Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Enzyme
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Query: UMLS:C0677930 (
primary tumor
)
20,210
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Eight families with two or more first-degree relatives affected with ovarian carcinoma were identified among a series of 138 consecutive ovarian cancer patients. History of breast cancer was reported in six of the eight families. Five of 19 patients with
familial cancer
developed ovarian cancer as a second
primary tumor
following breast carcinoma, whereas only 6/130 sporadic cases had a previous history of breast cancer. No significant difference was detected in clinical and pathological features between sporadic and familial cases. However, in three high-risk families ovarian cancer tended to develop at a younger age compared with other familial cases and with sporadic occurrences, and nulliparity was less frequent in the familial group. These observations emphasize the need to take into account multiple factors-in addition to positive family history-for the evaluation of genetic predisposition to ovarian carcinoma.
...
PMID:Analysis of 138 consecutive ovarian cancer patients: incidence and characteristics of familial cases. 225 75
The reported frequencies of germline mutations in the melanoma candidate genes are low in patients with uveal melanoma (UM). However, the number of families studied is limited and the majority of the published reports used low-sensitivity techniques for mutational screening. Identifying the frequency of alterations in any of the melanoma genes in patients with UM with increased hereditary cancer risk is important for proper counseling of these patients. We studied a total of 47 patients with UM including three with a family history of UM, 18 with a family and/or personal history of cutaneous melanoma (CM), three with early age at diagnosis (<30), 11 with increased risk for a known
familial cancer
syndrome, and 12 with a second
primary tumor
. Germline screening for mutations in CDKN2A, p14ARF, and exon 2 of CDK4 was carried out by direct sequencing. We identified a variant (IVS1-69 C>T) of uncertain significance in exon 1b of p14ARF in one of the patients with UM and his mother who also had UM. The variant was neither detected in any of the other patients with UM nor in 146 controls. We did not identify pathogenic mutations in CDKN2A nor exon 2 of CDK4 gene. Our study supports the low frequency of germline mutation of the CM candidate genes in patients with UM with family histories suggestive of a high risk for hereditary cancer. Germline testing for CDKN2A might be reserved for patients with UM with a family history of two or more CM.
...
PMID:Melanoma candidate genes CDKN2A/p16/INK4A, p14ARF, and CDK4 sequencing in patients with uveal melanoma with relative high-risk for hereditary cancer predisposition. 2141 76
The secondary development of malignant tumors after the treatment of Hodgkin's disease has been termed the price of success, but is relevant also to other types of cancer and gives an opportunity to study mechanisms of carcinogenesis and tumor induction. The authors review here their experience with second malignant neoplasms (SMN) as well as the result of an extensive search of the recent literature. The primary malignancies discussed in this article include Hodgkin's disease, pediatric cancer, breast cancer, lung cancer and other types of tumors. The international literature was searched (Medline 1989-1995) for reports of SMN with special emphasis on risk factors and the molecular mechanisms of tumor induction. In Hodgkin's disease, a 3 to 5-fold elevated risk for SMN was recognized, with a 15-year cumulative incidence in the range of 11-18%. All types of malignancies have a statistically increased risk (leukemias, non-Hodgkin's lymphomas, solid tumors). The risk for leukemia is related to the intensity of treatment with alkylating agents. Some solid tumors like lung cancer or breast cancer are related to radiation therapy. Present-day treatments may carry a lower risk of inducing secondary malignancies than treatments in the past. For non-Hodgkin's lymphoma as primary malignancy, fewer data exist on SMN. In pediatric cancer, no general risk estimate can be given and the genetic influence is greater as a cause of SMN. The improved prognosis for acute lymphoblastic leukemia has led to a changing pattern of pediatric SMN. In head and neck- and in lung cancer, the same etiologic factors which cause the
primary tumor
may also cause SMN. SMN occur as part of
familial cancer
syndromes. Two types of treatment related leukemias (mostly AMLs) exist and can be recognized by cytogenetic and molecular analysis. A complete follow-up is necessary to fully appreciate the risk of second malignancy. The goal to prevent SMN must be reached without decreasing the cure rates of the
primary tumor
. New treatment approaches need to be carefully monitored for SMN. Improved tests of mutagenesis and molecular screening may help to recognize patients prone to develop SMN and permit to estimate certain types of risk. Screening and prevention strategies are useful in high-risk situations.
...
PMID:Second malignancies. 2154 81
