The level of AOPP was independently associated with IHD only in HD patients. “
“Adriamycin nephropathy (AN) is a rodent model of chronic kidney disease that has been studied extensively and has enabled a greater understanding of the processes underlying the progression of chronic proteinuric renal disease. AN is characterized by podocyte injury followed by glomerulosclerosis, tubulointerstitial inflammation and fibrosis. Genetic studies have demonstrated a number of loci that alter both risk and severity of renal injury induced by Adriamycin. Adriamycin-induced renal injury has been shown in numerous studies to be modulated by both non-immune and immune factors, and has facilitated further study of mechanisms
of tubulointerstitial injury. This review will outline the pharmacological behaviour of Selleck Lapatinib Adriamycin, and describe in learn more detail the model of AN, including its key structural characteristics, genetic susceptibility and pathogenesis. Most types of chronic kidney disease (CKD) are characterized by the development of glomerulosclerosis, tubulointerstitial inflammation and fibrosis. Adriamycin® (Pfizer, Sydney, Australia) (doxorubicin) is a well-known inducer of renal injury in rodents, which mirrors that seen in human CKD due to primary focal segmental glomerulosclerosis.
The first published record of anthracyclines causing renal injury was in 1970 by Sternberg.1 The first description of Adriamycin inducing renal injury was in 1976 in rats,2 and 1998 in mice.3 In 1977, Burke and colleagues4 described a case of a 78-year-old man developing renal failure after the administration of doxorubicin. Since then, Adriamycin nephropathy (AN) in rodents has been extensively studied and
has enabled a greater understanding of the processes underlying the progression of renal injury. Adriamycin nephropathy has several strengths as an experimental model of kidney disease. It is a highly reproducible model of renal injury. It is also a ‘robust’ model in that the degree of tissue injury is severe while associated with acceptable mortality (<5%) and morbidity (weight loss). Because the model is characterized by the induction of renal injury within a few days of drug administration, the timing of injury is consistent and predictable. The severity and timing of renal injury means that it is a model Urease suitable for testing interventions that either worsen or protect against renal injury. The type of structural and functional injury is very similar to that of chronic proteinuric renal disease in humans (see below). Last but not least, this model is similar in rats and mice. Rodent models are extremely useful in the study of disease. Rodents are characterized by their short reproduction period, easy (and cheap) availability of animals and reagents, and amenability to genetic manipulation.5 There are also limitations in the use of AN as an experimental model.