Your search keyword '"Granjeiro JM"' showing total 316 results

1. The Influence of Nanostructured Hydroxyapatite Surface in the Early Stages of Osseointegration: A Multiparameter Animal Study in Low-Density Bone

Author

Sartoretto SC, Calasans-Maia J, Resende R, Câmara E, Ghiraldini B, Barbosa Bezerra FJ, Granjeiro JM, and Calasans-Maia MD

Subjects

osseointegration, dental implant surface, nanotechnology, hydroxyapatite, sheep, bone response, Medicine (General), R5-920

Abstract

Suelen Cristina Sartoretto,1– 4 Jose Calasans-Maia,5 Rodrigo Resende,2,4,6 Eduardo Câmara,3 Bruna Ghiraldini,7 Fabio Jose Barbosa Bezerra,8 Jose Mauro Granjeiro,4,9 Monica Diuana Calasans-Maia4,6 1Oral Surgery Department, Universidade Veiga de Almeida, Rio de Janeiro, RJ, Brazil; 2Oral Surgery Department, Universidade Iguaçu, Nova Iguaçu, RJ, Brazil; 3Post-Graduation Program in Dentistry, Universidade Veiga de Almeida, Rio de Janeiro, RJ, Brazil; 4Clinical Research Laboratory, Dentistry School, Universidade Federal Fluminense, Niteroi, RJ, Brazil; 5Orthodontics Department, Dentistry School, Universidade Federal Fluminense, Niteroi, RJ, Brazil; 6Oral Surgery Department, Universidade Federal Fluminense, Niteroi, RJ, Brazil; 7Dental Research Division, Dentistry School, Universidade Paulista, São Paulo, SP, Brazil; 8Laboratory of Bioassays and Cell Dynamics, IBB-UNESP, Botucatu, Brazil; 9National Institute of Metrology, Quality and Technology (INMETRO), Duque de Caxias, RJ, BrazilCorrespondence: Monica Diuana Calasans-Maia; Jose Mauro GranjeiroUniversidade Federal Fluminense, Rua Mario Santos Braga, 28/4 Floor, Niteroi, RJ, BrazilTel +55 21 98153-5884Email monicacalasansmaia@gmail.com; jmgranjeiro@gmail.comBackground and Objective: The success rates of dental implants in low-density bone have been reported as a challenge, especially for early or immediate loading in the maxilla posterior area. Nanoscale architecture affects the roughness, surface area, surface energy of the implant and can enhance osseointegration. This study aimed to evaluate the implant-surface topography and biomechanical, histomorphometric, and histological bone responses to a new nanostructured hydroxyapatite surface placed in the iliac crest of sheep.Methods: Ten female sheep (2– 4 years) received 30 implants (n=10/group): HAnano® coated (Epikut Plus®, S.I.N. Implant System, Sao Paulo, SP, Brazil), SLActive (BLX®, Straumann, Basel, Switzerland), and TiUnite (NobelActive®, Nobel Biocare, Göteborg, Sweden) surfaces. Scanning electron microscopy with energy-dispersive spectroscopy evaluated the implant surface topography, the insertion torque value, and resonance frequency analysis evaluated the primary stability, bone-implant contact, and bone-area fraction occupancy were evaluated after 14 and 28 days after implant placement.Results: The surface morphology was considerably comparable between the implant groups’; however, the TiUnite® group presented a remarkable different surface. The SLActive® and TiUnite® groups presented an insertion torque average of 74 (± 8.9) N/cm that was similar to that of HAnano® 72 (± 8.3) N/cm (p > 0.05). The resonance frequency evaluated with Osstell®/SmartPeg® or Penguin®/MulTipeg® showed similar results when assessing implants from the same group. BIC and BAFO significantly increased (p< 0.05) throughout the experimental periods to all groups, but BIC and BAFO values were similar among the implants at the same time point. After 4 weeks, bone-implant contact was higher than 80% of the total length analyzed. New bone occupies around 60% of analyzed area around the implants.Conclusion: HAnano® coated surface promoted comparable osseointegration as SLActive and TiUnite in the sheep model. The three tested surfaces showed comparable osseointegration at the early stages of low-density bone repair in the sheep model.Keywords: osseointegration, dental implant surface, nanotechnology, hydroxyapatite, sheep, bone response

Published

2020

2. Microspheres of alginate encapsulated minocycline-loaded nanocrystalline carbonated hydroxyapatite: therapeutic potential and effects on bone regeneration

Author

Calasans-Maia MD, Barboza Junior CAB, Soriano-Souza CA, Alves ATNN, Uzeda MJ, Martinez-Zelaya VR, Mavropoulos E, Rocha Leão MH, de Santana RB, Granjeiro JM, and Rossi AM

Subjects

Nanomaterials, carbonated hydroxyapatite, minocycline, biocompatibility, bone regeneration, Medicine (General), R5-920

Abstract

Mônica Diuana Calasans-Maia,1 Carlos Alberto Brazil Barboza Junior,2 Carlos Alberto Soriano-Souza,3 Adriana Terezinha Neves Novellino Alves,4 Marcelo Jose de Pinheiro Uzeda,1 Victor R Martinez-Zelaya,3 Elena Mavropoulos,3 Maria Helena Rocha Leão,5 Ronaldo Barcellos de Santana,2 Jose Mauro Granjeiro,1 Alexandre Malta Rossi31Clinical Research in Dentistry Laboratory, School of Dentistry, Federal Fluminense University, Niterói, Rio de Janeiro, Brazil; 2Department of Periodontology, School of Dentistry, Federal Fluminense University, Niterói, Rio de Janeiro, Brazil; 3Department of Condensed Matter, Applied Physics and Nanoscience, Brazilian Center for Research in Physics, Rio de Janeiro, Brazil; 4Department of Stomatology. School of Dentistry, Federal Fluminense University, Niterói, Rio de Janeiro, Brazil; 5Department of Biochemical Engineering, School of Chemistry, Federal University of Rio de Janeiro, Rio de Janeiro, BrazilBackground and objective: Tetracycline and its derivatives, combined with calcium phosphates, have been proposed as a delivery system to control inflammatory processes and chronic infections. The objective of this study was to evaluate the microspheres of alginate encapsulated minocycline-loaded nanocrystalline carbonated hydroxyapatite (CHAMINO) as a biomimetic device to carry out target-controlled drug delivery for alveolar bone repair.Methods: CHAMINO microspheres were implanted in a rat central incisor socket after 7 and 42 days. New bone was formed in both groups between 7 and 42 days of implantation. However, the bone growth was significantly higher for the CHAMINO microspheres.Results: The minocycline (MINO) loading capacity of the nanocrystaline carbonated hydroxyapatite (CHA) nanoparticles was 25.1±2.2 μg MINO/mg CHA for adsorption over 24 hrs. The alginate microspheres containing minocycline-loaded CHA were biologically active and inhibited the Enterococcus faecalis culture growth for up to seven days of the MINO release. An osteoblastic cell viability assay based on the resazurin reduction was conducted after the cells were exposed to the CHAMINO powder and CHAMINO microspheres. Thus, it was found that the alginate extracts encapsulated the minocycline-loaded CHA microspheres and did not affect the osteoblastic cell viability, while the minocycline-doped CHA powder reduced the cell viability by 90%.Conclusion: This study concluded that the alginate microspheres encapsulating the minocycline-loaded nanocrystalline carbonated hydroxyapatite exhibited combined antibacterial activity against Enterococcus faecalis with cytocompatibility and osteoconduction properties. The significant improvement in the new bone formation after 42 days of implantation suggests that the CHAMINO microsphere has potential in clinical applications of bone regeneration.Keywords: nanomaterials, carbonated hydroxyapatite, minocycline, biocompatibility, bone regeneration

Published

2019

3. In vitro and in vivo evaluations of nanocrystalline Zn-doped carbonated hydroxyapatite/alginate microspheres: zinc and calcium bioavailability and bone regeneration

Author

Martinez-Zelaya VR, Zarranz L, Herrera EZ, Alves AT, Uzeda MJ, Mavropoulos E, Rossi AL, Mello A, Granjeiro JM, Calasans-Maia MD, and Rossi AM

Subjects

Zinc-doped carbonated hydroxyapatite, nanocomposite, Synchrotron radiation-based X-ray microfluorescence, Zinc/Calcium bioavailability, Bone regeneration, Medicine (General), R5-920

Abstract

Victor R Martinez-Zelaya,1 Laila Zarranz,2 Edher Z Herrera,1 Adriana T Alves,2 Marcelo José Uzeda,2 Elena Mavropoulos,1 André L Rossi,1 Alexandre Mello,1 José M Granjeiro,2,3 Monica D Calasans-Maia,2 Alexandre M Rossi11Department of Condensed Matter, Applied Physics and Nanoscience, Brazilian Center for Research in Physics, Rio de Janeiro, RJ, Brazil; 2Dental Clinical Research Center, Oral Diagnosis Department and Oral Surgery Department, Dentistry School, Fluminense Federal University, Niteroi, RJ, Brazil; 3National Institute of Metrology, Quality and Technology, Duque de Caxias, RJ, BrazilBackground: Zinc-doped hydroxyapatite has been proposed as a graft biomaterial for bone regeneration. However, the effect of zinc on osteoconductivity is still controversial, since the release and resorption of calcium, phosphorus, and zinc in graft-implanted defects have rarely been studied.Methods: Microspheres containing alginate and either non-doped carbonated hydroxyapatite (cHA) or nanocrystalline 3.2 wt% zinc-doped cHA (Zn-cHA) were implanted in critical-sized calvarial defects in Wistar rats for 1, 3, and 6 months. Histological and histomorphometric analyses were performed to evaluate the volume density of newly formed bone, residual biomaterial, and connective tissue formation. Biomaterial degradation was characterized by transmission electron microscopy (TEM) and synchrotron radiation-based X-ray microfluorescence (SR-μXRF), which enabled the elemental mapping of calcium, phosphorus, and zinc on the microsphere-implanted defects at 6 months post-implantation.Results: The bone repair was limited to regions close to the preexistent bone, whereas connective tissue occupied the major part of the defect. Moreover, no significant difference in the amount of new bone formed was found between the two microsphere groups. TEM analysis revealed the degradation of the outer microsphere surface with detachment of the nanoparticle aggregates. According to SR-μXRF, both types of microspheres released high amounts of calcium, phosphorus, and zinc, distributed throughout the defective region. The cHA microsphere surface strongly adsorbed the zinc from organic constituents of the biological fluid, and phosphorus was resorbed more quickly than calcium. In the Zn-cHA group, zinc and calcium had similar release profiles, indicating a stoichiometric dissolution of these elements and non-preferential zinc resorption.Conclusions: The nanometric size of cHA and Zn-cHA was a decisive factor in accelerating the in vivo availability of calcium and zinc. The high calcium and zinc accumulation in the defect, which was not cleared by the biological medium, played a critical role in inhibiting osteoconduction and thus impairing bone repair.Keywords: zinc-doped carbonated hydroxyapatite, nanocomposite, synchrotron radiation-based X-ray microfluorescence, zinc/calcium bioavailability, bone regeneration

