ライフサイエンスコーパス: calcium phosphate

1 its chemical difference from bone mineral (a calcium phosphate).

2 adjuvants (aluminum hydroxide (Al(OH)(3)) or calcium phosphate).

3 es abrogated their ability to nucleate basic calcium phosphate.

4 with or without the addition of 200 mg Ca as calcium phosphate.

5 oclast function as measured by resorption of calcium phosphate.

6 nthophores, iridophores, and melanophores-in calcium phosphate.

7 of autunite and adsorption (43 +/- 4%) onto calcium phosphate.

8 erved as endogenous eumelanin and authigenic calcium phosphate.

9 eve a pH of 9, and filtration of principally calcium phosphate.

10 eve a pH of 9, and filtration of principally calcium phosphate.

11 nium uptake on the pathway for reaction with calcium phosphates.

12 ruvite (56-60 U(Slope)), calcium oxalate and calcium phosphate (17-59 U(Slope)), and brushite (4-15 U

13 rathyroid hormone, and serum levels of total calcium, phosphate, 25-hydroxyvitamin D, 1,25-dihydroxyv

14 iochemical parameters of mineral metabolism (calcium, phosphate, 25-hydroxyvitamin D, and parathyroid

15 e composition was determined in 11 patients: calcium phosphate (55%), calcium oxalate (18%), mixed ca

16 The pH, free calcium, phosphate, acetate, propionate, and buffer capa

17 mble, and its ability to stabilize amorphous calcium phosphate (ACP) - a capacity enhanced by ameloge

18 hetic nucleation complexes made of amorphous calcium phosphate (ACP) and Anx-A5 or of phosphatidylser

19 rmation in vitro by stabilizing an amorphous calcium phosphate (ACP) precursor phase.

20 meloblast distal membrane in which amorphous calcium phosphate (ACP) ribbons form and lengthen.

21 Particles of amorphous calcium phosphate (ACP) were incorporated into PE and PE

22 three principal constituents: (i) amorphous calcium phosphate (ACP), complexed in part with phosphat

23 tion with the initial formation of amorphous calcium phosphate (ACP).

24 laboratory data including serum creatinine, calcium, phosphate, alkaline phosphatase, and glomerular

25 BM) waste materials contain large amounts of calcium phosphate and are potentially useful sorbents fo

26 : calcium carbonate, calcium citrate malate, calcium phosphate and calcium bisglycinate.

27 ecent studies on: (1) the synthesis of novel calcium phosphate and calcium fluoride nanoparticles and

28 The coexistence of calcium phosphate and calcium pyrophosphate crystals in

29 ted crystalline hydroxyapatite and amorphous calcium phosphate and carbonate, in conjunction with a h

30 is comprised of Mg(2+)-containing amorphous calcium phosphate and lipid-calcium-phosphate complexes

31 hosphate (55%), calcium oxalate (18%), mixed calcium phosphate and oxalate (9%), and struvite (18%).

32 ticle systems, such as gold, silver, silica, calcium phosphates and various polymers.

33 iagenetic impregnation and encrustation with calcium phosphate, and differences in X-ray attenuation

34 ium are due to the formation of complexes of calcium, phosphate, and fetuin.

35 involve abnormalities in sodium, potassium, calcium, phosphate, and magnesium.

36 es containing host-derived elements, such as calcium, phosphate, and sulfate.

37 FGF-23, PTH, 25(OH)D3, calcitriol, calcium, phosphate, and urinary fractional excretion of

38 Serum calcium, phosphate, and vitamin D levels were normal.

39 magnesium ammonium phosphate (struvite) and calcium phosphate (apatite) crystals.

40 These rats uniformly form calcium phosphate (apatite) kidney stones and have been

41 and shrimps) shifted toward the formation of calcium phosphate as the main mineral at specified locat

42 to alumina-based, hydroxyapatite-based, and calcium phosphate-based bioceramics was demonstrated.

