Browsing by Subject "Chronic Kidney Disease"

Now showing 1 - 7 of 7
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    Acute Kidney Injury Network: report of an initiative to improve outcomes in acute kidney injury
    (BioMed Central, 2007-03-01) Mehta, Ravindra L.; Kellum, John A.; Shah, Sudhir V.; Molitoris, Bruce A.; Ronco, Claudio; Warnock, David G.; Levin, Adeera; Medicine, School of Medicine
    Introduction Acute kidney injury (AKI) is a complex disorder for which currently there is no accepted definition. Having a uniform standard for diagnosing and classifying AKI would enhance our ability to manage these patients. Future clinical and translational research in AKI will require collaborative networks of investigators drawn from various disciplines, dissemination of information via multidisciplinary joint conferences and publications, and improved translation of knowledge from pre-clinical research. We describe an initiative to develop uniform standards for defining and classifying AKI and to establish a forum for multidisciplinary interaction to improve care for patients with or at risk for AKI. Methods Members representing key societies in critical care and nephrology along with additional experts in adult and pediatric AKI participated in a two day conference in Amsterdam, The Netherlands, in September 2005 and were assigned to one of three workgroups. Each group's discussions formed the basis for draft recommendations that were later refined and improved during discussion with the larger group. Dissenting opinions were also noted. The final draft recommendations were circulated to all participants and subsequently agreed upon as the consensus recommendations for this report. Participating societies endorsed the recommendations and agreed to help disseminate the results. Results The term AKI is proposed to represent the entire spectrum of acute renal failure. Diagnostic criteria for AKI are proposed based on acute alterations in serum creatinine or urine output. A staging system for AKI which reflects quantitative changes in serum creatinine and urine output has been developed. Conclusion We describe the formation of a multidisciplinary collaborative network focused on AKI. We have proposed uniform standards for diagnosing and classifying AKI which will need to be validated in future studies. The Acute Kidney Injury Network offers a mechanism for proceeding with efforts to improve patient outcomes.
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    Approaches to Improve the Structure and Function of the Skeleton in Chronic Kidney Disease
    (2022-03) Swallow, Elizabeth Anne; Allen, Matthew R.; McNulty, Margaret A.; Moe, Sharon M.; Wallace, Joseph M.
    Chronic kidney disease (CKD) currently affects ~37 million Americans and causes substantially increased risk of skeletal fracture and fracture-related mortality. Current methods to treat CKD-related bone loss remain alarmingly ineffective. Skeletal fragility in CKD is predominately driven by deteriorations in cortical bone, highlighted by significant cortical porosity development. It is hypothesized that cortical porosity is largely driven by chronically high levels of parathyroid hormone (PTH), which alters the balance of bone remodeling in favor of rampant osteoclast activity and bone resorption. Restricting cortical bone deterioration and the development of cortical pores is likely essential to improve CKD patients’ bone health and reduce their fracture risk. The goal of this series of studies was to answer the following key questions: (1) to what degree do bisphosphonates, an approved pharmacological agent used in metabolic bone disease, accumulate in the skeleton of animals with CKD; (2) can smaller and more frequent doses of bisphosphonates alter skeletal accumulation and improve cortical architecture and the mechanical integrity of bone; (3) can non-bisphosphonate pharmacological interventions more specifically affect cortical bone deterioration. Utilizing epi-fluorescence and two-photon microscopy, our results show that bisphosphonates accumulate more in rats with renal impairment and fractionating bisphosphonates lowered skeletal accumulation irrespective of disease state. Further, studies in both rat and mouse models of CKD demonstrated different bisphosphonate treatments alone do not recover declines in cortical microarchitecture or mechanical properties in CKD. These findings demonstrate that a single intervention is not sufficient in managing CKD-induced bone alterations. Utilizing individual pore tracking analysis, we demonstrated cortical pores can be modulated with therapeutic interventions and can infill, despite the presence of CKD. Potent suppression of PTH led to significant pore infilling while more subtle reductions in PTH, via a calcimimetic, had less striking effects on bone. Calcimimetics mitigated cortical microarchitecture deterioration and reduced the rate of cortical pore expansion. Overall, these findings highlight the importance of PTH management for treating cortical deterioration in CKD. Although bisphosphonates can be utilized in ways that reduce skeletal accumulation, they appear to need co-therapies to reduce skeletal fragility associated with CKD.
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    Assessing and Modifying Bone Quality in Chronic Kidney Disease
    (2015) Newman, Christopher L.; Allen, Matthew R.