Published

2019

4. Healing of critical-size cranial defects in guinea pigs using a bovine bone-derived resorbable membrane.

Author

Taga MLL, Granjeiro JM, Cestari TM, and Taga R

Abstract

PURPOSE: To investigate the healing of critical-size cranial bone defects (9-mm-diameter) in guinea pigs treated with a bovine bone-derived resorbable membrane. MATERIALS AND METHODS: A sample of 42 guinea pigs was divided into test (n = 20), control (n = 20), and standard (n = 2) groups. A full-thickness trephine defect was made in the fronto-parietal bone of each animal. In the test group, the internal and external openings of the defect were each closed with a separate membrane, and the space between them was filled with blood clot and a central spacer. In the control group, the defect was filled only with the blood clot and spacer. At 1, 3, 6, and 9 months later, the calvarias (5 per period) for both the test and control groups were collected, fixed, radiographed, and histologically processed. The standard-group animals were sacrificed immediately after surgery and used to determine the initial size of defect radiographically. The areas of defects in the radiographs were measured with image-analysis software and were compared between groups and periods by multiple regression analysis with the Bonferroni correction. RESULTS: At 1 and 3 months, newly formed woven bone was histologically observed in both test and control groups. Radiographically, this new bone occupied an average of 32% of the defect area at 1 month and 60% at 3 months in the test group. In the control group, 21% of the defect was filled at 1 month and 39% at 3 months. However, the differences between treatments were not statistically significant (P > .05). At 6 and 9 months, a significant increase in newly formed lamellar bone was seen histologically in both groups. Radiographically, for the test group, the new bone occupied an average of 82% of the defect area at 6 months and 96% at 9 months. For the control group, new bone composed an average of 45% of the defect area at 6 months and 40% at 9 months. The differences between the test and control groups were statistically significant at 6 and 9 months (P < .05). Complete or almost complete filling of the defect was observed in several cases. CONCLUSION: It was concluded that the bovine bone-derived membrane is highly biocompatible and is able to promote good healing of critical-size defects in calvaria of guinea pig. [ABSTRACT FROM AUTHOR]

Published

2008

5. Cell therapy of pseudarthrosis

Author

Bastos Filho, R, Lermontov, S, Borojevic, R, Schott, PC, Gameiro, VS, and Granjeiro, JM

Subjects

musculoskeletal diseases, NONUNIONS, Bone marrow cells, Science & Technology, SYSTEM SEPAX, Tibia, 1103 Clinical Sciences, Fracture healing, Stem cells, musculoskeletal system, FRACTURE, Pseudarthrosis, Orthopedics, CREST BONE-GRAFT, Original Article, Femur, MORPHOGENETIC PROTEINS, Life Sciences & Biomedicine, 1199 Other Medical and Health Sciences

Abstract

Objective To assess the safety and efficiency of cell therapy for pseudarthrosis. Implant of the bone marrow aspirate was compared to mononuclear cells purified extemporaneously using the Sepax® equipment. Methods Six patients with nonunion of the tibia or femur were treated. Four received a percutaneous infusion of autologous bone marrow aspirated from the iliac crest, and two received autologous bone marrow mononuclear cells separated from the aspirate with the Sepax®. The primary fixation method was unchanged, and the nonunion focus was not exposed. Physical examination and radiographies were performed 2, 4 and 6 months after the treatment by the same physician. After consolidation of the fracture the satisfaction of the patients was estimated using the adapted QALY scale. Results No complications occurred as a result of the referred procedures. Bone consolidation was obtained in all cases within 3 to 24 weeks. The degree of patient satisfaction before and after bone consolidation was assessed, with the average value increasing from two to nine (p=0.0156). Conclusion We conclude that the proposed method is effective and safe for the treatment of nonunion of long bones regardless of the stabilization method used. Level of Evidence II, Prospective Comparative Study

Published

2012

6. TNF α contributes for attenuating both Y397 FAK and Y416 Src phosphorylations in osteoblasts.

Author

Cavagis, ADM, Takamori, ER, Granjeiro, JM, Oliveira, RC, Ferreira, CV, Peppelenbosch, MP, and Zambuzzi, WF

Subjects

BONE metabolism, ANIMAL experimentation, ENZYME-linked immunosorbent assay, IMMUNOGLOBULINS, RESEARCH methodology, MICE, RESEARCH funding, T-test (Statistics), TISSUE culture, TUMOR necrosis factors, DATA analysis software, DESCRIPTIVE statistics, IN vitro studies

Abstract

Objective Our poor understanding of how inflammatory mediators can affect osteoblast behavior led us to investigate the tumor necrosis factor ( TNF) α-induced focal adhesion kinase ( FAK) and Src phosphorylation. Material and Methods MC3T3-E1 pre-osteoblast cells were harvested at specific time points after either TNF α treatment or RAW267 stimulated conditioned medium, and thereafter cell extracts were prepared for Immunoblotting assay. ELISA detected TNF α content at conditioned medium. Tumor necrosis factor- α-neutralizing antibodies also were used. Results It was possible to show that TNF α provokes attenuation at Y-phosphorylation of both FAK (at Y397) and Src (at Y416) proteins ( P < 0.05), suggesting a decrease in their activities. The very similar profile was observed when osteoblasts were incubated with conditioned medium from lipopolysaccharide ( LPS)-stimulated macrophages, it being significantly different than control ( FAK and Src, P < 0.05). Nevertheless, in order to validate these findings, we decided to pre-incubate osteoblasts with anti- TNF α neutralizing antibody (2 μg ml−1) prior exposing to conditioned medium. Importantly, our results revealed that there was a diminution on those conditioned medium effects when the same biological parameters were evaluated ( P < 0.05). Moreover, we also showed that TNF α impairs osteoblast adhesion, suggesting an interesting role on osteoblast performance. Conclusions Altogether, these results suggest that LPS-stimulated macrophage mediators attenuate both FAK and Src activations in osteoblast, suggesting a novel role for TNF α on osteoblast performance. [ABSTRACT FROM AUTHOR]

Published

2014

7. In vitro toxicity of MTA compared with other primary teeth pulpotomy agents.

Author

de Menezes JV, Takamori ER, Bijella MF, Granjeiro JM, de Menezes, José Vitor Nogara Borges, Takamori, Esther Rieko, Bijella, Maria Francisca Thereza Borro, and Granjeiro, José Mauro

Published

2009

8. Expression of metalloproteinases and their tissue inhibitors in inflamed gingival biopsies.

Author

Gonçalves LDR, Oliveira G, Hurtado PA, Feitosa A, Takiya CM, Granjeiro JM, Trackman PC, Otazú I, and Feres-Filho EJ

Abstract

Objectives: Matrix metalloproteinases (MMPs) and their tissue inhibitors (TIMPs) are known to be involved in the periodontal disease process. Results of in vivo MMPs and TIMPs gene expressions in the gingiva, though, are still controversial. In the present study, we compared the gene expression of MMP-1, -2, -9, -13 and TIMP-1, -2 in healthy and inflamed gingiva. Methods: 38 gingival samples were collected from gingivitis (n = 10), advanced chronic periodontitis (n = 10), generalized aggressive periodontitis (n = 8) and periodontally healthy individuals (n = 10). Total RNA isolated from those samples was subjected to reverse transcription followed by amplification by polymerase chain reaction (RT-PCR). Products were visualized in agarose gels and quantified by optical densitometry. Samples were also processed for gelatin zymography and Western blotting for MMP-2 and MMP-9 in order to assess for post-transcriptional MMP regulation at the protein level. Results: The frequencies and levels of transcripts encoding MMPs and TIMPs were found to be not significantly different among groups (p > 0.05, Fisher\'02s Exact and Kruskall-Wallis tests). There is a trend towards higher MMP-2 and -9 gelatinase activities in the inflamed samples, although not statistically significant. In contrast, zymography and Western blotting studies show that MMP-2 is virtually absent in the chronic periodontitis group. Conclusion: These results could reflect a complex regulation of MMPs and TIMPs' gene expression in the course of gingival inflammation. They also reveal a great biological diversity even among individuals with similar periodontal status. [ABSTRACT FROM AUTHOR]

Published

2008

9. Receptor activator NFkappaB-ligand and osteoprotegerin protein expression in human periapical cysts and granulomas.

Author

Menezes R, Bramante CM, Paiva KBS, Letra A, Carneiro E, Zambuzzi WF, and Granjeiro JM

