17 results on '"Reuterswärd C"'
Search Results
2. P2.10-01 Analysis of Human Papilloma Viruses (HPV) and Human Polyoma Viruses (HPyV) in Lung Cancer from Swedish Never-Smokers
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Ramqvist, T., Ortiz-Villalón, C., Brandén, E., Koyi, H., De Petris, L., Wagenius, G., Brodin, O., Reuterswärd, C., Dalianis, T., Jönsson, M., Staaf, J., Lewensohn, R., and Planck, M.
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- 2019
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3. P1.14-37 Lung Cancer in Never-Smokers: A Nationwide Population Based Mapping of Targetable Alterations
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Salomonsson, A., Jönsson, M., Reuterswärd, C., Behndig, A., Bergman, B., Botling, J., Brandén, E., Brunnström, H., De Petris, L., Hussein, A., Johansson, M., Koyi, H., Lundström, K. Lamberg, Lewensohn, R., Monsef, N., Ortiz-Villalón, C., Patthey, A., Vikström, A., Wagenius, G., Staaf, J., and Planck, M.
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- 2019
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4. P2.01-48 Predictive Factors in NSCLC Patients with Stage IIIB/IV Treated with First Line Platinum-Doublet Chemotherapy
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Isaksson, S., Reuterswärd, C., Hazem, B., Griph, H., Engleson, J., Ericson Lindquist, K., Planck, M., and Staaf, J.
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- 2018
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5. 19P Single sample predictor of non-small cell lung cancer histology based on gene expression analysis of archival tissue
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Karlsson, A., Cirenajwis, H., Ericson-Lindqvist, K., Reuterswärd, C., Jönsson, M., Patthey, A., Behndig, A.F., Johansson, M., Planck, M., and Staaf, J.
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- 2018
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6. MA21.07 A Nation-Wide Population-Based Mapping of Targetable Alterations in Smoking-Independent Lung Cancer.
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Salomonsson, A., Patthey, A., Reuterswärd, C., Jönsson, M., Botling, J., Brunnström, H., Hussein, A., Monsef, N., Ortiz-Villalon, C., Bergman, B., De Petris, L., Lamberg, K., Vikström, A., Wagenius, G., Behndig, A., Brandén, E., Johansson, M., Koyi, H., Staaf, J., and Planck, M.
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- 2018
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7. Power supply for a thermionic ion source.
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Reuterswärd, C.
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- 1952
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8. Comprehensive molecular comparison of BRCA1 hypermethylated and BRCA1 mutated triple negative breast cancers.
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Glodzik D, Bosch A, Hartman J, Aine M, Vallon-Christersson J, Reuterswärd C, Karlsson A, Mitra S, Niméus E, Holm K, Häkkinen J, Hegardt C, Saal LH, Larsson C, Malmberg M, Rydén L, Ehinger A, Loman N, Kvist A, Ehrencrona H, Nik-Zainal S, Borg Å, and Staaf J
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- Adult, Aged, B7-H1 Antigen genetics, B7-H1 Antigen metabolism, BRCA1 Protein deficiency, Cohort Studies, DNA Methylation genetics, Female, Gene Expression Regulation, Neoplastic, Humans, Middle Aged, Phenotype, Prognosis, Promoter Regions, Genetic, Transcription, Genetic, Treatment Outcome, Triple Negative Breast Neoplasms blood, Triple Negative Breast Neoplasms diagnosis, Triple Negative Breast Neoplasms therapy, BRCA1 Protein genetics, Mutation genetics, Triple Negative Breast Neoplasms genetics
- Abstract
Homologous recombination deficiency (HRD) is a defining characteristic in BRCA-deficient breast tumors caused by genetic or epigenetic alterations in key pathway genes. We investigated the frequency of BRCA1 promoter hypermethylation in 237 triple-negative breast cancers (TNBCs) from a population-based study using reported whole genome and RNA sequencing data, complemented with analyses of genetic, epigenetic, transcriptomic and immune infiltration phenotypes. We demonstrate that BRCA1 promoter hypermethylation is twice as frequent as BRCA1 pathogenic variants in early-stage TNBC and that hypermethylated and mutated cases have similarly improved prognosis after adjuvant chemotherapy. BRCA1 hypermethylation confers an HRD, immune cell type, genome-wide DNA methylation, and transcriptional phenotype similar to TNBC tumors with BRCA1-inactivating variants, and it can be observed in matched peripheral blood of patients with tumor hypermethylation. Hypermethylation may be an early event in tumor development that progress along a common pathway with BRCA1-mutated disease, representing a promising DNA-based biomarker for early-stage TNBC.
