A. M. Potter scite author profile

Posterior uveal melanomas have nonrandom alterations affecting chromosomes 3, 6, and 8. Loss of chromosome 3 in uveal melanoma has been shown to act as a predictor of disease‐free and overall survival. To confirm the significance of chromosome 3 loss and to extend the observations to include those of the associated alterations of chromosome 8, we have conducted a cytogenetic analysis on a series of 42 tumours from patients with primary uveal melanoma who were followed up for a median of 31 months (range = 8‐96 months). Abnormalities of chromosomes 3 and 8 were the commonest changes and were confirmed in 10 tumours using flourescence in situ hybridization. Monosomy of chromosome 3 was found in 21 (50%) of the tumours, and 23 (54%) tumours had additional copies of 8q. Alterations of chromosomes 3 and 8 were found occurring together in 19 (45%) of the tumours and were significantly associated with a ciliary body component (P < 0.0001). Prognostic indicators and changes of chromosomes 3 and 8 were analysed for correlation with patient survival. Of the chosen parameters, only ciliary body involvement (P = 0.003), monosomy of chromosome 3 (P = 0.0007), and additional copies of 8q (P = 0.003) correlated with reducted survival. Evaluation of the dosage effect of additional copies of chromosome arm 8q showed a significant association with reduced survival (P = 0.0001), which was also predictive of a decreased disease‐free interval (P = 0.01). Thus, the cytogenetic analysis of uveal melanoma may provide a valuable predictor of prognosis. Genes Chromosom. Cancer 19:22–28, 1997. © 1997 Wiley‐Liss, Inc.

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Cytogenetic abnormalities and their prognostic significance in idiopathic myelofibrosis: a study of 106 cases

Reilly

Snowden²,

Spearing³

et al. 1997

Br J Haematol

190

179

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Summary. The prognostic significance of cytogenetic abnormalities was determined in 106 patients with wellcharacterized idiopathic myelofibrosis who were successfully karyotyped at diagnosis. 35% of the cases exhibited a clonal abnormality (37/106), whereas 65% (69/106) had a normal karyotype. Three characteristic defects, namely del(13q) (nine cases), del(20q) (eight cases) and partial trisomy 1q (seven cases), were present in 64 . 8% (24/37) of patients with clonal abnormalities. Kaplan-Meier plots and log rank analysis demonstrated an abnormal karyotype to be an adverse prognostic variable (P < 0 . 001). Of the eight additional clinical and haematological parameters recorded at diagnosis, age (P < 0 . 01), anaemia (haemoglobin р10 g/ dl; P < 0 . 001), platelet (р100 × 10 9 /l, P < 0 . 0001) and leucocyte count (>10 . 3 × 10 9 /l; P ¼ 0 . 06) were also associated with a shorter survival. In contrast, sex, spleen and liver size, and percentage blast cells were not found to be significant. Multivariate analysis, using Cox's regression, revealed karyotype, haemoglobin concentration, platelet and leucocyte counts to retain their unfavourable prognostic significance. A simple and useful schema for predicting survival in idiopathic myelofibrosis has been produced by combining age, haemoglobin concentration and karyotype with median survival times varying from 180 months (good-risk group) to 16 months (poor-risk group).

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Cytogenetic findings in six posterior uveal melanomas: Involvement of chromosomes 3, 6, and 8

Sisley

Rennie

Cottam

et al. 1990

Genes Chromosomes & Cancer

145

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Association of specific chromosome alterations with tumour phenotype in posterior uveal melanoma

Sisley

Parsons

Garnham³

et al. 2000

Br J Cancer

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Posterior uveal melanomas have recurrent alterations of chromosomes 1, 3, 6 and 8. In particular, changes of chromosomes 3 and 8 occur in association, appear to characterize those tumours with a ciliary body component, and have been shown to be of prognostic significance. The relevance of other chromosome alterations is less certain. We have performed cytogenetic analysis on 42 previously untreated primary posterior uveal melanomas. Of interest was the observation that as tumour size increased the involvement of specific chromosome changes, and the amount of chromosome abnormalities likewise increased. Loss, or partial deletions, of the short arm of chromosome 1 were found to associate with larger ciliary body melanomas; typically, loss of the short arm resulted from unbalanced translocations, the partners of which varied. Trisomy of chromosome 21 occurred more often in ciliary body melanomas, whilst rearrangements of chromosomes 6 and 11 were primarily related to choroidal melanomas. Our results imply that alterations of chromosome 1 are important in the progression of some uveal melanomas, and that other chromosome abnormalities, besides those of chromosomes 3 and 8, are associated with ocular tumours of particular locations. © 2000 Cancer Research Campaign

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Non‐random abnormalities of chromosomes 3, 6, and 8 associated with posterior uveal melanoma

Sisley

Cottam

Rennie

et al. 1992

Genes Chromosomes & Cancer

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We present ten cases of posterior uveal melanoma which were karyotyped after short-term culture. One tumour had a normal chromosome complement. The remaining nine tumours were cytogenetically abnormal, with chromosomes 3, 6, 8, 11, and 13 most frequently involved. Abnormalities of chromosome 13 were seen in two cases, chromosome 11 in three cases, and chromosomes 3, 6, and 8 in five cases. Four tumours, all derived from the ciliary body, demonstrated monosomy 3 and i(8q), confirming the involvement of these aberrations with a subgroup of uveal melanomas arising from the ciliary body.

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A. M. Potter

Abnormalities of chromosomes 3 and 8 in posterior uveal melanoma correlate with prognosis

Cytogenetic abnormalities and their prognostic significance in idiopathic myelofibrosis: a study of 106 cases

Cytogenetic findings in six posterior uveal melanomas: Involvement of chromosomes 3, 6, and 8

Association of specific chromosome alterations with tumour phenotype in posterior uveal melanoma

Non‐random abnormalities of chromosomes 3, 6, and 8 associated with posterior uveal melanoma

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