Abstract

OBJECTIVE: The purpose of this study was to determine the expression of receptor activator of NFkappaB ligand (RANKL) and osteoprotegerin (OPG) associated with bone destruction in periapical cysts and granulomas. STUDY DESIGN: Forty human dental chronic periapical lesions were collected after periapical surgery. The lesions collected were fixed in 10% buffered formalin and histologically processed. At least 2 sections of each specimen were stained with hematoxylin and eosin for microscopic diagnosis. After that, 10 human periapical granulomas and 10 cysts were selected for immunohistochemical analysis for RANKL, OPG, and CD68+. RESULTS: Polymorphonuclear neutrophils, macrophages, endothelial cells, and lymphocytes were stained for RANKL and OPG in both lesions. Epithelial cells were also stained for RANKL and OPG in periapical cysts. Quantitative analysis was conducted and the results were expressed as a ratio of the number of immunostained cells over the total number of cells in the field (n = 100). The ratio of RANKL+/total cells was higher than OPG+/total cells in periapical granulomas (0.553 +/- 0.153 and 0.483 +/- 0.189, respectively; P < .0012; paired t test) and in cysts (0.519 +/- 0.09 and 0.339 +/- 0.117, respectively; P < .0001; paired t test). The ratios of OPG+/total cells (P < .0001; paired t test) and RANKL+/total cells (P < .0322; paired t test) were greater in granulomas than in cysts. However, the ratio RANKL+/OPG+ in granulomas (1.336 +/- 0.723) and cysts (1.404 +/- 0.385) was not significantly different. The ratio of CD68+/total cells was significantly higher in granulomas (0.381 +/- 0.040) than in cysts (0.307 +/- 0.068) (P < .0001; unpaired t test with Welch correction). CONCLUSION: Taking into account the limitations of the experimental approach employed, our findings indicate the presence of RANKL and OPG in cysts and granulomas, strongly suggesting the involvement of these gene products in the development of periapical lesions. [ABSTRACT FROM AUTHOR]

Published

2006

10. Fluoride content of infant formulas prepared with deionized, bottled mineral and fluoridated drinking water.

Author

Rabelo Buzalaf MA, Granjeiro JM, Damante CA, and de Ornelas F

Published

2001

11. Intraoral features of Apert's syndrome.

Author

Letra A, de Almeida AL, Kaizer R, Esper LA, Sgarbosa S, and Granjeiro JM

Abstract

OBJECTIVE: To evaluate the intraoral features of patients with Apert's syndrome in treatment at the Hospital of Rehabilitation and Craniofacial Anomalies of University of Sao Paulo (HRAC-USP), a national reference center for treatment of craniofacial anomalies in Brazil. STUDY DESIGN: In this retrospective study, of 56,000 patients registered at HRAC-USP, 36 patients were diagnosed with Apert's syndrome and were either examined or had their medical files evaluated, aiming to characterize lip posture, mouth shape, maxillary hypoplasia, palatal morphology, dental anomalies, and malocclusion. RESULTS: Most patients were characterized as mouth breathers for presenting with hypotonic lips and trapezoidal-shaped mouths. Other frequent findings were the presence of highly arched palates and hypoplastic maxilla, with gingival lateral swellings that increased in size with age. Crowding of teeth and malocclusion were commonly observed, and cases of hypodontia were frequent. Contrary to previous studies demonstrating a high incidence of cleft soft palate, in this study only 1 of 23 patients presented a true cleft. CONCLUSIONS: The intraoral features of patients with Apert's syndrome in the population studied match most of the findings in other populations. However, the occurrence of cleft soft palate was unexpectedly low and morphologically normal teeth were found. In addition, hypodontia was frequently observed. Variations in frequency of observations of some characteristics might be related to differences in sample size or population. [ABSTRACT FROM AUTHOR]

Published

2007

12. OSTEOGENIC POTENTIAL OF NANOSTRUCTURED CARBONATED HYDROXIAPATITE MICROSPHERES ASSOCIATED WITH MESENCHYMAL STEM CELL IN VITRO AND IN VIVO.

Author

Lemos, VPA, Rossi, AM, Granjeiro, JM, Calasans-Maia, MD, Sartoretto, SC, Sesterheim, P, Boeckel, DG, Grivicich, I, and Camassola, M

Subjects

*MESENCHYMAL stem cells, *BONE regeneration, *BONE marrow cells, *ALKALINE phosphatase, *BONE injuries, *MICROSPHERES

Abstract

Bone tissue is capable of self-healing in the event of injuries. However, situations such as the patient's age or size of the damage can compromise natural healing, bringing to the fore the need for interventions to treat bone injuries. Tissue engineering presents treatment alternatives involving the use of cells and associated biomaterials. In this context, studies using biomaterials claim that carbonated hydroxyapatite (CHA) is more resorbable than hydroxyapatite (HA) and has biological similarity to bone hydroxyapatite. Parameters of indirect contact (cytotoxicity, proliferation, and migration) of the extract obtained from spheres of carbonated hydroxyapatite associated with murine bone marrow stem cells (BMSCs) in vitro were evaluated. Then the osteogenic potential of CHA extract in murine BMSCs in vitro was assessed by quantification of calcium matrix, alkaline phosphatase levels and gene expression Col1A1 and Bglap. Non-critical size bone defects were performed in rat femur. After 14 days of healing, bone blocks were obtained for analysis from treated animals and compared to non-treated animals by histological and histomorphometric evaluation. The CHA extract showed osteoinductive properties in vitro without the need to add osteogenic inducing medium. The ability to induce osteogenic differentiation in undifferentiated cells was confirmed by increased activity of alkaline phosphatase, formation of mineralized nodules and increased expression of the Col1A1 and Bglap genes after 7 and 14 days of differentiation. All groups presented bone neoformation at the injury site 14 days after the operation. Histomorphometric analysis showed no statistical difference between groups in the parameters of bone formation, biomaterial and connective tissue. The CHA spheres have in vitro osteoinductive properties and, when loaded with murine BMSCs, have the potential for bone repair and regeneration in vivo, presenting biocompatibility and osteoconductive, making it a promising alternative for bone tissue engineering applications. [ABSTRACT FROM AUTHOR]

Published

2021

13. Risk of fluorosis associated with infant formulas prepared with bottled water.

Author

Buzalaf MAR, Damante CA, Trevizani LMM, and Granjeiro JM

Published

2004

14. A multimodal in vitro approach to assess the safety of oral care products using 2D and 3D cellular models.

Author

Leano SM, De Souza W, De Vecchi R, Lopes A, Deliberador T, and Granjeiro JM

Abstract

Introduction: Periodontitis, affecting approximately 3.9 billion individuals globally, significantly impacts quality of life and has raised interest in its potential systemic effects. Sodium perborate, a common component in oral care products for biofilm control, is widely used, though concerns about its safety persist. This study aimed to evaluate the in vitro toxicity of six commercial oral care products and varying concentrations of sodium perborate, utilizing human gingival fibroblasts (HGF) and keratinocytes (HaCat) as cell models., Methods: Experiments were performed in both 2D monolayer and 3D cultures using MTT and electrical impedance assays, adhering to the manufacturer's recommended exposure time of 30-60 s for product testing. For the reconstructed epidermis model, a prolonged exposure time of 42 min was applied, following the Organization for Economic Cooperation and Development (OECD) Test Guideline 439., Results: Results indicated that all products and sodium perborate at 1 mg/mL were cytotoxic in monolayer cultures. However, at concentrations relevant to commercial formulations (0.06 mg/mL sodium perborate), no significant toxicity was observed. In contrast, the 3D culture models, including spheroids and reconstructed epidermis, exhibited minimal to no cytotoxic effects for the commercial products, with sodium perborate showing no significant toxicity below 0.1 mg/mL. The reconstructed epidermis model, used as surrogate for oral mucosa, further confirmed that the products were non-irritating, in compliance with OECD TG 439 standards., Discussion: This study highlights the importance of considering exposure time, dosage, and cellular model when assessing the safety of oral care products. While 2D models are useful for preliminary screenings, 3D models provide a more physiologically relevant assessment, emphasizing the need for robust testing protocols to ensure product safety., Competing Interests: Author RD was employed by the company Episkin. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Leano, De Souza, De Vecchi, Lopes, Deliberador and Granjeiro.)

Published

2024

15. Bioengineering breakthroughs: The impact of stem cell models on advanced therapy medicinal product development.

Author

Granjeiro JM, Borchio PGM, Ribeiro IPB, and Paiva KBS

Abstract

The burgeoning field of bioengineering has witnessed significant strides due to the advent of stem cell models, particularly in their application in advanced therapy medicinal products (ATMPs). In this review, we examine the multifaceted impact of these developments, emphasizing the potential of stem cell models to enhance the sophistication of ATMPs and to offer alternatives to animal testing. Stem cell-derived tissues are particularly promising because they can reshape the preclinical landscape by providing more physiologically relevant and ethically sound platforms for drug screening and disease modelling. We also discuss the critical challenges of reproducibility and accuracy in measurements to ensure the integrity and utility of stem cell models in research and application. Moreover, this review highlights the imperative of stem cell models to align with regulatory standards, ensuring using stem cells in ATMPs translates into safe and effective clinical therapies. With regulatory approval serving as a gateway to clinical adoption, the collaborative efforts between scientists and regulators are vital for the progression of stem cell applications from bench to bedside. We advocate for a balanced approach that nurtures innovation within the framework of rigorous validation and regulatory compliance, ensuring that stem cell-base solutions are maximized to promote public trust and patient health in ATMPs., Competing Interests: Conflict-of-interest statement: All the authors report no relevant conflicts of interest for this article., (©The Author(s) 2024. Published by Baishideng Publishing Group Inc. All rights reserved.)

Published

2024

16. Three-dimensional changes in the mandibular condyle in skeletal class III patients treated with orthognathic surgery: a systematic review.