43 abolically active and perpetually remodeling calcium phosphate-based endoskeleton in terrestrial vert

44 Calcium phosphate-based materials have been widely used

45 Calcium phosphate-based mineralo-organic particles form

46 tment with a combination of EMD and biphasic calcium phosphate (BC) or EMD alone.

47 Basic calcium phosphate (BCP) crystal deposition underlies the

48 ium pyrophosphate dihydrate (CPPD) and basic calcium phosphate (BCP) crystals are common components o

49 Basic calcium phosphate (BCP) crystals are common components o

50 Although basic calcium phosphate (BCP) crystals are common in osteoarth

51 Synovial fluid basic calcium phosphate (BCP) crystals are common in osteoarth

52 Synovial fluid basic calcium phosphate (BCP) crystals are common in osteoarth

53 Basic calcium phosphate (BCP) deposition results from depresse

54 creased concentrations predisposing to basic calcium phosphate (BCP) deposition, and increased concen

55 ta-tricalcium phosphate (beta-TCP), biphasic calcium phosphate (BCP), and bovine bone mineral on vert

56 ydrate, dibasic calcium phosphate, monobasic calcium phosphate, beta-tribasic calcium phosphate, octa

57 arathyroidism, despite standard therapy with calcium, phosphate binders, and active vitamin D sterols

58 s with other enamel matrix proteins and with calcium phosphate biominerals, and interaction with cell

59 Calcium phosphate bions (CPB) are biomimetic mineralo-or

60 We identified calcium phosphate both within osteoblast mitochondrial g

61 etal-free chiral phosphoric acids and chiral calcium phosphates both catalyze highly enantio- and dia

62 ic acid, cystine, struvite, calcium oxalate, calcium phosphate, brushite), and 20 were of polycrystal

63 by folding, and by supporting deposition of calcium phosphate by osteoblasts cultured in these scaff

64 This is consistent with calcium phosphate (Ca-Pi) precipitation within the SR, r

65 The control of serum phosphorus (P) and calcium-phosphate (Ca x P) product is critical to the pr

66 Two control groups were also prepared-calcium phosphate (CaCl2.2H2O + K2HPO4 in buffer solutio

67 on of amorphous calcium carbonate, amorphous calcium phosphate, calcite and apatite at various skelet

68 haracteristics of pre-nucleation clusters of calcium phosphate, calcium carbonate, iron(oxy)(hydr)oxi

69 Polycrystalline calcium oxalate and calcium phosphate calculi were found throughout the enti

70 biologics have been used in combination with calcium phosphate (CaP) ceramics, however, they have rec

71 tion of titanium (Ti) microtopography with a calcium phosphate (CaP) coating with and without peptide

72 The influence of properties of calcium phosphate (CaP) coatings on bone cell activity a

73 Extensive research suggested that calcium phosphate (CaP) coatings on titanium implants ar

74 ed multi-shell nanoparticles consisting of a calcium phosphate (CaP) core coated with siRNA directed

75 Calcium phosphate (CaP) dental resins with Ca and P ion

76 widespread in biomedical applications, where calcium phosphate (CaP) mineral coatings are used to imp

77 Calcium phosphate (CaP) minerals may comprise the main p

78 Biomaterials containing calcium phosphate (CaP) moieties have been shown to supp

79 Calcium phosphate (CaP) nanoparticles (NP) with an asymm

80 ovel vaccination approach with biodegradable calcium phosphate (CaP) NPs that serve as carrier of imm

81 The surfaces of six biologically interesting calcium phosphate (CaP) phases (hydroxyapatite, dibasic

82 e exposed to a PPi-stabilized supersaturated calcium phosphate (CaP) solution containing 0 to 0.06 mg

83 ed freeze-dried bone allograft (DFDBA), or a calcium phosphate (CaP), were coated with either EMD liq

84 hemical system for P removal and recovery as calcium phosphate (CaP).

85 s are composed of calcium oxalate (CaOx) and calcium phosphate (CaP); 10% of struvite (magnesium ammo

86 (8DSS) peptides to promote the nucleation of calcium phosphate carbonate from free ions.

