Howard Weiner scite author profile

Abnormally strong functional linkage between cortical areas has been postulated to play a role in the pathogenesis of partial epilepsy. We explore the possibility that such linkages may be manifest in the interictal EEG apart from epileptiform disturbances or visually evident focal abnormalities. We analyzed samples of interictal intracranial EEG (ICEEG) recorded from subdural grids in nine patients with medically intractable partial epilepsy, measuring interelectrode synchrony using the mean phase coherence algorithm. This analysis revealed areas of elevated local synchrony, or "hypersynchrony" which had persistent spatiotemporal characteristics that were unique to each patient. Measuring local synchrony in a subdural grid results in a map of the cortical surface that provides information not visually apparent on either EEG or structural imaging. We explore the relationship of hypersynchronous areas to the clinical evidence of seizure localization in each case, and speculate that local hypersynchrony may be a marker of epileptogenic cortex, and may prove to be a valuable aid to clinical ICEEG interpretation.

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Clonal evolution underlying leukemia progression and Richter transformation in patients with ibrutinib-relapsed CLL

Kadri¹,

Lee²,

Fitzpatrick³

et al. 2017

111

138

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Key Points• Del(18p), together with del(17p)/TP53 mutations, is present at a high frequency before ibrutinib treatment.• BTK mutations drive ibrutinib relapse, but del(17p)/TP53 mutations may be dispensable.Ibrutinib has generated remarkable responses in patients with chronic lymphocytic leukemia (CLL), including those with an unfavorable cytogenetic profile. However, patients develop resistance, with poor outcomes and no established treatment options. Mutations in BTK and PLCG2 have emerged as main mechanisms of drug resistance, but not all patients carry these mutations. Further understanding of mechanisms of resistance is urgently needed and will support rational development of new therapeutic strategies. To that end, we characterized the genomic profiles of serial samples from 9 patients with ibrutinib-relapsed disease, including 6 who had Richter transformation. Mutations, indels, copy-number aberrations, and loss of heterozygosity were assessed using next-generation sequencing and single-nucleotide polymorphism array. We found that 18p deletion (del(18p)), together with del(17p)/TP53 mutations, was present in 5 of 9 patients before ibrutinib therapy. In addition to BTK C481 , we identified BTK T316A, a structurally novel mutation located in the SH2 domain of BTK. Minor BTK clones with low allele frequencies were captured in addition to major BTK clones. Although TP53 loss predisposes patients for relapse, clone size of TP53 loss may diminish during disease progression while mutant BTK clone expands. In patients who had Richter transformation, we found that the transformed cells were clonal descendants of circulating leukemia cells but continued to undergo evolution and drifts.Surprisingly, transformed lymphoma cells in tissue may acquire a different BTK mutation from that in the CLL leukemia cells. Collectively, these results provide insights into clonal evolution underlying ibrutinib relapse and prompt further investigation on genomic abnormalities that have clinical application potential.

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Inherited mutations in cancer susceptibility genes are common among survivors of breast cancer who develop therapy‐related leukemia

Churpek

Márquez

Neistadt

et al. 2015

Cancer

150

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Background Risk factors for therapy-related leukemia (TRL) development, an often lethal late complication of cytotoxic therapy, remain poorly understood and may differ for survivors of different malignancies. Breast cancer (BC) survivors now account for the majority of TRL cases, making study of TRL risk factors in this population a priority. Methods Patients with TRL following cytotoxic therapy for a primary BC were identified from The University of Chicago TRL registry. Those with an available germline DNA sample were screened with a comprehensive gene panel covering known inherited BC susceptibility genes. Clinical and TRL characteristics of all subjects and those with identified germline mutations are described. Results Nineteen (22%) of 88 BC survivors with TRL had an additional primary cancer and 40 (57%) of the 70 with available family history had a close relative with breast, ovarian, or pancreatic cancer. Of the 47 subjects with available DNA, 10 (21%) were found to carry a deleterious inherited mutation in: BRCA1 (n=3, 6%), BRCA2 (n=2, 4%), TP53 (n=3, 6%), CHEK2 (n=1, 2%), and PALB2 (n=1, 2%). Conclusions BC survivors with TRL have personal and family histories suggestive of inherited cancer susceptibility and frequently carry germline mutations in BC susceptibility genes. These data support the role of these genes in TRL risk and suggest that long term follow-up studies of women with germline mutations treated for BC and functional studies of the effects of heterozygous mutations in these genes on bone marrow function following cytotoxic exposures are warranted.

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Studies of the Pulmonary Circulation at Rest and During Exercise in Normal Individuals and in Patients With Chronic Pulmonary Disease

Riley

Himmelstein

Motley

et al. 1948

American Journal of Physiology-Legacy Content

240

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Howard Weiner

Cortical abnormalities in epilepsy revealed by local EEG synchrony

Clonal evolution underlying leukemia progression and Richter transformation in patients with ibrutinib-relapsed CLL

Inherited mutations in cancer susceptibility genes are common among survivors of breast cancer who develop therapy‐related leukemia

Studies of the Pulmonary Circulation at Rest and During Exercise in Normal Individuals and in Patients With Chronic Pulmonary Disease

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