Author

Kalluf GH, Tatim T, Sell P, Takeshita K, Romanini É, Granjeiro JM, and Andrighetto AR

Abstract

This systematic review aimed to evaluate the available evidence on the incidence and quantification of 3-dimensional changes in mandibular condyles after orthognathic surgery by bilateral sagittal split osteotomy (BSSO), with or without maxillary surgery, in class III symmetrical or asymmetrical individuals. The databases PubMed, Lilacs, Web of Science, Embase, SciELO, Scopus, EBSCO, Cochrane, and Google Scholar were surveyed and the study was registered on the PROSPERO (CRD42022383594). The selected studies met the criteria established by the PICO model: 1: Population - individuals over 18 years of age with class III dentofacial skeletal deformities; 2: Intervention - orthognathic surgery using BSSO; 3: Comparison - condylar tomographic measurements (volume, thickness, height, and width) prior to the surgical procedure; and 4: Results - condylar tomographic measurements (volume, thickness, height, and width) at least 12 months after surgery. Initially, 800 articles were identified. After excluding 694 duplicates and screening 153, nine studies met the inclusion criteria for data extraction and analysis. Six evaluated class III symmetrical individuals, and three assessed those with mandibular asymmetry. A total of 233 patients (92 males and 141 females) were studied. Analysis of 466 condyles revealed minimal bone remodelling, with resorption averaging from -0.03 to -0.94 mm and apposition from 0.01 to 0.34 mm. Data analysis showed minimal changes in condylar morphology post BSSO with or without maxillary surgery, indicating predictable skeletal stability. Bias (ACROBAT-NRSI guidelines) did not affect data reliability, and no occlusal changes were observed. The main limitations of the study were heterogeneous imaging techniques, varied study designs, diverse populations, and inconsistent protocols. Further trials with standardised cone-beam computed tomography are needed to enhance remodelling and volume measurement reliability. This research received no specific grant from funding agencies in the public, commercial, or not-for-profit sectors., (Copyright © 2024 The British Association of Oral and Maxillofacial Surgeons. Published by Elsevier Ltd. All rights reserved.)

Published

2024

17. Exploring the biofilm inhibitory potential of Candida sp. UFSJ7A glycolipid on siliconized latex catheters.

Author

Bastos CG, Livio DF, de Oliveira MA, Meira HGR, Tarabal VS, Colares HC, Parreira AG, Chagas RCR, Speziali MG, da Silva JA, Granjeiro JM, Millán RDS, Gonçalves DB, and Granjeiro PA

Subjects

Latex chemistry, Latex pharmacology, Escherichia coli drug effects, Enterococcus faecalis drug effects, Enterococcus faecalis physiology, Candida albicans drug effects, Candida albicans physiology, Glycolipids pharmacology, Glycolipids chemistry, Biofilms drug effects, Biofilms growth & development, Surface-Active Agents pharmacology, Surface-Active Agents chemistry, Candida drug effects, Candida physiology, Catheters microbiology

Abstract

Biosurfactants, sustainable alternatives to petrochemical surfactants, are gaining attention for their potential in medical applications. This study focuses on producing, purifying, and characterizing a glycolipid biosurfactant from Candida sp. UFSJ7A, particularly for its application in biofilm prevention on siliconized latex catheter surfaces. The glycolipid was extracted and characterized, revealing a critical micellar concentration (CMC) of 0.98 mg/mL, indicating its efficiency at low concentrations. Its composition, confirmed through Fourier transform infrared spectroscopy (FT-IR) and thin layer chromatography (TLC), identified it as an anionic biosurfactant with a significant ionic charge of -14.8 mV. This anionic nature contributes to its biofilm prevention capabilities. The glycolipid showed a high emulsification index (E 24 ) for toluene, gasoline, and soy oil and maintained stability under various pH and temperature conditions. Notably, its anti-adhesion activity against biofilms formed by Escherichia coli, Enterococcus faecalis, and Candida albicans was substantial. When siliconized latex catheter surfaces were preconditioned with 2 mg/mL of the glycolipid, biofilm formation was reduced by up to 97% for E. coli and C. albicans and 57% for E. faecalis. These results are particularly significant when compared to the efficacy of conventional surfactants like SDS, especially for E. coli and C. albicans. This study highlights glycolipids' potential as a biotechnological tool in reducing biofilm-associated infections on medical devices, demonstrating their promising applicability in healthcare settings., (© 2024. The Author(s) under exclusive licence to Sociedade Brasileira de Microbiologia.)

Published

2024

18. Osteoblasts-derived exosomes as potential novel communicators in particle-induced periprosthetic osteolysis.

Author

de Souza W, Gemini-Piperni S, Ruivo C, Bastos N, Almeida S, Lopes D, Cardoso P, Oliveira MJ, Sumner DR, Ross RD, Jacobs JJ, Granjeiro JM, Fernandes MH, Rocha LA, Melo S, and Ribeiro AR

Abstract

The inflammatory response to wear particles derived from hip prothesis is considered a hallmark of periprosthetic osteolysis, which can ultimately lead to the need for revision surgery. Exosomes (Exos) have been associated with various bone pathologies, and there is increasing recognition in the literature that they actively transport molecules throughout the body. The role of wear particles in osteoblast-derived Exos is unknown, and the potential contribution of Exos to osteoimmune communication and periprosthetic osteolysis niche is still in its infancy. Given this, we investigate how titanium dioxide nanoparticles (TiO 2 NPs), similar in size and composition to prosthetic wear particles, affect Exos biogenesis. Two osteoblastic cell models commonly used to study the response of osteoblasts to wear particles were selected as a proof of concept. The contribution of Exos to periprosthetic osteolysis was assessed by functional assays in which primary human macrophages were stimulated with bone-derived Exos. We demonstrated that TiO 2 NPs enter multivesicular bodies, the nascent of Exos, altering osteoblast-derived Exos secretion and molecular cargo. No significant differences were observed in Exos morphology and size. However, functional assays reveal that Exos cargo enriched in uPA stimulates macrophages to a mixed M1 and M2 phenotype, inducing the release of pro- and anti-inflammatory signals characteristic of periprosthetic osteolysis. In addition, we demonstrated the expression of uPA in exosomes derived from the urine of patients with osteolysis. These results suggest that uPA can be a potential biomarker of osteolysis. In the future, uPa may serve as a possible non-invasive biomarker to identify patients at risk for peri-implant osteolysis., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024

19. Production and characterization of the lipopeptide with anti-adhesion for oral biofilm on the surface of titanium for dental implants.

Author

Carvalho FS, Tarabal VS, Livio DF, Cruz LF, Monteiro APF, Parreira AG, Guimarães PPG, Scheuerman K, Chagas RCR, da Silva JA, Gonçalves DB, Granjeiro JM, Sinisterra RD, Segura MEC, and Granjeiro PA

Subjects

Humans, Anti-Bacterial Agents pharmacology, Staphylococcus aureus drug effects, Staphylococcus aureus physiology, Bacillus subtilis drug effects, Porphyromonas gingivalis drug effects, Porphyromonas gingivalis physiology, Porphyromonas gingivalis growth & development, Aggregatibacter actinomycetemcomitans drug effects, Surface Properties, Fibroblasts drug effects, Fusobacterium nucleatum drug effects, Cell Survival drug effects, Osteoblasts drug effects, Surface-Active Agents pharmacology, Titanium pharmacology, Titanium chemistry, Biofilms drug effects, Biofilms growth & development, Bacterial Adhesion drug effects, Dental Implants microbiology, Lipopeptides pharmacology, Microbial Sensitivity Tests

Abstract

Titanium implants are subject to bacterial adhesion and peri-implantitis induction, and biosurfactants bring a new alternative to the fight against infections. This work aimed to produce and characterize the biosurfactant from Bacillus subtilis ATCC 19,659, its anti-adhesion and antimicrobial activity, and cell viability. Anti-adhesion studies were carried out against Streptococcus sanguinis, Staphylococcus aureus, Fusobacterium nucleatum, Aggregatibacter actinomycetemcomitans, Porphyromonas gingivalis, and Proteus mirabilis as the minimum inhibitory concentration and the minimum bactericidal concentration. Cell viability was measured against osteoblast and fibroblast cells. The biosurfactant was classified as lipopeptide, with critical micelle concentration at 40 µg mL - 1 , and made the titanium surface less hydrophobic. The anti-adhesion effect was observed for Staphylococcus aureus and Streptococcus sanguinis with 54% growth inhibition and presented a minimum inhibitory concentration of 15.7 µg mL - 1 for Streptococcus sanguinis and Aggregatibacter actinomycetemcomitans. The lipopeptide had no cytotoxic effect and demonstrated high potential application against bacterial biofilms., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

20. Accuracy of artificial intelligence in implant dentistry: A scoping review with systematic evidence mapping.

Author

Moraschini V, de Almeida DCF, Louro RS, de Oliveira Silva AM, Neto MPC, Dos Santos GO, and Granjeiro JM

Abstract

Statement of Problem: The use of artificial intelligence (AI) in dentistry has grown. However, the accuracy of clinical applications in implant dentistry is still unclear., Purpose: The purpose of this scoping review with systematic evidence mapping was to identify and describe the available evidence on the accuracy and clinical applications of AI in implant dentistry., Material and Methods: An electronic search was performed in 4 databases and nonpeer-reviewed literature for articles published up to November 2023. The eligibility criteria comprised observational and interventional studies correlating AI and implant dentistry. A bibliographic mapping and quality analysis of the included studies was conducted. Additionally, the accuracy rates of each AI model were evaluated., Results: Twenty-six studies met the inclusion criteria. A significant increase in evidence has been observed in recent years. The most commonly found applications of AI in implant dentistry were for the recognition of implant systems followed by surgical implant planning. The performance of AI models was generally high (mean of 88.7%), with marginal bone loss (MBL) prediction models being the most accurate (mean of 93%). Regarding the place of publication, the Asian continent represented the highest number of studies, followed by the European and South American continents., Conclusions: Evidence involving AI and implant dentistry has grown in the last decade. Although still under development, all AI models evaluated demonstrated high accuracy and clinical applicability. Further studies evaluating the clinical efficacy of AI models in implant dentistry are essential., (Copyright © 2024 Editorial Council for The Journal of Prosthetic Dentistry. Published by Elsevier Inc. All rights reserved.)

