Browsing by Author "Rocha, Fernando"
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- Bone mineral: seeking a more efficient approach to produce nano-hydroxyapatitePublication . Veiga, Anabela; Castro, Filipa; Oliveira, Ana L.; Rocha, Fernando
- Continuous production of highly tuned silk/calcium-based composites: exploring new pathways for skin regenerationPublication . Veiga, Anabela; Magalhães, Rui; Duarte, Marta M.; Dias, Juliana R.; Alves, Nuno M.; Costa-Pinto, Ana Rita; Castro, Filipa; Rocha, Fernando; Oliveira, Ana L.Calcium plays an important role in barrier function repair and skin homeostasis. In particular, calcium phosphates (CaPs) are well established materials for biomedical engineering due to their biocompatibility. To generate biomaterials with a more complete set of biological properties, previously discarded silk sericin (SS) has been recovered and used as a template to grow CaPs. Crucial characteristics for skin applications, such as antibacterial activity, can be further enhanced by doping CaPs with cerium (Ce) ions. The effectiveness of cell attachment and growth on the materials highly depends on their morphology, particle size distribution, and chemical composition. These characteristics can be tailored through the application of oscillatory flow technology, which provides precise mixing control of the reaction medium. Thus, in the present work, CaP/SS and CaP/SS/Ce particles were fabricated for the first time using a modular oscillatory flow plate reactor (MOFPR) in a continuous mode. Furthermore, the biological behavior of both these composites and of previously produced pure CaPs was assessed using human dermal fibroblasts (HDFs). It was demonstrated that both CaP based with plate-shaped nanoparticles and CaP-SS-based composites significantly improved cell viability and proliferation over time. The results obtained represent a first step towards the reinvention of CaPs for skin engineering.
- Continuous production of hydroxyapatite/sericin composites: and in vitro validation for skin regenerationPublication . Veiga, Anabela; Magalhaes, Rui; Castro, Filipa; Rocha, Fernando; Oliveira, Ana L.
- Continuous-flow precipitation as a route to prepare highly controlled nanohydroxyapatite: In vitro mineralization and biological evaluationPublication . Castro, Filipa; Ribeiro, Viviana. P.; Ferreira, António; Oliveira, Ana L.; Reis, Rui L.; Teixeira, José A.; Rocha, FernandoThis work reports the biological evaluation of nanosized hydroxyapatite (HAp) previously synthesized by continuous-flow precipitation in a scaled-up meso oscillatory flow reactor (meso-OFR). Physicochemical characterization of the synthesized HApsuggests high surface reactivity namely because of its high specific surface area and low crystallinity. On the other hand, in vitro biomineralization assays demonstrated the apatite-forming activity of the prepared HAp and their higher surface reactivity when compared to a commercial HAp. Furthermore, human osteoblastic-like (Saos-2) cells culture evidenced that the synthesized HAp stimulated cell proliferation, especially when applied at lower concentrations (30 and 50 μg ml−1), although its cellular uptake behavior. Therefore, the prepared HApshows immense potential as biomedical material, as well as drug and gene delivery vehicle. The results are also very promising regarding further scaling up of the process, as the designed methodology allow for the preparation in a continuous mode of nanosized HAp with controlled physico-chemical properties.
- Estudo material das esculturas em gesso de Soares dos ReisPublication . Bordalo, Rui; Vieira, Eduarda; Rocha, Fernando; Carvalho, Salomé; Abreu, José Guilherme; Pereira, Mário
- Fabrication of calcium phosphates with controlled properties using a modular oscillatory flow reactorPublication . Veiga, Anabela; Castro, Filipa; Ferreira, António; Oliveira, Ana L.; Rocha, FernandoSeveral technologies and synthesis routes have been implemented to produce calcium phosphates (CaPs) with distinct characteristics for biomedical applications. However, produce CaPs in a controlled way still represents a challenge. Oscillatory flow reactors (OFRs) are a technology ready to deliver in terms of mixing intensification in multiphase systems. In particular, continuous processes in OFRs improve control over the reaction conditions and can be implemented at an industrial scale. The aim of this work was to study for the first time the influence of the oscillation amplitude (x0: 4, 8 and 18 mm) and frequency (f: 1.9, 4 and 6 Hz) as well as residence time (τ: 3.3, 6.6 min) on the final CaP particles’ physicochemical properties using a continuous precipitation process in a novel modular oscillatory flow plate reactor (MOFPR). Furthermore, other parameters such as the initial reagents concentration, initial Ca/P molar ratio (Ca/P = 1.67, 1.33) and temperature (T = 37, 54 ºC) were also assessed. The synthesized particles and overall process were compared with particles obtained using the same methodology in conventional reactors, evidencing the potential of this technology to fabricate CaPs with tailored properties for potential application as nano or microcarriers for biomedical applications.
