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View article: Supplementary Documents from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Documents from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
File contains: Supplementary Materials and Methods, Supplementary Figure Legends and Supplementary References
View article: Supplementary Figure S4 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S4 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
AGRN basal lamina reactivity in mouse models of colorectal cancer.
View article: Supplementary Figure S1 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S1 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Clustering analysis to identify extracellular matrix genes in individual colonic polyp samples.
View article: Supplementary Figure S10 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S10 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Inter-observer variability among fifty-five community pathologists.
View article: Supplementary Table S2 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Table S2 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Sample information and results.
View article: Supplementary Figure S2 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S2 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Initial immunohistochemical validation and patient sample summary.
View article: Supplementary Figure S3 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S3 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Immunohistochemistry identifies AGRN and TIMP1 as candidate biomarkers to detect early changes in colorectal polyps.
View article: Supplementary Figure S5 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S5 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
AGRN is predominantly synthesized by epithelial cells and deposited into the muscularis mucosa.
View article: Supplementary Figure S7 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S7 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
AGRN staining in muscularis mucosae scored by non-pathologists.
View article: Supplementary Figure S5 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S5 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
AGRN is predominantly synthesized by epithelial cells and deposited into the muscularis mucosa.
View article: Supplementary Figure S6 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S6 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
AGRN staining in SSL samples of serrated polyposis syndrome patients.
View article: Supplementary Figure S10 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S10 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Inter-observer variability among fifty-five community pathologists.
View article: Supplementary Figure S8 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S8 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
AGRN muscularis mucosae reactivity could assist in differentiating tubular adenomas from incomplete fragments of SSL with dysplasia.
View article: Supplementary Figure S1 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S1 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Clustering analysis to identify extracellular matrix genes in individual colonic polyp samples.
View article: Supplementary Figure S8 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S8 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
AGRN muscularis mucosae reactivity could assist in differentiating tubular adenomas from incomplete fragments of SSL with dysplasia.
View article: Supplementary Table S1 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Table S1 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Differential expression data.
View article: Supplementary Figure S3 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S3 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Immunohistochemistry identifies AGRN and TIMP1 as candidate biomarkers to detect early changes in colorectal polyps.
View article: Supplementary Documents from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Documents from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
File contains: Supplementary Materials and Methods, Supplementary Figure Legends and Supplementary References
View article: Data from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Data from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Purpose:Sessile serrated lesions (SSL) are precursors to colon carcinoma, and their distinction from other polyps, in particular hyperplastic polyps (HP), presents significant diagnostic challenges. We evaluated expression patterns in colo…
View article: Data from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Data from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Purpose:Sessile serrated lesions (SSL) are precursors to colon carcinoma, and their distinction from other polyps, in particular hyperplastic polyps (HP), presents significant diagnostic challenges. We evaluated expression patterns in colo…
View article: Supplementary Figure S9 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S9 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Study summary.
View article: Supplementary Figure S4 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S4 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
AGRN basal lamina reactivity in mouse models of colorectal cancer.
View article: Supplementary Figure S6 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S6 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
AGRN staining in SSL samples of serrated polyposis syndrome patients.
View article: Supplementary Table S1 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Table S1 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Differential expression data.
View article: Supplementary Table S2 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Table S2 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Sample information and results.
View article: Supplementary Figure S2 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions
Supplementary Figure S2 from Agrin in the Muscularis Mucosa Serves as a Biomarker Distinguishing Hyperplastic Polyps from Sessile Serrated Lesions Open
Initial immunohistochemical validation and patient sample summary.