Published

2024

21. Cost-effective 3D lung tissue spheroid as a model for SARS-CoV-2 infection and drug screening.

Author

Miranda GASC, Corrêa IA, Amorim ÉA, Caldas LA, Carneiro FÁ, da Costa LJ, Granjeiro JM, Tanuri A, de Souza W, and Baptista LS

Subjects

Humans, COVID-19 Drug Treatment, Antiviral Agents pharmacology, Antiviral Agents therapeutic use, Coculture Techniques, Cytokines metabolism, Cost-Benefit Analysis, Epithelial Cells virology, Spheroids, Cellular virology, COVID-19 virology, SARS-CoV-2 physiology, Lung virology, Lung pathology, Drug Evaluation, Preclinical

Abstract

Background: The SARS-CoV-2 pandemic has spurred an unparalleled scientific endeavor to elucidate the virus' structure, infection mechanisms, and pathogenesis. Two-dimensional culture systems have been instrumental in shedding light on numerous aspects of COVID-19. However, these in vitro systems lack the physiological complexity to comprehend the infection process and explore treatment options. Three-dimensional (3D) models have been proposed to fill the gap between 2D cultures and in vivo studies. Specifically, spheroids, composed of lung cell types, have been suggested for studying SARS-CoV-2 infection and serving as a drug screening platform., Methods: 3D lung spheroids were prepared by coculturing human alveolar or bronchial epithelial cells with human lung stromal cells. The morphology, size, and ultrastructure of spheroids before and after SARS-CoV-2 infection were analyzed using optical and electron microscopy. Immunohistochemistry was used to detect spike protein and, thus, the virus presence in the spheroids. Multiplex analysis elucidated the cytokine release after virus infection., Results: The spheroids were stable and kept their size and morphology after SARS-CoV-2 infection despite the presence of multivesicular bodies, endoplasmic reticulum rearrangement, tubular compartment-enclosed vesicles, and the accumulation of viral particles. The spheroid responded to the infection releasing IL-6 and IL-8 cytokines., Conclusion: This study demonstrates that coculture spheroids of epithelial and stromal cells can serve as a cost-effective infection model for the SARS-CoV-2 virus. We suggest using this 3D spheroid as a drug screening platform to explore new treatments related to the cytokines released during virus infection, especially for long COVID treatment., (© 2024 International Center for Artificial Organ and Transplantation (ICAOT) and Wiley Periodicals LLC.)

Published

2024

22. Bioprinting Using Organ Building Blocks: Spheroids, Organoids, and Assembloids.

Author

Baptista LS, Mironov V, Koudan E, Amorim ÉA, Pampolha TP, Kasyanov V, Kovalev A, Senatov F, and Granjeiro JM

Subjects

Humans, Animals, Printing, Three-Dimensional, Tissue Scaffolds chemistry, Bioprinting methods, Organoids cytology, Organoids metabolism, Spheroids, Cellular cytology, Spheroids, Cellular metabolism, Tissue Engineering methods

Abstract

Three-dimensional (3D) bioprinting, a promising advancement in tissue engineering technology, involves the robotic, layer-by-layer additive biofabrication of functional 3D tissue and organ constructs. This process utilizes biomaterials, typically hydrogels and living cells, following digital models. Traditional tissue engineering uses a classic triad of living cells, scaffolds, and physicochemical signals in bioreactors. A scaffold is a temporary, often biodegradable, support structure. Tissue engineering primarily falls into two categories: (i) scaffold based and (ii) scaffold free. The latter, scaffold-free 3D bioprinting, is gaining increasing popularity. Organ building blocks (OBB), capable of self-assembly and self-organization, such as tissue spheroids, organoids, and assembloids, have begun to be utilized in scaffold-free bioprinting. This article discusses the expanding range of OBB, presents the rapidly evolving collection of bioprinting and bioassembly methods using these OBB, and finally, outlines the advantages, challenges, and future perspectives of using OBB in organ printing.

Published

2024

23. Brazilian National Network of Alternative Methods (RENAMA) 10th Anniversary: Meeting of the Associated Laboratories, May 2022.

Author

Ivan de Ávila R, Fentem J, Villela I, Somlo D, Fusco Almeida AM, Mendes-Giannini MJS, Di Pietro Micali Canavez A, Bosquetti B, Catarino CM, Schuck DC, Valadares BN, Facchini G, Marigliani B, Migliorini Figueira AC, Hickson R, Leme DM, Tagliati C, de Souza LCR, Maria Engler SS, Gaspar Cordeiro LR, Koepp J, Granjeiro JM, de Mello Brandao H, Munk M, Antunes de Mattos K, Pedralli B, Siqueira Furtuoso Rodrigues MM, Stival AC, Andrade J, Brito LB, Marques Dos Santos TR, Leite J, Garcia da Silva AC, and Valadares MC

Subjects

Animals, Humans, Brazil, Laboratories, Anniversaries and Special Events

Abstract

The Brazilian National Network of Alternative Methods (RENAMA), which is linked to the Ministry of Science, Technology and Innovation, is currently comprised of 51 laboratories from CROs, academia, industry and government. RENAMA's aim is to develop and validate new approach methodologies (NAMs), as well as train researchers and disseminate information on their use - thus reducing Brazilian, and consequently Latin American, dependence on external technology. Moreover, it promotes the adoption of NAMs by educators and trained researchers, as well as the implementation of good laboratory practice (GLP) and the use of certified products. The RENAMA network started its activities in 2012, and was originally comprised of three central laboratories - the National Institute of Metrology, Quality and Technology (INMETRO); the National Institute of Quality Control in Health (INCQS); and the National Brazilian Biosciences Laboratory (LNBio) - and ten associated laboratories. In 2022, RENAMA celebrated its 10th anniversary, a milestone commemorated by the organisation of a meeting attended by different stakeholders, including the RENAMA-associated laboratories, academia, non-governmental organisations and industry. Ninety-six participants attended the meeting, held on 26 May 2022 in Balneário Camboriú, SC, Brazil, as part of the programme of the XXIII Brazilian Congress of Toxicology 2022. Significant moments of the RENAMA were remembered, and new goals and discussion themes were established. The lectures highlighted recent innovations in the toxicological sciences that have translated into the assessment of consumer product safety through the use of human-relevant NAMs instead of the use of existing animal-based approaches. The challenges and opportunities in accepting such practices for regulatory purposes were also presented and discussed., Competing Interests: Declaration of conflicting interestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2024

24. A Synergic Strategy: Adipose-Derived Stem Cell Spheroids Seeded on 3D-Printed PLA/CHA Scaffolds Implanted in a Bone Critical-Size Defect Model.

Author

Kronemberger GS, Palhares TN, Rossi AM, Verçosa BRF, Sartoretto SC, Resende R, Uzeda MJ, Alves ATNN, Alves GG, Calasans-Maia MD, Granjeiro JM, and Baptista LS

Abstract

Bone critical-size defects and non-union fractures have no intrinsic capacity for self-healing. In this context, the emergence of bone engineering has allowed the development of functional alternatives. The aim of this study was to evaluate the capacity of ASC spheroids in bone regeneration using a synergic strategy with 3D-printed scaffolds made from poly (lactic acid) (PLA) and nanostructured hydroxyapatite doped with carbonate ions (CHA) in a rat model of cranial critical-size defect. In summary, a set of results suggests that ASC spheroidal constructs promoted bone regeneration. In vitro results showed that ASC spheroids were able to spread and interact with the 3D-printed scaffold, synthesizing crucial growth factors and cytokines for bone regeneration, such as VEGF. Histological results after 3 and 6 months of implantation showed the formation of new bone tissue in the PLA/CHA scaffolds that were seeded with ASC spheroids. In conclusion, the presence of ASC spheroids in the PLA/CHA 3D-printed scaffolds seems to successfully promote bone formation, which can be crucial for a significant clinical improvement in critical bone defect regeneration.

Published

2023

25. Editorial: Three-dimensional/3D stem cell culture systems.

Author

Paiva KBS, Granjeiro JM, Baptista LS, Marques AP, Ribeiro AR, and Koudan E

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2023

26. Effect of DMPEI coating against biofilm formation on PVC catheter surface.

Author

Tarabal VS, Abud YKD, da Silva FG, da Cruz LF, Fontes GN, da Silva JA, Filho CBS, Sinisterra RD, Granjeiro JM, and Granjeiro PA

Subjects

Staphylococcus aureus, Catheters, Biofilms, Candida albicans, Polyethyleneimine pharmacology, Escherichia coli

Abstract

Urinary tract infections (UTIs) are a significant cause of morbidity in healthcare systems and are prominently associated with applying urethral catheters, particularly in surgeries. Polyvinyl chloride (PVC) is extensively utilized in the fabrication of catheters. Biofilms, complex polymeric constructions, provide a protective milieu for cell multiplication and the enhancement of antibiotic resistance. Strategies to counteract biofilm development on medical apparatuses' surfaces incorporate antimicrobial agents such as N,N-dodecyl, and methyl polyethylenimine (DMPEI). This research endeavored to characterize the morphology of PVC and PVC-DMPEI surfaces utilizing Scanning Electron Microscopy (SEM) and Atomic Force Microscopy (AFM) and to gauge hydrophobicity through contact angle measurements. Employing Escherichia coli, Staphylococcus aureus, and Candida albicans in adhesion assays enabled the assessment of DMPEI's efficacy in preventing microbial adherence to PVC. Butanol successfully solubilized 2 mg.mL -1 DMPEI without altering the PVC structure. SEM results substantiated the formation of a DMPEI layer on the PVC surface, which led to decreased surface roughness, as validated by AFM, and increased hydrophilicity, as demonstrated by contact angle evaluations. E. coli, S. aureus, and C. albicans exhibited significant adhesion reduction, 89.3%, 94.3%, and 86.6% on PVC-DMPEI surfaces. SEM visualizations confirmed reduced cellular colonization on PVC-DMPEI and highlighted considerable morphological modifications in E. coli. Consequently, DMPEI films effectively minimize the adhesion of E. coli, S. aureus, and C. albicans on PVC surfaces. DMPEI, with its potential as a protective coating for innovative medical devices, promises to inhibit biofilm adherence effectively., (© 2023. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2023

27. Histomorphometric evaluation, SEM, and synchrotron analysis of the biological response of biodegradable and ceramic hydroxyapatite-based grafts: from the synthesis to the bed application.