- Fabrication of highly tuned calciumphosphate/silk sericin composites: exploring new pathways on skin regenerationPublication . Veiga, Anabela; Magalhães, Rui; Castro, Filipa; Rocha, Fernando; Oliveira, Ana L.
- High efficient strategy for the production of hydroxyapatite/silk sericin nanocompositesPublication . Veiga, Anabela; Castro, Filipa; Oliveira, Ana L.; Rocha, FernandoBACKGROUND: Sericin (SS) induces nucleation of bone-like hydroxyapatite (HAp) when used as an organic matrix. HAp/SS nanocomposites have been conventionally synthesized through precipitation in stirred tank reactors (STs). Despite its simplicity, this process is time consuming and presents difficulties in scale-up. In our study, HAp/SS nanocomposites were successfully synthesized in a ST and in a meso-oscillatory flow reactor (meso-OFR), to compare the efficiency of both reactors and to study HAp mineralization using SS as a template. RESULTS: The production of stable HAp, indicated by pH stabilization, was achieved after 180 min in the ST and after 30 min in the meso-OFR. X-ray diffraction and Fourier transform infrared analyses showed that the particles obtained in both reactors are HAp/SS nanocomposites with low crystallinity. Scanning electron microscopy evidenced the formation of rod- and plateshaped nanoparticles and revealed that the presence of SS led to the production of larger particles. The latter observation was confirmed by laser diffraction. Additionally, increasing SS concentration resulted in the formation of more plate-like particles. CONCLUSIONS: Precipitation is more efficient in the meso-OFR, HAp/SS being obtained four times faster. The presence and concentration of SS led to differences in the size and morphology of the synthesized particles, suggesting a critical role of SS in the mineralization process. This work reports a new approach for the manufacture of high-added-value nanocomposites with similar characteristics to biological bone and the results of a study of the influence of SS as an organic component in HAp nucleation. Further, the use of this protein and technology leads to significant waste minimization.
- Hydroxyapatite/sericin composites: A simple synthesis route under near-physiological conditions of temperature and pH and preliminary study of the effect of sericin on the biomineralization processPublication . Veiga, Anabela; Castro, Filipa; Cunha-Reis, Cassilda; Sousa, Aureliana; Oliveira, Ana; Rocha, FernandoSynthesis of hydroxyapatite (HAp) and sericin (SS) nanocomposites was carried out by a simple precipitation method performed in batch in a stirred tank reactor (ST). The reaction was achieved by mixing a solution of calcium chloride dihydrate, in which SS was dissolved, with a solution of disodium hydrogen phosphate at 37 °C. Three experimental conditions were studied by varying the concentration of SS: HAp, HAp/SS1 (0.01 g/L of SS) and HAp/SS2 (1 g/L of SS). The chemical and physical properties of the resulting HAp/SS nanocomposites were studied using several techniques (Atomic Absorption Spectrometry, Ultraviolet-Visible Spectrophotometry, Fourier Transform Infrared Spectroscopy (FTIR), X-ray diffraction (XRD), Scanning electron microscopy (SEM), Transmission electron microscopy (TEM), Selected area diffraction (SAED) and Thermogravimetric analysis (TGA)). pH profile was also monitored over time for each experimental condition. The results revealed that nano single-phased HAp was formed with both rod and plate-like shape. Additionally, the particles have low crystallinity, characteristic similar to biological HAp. Regarding the influence of SS, one observed that with increasing SS concentration there is an increase in the mean particle size and the number of plate-like particles, as well as an increase in the aggregation degree and a decrease of the crystallinity. Further, the composites obtained have an inorganic/organic composition comparable to bone. Finally, in vitro cytotoxicity showed that the synthetized nanoparticles are non-toxic and cell viability is higher for HAp and HAp/SS samples when compared to a commercially available HAp. The produced materials can thus be considered suitable candidates for bone related applications.
- Modular oscillatory flow reactor as a new technology for the continuous production of customized calcium phosphates for tissue engineeringPublication . Veiga, Anabela; Castro, Filipa; Oliveira, Ana L.; Rocha, Fernando