87 d the uniform deposition of nano-crystalline calcium phosphate carbonate over demineralized enamel su

88 le collagen sponge composite (TCP/HA/ACS) or calcium phosphate cement (alpha-BSM).

89 udy was to encapsulate hBMSCs and hUCMSCs in calcium phosphate cement (CPC) scaffolds for dental, cra

90 A calcium phosphate cement (CPC) sets to form hydroxyapati

91 ot segments that were capped on one end with calcium phosphate cement, and the entire system was impl

92 used in a bioabsorbable, non-hydroxyapatite, calcium phosphate cement.

93 ivo remineralization capacity of resin-based calcium-phosphate cement (Ca-P) used for indirect pulp-c

94 ivo remineralization capacity of resin-based calcium-phosphate cement (Ca-PO(4)) used for indirect pu

95 Calcium phosphate cements (CPCs) have excellent biocompa

96 affinity, supplementing the role of protein-calcium-phosphate chelates.

97 in a 10-fold higher transformation rate than calcium phosphate co-precipitation.

98 Equal cell samples were pipetted onto calcium phosphate-coated disks in 24-well plates.

99 ntly more resorptive activity as measured on calcium phosphate-coated disks in the presence of 2.41%

100 oclast activity as measured by resorption on calcium phosphate-coated disks.

101 of conditions characterized by deposition of calcium phosphate complexes in soft connective tissues.

102 aining amorphous calcium phosphate and lipid-calcium-phosphate complexes (CPLXs) and the lipid-depend

103 is driven by homogeneous nucleation at high calcium phosphate concentration and the only macromolecu

104 tion deficit with an increased prevalence of calcium phosphate-containing kidney stones.

105 p27b1 null mice on either a normal or a high calcium/phosphate-containing rescue diet were treated wi

106 Compared with calcium phosphate control, a contraction of the unit cel

107 of calcium pyrophosphate dihydrate and basic calcium phosphate crystal arthritis are reviewed.

108 in calcium pyrophosphate dihydrate and basic calcium phosphate crystal deposition diseases.

109 ular calcification most likely by preventing calcium phosphate crystal growth and inducing cellular m

110 ing search for effective therapies for basic calcium phosphate crystal-associated diseases.

111 vement of protein kinase C isoforms in basic calcium phosphate crystal-mediated matrix metalloprotein

112 he lumps were due to subsurface formation of calcium phosphate crystalline deposits.

113 In addition, basic calcium phosphate crystals activate the transcription fa

114 Calcium pyrophosphate dihydrate and basic calcium phosphate crystals are common components of oste

115 dies on interactions between amelogenins and calcium phosphate crystals are critical for elucidating

116 Basic calcium phosphate crystals are more likely to form in a

117 of calcified deposits and suggest that small calcium phosphate crystals could destabilize atheroscler

118 Basic calcium phosphate crystals have also been found to upreg

119 Basic calcium phosphate crystals have been shown to increase p

120 Basic calcium phosphate crystals have long been associated wit

121 nsible for the exquisite organization of the calcium phosphate crystals in enamel.

122 Studies in macrophages have suggested that calcium phosphate crystals induce the release of proinfl

123 In the present study, we found that calcium phosphate crystals induced cell death in human a

124 Calcium phosphate crystals of approximately 1 microm or

125 nts of the hydroxyl (OH-) ion content of the calcium phosphate crystals of bone mineral have indicate

126 tudies have been performed on the effects of calcium phosphate crystals on vascular smooth muscle cel

127 ings have emphasized the potential for basic calcium phosphate crystals to stimulate the production o

128 ng calcium pyrophosphate dihydrate and basic calcium phosphate crystals, are also common in the elder

129 alkaline phosphatase levels and accumulated calcium phosphate crystals.

130 e, calcium pyrophosphate dihydrate and basic calcium phosphate crystals.