Author

Gasperini FM, Fernandes GVO, Mitri FF, Calasans-Maia MD, Mavropoulos E, Malta Rossi A, and Granjeiro JM

Subjects

Animals, Rabbits, Synchrotrons, Biocompatible Materials chemistry, Ceramics, Alginates chemistry, Durapatite chemistry, Thrombosis

Abstract

This study aimed to analyze the physicochemical and histological properties of nanostructured hydroxyapatite and alginate composites produced at different temperatures with and without sintering and implanted in rabbit tibiae. Hydroxyapatite-alginate (HA) microspheres (425-600 µm) produced at 90 and 5 °C without (HA90 and HA5) or with sintering at 1000 °C (HA90S and HA5S) were characterized and applied to evaluate the in vitro degradation; also were implanted in bone defects on rabbit's tibiae ( n = 12). The animals were randomly divided into five groups (blood clot, HA90S, HA5S, HA90, and HA5) and euthanized after 7 and 28 d. X-ray diffraction and Fourier-transform infrared analysis of the non-sintered biomaterials showed a lower crystallinity than sintered materials, being more degradable in vitro and in vivo . However, the sinterization of HA5 led to the apatite phase's decomposition into tricalcium phosphate. Histomorphometric analysis showed the highest ( p < 0.01) bone density in the blood clot group, similar bone levels among HA90S, HA90, and HA5, and significantly less bone in the HA5S. HA90 and HA5 groups presented higher degradation and homogeneous distribution of the new bone formation onto the surface of biomaterial fragments, compared to HA90S, presenting bone only around intact microspheres ( p < 0.01). The elemental distribution (scanning electron microscope and energy dispersive spectroscopy and μ XRF-SR analysis) of Ca, P, and Zn in the newly formed bone is similar to the cortical bone, indicating bone maturity at 28 d. The synthesized biomaterials are biocompatible and osteoconductive. The heat treatment directly influenced the material's behavior, where non-sintered HA90 and HA5 showed higher degradation, allowing a better distribution of the new bone onto the surface of the biomaterial fragments compared to HA90S presenting the same level of new bone, but only on the surface of the intact microspheres, potentially reducing the bone-biomaterial interface., (Creative Commons Attribution license.)

Published

2023

28. Clinical and Biochemical Evaluation of the Use of Alb-PRF versus L-PRF in Mandibular Third Molar Extractions: A Split-Mouth Randomized Clinical Trial.

Author

Javid K, Mourão CF, Mello-Machado RC, Sartoretto SC, Torres M, Stellet Lourenço E, Leite PEC, Granjeiro JM, Alves GG, and Calasans-Maia MD

Abstract

Bone tissue engineering seeks biomaterials that enable cell migration, angiogenesis, matrix deposition, and tissue regeneration. Blood concentrates like platelet-rich fibrin (L-PRF) offer a cost-effective source of cells and growth factors to enhance healing. The present study aimed to evaluate heated serum albumin with liquid PRF (Alb-PRF) and L-PRF clinically and biochemically after placement in dental sockets following mandibular third molar extraction. In a controlled, split-mouth study involving 10 volunteers, 20 extracted molars were treated with either Alb-PRF or L-PRF. Post-extraction, pain, trismus, infection presence, and swelling were measured. The concentrations of different analytes in the surgical sites were also examined. The data were statistically analyzed, with significance defined at p < 0.05 ( t -test). No significant difference was noted between the groups for pain and trismus, but Alb-PRF showed a significant reduction in swelling on day seven. The Alb-PRF group showed lower levels of pro-inflammatory cytokines (GM-CSF, IL-1b, IL-6, IFNy, IL-8, IL-15, RANTES, and MIP-1a) after seven days, with only higher expressions of MIP-1b, IL-1b, and MCP-1 found in the L-PRF group. Differences were observed in the release of analytes between L-PRF and Alb-PRF, with Alb-PRF significantly reducing edema after seven days. Alb-PRF reduced edema, while L-PRF increased inflammatory cytokines. When compared to L-PRF, Alb-PRF reduced edema and the release of inflammatory cytokines, suggesting promising effects in socket healing while underscoring the role of growth factors and cytokines in potential applications of blood concentrates.

Published

2023

29. Microfluidic-based skin-on-chip systems for safety assessment of nanomaterials.

Author

Costa S, Vilas-Boas V, Lebre F, Granjeiro JM, Catarino CM, Moreira Teixeira L, Loskill P, Alfaro-Moreno E, and Ribeiro AR

Subjects

Lab-On-A-Chip Devices, Skin, Microfluidics, Nanostructures toxicity

Abstract

The skin is the body's largest organ, continuously exposed to and affected by natural and anthropogenic nanomaterials (materials with external and internal dimensions in the nanoscale range). This broad spectrum of insults gives rise to irreversible health effects (from skin corrosion to cancer). Organ-on-chip systems can recapitulate skin physiology with high fidelity and potentially revolutionize the safety assessment of nanomaterials. Here, we review current advances in skin-on-chip models and their potential to elucidate biological mechanisms. Further, strategies are discussed to recapitulate skin physiology on-chip, improving control over nanomaterials exposure and transport across cells. Finally, we highlight future opportunities and challenges from design and fabrication to acceptance by regulatory bodies and industry., Competing Interests: Declaration of interests The authors declare none., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2023

30. A modified tunnel technique to treat multiple gingival recessions: Case Series.

Author

Guimarães DM, Andrade PF, Rebollal J, Neves AMD, and Granjeiro JM

Subjects

Humans, Surgical Flaps surgery, Treatment Outcome, Connective Tissue transplantation, Tooth Root, Gingiva, Gingival Recession surgery

Abstract

This case series reports a modified tunnel technique with connective tissue graft for the root coverage of multiple Miller Class I, II, and III gingival recessions. The modified approach presents an innovative suture technique to improve the stability and position of the graft. Ten patients with multiple gingival recessions (n=85 teeth) received surgical root coverage treatment. The gingival recession height and width were measured and presented as median, minimum, and maximum values. The percentage of the root coverage after at least 12 months expressed the treatment effectiveness. The Shapiro-Wilk test evaluated the normality; pared Wilcoxon test determined the exact P-value for the differences in the height of the gingival recession before and after surgical treatment (α = 0.05). An average of 97.9% (± 5.6%, p < 0.0001) root coverage after treatment occurred, and 73 out of 85 recessions presented complete root coverage after 12 months. Treatment of Miller class I and II gingival recessions resulted in root coverage higher than 99 and class III higher than 95% (p < 0.0001). The presented case series report the efficacy of a modified surgical technique promoting more than 95% of root coverage after 12 months in multiple Miller Class I, II, and III gingival recessions. Well-designed blind randomized controlled trials are needed to validate the proposed technique.

Published

2023

31. Titanium dioxide nanoparticles affect osteoblast-derived exosome cargos and impair osteogenic differentiation of human mesenchymal stem cells.

Author

de Souza W, Gemini-Piperni S, Grenho L, Rocha LA, Granjeiro JM, Melo SA, Fernandes MH, and Ribeiro AR

Subjects

Humans, Osteogenesis, Titanium adverse effects, Proteomics, Osteoblasts, Cell Differentiation, Immunologic Factors, Cell Communication, Osteolysis chemically induced, Exosomes metabolism, Nanoparticles, Mesenchymal Stem Cells

Abstract

Titanium (Ti) and its alloys are the most widely used metallic biomaterials in total joint replacement; however, increasing evidence supports the degradation of its surface due to corrosion and wear processes releasing debris (ions, and micro and nanoparticles) and contribute to particle-induced osteolysis and implant loosening. Cell-to-cell communication involving several cell types is one of the major biological processes occurring during bone healing and regeneration at the implant-bone interface. In addition to the internal response of cells to the uptake and intracellular localization of wear debris, a red flag is the ability of titanium dioxide nanoparticles (mimicking wear debris) to alter cellular communication with the tissue background, disturbing the balance between osseous tissue integrity and bone regenerative processes. This study aims to understand whether titanium dioxide nanoparticles (TiO 2 NPs) alter osteoblast-derived exosome (Exo) biogenesis and whether exosomal protein cargos affect the communication of osteoblasts with human mesenchymal stem/stromal cells (HMSCs). Osteoblasts are derived from mesenchymal stem cells coexisting in the bone microenvironment during development and remodelling. We observed that TiO 2 NPs stimulate immature osteoblast- and mature osteoblast-derived Exo secretion that present a distinct proteomic cargo. Functional tests confirmed that Exos derived from both osteoblasts decrease the osteogenic differentiation of HMSCs. These findings are clinically relevant since wear debris alter extracellular communication in the bone periprosthetic niche, contributing to particle-induced osteolysis and consequent prosthetic joint failure.

Published

2023

32. In vivo osseointegration evaluation of implants coated with nanostructured hydroxyapatite in low density bone.

Author

Almeida D, Sartoretto SC, Calasans-Maia JA, Ghiraldini B, Bezerra FJB, Granjeiro JM, and Calasans-Maia MD

Subjects

Sheep, Animals, Durapatite chemistry, Surface Properties, Coated Materials, Biocompatible chemistry, Titanium chemistry, Osseointegration, Dental Implants

Abstract

Objective: This in vivo study, aimed to biomechanically, histomorphometrically and histologically evaluate an implant surface coated with nanostructured hydroxyapatite using the wet chemical process (biomimetic deposition of calcium phosphate coating) when compared to a dual acid-etching surface., Material and Methods: Ten sheep (2-4 years old) received 20 implants, 10 with nanostructured hydroxyapatite coating (HAnano), and 10 with dual acid-etching surface (DAA). The surfaces were characterized with scanning electron microscopy and energy dispersive spectroscopy; insertion torque values and resonance frequency analysis were measured to evaluate the primary stability of the implants. Bone-implant contact (BIC) and bone area fraction occupancy (BAFo) were evaluated 14 and 28 days after implant installation., Results: The HAnano and DAA groups showed no significant difference in insertion torque and resonance frequency analysis. The BIC and BAFo values increased significantly (p<0.05) over the experimental periods in both groups. This event was also observed in BIC value of HAnano group. The HAnano surface showed superior results compared to DAA after 28 days (BAFo, p = 0.007; BIC, p = 0.01)., Conclusion: The results suggest that the HAnano surface favors bone formation when compared to the DAA surface after 28 days in low-density bone in sheep., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Almeida et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

33. Embryotoxicity and visual-motor response of functionalized nanostructured hydroxyapatite-based biomaterials in zebrafish (Danio rerio).