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- 2020
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9. Clinical Utility of Targeted Sequencing in Lung Cancer: Experience From an Autonomous Swedish Health Care Center.
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Isaksson S, Hazem B, Jönsson M, Reuterswärd C, Karlsson A, Griph H, Engleson J, Oskarsdottir G, Öhman R, Holm K, Rosengren F, Annersten K, Jönsson G, Borg Å, Edsjö A, Levéen P, Brunnström H, Lindquist KE, Staaf J, and Planck M
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Objectives: Mutation analysis by massive parallel sequencing (MPS) is routinely performed in the clinical management of lung cancer in Sweden. We describe the clinical and mutational profiles of lung cancer patients subjected to the first 1.5 years of treatment predictive MPS testing in an autonomous regional health care region., Methods: Tumors from all patients with lung cancer who had an MPS test from January 2015 to June 2016 in the Skåne health care region in Sweden (1.3 million citizens) were included. Six hundred eleven tumors from 599 patients were profiled using targeted sequencing with a 26-gene exon-focused panel. Data on disease patterns and characteristics of the patients subjected to testing were assembled, and correlations between mutational profiles and clinical features were analyzed., Results: MPS with the 26-gene panel revealed alterations in 92% of the 611 lung tumors, with the most frequent mutations detected in the nontargetable genes TP53 (62%) and KRAS (37%). Neither KRAS nor TP53 mutations were associated with disease pattern, chemotherapy response, progression-free survival, or overall survival in advanced-stage disease treated with platinum-based doublet chemotherapy as a first-line treatment. Among targetable genes, EGFR driver mutations were detected in 10% of the tumors, and BRAF p.V600 variants in 2.3%. For the 71 never smokers (12%), targetable alterations ( EGFR mutations, BRAF p.V600, MET exon 14 skipping, or ALK/ROS1 rearrangement) were detected in 59% of the tumors., Conclusion: Although the increasing importance of MPS as a predictor of response to targeted therapies is indisputable, its role in prognostics or as a predictor of clinical course in nontargetable advanced stage lung cancer requires further investigation., (© 2020 The Authors.)
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- 2020
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10. Analysis of human papillomaviruses and human polyomaviruses in lung cancer from Swedish never-smokers.
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Ramqvist T, Ortiz-Villalon C, Brandén E, Koyi H, de Petris L, Wagenius G, Brodin O, Reuterswärd C, Dalianis T, Jönsson M, Staaf J, Lewensohn R, and Planck M
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- Adult, Aged, Aged, 80 and over, Alphapapillomavirus genetics, Female, Humans, Lung Neoplasms surgery, Male, Middle Aged, Non-Smokers, Papillomavirus Infections virology, Polyomavirus genetics, Polyomavirus Infections virology, Sweden, Alphapapillomavirus isolation & purification, Lung Neoplasms virology, Polyomavirus isolation & purification
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- 2020
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11. Whole-genome sequencing of triple-negative breast cancers in a population-based clinical study.
