SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4367314194> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W4367314194 endingPage "1312" @default.
W4367314194 startingPage "1312" @default.
W4367314194 abstract "Studies have demonstrated that a low-protein diet supplemented with ketoanalogs (KAs) could significantly retard progression of renal function in patients with chronic kidney disease (CKD) stages 3–5. However, its effects on endothelial function and serum levels of protein-bound uremic toxins remain elusive. Therefore, this study explored whether a low-protein diet (LPD) supplemented with KAs affects kidney function, endothelial function, and serum uremic toxin levels in a CKD-based cohort. In this retrospective cohort, we enrolled 22 stable CKD stage 3b–4 patients on LPD (0.6–0.8 g/day). Patients were categorized into control (LPD only) and study groups (LPD + KAs 6 tab/day). Serum biochemistry, total/free indoxyl sulfate (TIS/FIS), total/free p-cresyl sulfate (TPCS/FPCS), and flow-mediated dilation (FMD) were measured before and after 6 months of KA supplementation. Before the trial, there were no significant differences in kidney function, FMD, or uremic toxin levels between the control and study groups. When compared with the control group, the paired t-test showed a significant decrease in TIS and FIS (all p < 0.05) and a significant increase in FMD, eGFR, and bicarbonate (all p < 0.05). In multivariate regression analysis, an increase in FMD (p < 0.001) and a decrease in FPCS (p = 0.012) and TIS (p < 0.001) remained persistent findings when adjusted for age, systolic blood pressure (SBP), sodium, albumin, and diastolic blood pressure (DBP). LPD supplemented with KAs significantly preserves kidney function and provides additional benefits on endothelial function and protein-bound uremic toxins in patients with CKD." @default.
W4367314194 created "2023-04-29" @default.
W4367314194 creator A5050429899 @default.
W4367314194 creator A5066181064 @default.
W4367314194 creator A5068423283 @default.
W4367314194 creator A5071341574 @default.
W4367314194 creator A5083126513 @default.
W4367314194 date "2023-04-28" @default.
W4367314194 modified "2023-09-30" @default.
W4367314194 title "Effect of Low Protein Diet Supplemented with Ketoanalogs on Endothelial Function and Protein-Bound Uremic Toxins in Patients with Chronic Kidney Disease" @default.
W4367314194 cites W1555489744 @default.
W4367314194 cites W1570583414 @default.
W4367314194 cites W1811184201 @default.
W4367314194 cites W1849785625 @default.
W4367314194 cites W1967455875 @default.
W4367314194 cites W1969084842 @default.
W4367314194 cites W1971266941 @default.
W4367314194 cites W1976555160 @default.
W4367314194 cites W1993104550 @default.
W4367314194 cites W1998725826 @default.
W4367314194 cites W2003748292 @default.
W4367314194 cites W2004230365 @default.
W4367314194 cites W2004511808 @default.
W4367314194 cites W2024184035 @default.
W4367314194 cites W2024894460 @default.
W4367314194 cites W2029341317 @default.
W4367314194 cites W2037975131 @default.
W4367314194 cites W2046922993 @default.
W4367314194 cites W2050663836 @default.
W4367314194 cites W2056301806 @default.
W4367314194 cites W2057788590 @default.
W4367314194 cites W2058890881 @default.
W4367314194 cites W2059947958 @default.
W4367314194 cites W2061434022 @default.
W4367314194 cites W2065346274 @default.
W4367314194 cites W2077244492 @default.
W4367314194 cites W2080468341 @default.
W4367314194 cites W2081431999 @default.
W4367314194 cites W2083667648 @default.
W4367314194 cites W2114369401 @default.
W4367314194 cites W2114997404 @default.
W4367314194 cites W2115225456 @default.
W4367314194 cites W2118493857 @default.
W4367314194 cites W2123376729 @default.
W4367314194 cites W2123769648 @default.
W4367314194 cites W2126412451 @default.
W4367314194 cites W2129559166 @default.
W4367314194 cites W2129859917 @default.
W4367314194 cites W2134254489 @default.
W4367314194 cites W2139764595 @default.
W4367314194 cites W2144188723 @default.
W4367314194 cites W2145073188 @default.
W4367314194 cites W2145693405 @default.
W4367314194 cites W2148637873 @default.
W4367314194 cites W2161969401 @default.
W4367314194 cites W2162078466 @default.
W4367314194 cites W2162369874 @default.
W4367314194 cites W2164781406 @default.
W4367314194 cites W2165302973 @default.
W4367314194 cites W2166845334 @default.
W4367314194 cites W2168234252 @default.
W4367314194 cites W2188131835 @default.
W4367314194 cites W2197006599 @default.
W4367314194 cites W22763952 @default.
W4367314194 cites W2276434040 @default.
W4367314194 cites W2277103284 @default.
W4367314194 cites W2324431763 @default.
W4367314194 cites W2460163653 @default.
W4367314194 cites W2470481127 @default.
W4367314194 cites W2471605942 @default.
W4367314194 cites W2475261460 @default.
W4367314194 cites W2488868277 @default.
W4367314194 cites W2577515884 @default.
W4367314194 cites W2582602949 @default.
W4367314194 cites W2605434555 @default.
W4367314194 cites W2753051611 @default.
W4367314194 cites W2753975351 @default.
W4367314194 cites W2782997311 @default.
W4367314194 cites W2808426950 @default.
W4367314194 cites W2885201653 @default.
W4367314194 cites W2897594897 @default.
W4367314194 cites W2939222610 @default.
W4367314194 cites W2972455692 @default.
W4367314194 cites W2979512542 @default.
W4367314194 cites W3035236440 @default.
W4367314194 cites W3094914774 @default.
W4367314194 cites W3121389098 @default.
W4367314194 cites W3129707221 @default.
W4367314194 cites W3130981478 @default.
W4367314194 cites W3206303257 @default.
W4367314194 cites W3215303534 @default.
W4367314194 cites W4205289329 @default.
W4367314194 cites W4205645563 @default.
W4367314194 cites W4205690052 @default.
W4367314194 cites W4282924452 @default.
W4367314194 cites W4297546865 @default.
W4367314194 cites W862343047 @default.
W4367314194 doi "https://doi.org/10.3390/biomedicines11051312" @default.