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1.
Bioengineering (Basel) ; 10(2)2023 Feb 07.
Artigo em Inglês | MEDLINE | ID: mdl-36829714

RESUMO

Biomimetic nanocrystalline apatites analogous to bone mineral can be prepared using soft chemistry. Due to their high similarity to bone apatite, as opposed to stoichiometric hydroxyapatite for example, they now represent an appealing class of compounds to produce bioactive ceramics for which drug delivery and ion exchange abilities have been described extensively. However, immersion in aqueous media of dried non-carbonated biomimetic apatite crystals may generate an acidification event, which is often disregarded and not been clarified to-date. Yet, this acidification process could limit their further development if it is not understood and overcome if necessary. This may, for example, alter biological test outcomes, during their evaluation as bone repair materials, due to potentially deleterious effects of the acidic environment on cells, especially in in vitro static conditions. In this study, we explore the origins of this acidification phenomenon based on complementary experimental data and we point out the central role of the hydrated ionic layer present on apatite nanocrystals. We then propose a practical strategy to circumvent this acidification effect using an adequate post-precipitation equilibration step that was optimized. Using this enutralization protocol, we then showed the possibility of performing (micro)biological assessments on such compounds and provide an illustration with the examples of post-equilibrated Cu2+- and Ag+-doped nanocrystalline apatites. We demonstrate their non-cytotoxicity to osteoblast cells and their antibacterial features as tested versus five major pathogens involved in bone infections, therefore pointing to their relevance in the field of antibacterial bone substitutes. The preliminary in vivo implantation of a relevant sample in a rat's calvarial defect confirmed its biocompatibility and the absence of adverse reaction. Understanding and eliminating this technical barrier should help promoting biomimetic apatites as a genuine new class of biomaterial-producing compounds for bone regeneration applications, e.g., with antibacterial features, far from being solely considered as "laboratory curiosities".

2.
J Mater Sci Mater Med ; 25(3): 595-606, 2014 Mar.
Artigo em Inglês | MEDLINE | ID: mdl-24258399

RESUMO

Biomimetic nanocrystalline calcium-deficient apatite compounds are particularly attractive for the setup of bioactive bone-repair scaffolds due to their high similarity to bone mineral in terms of chemical composition, structural and substructural features. As such, along with the increasingly appealing development of moderate temperature engineered routes for sample processing, they have widened the armamentarium of orthopedic and maxillofacial surgeons in the field of bone tissue engineering. This was made possible by exploiting the exceptional surface reactivity of biomimetic apatite nanocrystals, capable of easily exchanging ions or adsorbing (bio)molecules, thus leading to highly-versatile drug delivery systems. In this contribution we focus on the preparation of hybrid materials combining biomimetic nanocrystalline apatites and enzymes (lysozyme and subtilisin). This paper reports physico-chemical data as well as cytotoxicity evaluations towards Cal-72 osteoblast-like cells and finally antimicrobial assessments towards selected strains of interest in bone surgery. Biomimetic apatite/enzyme hybrids could be prepared in varying buffers. They were found to be non-cytotoxic toward osteoblastic cells and the enzymes retained their biological activity (e.g. bond cleavage or antibacterial properties) despite the immobilization and drying processes. Release properties were also examined. Beyond these illustrative examples, the concept of biomimetic apatites functionalized with enzymes is thus shown to be useable in practice, e.g. for antimicrobial purposes, thus widening possible therapeutic perspectives.


Assuntos
Apatitas/química , Fenômenos Fisiológicos Bacterianos/efeitos dos fármacos , Materiais Biomiméticos/síntese química , Fosfatos de Cálcio/química , Muramidase/química , Osteogênese/fisiologia , Subtilisina/química , Substitutos Ósseos/síntese química , Linhagem Celular , Sobrevivência Celular/efeitos dos fármacos , Ativação Enzimática , Estabilidade Enzimática , Humanos , Teste de Materiais , Conformação Molecular , Nanoestruturas , Osteogênese/efeitos dos fármacos , Tamanho da Partícula , Propriedades de Superfície
3.
Mol Cell Proteomics ; 11(12): 1652-69, 2012 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-22942357

RESUMO

The majority of microorganisms persist in nature as surface-attached communities often surrounded by an extracellular matrix, called biofilms. Most natural biofilms are not formed by a single species but by multiple species. Microorganisms not only cooperate as in some multispecies biofilms but also compete for available nutrients. The Gram-negative bacterium Pseudomonas aeruginosa and the polymorphic fungus Candida albicans are two opportunistic pathogens that are often found coexisting in a human host. Several models of mixed biofilms have been reported for these organisms showing antagonistic behavior. To investigate the interaction of P. aeruginosa and C. albicans in more detail, we analyzed the secretome of single and mixed biofilms of both organisms using MALDI-TOF MS/MS at several time points. Overall 247 individual proteins were identified, 170 originated from P. aeruginosa and 77 from C. albicans. Only 39 of the 131 in mixed biofilms identified proteins were assigned to the fungus whereby the remaining 92 proteins belonged to P. aeruginosa. In single-species biofilms, both organisms showed a higher diversity of proteins with 73 being assigned to C. albicans and 154 to P. aeruginosa. Most interestingly, P. aeruginosa in the presence of C. albicans secreted 16 proteins in significantly higher amounts or exclusively among other virulence factors such as exotoxin A and iron acquisition systems. In addition, the high affinity iron-binding siderophore pyoverdine was identified in mixed biofilms but not in bacterial biofilms, indicating that P. aeruginosa increases its capability to sequester iron in competition with C. albicans. In contrast, C. albicans metabolism was significantly reduced, including a reduction in detectable iron acquisition proteins. The results obtained in this study show that microorganisms not only compete with the host for essential nutrients but also strongly with the present microflora in order to gain a competitive advantage.


Assuntos
Biofilmes/crescimento & desenvolvimento , Candida albicans/metabolismo , Proteoma/análise , Pseudomonas aeruginosa/metabolismo , ADP Ribose Transferases/biossíntese , Toxinas Bacterianas/biossíntese , Contagem de Colônia Microbiana , Exotoxinas/biossíntese , Ferro/metabolismo , Oligopeptídeos/biossíntese , Espectrometria de Massas por Ionização e Dessorção a Laser Assistida por Matriz , Fatores de Virulência/biossíntese , Exotoxina A de Pseudomonas aeruginosa
4.
Expert Rev Med Devices ; 5(5): 605-12, 2008 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-18803471

RESUMO

The replacement of significant lengths of tracheal tissue still remains the unrivalled 'holy grail' of thoracic surgery. As a result of continuous developments and improvements in tracheal surgery throughout the last five decades, most tracheal lesions can now be resected and primary reconstruction effected safely. Today, very few patients present extensive tracheal lesions that necessitate tracheal replacement. The spectrum of tracheal substitutes ranges from autologous tissue flaps and patches to synthetic stents and prostheses to tissue-engineered scaffolding. In this review, the clinical achievements and conceivable developments of applying human allografts and biological and artificial prostheses will be discussed.


Assuntos
Órgãos Bioartificiais , Bioprótese , Transplante de Tecidos , Traqueia/transplante , Humanos
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