    Chronic kidney disease (CKD) results in an increased fracture risk, partially due to elevations in parathyroid hormone (PTH) that lead to substantial bone loss. On its own, bone loss does not explain bone fragility in CKD, suggesting that changes in skeletal tissue (bone quality) may also be present. Understanding the factors that lead to fracture in these patients will have a substantial impact on patient care and could lead to a better understanding of how to reduce their fracture risk. Due to their suppression of PTH, calcitriol and its analogues are the current standard of care for bone disease in CKD. Yet, surprisingly little is known of their effects on bone. Agents effective in treating osteoporosis are not recommended in advanced CKD due to the lack of data regarding their efficacy and safety in these patients. The goals of the current study were to determine (1) the impact of CKD on bone quality, (2) the ability of calcitriol to improve skeletal parameters, and (3) the efficacy of various pharmacological interventions (calcium, bisphosphonates, anti-sclerostin antibody, and raloxifene) on bone mass, quality, and mechanical properties in CKD bone disease. Using a slowly progressive rat model of CKD, renal and mineral metabolism, bone morphology, bone quality, and bone mechanics (at several length scales) were assessed. Primarily due to elevated PTH, mechanical testing and tissue-level assessments revealed compromised bone quantity (high cortical porosity and low trabecular volume) and quality (high collagen cross-linking and low matrix bound water). Despite clinically relevant reductions in PTH, calcitriol treatment had no positive impact on skeletal properties. Most agents were only effective when PTH levels were normal. Raloxifene, however, led to greater whole bone and material toughness (the ability of bone to tolerate existing damage) despite modest PTH suppression. While the examination of bone quality in CKD is still in its infancy, these results indicate that enhancing bone quality with raloxifene may be an effective means to compensate for bone loss in CKD.
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    Finerenone in Patients With Chronic Kidney Disease and Type 2 Diabetes by Sodium-Glucose Cotransporter 2 Inhibitor Treatment: The FIDELITY Analysis
    (American Diabetes Association, 2022-12) Rossing , Peter; Anker , Stefan D.; Filippatos , Gerasimos; Pitt, Bertram; Ruilope, Luis M.; Birkenfeld, Andreas L.; McGill, Janet B.; Rosas, Sylvia E.; Joseph, Amer; Gebel, Martin; Roberts, Luke; Scheerer, Markus F.; Bakris, George L.; Agarwal, Rajiv; FIDELIO-DKD Investigators; FIGARO-DKD Investigators; Medicine, School of Medicine
    OBJECTIVE Finerenone reduced the risk of kidney and cardiovascular events in people with chronic kidney disease (CKD) and type 2 diabetes in the FIDELIO-DKD and FIGARO-DKD phase 3 studies. Effects of finerenone on outcomes in patients taking sodium–glucose cotransporter 2 inhibitors (SGLT2is) were evaluated in a prespecified pooled analysis of these studies. RESEARCH DESIGN AND METHODS Patients with type 2 diabetes and urine albumin-to-creatinine ratio (UACR) ≥30 to ≤5,000 mg/g and estimated glomerular filtration rate (eGFR) ≥25 mL/min/1.73 m2 were randomly assigned to finerenone or placebo; SGLT2is were permitted at any time. Outcomes included cardiovascular composite (cardiovascular death, nonfatal myocardial infarction, nonfatal stroke, or hospitalization for heart failure) and kidney composite (kidney failure, sustained ≥57% eGFR decline, or renal death) end points, changes in UACR and eGFR, and safety outcomes. RESULTS Among 13,026 patients, 877 (6.7%) received an SGLT2i at baseline and 1,113 (8.5%) initiated one during the trial. For the cardiovascular composite, the hazard ratios (HRs) were 0.87 (95% CI 0.79–0.96) without SGLT2i and 0.67 (95% CI 0.42–1.07) with SGLT2i. For the kidney composite, the HRs were 0.80 (95% CI 0.69–0.92) without SGLT2i and 0.42 (95% CI 0.16–1.08) with SGLT2i. Baseline SGLT2i use did not affect risk reduction for the cardiovascular or kidney composites with finerenone (Pinteraction = 0.46 and 0.29, respectively); neither did SGLT2i use concomitant with study treatment. CONCLUSIONS Benefits of finerenone compared with placebo on cardiorenal outcomes in patients with CKD and type 2 diabetes were observed irrespective of SGLT2i use.
