Karin Sandin
Lund University
8 Papers
44 Citations
Karin Sandin is an academic researcher from Lund University. The author has contributed to research in topics: Apatite & Calcium. The author has an hindex of 4, co-authored 8 publications. Previous affiliations of Karin Sandin include Royal Institute of Technology.
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Papers
Formation of carbonated apatite particles from a supersaturated inorganic blood serum model
TL;DR: Investigation of the conditions, composition, crystallinity and morphology of in vitro calcification are performed and related to results from in vivo studies find that the in vitro observed carbonated apatite bears strong resemblance to in vivo cardiovascular calcification known from literature.
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In Vitro Formation of Nanocrystalline Carbonate Apatite – A Structural and Morphological Analogue of Atherosclerotic Plaques
TL;DR: In this paper, the in vitro formation of carbonate apatite in solutions with ion concentrations comparable to those in human serum was studied and it was shown that bioapatites may form in vitro and that precipitation inhibitors most likely are essential for the prevention of spontaneous calcification at normal human serum ion concentrations.
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A theoretical investigation of the supersaturation of basic calcium phosphate in serum of dialysis patients
TL;DR: Supersaturation in relation to serum ionized calcium [Ca 2+] and total inorganic serum phosphate (Pi) under normal and hyperphosphatemic conditions has been calculated and it is found that brushite solely occurs under hy-perphosph atemic conditions.
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Simplified citrate anticoagulation for CRRT without calcium replacement.
Marcus Broman,Bengt Klarin,Karin Sandin,Ola Carlsson,Anders Wieslander,Jan Sternby,Gabriela Godaly +6 more
TL;DR: It is suggested that it is possible to perform regional citrate anticoagulation without the need for separate calcium infusion during CRRT, and this pilot study suggests that this is possible.
The observation of nano-crystalline calcium phosphate precipitate in a simple supersaturated inorganic blood serum model - composition and morphology
TL;DR: The calcium phosphate formed in this study shows many similarities to pathological calcium phosphates regarding composition, morphology and crystallinity.
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