Calcific uraemic arteriolopathy (CUA), or calciphylaxis, is a rare disease predominantly occurring in comorbidity with dialysis. Due to the very low frequency of CUA, prospective studies on its management are lacking and even anecdotal reports on treatment remain scarce. Therefore, calciphylaxis is still a challenging disease with dismal prognosis urgently requiring adequate strategies for diagnosis and treatment.In an attempt to fill some of the current gaps in evidence on various, highly debated and controversial aspects of dialysis-associated calciphylaxis, 13 international experts joined the 1st Consensus Conference on CUA, held in Leuven, Belgium on 21 September 2015. The conference was supported by the European Calciphylaxis Network (EuCalNet), which is a task force of the ERA-EDTA scientific working group on Chronic Kidney Disease-Mineral and Bone Disorders (CKD-MBD). After an intense discussion, a 9-point Likert scale questionnaire regarding 20 items on calciphylaxis was anonymously answered by each participant. These 20 items addressed unsolved issues in terms of diagnosis and management of calciphylaxis. On the one hand, the analysis of the expert opinions identified areas of general consensus, which might be a valuable aid for physicians treating such a disease with less experience in the field. On the other hand, some topics such as the pertinence of skin biopsy and administration of certain treatments revealed divergent opinions. The aim of the present summary report is to provide some guidance for clinicians who face patients with calciphylaxis in the current setting of absence of evidence-based medicine.
Primary hyperoxaluria type 1 (PH1) is a rare genetic disorder characterized by allelic and clinical heterogeneity. We aim to describe the presentation and full single-center experience of the management of PH1 patients bearing the mutation described in our community (I244T mutation+polymorphism P11L). Since 1983, 12 patients with recurrent renal lithiasis have been diagnosed with PH1 and renal failure in the Canary Islands, Spain. Diagnostic confirmation was based on the presence of oxalosis in undecalcified bone or kidney allograft biopsy, reduced alanine:glyoxylate aminotransferase activity in liver biopsy, and blood DNA analysis. Patients underwent different treatment modalities depending on individual clinical circumstances and therapeutic possibilities at the time of diagnosis: hemodialysis, isolated kidney, simultaneous liver-kidney, or pre-emptive liver transplantation. In all cases, the presentation of advanced renal disease was relatively late (>13 years) and no cases were reported during lactancy or childhood. The eight patients treated with hemodialysis or isolated kidney transplantation showed unfavorable evolution leading to death over a variable period of time. In contrast, the four patients undergoing liver transplantation (three liver+kidney and one pre-emptive liver alone) showed favorable long-term allograft and patient survival (up to 12 years follow-up). In conclusion, in this PH1 population, all bearing the I244T mutation, the development of end-stage renal disease was distinctive during late adolescence or adulthood. Our long-term results support pre-emptive liver transplantation at early stages of renal failure, and kidney-liver transplantation for those with advanced renal disease.
Aims: SNF472 is a calcification inhibitor that is being studied as a novel treatment for calciphylaxis and cardiovascular calcification (CVC). A first study showed acceptable safety and tolerability in a single ascending dose administration in healthy volunteers and a single dose administration in haemodialysis (HD) patients. This study aimed to assess the safety, tolerability, and pharmacokinetics/pharmacodynamics relationship of intravenous SNF472 in HD patients in a multiple ascending dose administration trial with 5 doses tested for 1 week (3 administrations) and 1 dose tested for 4 weeks (12 administrations).Methods: This double blind, randomized, placebo-controlled Phase 1b study investigated the safety, tolerability, pharmacokinetics and pharmacodynamics of SNF472 after repeated administrations to HD patients for up to 28 days. A pharmacodynamic assessment was performed to evaluate the potential for SNF472 to inhibit hydroxyapatite (HAP) formation. Patients were grouped into 2 cohorts, receiving multiple ascending doses for 1 week (1 to 20 mg/kg, Cohort 1) and 1 dose of 10 mg/kg for 4 weeks (Cohort 2) of intravenous SNF472.Results: Physical status, body weight, cardiorespiratory function, body temperature and laboratory parameters were in the normal range. No clinically relevant effects on heart rate or blood pressure were observed. No abnormal electrocardiogram or QTcB period were reported. The peak plasma concentration (7.6, 16.1, 46.0 and 66.9 μg/mL for 3, 5, 12.5 and 20 mg/kg, respectively) was observed at the end of the 4-hour infusion and thereafter concentrations declined rapidly with half-life between 32 and 65 min. SNF472 at 10 mg/kg inhibited dose dependently HAP crystallization in plasma samples after 28 days of treatment (78% inhibition, P < .001).Conclusions: SNF472 is safe and well tolerated in HD patients after 2 schemes: multiple ascending doses for 1 week and after repeated dosing of 10 mg/kg for 4 weeks. In both schemes, SNF472 inhibits the induction of HAP crystallization.These results provide support for the use of SNF472 as a novel treatment for CVC in end-stage renal disease.The authors confirm that the PI for this paper is Francesc Maduell and that he had direct clinical responsibility for patients.
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