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    Management of anaemia in CKD-the relative importance of erythropoietin and iron
    (Oxford University Press, 2011-06) Agarwal, Rajiv; Department of Medicine, IU School of Medicine
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    Subcutaneous nerve activity and mechanisms of sudden death in a rat model of chronic kidney disease
    (Elsevier, 2016-05) Zhao, Ye; Chen, Neal X.; Shirazi, Jonathan T.; Shen, Changyu; Lin, Shien-Fong; Fishbein, Michael C.; Moe, Sharon M.; Chen, Peng-Sheng; Department of Medicine, IU School of Medicine
    BACKGROUND: The mechanisms of sudden death in chronic kidney disease (CKD) remain unclear. OBJECTIVE: The purpose of this study was to test the hypotheses that subcutaneous nerve activity (SCNA) can be used to estimate sympathetic tone in ambulatory rats and that abrupt reduction of SCNA precedes the spontaneous arrhythmic death of Cy/+ rats. METHODS: Radiotransmitters were implanted in ambulatory normal (N = 6) and Cy/+ (CKD; N = 6) rats to record electrocardiogram and SCNA. Two additional rats were studied before and after chemical sympathectomy with 6-hydroxydopamine. RESULTS: In normal rats, the baseline heart rate (HR) and SCNA were 351 ± 29 bpm and 5.12 ± 2.97 mV·s, respectively. SCNA abruptly increased HR by 4.31% (95% confidence interval 4.15%-4.47%). In comparison, the CKD rats had reduced baseline HR (336 ± 21 bpm, P < .01) and SCNA (4.27 ± 3.19 mV·s, P < .01). When SCNA was observed, HR increased by only 2.48% (confidence interval 2.29%-2.67%, P < .01). All Cy/+ rats died suddenly, preceded by sinus bradycardia, advanced (second- and third-degree) AV block (N = 6), and/or ventricular tachycardia or fibrillation (N = 3). Sudden death was preceded by a further reduction of SCNA (3.22 ± 2.86 mV·s, P < .01) and sinus bradycardia (243 ± 55 bpm, P < .01). Histologic studies in CKD rats showed myocardial calcification that involved the conduction system. Chemical sympathectomy resulted in progressive reduction of SCNA over 7 days. CONCLUSION: SCNA can be used to estimate sympathetic tone in ambulatory rats. CKD is associated with reduced HR response to SCNA and conduction system diseases. Abrupt reduction of sympathetic tone precedes AV block, ventricular arrhythmia, and sudden death of CKD rats.
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    Twenty-Four-Hour Urine Phosphorus as a Biomarker of Dietary Phosphorus Intake and Absorption in CKD: A Secondary Analysis from a Controlled Diet Balance Study
    (American Society of Nephrology, 2018-07-06) Stremke, Elizabeth R.; McCabe, Linda D.; McCabe, George P.; Martin, Berdine R.; Moe, Sharon M.; Weaver, Connie M.; Peacock, Munro; Hill Gallant, Kathleen M.; Department of Medicine, IU School of Medicine
    BACKGROUND AND OBJECTIVES: Twenty-four-hour urine phosphorus is commonly used as a surrogate measure for phosphorus intake and absorption in research studies, but its reliability and accuracy are unproven in health or CKD. This secondary analysis sought to determine the reliability and accuracy of 24-hour urine phosphorus as a biomarker of phosphorus intake and absorption in moderate CKD. DESIGN, SETTING, PARTICIPANTS, & MEASUREMENTS: Eight patients with stage 3-4 CKD participated in 2-week balance studies with tightly controlled phosphorus and calcium intakes. Thirteen 24-hour urine collections per patient were analyzed for variability and reliability of 24-hour urine phosphorus and phosphorus-to-creatinine ratio. The accuracy of 24-hour urine phosphorus to predict phosphorus intake was determined using a published equation. The relationships of 24-hour urine phosphorus with phosphorus intake, net absorption, and retention were determined. RESULTS: There was wide day-to-day variation in 24-hour urine phosphorus within and among subjects (coefficient of variation of 30% and 37%, respectively). Two 24-hour urine measures were needed to achieve ≥75% reliability. Estimating dietary phosphorus intake from a single 24-hour urine resulted in underestimation up to 98% in some patients and overestimation up to 79% in others. Twenty-four-hour urine phosphorus negatively correlated with whole-body retention but was not related to net absorption. CONCLUSIONS: From a sample of eight patients with moderate CKD on a tightly controlled dietary intake, 24-hour urine phosphorus was highly variable and did not relate to dietary phosphorus intake or absorption, rather it inversely related to phosphorus retention.