Add to ORKGThe mesangial cells of the glomerulus, the proximal tubular cells and the interstitial fibroblasts are the first choice targets for renal drug delivery since they play a pivotal role in many disease processes in the kidney. In the present review, only targeting to the proximal tubular cell is addressed because only this has been studied extensively. Two approaches of drug delivery to the proximal tubular cell have been studied up to now, the prodrug/softdrug and low-molecular-weight protein (LMPWP) approach. Most research on tubular specific drug delivery has focused on the development of amino-acid prodrugs that, after delivery, require activation by more or less kidney-selective enzymes. Large differences in renal selectivity are found. F...
Drug-targeting to the kidney: Renal delivery and degradation of a naproxen-lysozyme conjugate in viv...
A renal-specific controlled release of an active drug may enable a reduction of the required dose an...
Low molecular weight proteins (LMWPs) are potential carriers for targeting drugs to the kidney. To t...
The mesangial cells of the glomerulus, the proximal tubular cells and the interstitial fibroblasts a...
Overseeing the present state of the art of drug targeting to the kidney one can say that there are m...
This paper reviews the design of a drug targeting strategy for renal specific delivery and endorenal...
Low molecular weight proteins (LMWPs) are known to be reabsorbed and catabolized primarily by the pr...
AbstractKidney-targeted drug delivery systems represent a promising technology to improve drug effic...
The increasing prevalence of end-stage renal disease urges novel therapeutic strategies for the trea...
The present thesis is focused on the development of a novel therapeutic system by which anti-fibroti...
Activation of proximal tubular cells by fibrotic and inflammatory mediators is an important hallmark...
A renal-specific controlled release of an active drug may enable a reduction of the required dose an...
Drug-targeting to the kidney: Renal delivery and degradation of a naproxen-lysozyme conjugate in viv...
A renal-specific controlled release of an active drug may enable a reduction of the required dose an...
Low molecular weight proteins (LMWPs) are potential carriers for targeting drugs to the kidney. To t...
The mesangial cells of the glomerulus, the proximal tubular cells and the interstitial fibroblasts a...
Overseeing the present state of the art of drug targeting to the kidney one can say that there are m...
This paper reviews the design of a drug targeting strategy for renal specific delivery and endorenal...
Low molecular weight proteins (LMWPs) are known to be reabsorbed and catabolized primarily by the pr...
AbstractKidney-targeted drug delivery systems represent a promising technology to improve drug effic...
The increasing prevalence of end-stage renal disease urges novel therapeutic strategies for the trea...
The present thesis is focused on the development of a novel therapeutic system by which anti-fibroti...
Activation of proximal tubular cells by fibrotic and inflammatory mediators is an important hallmark...
A renal-specific controlled release of an active drug may enable a reduction of the required dose an...
Drug-targeting to the kidney: Renal delivery and degradation of a naproxen-lysozyme conjugate in viv...
A renal-specific controlled release of an active drug may enable a reduction of the required dose an...
Low molecular weight proteins (LMWPs) are potential carriers for targeting drugs to the kidney. To t...