Fetal programming of renal function.
Study Goal
The researchers aimed to explore the potential adverse renal outcomes linked to fetal programming, including factors like salt overload during pregnancy.
Results Summary
The abstract suggests that salt overload during pregnancy may contribute to adverse renal outcomes such as glomerular disease, hypertension, and renal failure, but clinical data on this specific factor are scarce.
Population
Pregnant women and their offspring, particularly those exposed to factors like maternal diabetes, smoking, salt overload, or glucocorticoid use.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
low birth weight | increase | adverse renal outcome | children | - | relation with | #1 |
maternal diabetes mellitus | increase | adverse renal outcome | - | - | potentially leading to | #2 |
maternal smoking | increase | adverse renal outcome | - | - | potentially leading to | #3 |
salt overload | increase | adverse renal outcome | - | - | potentially leading to | #4 |
use of glucocorticoids during pregnancy | increase | adverse renal outcome | - | - | potentially leading to | #5 |
fetal programming | decrease | nephron number | - | - | reduced | #6 |
fetal programming | decrease | nephrogenesis | - | - | diminished | #7 |
fetal programming | neutral | intrarenal renin-angiotensin-aldosterone system | - | - | alterations | #8 |
fetal programming | neutral | endothelial function | - | - | changes in | #9 |
amount of nutrients given at critical times | neutral | outcomes of fetal programming | - | - | influenced or modified | #10 |
Results from large epidemiological studies suggest a clear relation between low birth weight and adverse renal outcome evident as early as during childhood. Such adverse outcomes may include glomerular disease, hypertension, and renal failure and contribute to a phenomenon called fetal programming. Other factors potentially leading to an adverse renal outcome following fetal programming are maternal diabetes mellitus, smoking, salt overload, and use of glucocorticoids during pregnancy. However, clinical data on the latter are scarce. Here, we discuss potential underlying mechanisms of fetal programming, including reduced nephron number via diminished nephrogenesis and other renal (e.g., via the intrarenal renin-angiotensin-aldosterone system) and non-renal (e.g., changes in endothelial function) alterations. It appears likely that the outcomes of fetal programming may be influenced or modified postnatally, for example, by the amount of nutrients given at critical times.