The primary objective is to determine the prognostic value of markers of ROS and cAMP-PKA signaling to assess disease severity and progression in patients with ADPKD.
Individuals with ADPKD are born with normal renal function that is preserved for several decades. By the time the GFR starts to decline, most of the kidneys have been replaced by cysts. The median age of end-stage renal disease (ESRD) is 54 years for PKD1 and 74 years for PKD2, but the rate of disease progression varies widely among individuals. This variability, along with the maintenance of normal GFR until the late stages, represents a significant challenge for nephrologists in following these patients. It is difficult to predict disease progression or evaluate a new therapy based solely on renal function markers at an early stage. On the other hand, if new therapies are implemented when GFR starts to decline and most irreversible damage has occurred, they are less likely to be effective. Hence, identifying robust, early disease biomarkers predictive of GFR decline and disease progression is crucial. The improvement of imaging techniques over the years has provided insights into the natural history of the disease and facilitated the observation of its structural progression. The Consortium for Radiologic Imaging Studies of PKD (CRISP) study has shown that in patients with ADPKD, the increase in kidney and cyst volumes directly correlates with GFR decline, underscoring the potential of TKV to monitor disease progression and as a primary or secondary endpoint in clinical trials for ADPKD. However, TKV has limitations as a biomarker, as it is fairly crude and does not fully capture the pathophysiological processes underlying the development and progression of the disease. Therefore, biomarkers related to the underlying molecular mechanisms may detect renal injury before permanent anatomical damage occurs. The investigators' broad objective is to determine the value of NOX4, as well as surrogate markers for ROS, mitochondrial injury, and metabolic pathways, to assess disease severity and progression from early stages. Participants in this study will have blood and urine samples collected to determine biomarkers of oxidative stress, antioxidant response, related metabolite levels, as well as kidney injury markers. In addition, an abdominal MRI will be performed to determine the patient's total kidney volume (TKV).
Study Type
OBSERVATIONAL
Enrollment
100
Mayo Clinic
Rochester, Minnesota, United States
Change in height adjusted Total kidney volume (htTKV)
TKV determined by MRI
Time frame: Baseline to 24 months
Change in eGFR
eGFR estimated by CKD-EPI
Time frame: Baseline to 24 months
Baseline concentration of: NOX4, biochemical markers related to ROS, mitochondrial injury and metabolites as predictors of change in TKV and eGFR
Biochemical markers determined by ELISA and/or biochemical assays, PCR, TKV determined by MRI, eGFR estimated by CKD-EPI.
Time frame: Baseline to 24 months
Change in concentration of: NOX4, biochemical markers related to ROS, mitochondrial injury and metabolites
Biochemical markers determined by ELISA and/or biochemical assays, PCR,
Time frame: Baseline to 24 months
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.