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Staaf J, Glodzik D, Bosch A, Vallon-Christersson J, Reuterswärd C, Häkkinen J, Degasperi A, Amarante TD, Saal LH, Hegardt C, Stobart H, Ehinger A, Larsson C, Rydén L, Loman N, Malmberg M, Kvist A, Ehrencrona H, Davies HR, Borg Å, and Nik-Zainal S
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- Adult, Aged, Aged, 80 and over, DNA Methylation genetics, Disease-Free Survival, Female, Genetics, Population, Germ-Line Mutation genetics, Humans, Middle Aged, Neoplasm Recurrence, Local epidemiology, Neoplasm Recurrence, Local pathology, Promoter Regions, Genetic, Triple Negative Breast Neoplasms epidemiology, Triple Negative Breast Neoplasms pathology, Neoplasm Recurrence, Local genetics, Prognosis, Triple Negative Breast Neoplasms genetics, Whole Genome Sequencing
- Abstract
Whole-genome sequencing (WGS) brings comprehensive insights to cancer genome interpretation. To explore the clinical value of WGS, we sequenced 254 triple-negative breast cancers (TNBCs) for which associated treatment and outcome data were collected between 2010 and 2015 via the population-based Sweden Cancerome Analysis Network-Breast (SCAN-B) project (ClinicalTrials.gov ID:NCT02306096). Applying the HRDetect mutational-signature-based algorithm to classify tumors, 59% were predicted to have homologous-recombination-repair deficiency (HRDetect-high): 67% explained by germline/somatic mutations of BRCA1/BRCA2, BRCA1 promoter hypermethylation, RAD51C hypermethylation or biallelic loss of PALB2. A novel mechanism of BRCA1 abrogation was discovered via germline SINE-VNTR-Alu retrotransposition. HRDetect provided independent prognostic information, with HRDetect-high patients having better outcome on adjuvant chemotherapy for invasive disease-free survival (hazard ratio (HR) = 0.42; 95% confidence interval (CI) = 0.2-0.87) and distant relapse-free interval (HR = 0.31, CI = 0.13-0.76) compared to HRDetect-low, regardless of whether a genetic/epigenetic cause was identified. HRDetect-intermediate, some possessing potentially targetable biological abnormalities, had the poorest outcomes. HRDetect-low cancers also had inadequate outcomes: ~4.7% were mismatch-repair-deficient (another targetable defect, not typically sought) and they were enriched for (but not restricted to) PIK3CA/AKT1 pathway abnormalities. New treatment options need to be considered for now-discernible HRDetect-intermediate and HRDetect-low categories. This population-based study advocates for WGS of TNBC to better inform trial stratification and improve clinical decision-making.
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- 2019
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12. A combined gene expression tool for parallel histological prediction and gene fusion detection in non-small cell lung cancer.
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Karlsson A, Cirenajwis H, Ericson-Lindquist K, Brunnström H, Reuterswärd C, Jönsson M, Ortiz-Villalón C, Hussein A, Bergman B, Vikström A, Monsef N, Branden E, Koyi H, de Petris L, Micke P, Patthey A, Behndig AF, Johansson M, Planck M, and Staaf J
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- Female, Humans, Male, Adenocarcinoma of Lung genetics, Adenocarcinoma of Lung metabolism, Adenocarcinoma of Lung pathology, Carcinoma, Neuroendocrine genetics, Carcinoma, Neuroendocrine metabolism, Carcinoma, Neuroendocrine pathology, Carcinoma, Non-Small-Cell Lung genetics, Carcinoma, Non-Small-Cell Lung metabolism, Carcinoma, Non-Small-Cell Lung pathology, Carcinoma, Squamous Cell genetics, Carcinoma, Squamous Cell metabolism, Carcinoma, Squamous Cell pathology, Gene Expression Profiling, Gene Expression Regulation, Neoplastic, Gene Fusion, Lung Neoplasms genetics, Lung Neoplasms metabolism, Lung Neoplasms pathology, Oncogene Proteins, Fusion biosynthesis, Oncogene Proteins, Fusion genetics
- Abstract
Accurate histological classification and identification of fusion genes represent two cornerstones of clinical diagnostics in non-small cell lung cancer (NSCLC). Here, we present a NanoString gene expression platform and a novel platform-independent, single sample predictor (SSP) of NSCLC histology for combined, simultaneous, histological classification and fusion gene detection in minimal formalin fixed paraffin embedded (FFPE) tissue. The SSP was developed in 68 NSCLC tumors of adenocarcinoma (AC), squamous cell carcinoma (SqCC) and large-cell neuroendocrine carcinoma (LCNEC) histology, based on NanoString expression of 11 (CHGA, SYP, CD56, SFTPG, NAPSA, TTF-1, TP73L, KRT6A, KRT5, KRT40, KRT16) relevant genes for IHC-based NSCLC histology classification. The SSP was combined with a gene fusion detection module (analyzing ALK, RET, ROS1, MET, NRG1, and NTRK1) into a multicomponent NanoString assay. The histological SSP was validated in six cohorts varying in size (n = 11-199), tissue origin (early or advanced disease), histological composition (including undifferentiated cancer), and gene expression platform. Fusion gene detection revealed five EML4-ALK fusions, four KIF5B-RET fusions, two CD74-NRG1 fusion and three MET exon 14 skipping events among 131 tested cases. The histological SSP was successfully trained and tested in the development cohort (mean AUC = 0.96 in iterated test sets). The SSP proved successful in predicting histology of NSCLC tumors of well-defined subgroups and difficult undifferentiated morphology irrespective of gene expression data platform. Discrepancies between gene expression prediction and histologic diagnosis included cases with mixed histologies, true large cell carcinomas, or poorly differentiated adenocarcinomas with mucin expression. In summary, we present a proof-of-concept multicomponent assay for parallel histological classification and multiplexed fusion gene detection in archival tissue, including a novel platform-independent histological SSP classifier. The assay and SSP could serve as a promising complement in the routine evaluation of diagnostic lung cancer biopsies.