Author

de Souza AM, Araujo-Silva H, Costa AM, Rossi AL, Rossi AM, Granjeiro JM, Luchiari AC, and Batistuzzo de Medeiros SR

Subjects

Animals, Humans, Zebrafish metabolism, Durapatite toxicity, Durapatite metabolism, Biocompatible Materials toxicity, Biocompatible Materials metabolism, Oxidative Stress, Embryo, Nonmammalian metabolism, Larva, Nanostructures toxicity, Water Pollutants, Chemical toxicity

Abstract

Hydroxyapatite (HA) is a biomaterial widely used in biomedical applications. Many studies have shown that ionic substituents can be incorporated into HA to produce a mineral composition more similar to natural bone tissue with more favorable biological characteristics for application in bone regeneration. However, its potentially toxic effects need to be evaluated before full approval for human use. For this purpose, an embryotoxicity test was performed on zebrafish according to OECD guideline 236. Zebrafish embryos were exposed to 1 or 3 microspheres of alginate containing nanoparticles of HA and carbonate (CHA), strontium (SrHA), and zinc-substituted HA (ZnHA) from 4 to 120 h post-fertilization (hpf). Lethality and developmental endpoints were evaluated. In addition, larval behavior at 168 hpf was also analyzed to observe whether biomaterials adversely affect optomotor and avoidance responses (neurotoxicity), as well as the oxidative stress pattern through qPCR. After 120 h exposure to all microspheres with different patterns of crystallinity, porosity, nanoparticle size, surface area, and degradation behavior, there was no mortality rate greater than 20%, indicating the non-embryotoxic character of these biomaterials. All experimental groups showed positive optomotor and avoidance responses, which means that embryo exposure to the tested biomaterials had no neurotoxic effects. Furthermore, larvae exposed to one SrHA microsphere showed a better optomotor response than the control. Furthermore, the biomaterials did not change the pattern of mRNA levels of genes related to oxidative stress even after 120 hpf. The growing number of new HA-based biomaterials produced should be accompanied by increased studies to understand the biosafety of these compounds, especially in alternative models, such as zebrafish embryos. These results reinforce our hypothesis that ion-substituted HA biomaterials do not impose toxicological effects, cause development and neuromotor impairment, or increase oxidative stress in zebrafish embryos being useful for medical devices and in the process of bone regeneration., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

34. The Effects of Titanium Dioxide Nanoparticles on Osteoblasts Mineralization: A Comparison between 2D and 3D Cell Culture Models.

Author

de Souza Castro G, de Souza W, Lima TSM, Bonfim DC, Werckmann J, Archanjo BS, Granjeiro JM, Ribeiro AR, and Gemini-Piperni S

Abstract

Although several studies assess the biological effects of micro and titanium dioxide nanoparticles (TiO 2 NPs), the literature shows controversial results regarding their effect on bone cell behavior. Studies on the effects of nanoparticles on mammalian cells on two-dimensional (2D) cell cultures display several disadvantages, such as changes in cell morphology, function, and metabolism and fewer cell-cell contacts. This highlights the need to explore the effects of TiO 2 NPs in more complex 3D environments, to better mimic the bone microenvironment. This study aims to compare the differentiation and mineralized matrix production of human osteoblasts SAOS-2 in a monolayer or 3D models after exposure to different concentrations of TiO 2 NPs. Nanoparticles were characterized, and their internalization and effects on the SAOS-2 monolayer and 3D spheroid cells were evaluated with morphological analysis. The mineralization of human osteoblasts upon exposure to TiO 2 NPs was evaluated by alizarin red staining, demonstrating a dose-dependent increase in mineralized matrix in human primary osteoblasts and SAOS-2 both in the monolayer and 3D models. Furthermore, our results reveal that, after high exposure to TiO 2 NPs, the dose-dependent increase in the bone mineralized matrix in the 3D cells model is higher than in the 2D culture, showing a promising model to test the effect on bone osteointegration.

Published

2023

35. The Use of Hydroxyapatite Loaded with Doxycycline (HADOX) in Dentoalveolar Surgery as a Risk-Reduction Therapeutic Protocol in Subjects Treated with Different Bisphosphonate Dosages.

Author

Sacco R, Sartoretto SC, de Brito Resende RF, de Albuquerque Calasans-Maia J, Rossi AM, de Souza Lima VH, de Almeida Barros Mourão CF, Granjeiro JM, Yates J, and Calasans-Maia MD

Subjects

Rats, Animals, Diphosphonates adverse effects, Zoledronic Acid therapeutic use, Doxycycline therapeutic use, Risk Reduction Behavior, Hydroxyapatites, Bone Density Conservation Agents therapeutic use, Bisphosphonate-Associated Osteonecrosis of the Jaw etiology, Bisphosphonate-Associated Osteonecrosis of the Jaw prevention & control, Bisphosphonate-Associated Osteonecrosis of the Jaw drug therapy

Abstract

Medication-related osteonecrosis of the jaw (MRONJ) is considered as a severe adverse side effect of specific drugs such as anti-resorptive and anti-angiogenic medications. Evidence suggests that MRONJ is linked to invasive dental procedures, mainly dentoalveolar surgery. Several preventive strategies to minimize the risk of developing MRONJ have been investigated. However, no investigation has been attempted to evaluate the therapeutic effect of local drug-delivery technology as a preventive strategy protocol. The aim of this study is to evaluate the efficacy of hydroxyapatite-containing doxycycline (HADOX) in rats with high-risk MRONJ development. All the rats used in this study were divided into seven groups. Six groups of rats out of seven were exposed to two different doses of antiresorptive drug therapy for four weeks before undergoing an upper incisor extraction. After 28 days, all the animals were euthanized, and the bone blocks were processed for histological and histomorphometrical evaluation. The histomorphometric analysis confirmed that newly formed bone (NFB) was present in all groups, with significant differences. NFB in the HADOX group treated with zoledronic acid at 4% showed (28.38; C.I. 22.29-34.48), which represents a significant increase compared to HA (15.69; C.I. 4.89-26.48) ( p = 0.02). A similar pattern was observed in the HADOX group treated with zoledronic acid 8% ZA treatment ( p = 0.001). Conclusions : HADOX did not inhibit any bone repair and reduced early inflammatory response. Hence, HADOX could promote bone healing in patients undergoing antiresorptive drug therapy.

Published

2022

36. Does Melatonin Associated with Nanostructured Calcium Phosphate Improve Alveolar Bone Repair?

Author

de Almeida CD, Sartoretto SC, Alves ATNN, de Brito Resende RF, de Albuquerque Calasans-Maia J, Moraschini V, Rossi A, Granjeiro JM, Sacco R, and Calasans-Maia MD

Subjects

Rats, Animals, Female, Rats, Wistar, Biocompatible Materials therapeutic use, Durapatite, Calcium Phosphates pharmacology, Calcium Phosphates therapeutic use, Carbonates, Melatonin pharmacology, Melatonin therapeutic use

Abstract

Background and objectives : Calcium phosphates have been widely used as bone substitutes, but their properties are limited to osteoconduction. The association of calcium phosphates with osteoinductive bioactive molecules has been used as a strategy in regenerative medicine. Melatonin has been studied due to its cell protection and antioxidant functions, reducing osteoclastic activity and stimulating newly formed bone. This study aimed to evaluate the effect of topical application of melatonin associated with nanostructured carbonated hydroxyapatite microspheres in the alveolar bone repair of Wistar rats through histological and histomorphometric analysis. Materials and Methods: Thirty female Wistar rats (300 g) were used, divided randomly into three experimental groups ( n = 10), G1: nanostructured carbonated hydroxyapatite microspheres associated with melatonin gel (CHA-M); G2: nanostructured carbonated hydroxyapatite (CHA); G3: blood clot (without alveolar filling). The animals were euthanized after 7 and 42 days of the postoperative period and processed for histological and histomorphometric evaluation. Kruskal-Wallis and Dunn's post-test were applied to investigate statistical differences between the groups at the same time point for new bone and connective tissue variables. Mann-Whitney was used to assess statistical differences between different time points and in the biomaterial variable. Results: Results showed a greater volume of residual biomaterial in the CHA-M than the CHA group ( p = 0.007), and there were no significant differences in terms of newly formed bone and connective tissue between CHA and CHA-M after 42 days. Conclusions: This study concluded that both biomaterials improved alveolar bone repair from 7 to 42 days after surgery, and the association of CHA with melatonin gel reduced the biomaterial's biodegradation at the implanted site but did not improve the alveolar bone repair.

Published

2022

37. Design, Fabrication, and Application of Mini-Scaffolds for Cell Components in Tissue Engineering.

Author

Mironov VA, Senatov FS, Koudan EV, Pereira FDAS, Kasyanov VA, Granjeiro JM, and Baptista LS

Abstract

The concept of "lockyballs" or interlockable mini-scaffolds fabricated by two-photon polymerization from biodegradable polymers for the encagement of tissue spheroids and their delivery into the desired location in the human body has been recently introduced. In order to improve control of delivery, positioning, and assembly of mini-scaffolds with tissue spheroids inside, they must be functionalized. This review describes the design, fabrication, and functionalization of mini-scaffolds as well as perspectives on their application in tissue engineering for precisely controlled cell and mini-tissue delivery and patterning. The development of functionalized mini-scaffolds advances the original concept of "lockyballs" and opens exciting new prospectives for mini-scaffolds' applications in tissue engineering and regenerative medicine and their eventual clinical translation.

Published

2022

38. The Influence of rhBMP-7 Associated with Nanometric Hydroxyapatite Coatings Titanium Implant on the Osseointegration: A Pre-Clinical Study.

