Chronic kidney disease (CKD) is a major non-communicable disease and a leading cause of mortality worldwide. With the increasing prevalence of risk factors such as diabetes mellitus, obesity, and hypertension in the 21st century, CKD currently affects over 10% of the global population. The clinical and economic burden of this widespread disease is projected to continue to rise worldwide. Early detection, treatment, and monitoring of this progressive condition through accurate clinical laboratory testing of CKD biomarkers are paramount to mitigate this growing healthcare challenge. The development of reference materials (RMs) and reference measurement procedures (RMPs) for these clinical analytes is pivotal to ensuring accurate measurements using in vitro diagnostics. In this review, we emphasize the importance of establishing RMs and RMPs to standardize the measurements of key clinical markers for CKD, i.e., urine and serum creatinine, urine albumin, serum cystatin C, and urea. Standardizing CKD biomarker measurements based on RMs and RMPs can help support global efforts to reduce CKD-related morbidity and healthcare costs by ensuring reliable diagnostic practices.

Objective To study the optimum decoloration technological conditions of crude polysaccharides from Cordyceps militaris Link. (PCM) by macroporous resin. Methods With the decolorization rate and retention rate of PCM as indexes, static adsorption factor experiment was used for the optimization of seven kinds of macroporous resin. And then the optimum conditions of decolorization of PCM were investigated by the static/dynamaic adsorption single-factor experiments. Results D941 macroporous resin is the best. The optimum decoloration technological conditions were as follows:initial concentration of the sample was 50 mg/mL, pH value was 5.5, operating temperature was 45℃, the flow rate of dynamaic adsorption was 2.5 BV/h, and the sample solution volume was 5 bed volume per hour. Under the optimal conditions, decolorization rate and retention rate of PCM were ( 93.9 ± 3.4) % and (91.7 ± 2.2) %, respectively. Conclusion The resin D941 is suitable for the decoloration of PCM. The optimized method is feasible and reliable, having the prospects for popularizing.