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- 2019
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13. Gene Expression Profiling of Large Cell Lung Cancer Links Transcriptional Phenotypes to the New Histological WHO 2015 Classification.
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Karlsson A, Brunnström H, Micke P, Veerla S, Mattsson J, La Fleur L, Botling J, Jönsson M, Reuterswärd C, Planck M, and Staaf J
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- Adult, Aged, Aged, 80 and over, Carcinoma, Large Cell pathology, Female, Humans, Lung Neoplasms pathology, Male, Middle Aged, Phenotype, World Health Organization, Carcinoma, Large Cell genetics, Gene Expression Profiling methods, Lung Neoplasms genetics
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Introduction: Large cell lung cancer (LCLC) and large cell neuroendocrine carcinoma (LCNEC) constitute a small proportion of NSCLC. The WHO 2015 classification guidelines changed the definition of the debated histological subtype LCLC to be based on immunomarkers for adenocarcinoma and squamous cancer. We sought to determine whether these new guidelines also translate into the transcriptional landscape of lung cancer, and LCLC specifically., Methods: Gene expression profiling was performed by using Illumina V4 HT12 microarrays (Illumina, San Diego, CA) on samples from 159 cases (comprising all histological subtypes, including 10 classified as LCLC WHO 2015 and 14 classified as LCNEC according to the WHO 2015 guidelines), with complimentary mutational and immunohistochemical data. Derived transcriptional phenotypes were validated in 199 independent tumors, including six WHO 2015 LCLCs and five LCNECs., Results: Unsupervised analysis of gene expression data identified a phenotype comprising 90% of WHO 2015 LCLC tumors, with characteristics of poorly differentiated proliferative cancer, a 90% tumor protein p53 gene (TP53) mutation rate, and lack of well-known NSCLC oncogene driver alterations. Validation in independent data confirmed aggregation of WHO 2015 LCLCs in the specific phenotype. For LCNEC tumors, the unsupervised gene expression analysis suggested two different transcriptional patterns corresponding to a proposed genetic division of LCNEC tumors into SCLC-like and NSCLC-like cancer on the basis of TP53 and retinoblastoma 1 gene (RB1) alteration patterns., Conclusions: Refined classification of LCLC has implications for diagnosis, prognostics, and therapy decisions. Our molecular analyses support the WHO 2015 classification of LCLC and LCNEC tumors, which herein follow different tumorigenic paths and can accordingly be stratified into different transcriptional subgroups, thus linking diagnostic immunohistochemical staining-driven classification with the transcriptional landscape of lung cancer., (Copyright © 2017 International Association for the Study of Lung Cancer. Published by Elsevier Inc. All rights reserved.)
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- 2017
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14. Clinical framework for next generation sequencing based analysis of treatment predictive mutations and multiplexed gene fusion detection in non-small cell lung cancer.