131 dicate that the lateral packing of nanoscale calcium-phosphate crystals in collagen fibrils can be re

132 ures composed of paper supporting regions of calcium phosphate deposited by osteoblasts.

133 anium surface roughened with nanometer-scale calcium phosphate deposition (nanoscale calcium phosphat

134 in calcium pyrophosphate dihydrate and basic calcium phosphate deposition diseases identifies a subse

135 ing that PS may provide nucleating sites for calcium phosphate deposition on the vesicles.

136 test the hypothesis that Randall's plaques, calcium phosphate deposits in kidneys of patients with c

137 n autosomal recessive trait characterized by calcium phosphate deposits in myocardial tissue.

138 ) is a neurological disease characterized by calcium phosphate deposits in the basal ganglia and othe

139 diffuse tubular injury with abundant tubular calcium phosphate deposits on renal biopsy are referred

140 sphate (CaP) phases (hydroxyapatite, dibasic calcium phosphate dihydrate, dibasic calcium phosphate,

141 phonic acid biomimetic analogs for amorphous calcium phosphate dimension regulation and collagen targ

142 Calcium phosphate disks were then rinsed in 5% sodium hy

143 mouse liver and transfected with PEI DNA and calcium phosphate DNA nanoparticles in 384-well plates.

144 persaturation ratios for calcium oxalate and calcium phosphate fell by 25% and 35%, respectively.

145 Runx2 deletion did not affect serum calcium, phosphate, fibroblast growth factor-23, or alka

146 avage product (P148) can inhibit spontaneous calcium phosphate formation in vitro by stabilizing an a

147 hosphorylated and non-phosphorylated LRAP on calcium phosphate formation.

148 sess the effect of amelogenin proteolysis on calcium phosphate formation.

149 s specialized structures in which a layer of calcium phosphate, frequently in the form of crystalline

150 ion dissolution studies of sparingly soluble calcium phosphates have revealed an interesting and unus

151 tion, avoidance of infection, and control of calcium-phosphate homeostasis also is essential.

152 iated through the effects of 1,25(OH)(2)D on calcium-phosphate homeostasis and inflammation.

153 dividuals with CKD, a population with unique calcium-phosphate homeostasis, is unknown.

154 In addition to its classical role in calcium-phosphate homeostasis, vitamin D has anti-inflam

155 PTHrP) are two related peptides that control calcium/phosphate homeostasis and bone development, resp

156 ighly up-regulated by E2: stanniocalcin 2, a calcium/phosphate homeostatic hormone; and inhibin-beta

157 Nanocrystals of apatitic calcium phosphate impart the organic-inorganic nanocompo

158 cale calcium phosphate deposition (nanoscale calcium phosphate-impregnated titanium [NCPIT]).

159 ding continuous precursor film of carbonated calcium phosphate in an amorphous phase was first prepar

160 er was used to examine the role of amorphous calcium phosphate in CPLX nucleational activity, which w

161 important relationship between intracellular calcium phosphate in osteoblasts and their role in miner

162 d from 23 patients confirmed a prevalence of calcium phosphate in the form of hydroxyapatite.

163 Au-HDL, iodine-based contrast material, and calcium phosphate in the phantoms.

164 try (SIMS) imaging confirmed the presence of calcium phosphate in the spherules and identified choles

165 f four common adjuvants: aluminum hydroxide, calcium phosphate, incomplete Freund's adjuvant, and the

166 ensional bioceramic implants comprising of a calcium phosphate inner core, with moderate in vitro deg

167 iated controlled transformation of amorphous calcium phosphate into crystalline HAP was confirmed by

168 ion is used to capture inorganic phosphate, calcium phosphate is converted to lead phosphate, and su

169 omposed of chitosan-amelogenin (CS-AMEL) and calcium phosphate is effective in forming an enamel-like

170 In contrast, spherical amorphous calcium phosphate is formed in the presence of OSC.

171 In these structures, calcium phosphate is not merely co-precipitated with the

172 f culture, first amorphous, then crystalline calcium phosphate is observed.

