Tumour infiltrating lymphocytes and apoptosis are independent features in colorectal cancer stratified according to microsatellite instability status
about
Colorectal cancers with microsatellite instability display mRNA expression signatures characteristic of increased immunogenicity.The immunogenicity of colorectal cancers with high-degree microsatellite instabilityNon-surgical factors influencing lymph node yield in colon cancerPossible alternative carcinogenesis pathway featuring microsatellite instability in colorectal cancer stromaEpithelial and stromal genetic instability contributes to genesis of colorectal adenomasHigh-resolution analysis of HLA class I alterations in colorectal cancer.Genetic instability on chromosome 17 in the epithelium of non-polypoid colorectal carcinomas compared to polypoid lesions.Tumor infiltrating lymphocytes: an intriguing player in the survival of colorectal cancer patients.Intraepithelial effector (CD3+)/regulatory (FoxP3+) T-cell ratio predicts a clinical outcome of human colon carcinomaSerrated neoplasia of the colorectum.Regulatory T lymphocytes are associated with less aggressive histologic features in microsatellite-unstable colorectal cancers.Tumor-infiltrating lymphocytes in colorectal cancers with microsatellite instability are correlated with the number and spectrum of frameshift mutations.Unique ectopic lymph node-like structures present in human primary colorectal carcinoma are identified by immune gene array profilingA review of the most promising biomarkers in colorectal cancer: one step closer to targeted therapy.Tumor-infiltrating immune cells and prognosis: the potential link between conventional cancer therapy and immunityFeatures of colorectal cancers with high-level microsatellite instability occurring in familial and sporadic settings: parallel pathways of tumorigenesisLymph node yield after colectomy for cancer: is absence of mismatch repair a factor?Phenotypic heterogeneity in hereditary non-polyposis colorectal cancer: identical germline mutations associated with variable tumour morphology and immunohistochemical expression.Histologic Assessment of Intratumoral Lymphoplasmacytic Infiltration Is Useful in Predicting Prognosis of Patients with Hepatocellular Carcinoma.Decreased Anti-Tumor Cytotoxic Immunity among Microsatellite-Stable Colon Cancers from African AmericansPathologic predictors of microsatellite instability in colorectal cancer.Adenoma-infiltrating lymphocytes (AILs) are a potential marker of hereditary nonpolyposis colorectal cancer.Incidence and localization of lymphoid follicles in early colorectal neoplasms.Linear quantification of lymphoid infiltration of the tumor margin: a reproducible method, developed with colorectal cancer tissues, for assessing a highly variable prognostic factorStrong HLA-DR expression in microsatellite stable carcinomas of the large bowel is associated with good prognosis.Prognostic impact of mismatch repair genes germline defects in colorectal cancer patients: are all mutations equal?Intraepithelial CD8+ T-cell-count becomes a prognostic factor after a longer follow-up period in human colorectal carcinoma: possible association with suppression of micrometastasis.Classification of colorectal cancer based on correlation of clinical, morphological and molecular features.Effects of microsatellite instability on recurrence patterns and outcomes in colorectal cancers.Epigenetics and colorectal cancer pathogenesisImmune cells in colorectal cancer: prognostic relevance and therapeutic strategies.Lynch syndrome in colorectal cancer patients.Immunomodulation by MYB is associated with tumor relapse in patients with early stage colorectal cancer.The in situ local immune response, tumour senescence and proliferation in colorectal cancer.Gene expression profiling: canonical molecular changes and clinicopathological features in sporadic colorectal cancers.Fas ligand expression in lynch syndrome-associated colorectal tumours.Colorectal cancer and immunity: what we know and perspectives.Immune Cells in Colorectal Cancer: Prognostic Relevance and Role of MSI.Lynch syndrome: clinical, pathological, and genetic insights.Towards a vaccine to prevent cancer in Lynch syndrome patients.