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Lindquist KE, Karlsson A, Levéen P, Brunnström H, Reuterswärd C, Holm K, Jönsson M, Annersten K, Rosengren F, Jirström K, Kosieradzki J, Ek L, Borg Å, Planck M, Jönsson G, and Staaf J
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- Anaplastic Lymphoma Kinase, Carcinoma, Non-Small-Cell Lung diagnosis, Female, Gene Expression Regulation, Neoplastic, Humans, Male, Precision Medicine, Protein-Tyrosine Kinases genetics, Proto-Oncogene Proteins genetics, Proto-Oncogene Proteins c-ret genetics, Receptor Protein-Tyrosine Kinases genetics, Sequence Analysis, RNA, Sweden, Carcinoma, Non-Small-Cell Lung genetics, High-Throughput Nucleotide Sequencing methods, Lung Neoplasms genetics, Mutation, Oncogene Proteins, Fusion genetics, Sequence Analysis, DNA methods
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Precision medicine requires accurate multi-gene clinical diagnostics. We describe the implementation of an Illumina TruSight Tumor (TST) clinical NGS diagnostic framework and parallel validation of a NanoString RNA-based ALK, RET, and ROS1 gene fusion assay for combined analysis of treatment predictive alterations in non-small cell lung cancer (NSCLC) in a regional healthcare region of Sweden (Scandinavia). The TST panel was clinically validated in 81 tumors (99% hotspot mutation concordance), after which 533 consecutive NSCLCs were collected during one-year of routine clinical analysis in the healthcare region (~90% advanced stage patients). The NanoString assay was evaluated in 169 of 533 cases. In the 533-sample cohort 79% had 1-2 variants, 12% >2 variants and 9% no detected variants. Ten gene fusions (five ALK, three RET, two ROS1) were detected in 135 successfully analyzed cases (80% analysis success rate). No ALK or ROS1 FISH fusion positive case was missed by the NanoString assay. Stratification of the 533-sample cohort based on actionable alterations in 11 oncogenes revealed that 66% of adenocarcinomas, 13% of squamous carcinoma (SqCC) and 56% of NSCLC not otherwise specified harbored ≥1 alteration. In adenocarcinoma, 10.6% of patients (50.3% if including KRAS) could potentially be eligible for emerging therapeutics, in addition to the 15.3% of patients eligible for standard EGFR or ALK inhibitors. For squamous carcinoma corresponding proportions were 4.4% (11.1% with KRAS) vs 2.2%. In conclusion, multiplexed NGS and gene fusion analyses are feasible in NSCLC for clinical diagnostics, identifying notable proportions of patients potentially eligible for emerging molecular therapeutics.
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- 2017
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15. Mutational and gene fusion analyses of primary large cell and large cell neuroendocrine lung cancer.
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Karlsson A, Brunnström H, Lindquist KE, Jirström K, Jönsson M, Rosengren F, Reuterswärd C, Cirenajwis H, Borg Å, Jönsson P, Planck M, Jönsson G, and Staaf J
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- Aged, Aged, 80 and over, Carcinoma, Large Cell pathology, Carcinoma, Non-Small-Cell Lung pathology, Cohort Studies, Female, Humans, Lung Neoplasms pathology, Male, Middle Aged, Neuroendocrine Tumors pathology, Survival Analysis, Carcinoma, Large Cell genetics, Carcinoma, Non-Small-Cell Lung genetics, Gene Fusion, Lung Neoplasms genetics, Mutation, Neuroendocrine Tumors genetics
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Large cell carcinoma with or without neuroendocrine features (LCNEC and LC, respectively) constitutes 3-9% of non-small cell lung cancer but is poorly characterized at the molecular level. Herein we analyzed 41 LC and 32 LCNEC (including 15 previously reported cases) tumors using massive parallel sequencing for mutations in 26 cancer-related genes and gene fusions in ALK, RET, and ROS1. LC patients were additionally subdivided into three immunohistochemistry groups based on positive expression of TTF-1/Napsin A (adenocarcinoma-like, n = 24; 59%), CK5/P40 (squamous-like, n = 5; 12%), or no marker expression (marker-negative, n = 12; 29%). Most common alterations were TP53 (83%), KRAS (22%), MET (12%) mutations in LCs, and TP53 (88%), STK11 (16%), and PTEN (13%) mutations in LCNECs. In general, LCs showed more oncogene mutations compared to LCNECs. Immunomarker stratification of LC revealed oncogene mutations in 63% of adenocarcinoma-like cases, but only in 17% of marker-negative cases. Moreover, marker-negative LCs were associated with inferior overall survival compared with adenocarcinoma-like tumors (p = 0.007). No ALK, RET or ROS1 fusions were detected in LCs or LCNECs. Together, our molecular analyses support that LC and LCNEC tumors follow different tumorigenic paths and that LC may be stratified into molecular subgroups with potential implications for diagnosis, prognostics, and therapy decisions.