173 ly developed a potent mannose-modified lipid calcium phosphate (LCP) nanoparticle (NP)-based Trp2 vac

174 nuclide (177)Lu based on the versatile lipid-calcium-phosphate (LCP) nanoparticle delivery platform.

175 Lipid-calcium-phosphate (LCP) nanoparticles represent a new cl

176 The Lipid/Calcium/Phosphate (LCP) nanoparticles (NPs) with a membr

177 osits, and demonstrate the presence of basic calcium phosphate-like whitlockite crystals in intervert

178 d, but octacalcium phosphate-like, amorphous calcium phosphate-like, and HPO4(2-)-enriched phases wer

179 rt with phosphatidylserine (PS) to form (ii) calcium-phosphate-lipid complexes (CPLX), and (iii) anne

180 trate that, in similar cultures, crystalline calcium phosphate material is deposited in the chondrocy

181 Electroporation and calcium phosphate-mediated procedures were used to deliv

182 er liposome-mediated transfection than after calcium-phosphate-mediated transfection.

183 ydroxyvitamin D3 [1,25(OH)2D3] formation and calcium-phosphate metabolism.

184 n addition to its well-characterized role in calcium/phosphate metabolism, has been found to have reg

185 ergranular phase of Mg-substituted amorphous calcium phosphate (Mg-ACP).

186 This study investigated if calcium phosphate microspheres, which have remineralizin

187 ation of VSMCs and was independent of a high calcium-phosphate milieu.

188 del for a citrate bridging between layers of calcium phosphate mineral a double salt octacalcium phos

189 TRIP-1 promoted the nucleation and growth of calcium phosphate mineral aggregates.

190 plex (FMC), a high molecular mass complex of calcium phosphate mineral and the proteins fetuin and ma

191 al complex, a high molecular mass complex of calcium phosphate mineral and the proteins fetuin and ma

192 ions between collagen fibrils and amelogenin-calcium phosphate mineral complexes lead to oriented dep

193 into its role as a nucleator of crystalline calcium phosphate mineral formation.

194 Tetracyclines stain calcium phosphate mineral in bone.

195 te interactions with both forming and mature calcium phosphate mineral phases, providing new insights

196 erum potently inhibited the precipitation of calcium phosphate mineral when the concentration of calc

197 anisms of its assembly and interactions with calcium phosphate mineral, we conducted FTIR spectroscop

198 function, and the importance of controlling calcium phosphate mineralization at the nanometer scale.

199 have implications for amelogenin-controlled calcium phosphate mineralization in vitro and may offer

200 on leading to an inappropriate deposition of calcium phosphate minerals in advanced atherosclerotic p

201 The in situ or authigenic formation of calcium phosphate minerals in marine sediments is a majo

202 tes play a critical role in the formation of calcium phosphate minerals in marine sediments.

203 ain the puzzlingly dispersed distribution of calcium phosphate minerals observed in marine sediments

204 ith (17)O NMR data for OCP-citrate and other calcium phosphate minerals relevant to bone.

205 Correlation of the calcium:phosphate molar ratio with release of phosphate

206 dibasic calcium phosphate dihydrate, dibasic calcium phosphate, monobasic calcium phosphate, beta-tri

207 Porcine osteoclasts were seeded onto calcium phosphate multi-test slides and incubated at 37

208 posite containing nanoparticles of amorphous calcium phosphate (NACP) and quaternary ammonium dimetha

209 posite containing nanoparticles of amorphous calcium phosphate (NACP).

210 ndblasted, large-grit, acid-etched (SLA); 2) calcium phosphate nano-coated (CaP); 3) anodized; or 4)

211 erratia sp. bacterium manufactures amorphous calcium phosphate nanominerals (BHAP); this material has

212 n and temporarily stabilize the newly formed calcium phosphate nanoparticle precursors by sequesterin

213 ion of antimicrobial, protein-repellent, and calcium phosphate nanoparticle remineralization was sugg

214 2O2) using rhodamine isocyanide incorporated calcium phosphate nanoparticles (Rho/CaP) was developed.

