Calcium phosphate-alginate microspheres as enzyme delivery matrices

Ribeiro, Cristina; Barrias, Cristina C.; Barbosa, Mário A.

doi:10.1016/j.biomaterials.2003.11.028

Cited by 239 publications

(160 citation statements)

References 39 publications

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“…The stretching vibration peak of C-O of the alginate membrane that appeared at 1266 cm -l was attributed to the reaction between carboxyl and Ca ion ("C-O-Ca-O-CO-" group structure), which enhanced C-O vibration [16]. These changes indicate that Ca ion formed an "egg tray" structure with the sodium alginate molecular chain.…”

Section: The Effect Of Molecular Weight On the Membrane-forming Propementioning

confidence: 97%

Preparation of alginate membrane for tissue engineering

Gong¹,

Han

Zhang

et al. 2015

Journal of Polymer Engineering

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Abstract Sodium alginate was provided with good processibility according to physical and chemical characterization of itself. Alginate scaffold has been used for preparation of soft or hard tissue engineering, but the structure of the scaffold needs to be improved for better performance for skin tissue engineering. In this study, highly porous alginate membrane was formed with ionic crosslinking. High molecular weight (Mw=3.0×105) alginate showed the best film-forming property. Therefore, the appropriate molecular weight should be selected for improving its performance. With freeze-drying technology and pre-freezing at -10°C, we have built the honeycomb materials (porosity=92.06%). Changing the pre-freezing temperature can regulate pore structure to some extent. With the increased dosage of sodium alginate, the porosity and the pore size of the materials were reduced, whereas tensile strength and elongation at break increased. Water absorption performance of the materials was good. The above studies lay a foundation for construction of skin tissue engineering scaffold.

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Section: The Effect Of Molecular Weight On the Membrane-forming Propementioning

confidence: 97%

Preparation of alginate membrane for tissue engineering

Gong¹,

Han

Zhang

et al. 2015

Journal of Polymer Engineering

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“…The structure of the CaP/SA particles showed that when there is an increase in the SA content, more flakey structures were formed in the particles caused by the structure of SA particles ( Figure 2). All the combinations showed that the SA was identified with CaP because the SA fully covered the CaP surface [10,13].The EDS results (Figure 2) showed that the sodium (Na) peak was identified in the composite and the extensive peak was formed when a higher wt% of SA added. …”

Section: Thermal Analysismentioning

confidence: 99%

“…The alginate did not affect the subsequent modification of the characteristic band of calcium titanium phosphate (CTP) and HA.This showed that both ceramics were maintained in the microsphere [13].A study by Kui Zhou showed that porous HA/SA 3D material was formed afterweight loss occurredthrice at 100 O C, 300 to 400 O C and 600-1300 O C respectively.This was confirmed by the DSC-TG graph [15].During the SEM analysis, it was found that the HA particles were homogenously dispersed and well embedded throughout the SA particles [10,13].…”

Section: Introductionmentioning

confidence: 97%

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Powder Characterization of Calcium Phosphate/Collagen for Bone Implant Application

et al. 2017

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Abstract. Calcium phosphate (CaP) is a type of bioceramic material that is biocompatible and bioactive. It is usually used for bone implant application but it lacks mechanical strength. Therefore, sodium alginate (SA), a natural polymer, is combined with CaP to improve its properties of the CaP via precipitation method. The powder formed is then characterized by using FESEM, EDX, FTIR and DTA. Based on the FESEM result, it was confirmed that the SA particles were well embedded and homogeneously dispersed throughout the CaP matrix whereas the EDX result showed that the CaP and SA are pure and were not contaminated with other materials or substances.The FTIR result showed that the intensity of some peaks (3100-3600 cm-1 and 1585-1625cm-1) increased due to the addition of SA but for some peaks the addition of SA leads to a decrease in intensity (1650-1300cm-1 and 1190-976cm-1).This proves that the addition of SA in CaP influenced the intensity peaks and it was confirmed that chemical bonds were formed between these two substances. Meanwhile, the DTA result showed that CaP dehydroxylation occurred in the range of 650-13000C and the thermal degradation of SA happened at 245.80C but the SA thermal degradation temperature improved when it was added to the CaP matrix.

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“…However, the poor mechanical properties of β-TCP limit its use to non-load bearing applications 8 . Thus, the combination of inorganic and organic components has been investigated in order to produce composites with physico-chemical characteristics improved when compared to isolated components 9 . Some polymers, such as alginate, are used as polymeric matrix in DDS.…”

Section: Introductionmentioning

confidence: 99%

Strontium Incorporation on Microspheres of Alginate/β-tricalcium Phosphate as Delivery Matrices

et al. 2014

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Strontium (Sr) is known to positively affect the mechanism of bone remodelling. Consequently, calcium phosphate bioceramics associated with alginate matrices containing strontium could improve bone regeneration due to gradual strontium release. This work aims to incorporate Sr on microspheres of alginate (ALG)/β-tricalcium phosphate (β-TCP) and evaluates the in vitro release of strontium ions into a buffer solution at pH 4.0 and 7.4. In this study, strontium chloride was employed as a cross-linking agent and Sr source. Energy dispersive spectroscopy (EDS) showed that strontium was incorporated mainly at the surface of the microspheres produced. The in vitro experiments revealed that there is a rapid strontium release up to 24 h at pH 7.4 due to Sr location on microspheres' surface. At pH 4.0 both calcium and strontium were released due to the β-TCP dissolution.

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Calcium phosphate-alginate microspheres as enzyme delivery matrices

Cited by 239 publications

References 39 publications

Preparation of alginate membrane for tissue engineering

Preparation of alginate membrane for tissue engineering

Powder Characterization of Calcium Phosphate/Collagen for Bone Implant Application

Strontium Incorporation on Microspheres of Alginate/β-tricalcium Phosphate as Delivery Matrices

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