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- 2015
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16. The Sweden Cancerome Analysis Network - Breast (SCAN-B) Initiative: a large-scale multicenter infrastructure towards implementation of breast cancer genomic analyses in the clinical routine.
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Saal LH, Vallon-Christersson J, Häkkinen J, Hegardt C, Grabau D, Winter C, Brueffer C, Tang MH, Reuterswärd C, Schulz R, Karlsson A, Ehinger A, Malina J, Manjer J, Malmberg M, Larsson C, Rydén L, Loman N, and Borg Å
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Background: Breast cancer exhibits significant molecular, pathological, and clinical heterogeneity. Current clinicopathological evaluation is imperfect for predicting outcome, which results in overtreatment for many patients, and for others, leads to death from recurrent disease. Therefore, additional criteria are needed to better personalize care and maximize treatment effectiveness and survival., Methods: To address these challenges, the Sweden Cancerome Analysis Network - Breast (SCAN-B) consortium was initiated in 2010 as a multicenter prospective study with longsighted aims to analyze breast cancers with next-generation genomic technologies for translational research in a population-based manner and integrated with healthcare; decipher fundamental tumor biology from these analyses; utilize genomic data to develop and validate new clinically-actionable biomarker assays; and establish real-time clinical implementation of molecular diagnostic, prognostic, and predictive tests. In the first phase, we focus on molecular profiling by next-generation RNA-sequencing on the Illumina platform., Results: In the first 3 years from 30 August 2010 through 31 August 2013, we have consented and enrolled 3,979 patients with primary breast cancer at the seven hospital sites in South Sweden, representing approximately 85% of eligible patients in the catchment area. Preoperative blood samples have been collected for 3,942 (99%) patients and primary tumor specimens collected for 2,929 (74%) patients. Herein we describe the study infrastructure and protocols and present initial proof of concept results from prospective RNA sequencing including tumor molecular subtyping and detection of driver gene mutations. Prospective patient enrollment is ongoing., Conclusions: We demonstrate that large-scale population-based collection and RNA-sequencing analysis of breast cancer is feasible. The SCAN-B Initiative should significantly reduce the time to discovery, validation, and clinical implementation of novel molecular diagnostic and predictive tests. We welcome the participation of additional comprehensive cancer treatment centers., Trial Registration: ClinicalTrials.gov identifier NCT02306096.
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- 2015
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17. Abortion law reforms in Colombia and Nicaragua: issue networks and opportunity contexts.
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Reuterswärd C, Zetterberg P, Thapar-Björkert S, and Molyneux M
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- Colombia ethnology, Gender Identity, History, 20th Century, History, 21st Century, Latin America ethnology, Nicaragua ethnology, Women's Health ethnology, Women's Health history, Abortion, Induced economics, Abortion, Induced education, Abortion, Induced history, Abortion, Induced psychology, Health Care Reform economics, Health Care Reform history, Health Care Reform legislation & jurisprudence, Jurisprudence history, Politics, Reproductive Rights economics, Reproductive Rights education, Reproductive Rights history, Reproductive Rights legislation & jurisprudence, Reproductive Rights psychology
- Abstract
This article analyses two instances of abortion law reform in Latin America. In 2006, after a decades-long impasse, the highly controversial issue of abortion came to dominate the political agenda when Colombia liberalized its abortion law and Nicaragua adopted a total ban on abortion. The article analyses the central actors in the reform processes, their strategies and the opportunity contexts. Drawing on Htun's (2003) framework, it examines why these processes concluded with opposing legislative outcomes. The authors argue for the need to understand the state as a non-unitary site of politics and policy, and for judicial processes to be seen as a key variable in facilitating gender policy reforms in Latin America. In addition, they argue that ‘windows of opportunity’ such as the timing of elections can be critically important in legislative change processes.
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- 2011
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