215 lts explain a role for constitutively formed calcium phosphate nanoparticles in the gut lumen and sho

216 formation of amorphous magnesium-substituted calcium phosphate nanoparticles that trap soluble macrom

217 the crystals formed in ATD5 cells were basic calcium phosphate, not calcium pyrophosphate dihydrate,

218 y studies further confirmed that the nascent calcium phosphate nuclei formed in solution were assembl

219 , monobasic calcium phosphate, beta-tribasic calcium phosphate, octacalcium phosphate) have been exam

220 nanoparticles of either calcium carbonate or calcium phosphate on an isolated piece of pig skin (in v

221 oting high-affinity nucleation and growth of calcium phosphate on the surface, along with extensive c

222 Biomaterials made of calcium phosphate or bioactive glasses are currently ava

223 and the ultimate deposition of either basic calcium phosphate or calcium pyrophosphate dihydrate cry

224 There were no significant changes in serum calcium, phosphate, or intact parathyroid hormone during

225 blast cell cultures, 1,25(OH)(2)D(3) but not calcium, phosphate, or parathyroid hormone stimulated FG

226 31) we also measured plasma levels of FGF23, calcium, phosphate, parathyroid hormone, and vitamin D m

227 ene delivery in fibroblasts using nano-sized calcium phosphate particles (NCaPP) as vectors.

228 ardiovascular disease and detected spherical calcium phosphate particles, regardless of the presence

229 lants with and without added nanometer-sized calcium phosphate particles.

230 s, the initially formed metastable amorphous calcium phosphate phase transformed into thermodynamical

231 le in the caries lesion since it is a stable calcium phosphate phase under acidic conditions.

232 y shows the presence of an acidic disordered calcium phosphate phase with additional characteristic f

233 carbonate- and silicate-substitutions in the calcium phosphate plaques found in myringosclerosis.

234 They control nucleation of calcium phosphate polymorphs and the assembly of hierarc

235 ated that GRP-78 can induce the formation of calcium phosphate polymorphs by itself, when bound to im

236 o examine if the release of ions from plaque calcium-phosphate pools induced by this gum could provid

237 e the encapsulation of Trp2 peptide into the calcium phosphate precipitate core of LCP, two phosphor-

238 xogenously introduced calcium in the form of calcium phosphate precipitates (CPP) induces autophagy.

239 The nucleated amorphous calcium phosphate precipitates ripen and nanocrystals fo

240 ate group on serine 16, was found to inhibit calcium phosphate precipitation and stabilize ACP format

241 entin mineralization and prevent spontaneous calcium phosphate precipitation in areas in which minera

242 less than 2 h of hands-on time; however, the calcium phosphate precipitation method contains several

243 are difficult to transfect by lipofection or calcium phosphate precipitation methods.

244 In comparison to calcium phosphate precipitation or the phosphomolybdate-

245 le gene, Ecogpt, has been introduced, by the calcium phosphate precipitation technique, into normal h

246 xperimental conditions supported spontaneous calcium phosphate precipitation with the initial formati

247 ed methods to transform Dictyostelium cells: calcium phosphate precipitation, resulting in high copy

248 omimetic hydroxyapatite through an amorphous calcium phosphate precursor.

249 se of biomimetic analog-stabilized amorphous calcium phosphate precursors.

250 > or =3.5 g/dl), hemoglobin (> or =11 g/dl), calcium-phosphate product (<60 mg(2)/dl(2)), dose (Kt/V

251 rtality, whereas traditional risk factors or calcium-phosphate product did not.

252 ted with higher BPV included obesity, higher calcium-phosphate product levels, and lower hemoglobin c

253 more potently than phosphate (at equivalent calcium-phosphate product).

254 a passive process resulting from an elevated calcium-phosphate product.

255 raditional (Framingham) risk factors and the calcium-phosphate product.

