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1. Dietary phosphate restriction prevents the appearance of sarcopenia signs in old mice

2. Aging‐related hyperphosphatemia impairs myogenic differentiation and enhances fibrosis in skeletal muscle

3. Respiratory dysfunction in old mice could be related to inflammation and lung fibrosis induced by hyperphosphatemia.

4. Uraemic toxins impair skeletal muscle regeneration by inhibiting myoblast proliferation, reducing myogenic differentiation, and promoting muscular fibrosis

6. Hyperphosphatemia-Induced Oxidant/Antioxidant Imbalance Impairs Vascular Relaxation and Induces Inflammation and Fibrosis in Old Mice

8. MO414: Sucroferric Oxyhydroxide (Velphoro®) Treatment Mitigates the Signs of Ageing-Related Sarcopaenia in Old Mice

9. MO581: Hyperphosphatemia Induces Lung Fibrosis in OLD Mice

12. Endothelin-1 induces cellular senescence and fibrosis in cultured myoblasts. A potential mechanism of aging-related sarcopenia

13. MO596HYPERPHOSPHATEMIA INDUCES ENDOTHELIN-1 SYNTHESIS AND INFLAMMATION IN LUNG FIBROBLASTS

14. MO588DECREASED IL-15 PRODUCTION INDUCED BY HYPERPHOSPHATEMIA AS A POSSIBLE MECHANISM OF AGED-RELATED SARCOPENIA*

17. Uraemic toxins impair skeletal muscle regeneration by inhibiting myoblast proliferation, reducing myogenic differentiation, and promoting muscular fibrosis

18. Aging-related hyperphosphatemia impairs myogenic differentiation and enhances fibrosis in skeletal muscle

21. P0913HYPERPHOSPHATEMIA INCREASE INFLAMMATION PROMOTING SENESCENCE AND MUSCLE DYSFUNCTION

22. P0726ENDOTHELIAL DYSFUNCTION ASSOCIATED TO ATHEROSCLEROSIS OF KNOCKOUT APOE MICE COULD BE MEDIATED BY VASCULAR FIBROSIS

23. P0707UREMIC TOXINS IMPAIR SKELETAL MUSCLE REGENERATION PROCESS INDUCING CELL CYCLE ARREST AND APOPTOSIS IN CULTURED MYOBLASTS

32. Hyperphosphatemia-Induced Oxidant/Antioxidant Imbalance Impairs Vascular Relaxation and Induces Inflammation and Fibrosis in Old Mice

33. SP331HYPERPHOSPHATEMIA INDUCES VASCULAR FIBROSIS

34. FP366HYPERPHOSPHATEMIA ASSOCIATED TO CHRONIC KIDNEY DISEASE AND AGING REDUCES MYOGLOBIN EXPRESSION AND MITOCHONDRIAL ACTIVITY

40. Análisis molecular de las relaciones entre hiperlipidemia y fibrosis vascular

42. FP366HYPERPHOSPHATEMIA ASSOCIATED TO CHRONIC KIDNEY DISEASE AND AGING REDUCES MYOGLOBIN EXPRESSION AND MITOCHONDRIAL ACTIVITY

43. SP331HYPERPHOSPHATEMIA INDUCES VASCULAR FIBROSIS

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