Serial assessments of -7 clones were performed in 46 patients, none of whom detected -7 clones 3-6 months after IST, but -7 recurrence in 5 patients 12 - 15 months after IST. At a median follow-up of 48 months, FISH identified 6 patients with -7 clones while the conventional cytogenetic analysis (CCA) recognized in 5. Moreover, the first demonstration of -7 by FISH was 3 - 18 months earlier than that by CCA. All of the 6 patients with FISH detected -7 evolved to MDS/AML with -7 and four of them were retrospectively analysed for in samples at -7 diagnosis of AA, but none of them was positive.

CONCLUSIONSMonosomy 7 exists in a part of AA patients, but the preexisting -7 cells seems neither associated with fatality nor evolvation to MDS/AML. rhuG-CSF might facilitate the expansion of -7 clones; It is necessary to monitor -7 in AA, especially when received long-term rhuG-CSF therapy.

OBJECTIVETo explore the prognostic significance of monosomal karyotype (MK) in patients with acute myeloid leukemia (AML).

METHODSThe clinical data of 498 AML patients were analyzed retrospectively.

RESULTSOf the 498 patients, 233 (46.8%) cases had an abnormal karyotype. 42 patients fulfilled the criteria for MK, which were 8.4% of all cases and 18.0% of patients with abnormal karyotype, respectively. The most frequent autosomal monosomies were -7 and -17. 70 patients had complex karyotype (CK), in all patients and patients with abnormal karyotype accounted for 14.1% and 30.0%, respectively. Patients with MK were associated with significantly older (median age 62.5 vs 52 years, P=0.003), and lower HGB concentrations (62.5 vs 77 g/L, P=0.009) and lower WBC counts (7.0×10⁹/L vs 11.7×10⁹/L, P=0.008). Among MK cases, the most frequent chromosome abnormalities were complex karyotype, -7, -5, 7q-, and 5q-. In univariate analysis, MK patients had worse survival than those without MK (7.3 months vs 26.3 months, P<0.001). CK patients also had poorer outcomes than patients without CK (14.8 months vs 26.3 months, P<0.001). In CK patients, survival was worse in MK patients than patients without MK (7.4 months vs 19.2 months, P=0.007). By COX analysis, MK was an independent prognostic factor, beyond NCCN criteria and CK [HR=2.610 (1.632-4.175), P<0.001].

CONCLUSIONMK was an independent adverse prognostic factor in AML patients.