Summary Fasciola hepatica is a trematode parasite with a global distribution, which is responsible for considerable disease and production losses in a range of food producing species. It is also identified by WHO as a re‐emerging neglected tropical disease associated with endemic and epidemic outbreaks of disease in human populations. In Europe, F. hepatica is mostly associated with disease in sheep, cattle and goats. This study reviews the most recent advances in our understanding of the transmission, diagnosis, epidemiology and the economic impact of fasciolosis. We also focus on the impact of the spread of resistance to anthelmintics used to control F. hepatica and consider how vaccines might be developed and applied in the context of the immune‐modulation driven by the parasite. Several major research gaps are identified which, when addressed, will contribute to providing focussed and where possible, bespoke, advice for farmers on how to integrate stock management and diagnosis with vaccination and/or targeted treatment to more effectively control the parasite in the face of increasing the prevalence of infection and spread of anthelmintic resistance that are likely to be exacerbated by climate change.
Calcimimetics decrease parathyroid hormone (PTH) levels in uremic patients with secondary hyperparathyroidism without increasing serum calcium (Ca). The aim of this study was to evaluate the effect of calcimimetic R-568 alone or in combination with calcitriol on vascular and other soft tissue calcifications in uremic rats with secondary hyperparathyroidism. Shamoperated and 5/6 nephrectomized Wistar rats were studied. 5/6 Nephrectomized rats were treated with vehicle, calcitriol (80 ng/kg every other day), R-568 (1.5 and 3 mg/kg per d), and both calcitriol and R-568 1.5 mg/kg, as above. Rats were killed after 14 or 56 d of treatment. Blood was drawn for biochemical measurements. Aortic, heart, kidney, lung, and stomach tissue samples were processed for histopathology and measurement of tissue Ca and phosphorus content. PTH concentrations were significantly reduced by all treatments. Treatment with calcitriol induced significant vascular calcification (aortic Ca increased to 4.2 ؎ 1.2 mg/g at day 14 and to 11.4 ؎ 0.7 mg/g at day 56; P < 0.05 versus vehicle). Treatment with R-568 did not induce vascular calcification. Concurrent administration of R-568 with calcitriol reduced the aortic Ca (1.9 ؎ 0.2 mg/g at day 14 and 7.5 ؎ 1.4 mg/g at day 56) in relation to calcitriol alone. Soft tissue calcifications mirrored aortic mineralizations. Survival was significantly (P < 0.001) reduced in calcitriol-treated rats, and mortality was attenuated (P ؍ 0.01) by concurrent treatment with R-568. In uremic rats, R-568 reduces elevated PTH levels without inducing vascular calcification, prevents calcitriol-induced vascular calcification, and decreases mortality.
The effect of calcitriol, paricalcitol, and a calcimimetic on extraosseous calcifications in uremic rats
Vitamin D derivatives and calcimimetics are used to treat secondary hyperparathyroidism in patients with chronic renal failure. We investigated the effect of calcitriol, paricalcitol, and the calcimimetic AMG 641 on soft-tissue calcification in uremic rats with secondary hyperparathyroidism. Control and uremic rats were treated with vehicle, calcitriol, paricalcitol, AMG 641, or a combination of AMG 641 plus calcitriol or paricalcitol. Parathyroid hormone levels were reduced by all treatments but were better controlled by the combination of paricalcitol and AMG 641. The calcimimetic alone did not induce extraosseous calcification but co-administration of AMG 641 reduced soft-tissue calcification and aortic mineralization in both calcitriol- and paricalcitol-treated rats. Survival was significantly reduced in rats treated with calcitriol and this mortality was attenuated by co-treatment with AMG 641. Our study shows that extraskeletal calcification was present in animals treated with calcitriol and paricalcitol but not with AMG 641. When used in combination with paricalcitol, AMG 641 provided excellent control of secondary hyperparathyroidism and prevented mortality associated with the use of vitamin D derivatives without causing tissue calcification.
Metabolic acidosis is common in patients with chronic kidney disease, which is known to affect bone metabolism. We examined the effect of metabolic acidosis on the development of vascular and other soft-tissue calcifications in uremic rats treated with calcitriol. Extraskeletal calcification was measured in vivo, in control rats and rats with a remnant kidney model of uremia with or without ammonium chloride-induced acidosis. Soft-tissue calcification was assessed histologically, by measurement of the expression of the sodium-dependent phosphate cotransporter Pit-1 and by quantification of tissue calcium and phosphorus. Calcitriol administration to uremic rats resulted in significant deposition of material positive for von Kossa stain in the aorta, stomach, and kidney, elevated aortic calcium and phosphorus, increased aortic Pit-1 expression, and high mortality. Calcitriol-treated uremic rats with acidosis did not develop aortic or soft-tissue calcification, did not increase aortic Pit-1 expression, and had significantly lower mortality. Additionally, an acidotic environment prevented calcification of vascular smooth muscle cells in vitro. Our study shows that metabolic acidosis inhibits extraskeletal calcification.
VC is an important clinical entity; however, very little information is available on its resolution. Induction and regression of calcitriol-induced VC was studied in 47 rats. After calcitriol withdrawal, there was a relatively rapid regression of VC mediated by an active cellular process.Introduction: Vascular calcifications (VCs) represent an important risk factor for cardiovascular death. Although VCs are prevalent in relevant diseases (e.g., chronic kidney disease, osteoporosis, diabetes), the reversibility of extraskeletal calcifications is an unresolved issue. This study was conducted to investigate (1) the in vivo effect of calcitriol on VC and (2) whether calcitriol-induced VC would regress after suppression of calcitriol treatment. Materials and Methods:The calcifying effect of calcitriol was studied in four groups of rats (n ס 8) that received calcitriol (1 g/kg, IP) for 2, 4, 6, and 8 days. The reversibility of VC was studied in three additional groups (n ס 5) treated with 1 g/kg of calcitriol for 8 days that were subsequently killed 1, 2, and 9 weeks after the last calcitriol dose. Aortic VC was assessed by histology and by quantification of aortic calcium and phosphorus content. The aortic wall was studied by histology and immunohistochemistry. Statistical analysis was performed by ANOVA and t-tests. Results: Calcitriol administration resulted in a time-dependent induction of VC, with aortic calcium and phosphorus being significantly increased at 6 and 8 days. Treatment with calcitriol for 8 days resulted in massive medial calcification of the aorta with a 10-to 30-fold increase in the aortic Ca and P content. After suppressing calcitriol administration, a progressive decrease in von Kossa staining and aortic Ca (from 32.8 ± 2.5 to 9.3 ± 1.8 mg/g of tissue, p < 0.001) and P (from 11.9 ± 1.2 to 2.7 ± 1.8 mg/g of tissue, p ס 0.001) content was evidenced. Histology of the aortic wall showed monocytes adhered to the aortic endothelium and macrophages involved in the reabsorption of calcium deposits. Conclusions: Our results show that calcitriol treatment induces time-dependent VC. After calcitriol withdrawal, VC regress rapidly with aortic calcium and phosphorus decreasing by 75% in the course of 9 weeks. An active cellular process seems to be involved in regression of VC.
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