Publicaciones en colaboración con investigadores/as de Universidad del País Vasco/Euskal Herriko Unibertsitatea (97)

2024

  1. A Novel, Noninvasive Method to Diagnose Active Eosinophilic Esophagitis, Combining Clinical Data and Oral Cavity RNA Levels

    Clinical Gastroenterology and Hepatology

  2. Additional file 10 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  3. Additional file 10 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  4. Additional file 4 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  5. Additional file 4 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  6. Additional file 5 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  7. Additional file 5 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  8. Additional file 6 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  9. Additional file 6 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  10. Additional file 7 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  11. Additional file 7 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  12. Additional file 8 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  13. Additional file 8 of Sex bias in celiac disease: XWAS and monocyte eQTLs in women identify TMEM187 as a functional candidate gene

    figshare

  14. Exploring the genetics of airflow limitation in lung function across the lifespan – a polygenic risk score study

    eClinicalMedicine, Vol. 75