279 results on '"Klein, Christophe"'
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2. Deep learning-based phenotyping reclassifies combined hepatocellular-cholangiocarcinoma
3. Artificial intelligence-based pathology as a biomarker of sensitivity to atezolizumab–bevacizumab in patients with hepatocellular carcinoma: a multicentre retrospective study
4. A RAD51 functional assay as a candidate test for homologous recombination deficiency in ovarian cancer
5. Prediction of Immune and Stromal Cell Population Abundance from Hepatocellular Carcinoma Whole Slide Images Using Weakly Supervised Learning
6. THU-201-YI Artificial intelligence-assisted multiomics depicting the immunometabolism landscape of steatotic livers undergoing bariatric surgery
7. Multiomics analyses decipher intricate changes in the cellular and metabolic landscape of steatotic livers upon dietary restriction and sleeve gastrectomy.
8. Low exposition to lithium prevents nephrogenic diabetes insipidus but not microcystic dilations of the collecting ducts in long‐term rat model.
9. Spatial profiling of ovarian carcinoma and tumor microenvironment evolution under neoadjuvant chemotherapy
10. Multiomics analyses decipher intricate changes in the cellular and metabolic landscape of steatotic livers upon dietary restriction and sleeve gastrectomy
11. Prediction of Immune and Stromal Cell Population Abundance from Hepatocellular Carcinoma Whole Slide Images Using Weakly Supervised Learning
12. Ileal immune tonus is a prognosis marker of proximal colon cancer in mice and patients
13. Artificial intelligence-based pathology as a biomarker of sensitivity to atezolizumab–bevacizumab in patients with hepatocellular carcinoma: a multicentre retrospective study
14. Chemotherapy-induced ileal crypt apoptosis and the ileal microbiome shape immunosurveillance and prognosis of proximal colon cancer
15. Sostdc1 is expressed in all major compartments of developing and adult mammalian eyes
16. A novel tool for detecting lysosomal membrane permeabilization by high-throughput fluorescence microscopy
17. Low exposure to lithium does not induce nephrogenic diabetes insipidus but microcystic dilations of collecting ducts in a long-term rat model
18. Corrigendum to “A RAD51 functional assay as a candidate test for homologous recombination deficiency in ovarian cancer”
19. Gut microbiome influences efficacy of PD-1–based immunotherapy against epithelial tumors
20. Involvement of neural crest and paraxial mesoderm in oral mucosal development and healing
21. Sustained Type I interferon signaling as a mechanism of resistance to PD-1 blockade
22. New hormone receptor-positive breast cancer mouse cell line mimicking the immune microenvironment of anti-PD-1 resistant mammary carcinoma
23. Deep learning predicts sensitivity to atezolizumab-bevacizumab from digital slides of hepatocellular carcinoma
24. Supplementary Table S1 from Prognostic Value of Tumor-Infiltrating CD4+ T-Cell Subpopulations in Head and Neck Cancers
25. Supplementary Figure S1 from Prognostic Value of Tumor-Infiltrating CD4+ T-Cell Subpopulations in Head and Neck Cancers
26. Supplementary Table 5 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
27. Supplementary Table 7 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
28. Supplementary Figure 5 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
29. Supplementary Figure 8 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
30. Supplementary Figure 7 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
31. Supplementary Table 4 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
32. Supplementary Table 3 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
33. Supplementary Figure Legend from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
34. Supplementary Figure 3 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
35. Supplementary Figure 6 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
36. Supplementary Table 2 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
37. Supplementary Table 1 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
38. Supplementary Figure 4 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
39. Supplementary Figure 2 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
40. Supplementary Table 6 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
41. Supplementary Figure 1 from Dendritic Cells in Tumor-Associated Tertiary Lymphoid Structures Signal a Th1 Cytotoxic Immune Contexture and License the Positive Prognostic Value of Infiltrating CD8+ T Cells
42. Artificial intelligence-based pathology as a biomarker of sensitivity to atezolizumab-bevacizumab in patients with hepatocellular carcinoma: a multicentre retrospective study.
43. Development of Tools for the Selective Visualization and Quantification of TLS-Immune Cells on Tissue Sections
44. CFH exerts anti-oxidant effects on retinal pigment epithelial cells independently from protecting against membrane attack complex
45. Periostin‐ and podoplanin‐positive cancer‐associated fibroblast subtypes cooperate to shape the inflamed tumor microenvironment in aggressive pancreatic adenocarcinoma
46. Pathologie numérique et intelligence artificielle à l’ère de la médecine de précision.
47. Pregnancy, child bearing and prevention of giving birth to the affected children in patients with primary immunodeficiency disease; a case-series
48. Artificial intelligence predicts immune and inflammatory gene signatures directly from hepatocellular carcinoma histology
49. Whole blood clots are more resistant to lysis than plasma clots - greater efficacy of rivaroxaban
50. Metabolic features of cancer cells impact immunosurveillance
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