P2860
Q24800999-8223EC0C-FA37-4D30-92DA-65E3DF324C37Q24814928-085927E0-72F7-4F88-A06F-5643135EF5D3Q26748732-C4DCB95B-94FF-417C-AB66-40F745CACF44Q33188136-7DFE3C9B-EA3B-4D66-B287-A91820EAB65CQ33229474-2AF5E66A-3756-4341-9B20-18C09A70EDB4Q33259097-BF2A5355-73FC-4C37-B792-5EC8751F70D6Q33259985-75410A1C-9327-4C09-BA78-34A612B2638FQ33552813-ED06DAE7-81A1-459F-8666-12D924D47BA5Q33865610-C2EEF4A9-242F-49A3-87B4-B2997E0AC10DQ34005349-8C6E206D-7451-4161-A116-C6A0A2D511FDQ34683929-EB56B00E-9F4B-4258-BDA5-B395770F4D34Q34985439-79FDBA75-D5E3-456E-A354-C810A90A06DDQ35070183-6257B379-08F0-4B19-A992-C040842A8216Q35584153-BAFF2720-269C-4D52-AE22-17912FC1E088Q35588434-050B482C-64F6-4878-9805-20BC91C1461EQ35747184-78F02230-66D5-4C00-9AF2-CDFB408C6AE0Q35878440-44F63CBB-DC32-4EA9-8509-53CA4FF85A7DQ36017279-22A0C118-D608-4ECF-87A6-DBA596489F00Q36022359-92A010C4-0371-4B67-96B2-2688FCA033C0Q36054462-7BC59F7C-C64F-4232-B541-BF3522A0A9B4Q36404900-7AB24A06-1238-4B65-BF2C-8670901771B7Q36405071-D3BF4DE4-0AB7-419D-8A4B-2D300FFE950EQ36496643-80B623B3-7CBF-4942-8513-69764391A497Q36524276-602FF3C7-540E-4746-A0F3-8C12B7C3A268Q36624165-E371C85D-214F-4AB7-982B-627339473EB0Q36629408-2D13604A-F82B-4C29-9EC9-50A6F8699379Q36696103-43EBE5E7-2D51-483A-8DD9-11B0EDFC3F39Q36699559-FFD808B9-8052-42B5-A84F-EAD977C84490Q37061363-2C1A4809-ACBB-482C-A6ED-20DC7CCE6A0AQ37061792-FC86C85C-7557-496E-AE9A-A6F9DD3CB564Q37134430-267DD558-6C79-4CBB-9056-984E6E5BA158Q37134435-A4BC7990-4F5E-451D-857F-E7672334DEA5Q37222191-C8248DF1-E810-452C-8C41-70CC42627BACQ37235543-7971A2EA-80BC-4AC8-B9B8-A66B6A9CFF36Q37411866-69176C68-AADF-49AF-92DC-DF0F84C89378Q37469193-61871F6C-3B86-401E-A4A3-185DD7CA5CB9Q37697520-DD82F66A-CCDC-47DD-9816-5B8B2479E5F1Q37880662-7AC6ED82-7ECD-4C00-A702-28E70B0B16EBQ37987828-9D614192-E45E-45D2-9C97-B9138879A62AQ38113960-E9B3DDCE-D340-49D2-BCF0-8921C35D77A0
P2860
Tumour infiltrating lymphocytes and apoptosis are independent features in colorectal cancer stratified according to microsatellite instability status
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
2001年论文
@zh
2001年论文
@zh-cn
name
Tumour infiltrating lymphocyte ...... rosatellite instability status
@ast
Tumour infiltrating lymphocyte ...... rosatellite instability status
@en
type
label
Tumour infiltrating lymphocyte ...... rosatellite instability status
@ast
Tumour infiltrating lymphocyte ...... rosatellite instability status
@en
prefLabel
Tumour infiltrating lymphocyte ...... rosatellite instability status
@ast
Tumour infiltrating lymphocyte ...... rosatellite instability status
@en
P2093
P2860
P356
P1433
P1476
Tumour infiltrating lymphocyte ...... rosatellite instability status
@en
P2093
Biemer-Hüttmann A
Leggett BA
Michael-Robinson JM
Radford-Smith GL
P2860
P304
P356
10.1136/GUT.48.3.360
P407
P577
2001-03-01T00:00:00Z