256 d serum levels of creatinine, phosphate, and calcium-phosphate product; dietary fructose significantl

257 No cases reported elevated calcium-phosphate products (0 of 17 [0%]).

258 Dental cements containing calcium phosphate promote remineralization.

259 in an absorbable collagen sponge (ACS) or a calcium phosphate putty (alphaBSM) carrier in 3-wall int

260 at bran, oat bran and white bean had a lower calcium:phosphate ratio than barley bran and red kidney

261 two ethnic groups were found with regard to calcium:phosphate ratios, fluoride, or carbonate content

262 lectron microscopy that 100-300 nm amorphous calcium phosphate regions are present in the disordered

263 a mixture of ferrihydrite and amorphous iron-calcium phosphate replaces the more soluble Mg-ACP, rend

264 We show that the dissolution of apatite (calcium phosphate) represents a source of calcium that i

265 As calcium phosphate seems to be the preferred initial soli

266 onsequently, the probes were encapsulated in calcium phosphate/silicate nanoparticles (diameter ca. 2

267 eating cells, and consist of polycrystalline calcium phosphate similar to the mineral found in bones

268 ction in supersaturation with respect to the calcium phosphate solid phase may be the mechanism by wh

269 y incorporated into a newly formed amorphous calcium phosphate solid.

270 s added to a suspension containing amorphous calcium phosphate solids as well as dissolved calcium an

271 At pH 7.5, a condition at which calcium phosphate solids could form, the uptake mechanis

272 r uranium contacted with preformed amorphous calcium phosphate solids.

273 r, concomitant wound care, and management of calcium-phosphate status.

274 In summary, sodium thiosulfate reduces calcium phosphate stone formation in the genetic hyperca

275 netic hypercalciuric rat, an animal model of calcium phosphate stone formation, we studied the effect

276 n, which may not be beneficial in preventing calcium phosphate stone formation.

277 th groups had similar numbers of exclusively calcium phosphate stones.

278 Osteoclast cultures resorbed bone slices and calcium phosphate substrate.

279 y measuring the resorbed surface area of the calcium phosphate substrate.

280 allow quantitative assessment of individual calcium phosphates such as hydroxyapatite (HAP) from mix

281 tassium citrate on urine calcium oxalate and calcium phosphate supersaturation and stone formation is

282 no statistically significant differences in calcium phosphate supersaturation or upper limit of meta

283 Furthermore, calcium oxalate and calcium phosphate supersaturation were higher with potas

284 reatment lowered urine pH, which would lower calcium phosphate supersaturation.

285 te-treated rats, changes that would increase calcium phosphate supersaturation.

286 levels lead to increased calcium oxalate and calcium phosphate supersaturation.

287 p.E161K carriers were more likely to contain calcium phosphate than stones of wild-type patients.

288 Clay minerals inter-finger with calcium phosphate that co-precipitated with the clays in

289 osteoclast differentiation and resorption of calcium phosphate, the major component of bone.

290 des of observations describing intracellular calcium phosphate, the precise role osteoblasts play in

291 d to mediate the transformation of amorphous calcium phosphate to apatite crystals under the same exp

292 s their ability to sequester nanoclusters of calcium phosphate to form a core-shell structure, in a f

293 LB/c mice were anesthetized and treated with calcium phosphate to induce AAA and underwent weekly PET

294 Au-HDL, an iodine-based contrast agent, and calcium phosphate were imaged in a variety of phantoms.

295 The contrast agents and calcium phosphate were imaged in phantoms.

296 applications of nanoparticulate polymers and calcium phosphates will also be assessed.

297 he precipitates were predominantly amorphous calcium phosphate with a phosphorus content of 11.1-13.3

298 We designed an in vitro experiment with calcium phosphate with different SDF concentrations (0.3

299 In this study, nucleators based on amorphous calcium phosphate (with or without Anx-5) were prepared

300 ur objective was to test the hypothesis that calcium phosphate would better support anabolic bone bui