Author

Bonato RS, Fernandes GVO, Calasans-Maia MD, Mello A, Rossi AM, Carreira ACO, Sogayar MC, and Granjeiro JM

Abstract

Background: Bioceramic nanometer coatings have been regarded as potential substitutes for plasma-sprayed hydroxyapatite coatings, and the association with bone morphogenetic protein (BMP) is an attempt to achieve faster osseointegration to hasten oral rehabilitation. Objective: This study aimed to investigate the effect of recombinant human bone morphogenetic protein-7 (rhBMP-7) on the osseointegration of titanium implants coated with a thin film surface of hydroxyapatite (HA). Methods: Two implants (n = 24) were placed in each white New Zealand rabbits’ femur (n = 6). Implants were placed in the right femur after standard instrumentation (A and B) and in the left femur after an over-instrumentation (C and D), preventing bone-implant contact. The distal implants were installed associated with rhBMP-7 (groups B [regular instrumentation] and D [over-instrumentation]) and, also, in the absence of without BMP (control groups A [regular instrumentation] and C [over-instrumentation]). After 4 weeks, the animals were euthanized. The bone blocks containing the implants were embedded in methyl methacrylate and sectioned parallel to the long axis of the implant, which were analyzed by image segmentation. The data were analyzed using a nonparametric statistical method. Results: We observed that Group A had a mean bone formation of 35.6% compared to Group B, which had 48.6% (p > 0.05). Moreover, this group showed 28.3% of connective tissue compared to Group A, with 39.3%. In the over-instrumented groups, rhBMP-7 (Group D) showed an enhanced and significant increase in bone formation when compared with the group without rhBMP-7 (Group C). Conclusion: We concluded that the association of rhBMP-7 to thin nanostructure HA-coated implants promoted greater new bone area than the same implants in the absence of rhBMP-7, mainly in cases of over-instrumented implant sites.

Published

2022

39. In Vivo Evaluation of Permeable and Impermeable Membranes for Guided Bone Regeneration.

Author

Sartoretto SC, Gens NF, de Brito Resende RF, Alves ATNN, Cecato RC, Uzeda MJ, Granjeiro JM, Calasans-Maia MD, and Calasans-Maia JA

Abstract

Background: The degree of biodegradation and the inflammatory response of membranes employed for guided bone regeneration directly impact the outcome of this technique. This study aimed to evaluate four different experimental versions of Poly (L-lactate-co-Trimethylene Carbonate) (PTMC) + Poly (L-lactate-co-glycolate) (PLGA) membranes, implanted in mouse subcutaneous tissue, compared to a commercially available membrane and a Sham group., Methods: Sixty Balb-C mice were randomly divided into six experimental groups and subdivided into 1, 3, 6 and 12 weeks (n = 5 groups/period). The membranes (1 cm 2 ) were implanted in the subcutaneous back tissue of the animals. The samples were obtained for descriptive and semiquantitative histological evaluation (ISO 10993-6)., Results: G1 and G4 allowed tissue adhesion and the permeation of inflammatory cells over time and showed greater phagocytic activity and permeability. G2 and G3 detached from the tissue in one and three weeks; however, in the more extended periods, they presented a rectilinear and homogeneous aspect and were not absorbed. G2 had a major inflammatory reaction. G5 was almost completely absorbed after 12 weeks., Conclusions: The membranes are considered biocompatible. G5 showed a higher degree of biosorption, followed by G1 and G4. G2 and G3 are considered non-absorbable in the studied periods.

Published

2022

40. Nanomaterial Exposure, Extracellular Vesicle Biogenesis and Adverse Cellular Outcomes: A Scoping Review.

Author

Lima TSM, Souza W, Geaquinto LRO, Sanches PL, Stepień EL, Meneses J, Fernández-de Gortari E, Meisner-Kober N, Himly M, Granjeiro JM, and Ribeiro AR

Abstract

The progressively increasing use of nanomaterials (NMs) has awakened issues related to nanosafety and its potential toxic effects on human health. Emerging studies suggest that NMs alter cell communication by reshaping and altering the secretion of extracellular vesicles (EVs), leading to dysfunction in recipient cells. However, there is limited understanding of how the physicochemical characteristics of NMs alter the EV content and their consequent physiological functions. Therefore, this review explored the relevance of EVs in the nanotoxicology field. The current state of the art on how EVs are modulated by NM exposure and the possible regulation and modulation of signaling pathways and physiological responses were assessed in detail. This review followed the manual for reviewers produced by The Joanna Brigs Institute for Scoping Reviews and the PRISMA extension for Scoping Reviews (PRISMA-ScR): checklist and explanation. The research question, "Do NMs modulate cellular responses mediated by EVs?" was analyzed following the PECO model (P (Population) = EVs, E (Exposure) = NMs, C (Comparator) = EVs without exposure to NMs, O (Outcome) = Cellular responses/change in EVs) to help methodologically assess the association between exposure and outcome. For each theme in the PECO acronym, keywords were defined, organized, and researched in PubMed, Science Direct, Scopus, Web of Science, EMBASE, and Cochrane databases, up to 30 September 2021. In vitro, in vivo, ex vivo, and clinical studies that analyzed the effect of NMs on EV biogenesis, cargo, and cellular responses were included in the analysis. The methodological quality assessment was conducted using the ToxRTool, ARRIVE guideline, Newcastle Ottawa and the EV-TRACK platform. The search in the referred databases identified 2944 articles. After applying the eligibility criteria and two-step screening, 18 articles were included in the final review. We observed that depending on the concentration and physicochemical characteristics, specific NMs promote a significant increase in EV secretion as well as changes in their cargo, especially regarding the expression of proteins and miRNAs, which, in turn, were involved in biological processes that included cell communication, angiogenesis, and activation of the immune response, etc. Although further studies are necessary, this work suggests that molecular investigations on EVs induced by NM exposure may become a potential tool for toxicological studies since they are widely accessible biomarkers that may form a bridge between NM exposure and the cellular response and pathological outcome.

Published

2022

41. Large-Scale, Automated Production of Adipose-Derived Stem Cell Spheroids for 3D Bioprinting.

Author

Kronemberger GS, Miranda GASC, Silva TIG, Gonçalves RM, Granjeiro JM, and Baptista LS

Subjects

Adipose Tissue metabolism, Humans, Reproducibility of Results, Spheroids, Cellular, Stem Cells, Tissue Engineering methods, Bioprinting methods

Abstract

Adipose-derived stromal/stem cells (ASCs) are a subpopulation of cells found in the stromal vascular fraction of human subcutaneous adipose tissue recognized as a classical source of mesenchymal stromal/stem cells. Many studies have been published with ASCs for scaffold-based tissue engineering approaches, which mainly explored the behavior of these cells after their seeding on bioactive scaffolds. However, scaffold-free approaches are emerging to engineer tissues in vitro and in vivo, mainly by using spheroids, to overcome the limitations of scaffold-based approaches. Spheroids are 3D microtissues formed by the self-assembly process. They can better mimic the architecture and microenvironment of native tissues, mainly due to the magnification of cell-to-cell and cell-to-extracellular matrix interactions. Recently, spheroids are mainly being explored as disease models, drug screening studies, and building blocks for 3D bioprinting. However, for 3D bioprinting approaches, numerous spheroids, homogeneous in size and shape, are necessary to biofabricate complex tissue and organ models. In addition, when spheroids are produced automatically, there is little chance for microbiological contamination, increasing the reproducibility of the method. The large-scale production of spheroids is considered the first mandatory step for developing a biofabrication line, which continues in the 3D bioprinting process and finishes in the full maturation of the tissue construct in bioreactors. However, the number of studies that explored the large-scale ASC spheroid production are still scarce, together with the number of studies that used ASC spheroids as building blocks for 3D bioprinting. Therefore, this article aims to show the large-scale production of ASC spheroids using a non-adhesive micromolded hydrogel technique spreading ASC spheroids as building blocks for 3D bioprinting approaches.

Published

2022

42. Ionic concentration in periradicular medium after dissolution of endodontic file fragments: an in vitro study.

Author

Ormiga F, Amaral CCF, Vieira FM, Risso PA, Silva ABD, Almeida M, Sena R, Feres-Filho EJ, Granjeiro JM, and Gomes JADCP

Subjects

Dental Instruments, Humans, Solubility, Tooth Apex, Dental Pulp Cavity, Root Canal Preparation

Abstract

The aim of this study was to obtain ionic quantification in periradicular medium after diffusion tests of the solution used inside root canals during the electrochemical dissolution of endodontic file fragments and the NiTi-containing dissolution product via an apical foramen. Thirty single-rooted extracted human teeth had root canals prepared and were attached to Eppendorf tubes filled with sterile saline. The samples were divided into 3 groups (n = 10) according to the solution used inside the root canal during the diffusion tests: Group 1: [NaF 12 g/L + NaCl 1 g/L]; Group 2: [NaF 12 g/L + NaCl 1 g/L + NiTi 0.50 g/L]; Group 3: [NaF 6 g/L + NaCl 0.5 g/L + NiTi 0.25 g/L]. The sample in each Eppendorf tube was then analyzed to assay the ionic quantification in periradicular medium. The groups were compared in relation to ionic quantifications (Kruskal-Wallis and Dunn's tests, p ≤ 0.05). Group 2 showed significantly higher F-, Ni and Ti quantities than groups 1 and 3 (p < 0.05). Group 3 showed significantly higher Ti and Ni quantities than group 1, where no measurable quantities of Ti and Ni were observed (p < 0.05). The conclusions were that a 50% dilution of the NiTi-containing dissolution product resulted in significantly lower F-, Ni and Ti quantities compared to the undiluted product. The quantifications observed here suggest that irrigation is recommendable during the electrochemical dissolution process to reduce the resultant ion concentrations in both the root canal and the periradicular medium.

Published

2022

43. PAX7 gene polymorphism in muscular temporomandibular disorders as potentially related to muscle stem cells.

Author

Quinelato V, Bonato LL, Vieira AR, Granjeiro JM, Menezes K, Borojevic R, Casado PL, Calasans-Maia JA, and Tesch R

Subjects

Case-Control Studies, Humans, Muscles, PAX7 Transcription Factor genetics, Polymorphism, Single Nucleotide, Stem Cells, Chronic Pain, Temporomandibular Joint Disorders diagnosis, Temporomandibular Joint Disorders epidemiology, Temporomandibular Joint Disorders genetics

Abstract

Background: Temporomandibular disorders (TMD) are a group of painful and debilitating disorders, involving the masticatory muscles and/or the temporomandibular joint (TMJ). Chronic TMD pain can be associated with genetic changes in the key muscle development genes., Objective: To evaluate the association between polymorphisms in the PAX7 (paired box 7) gene and masticatory myalgia in patients with temporomandibular disorders (TMD)., Materials and Methods: This is a case-control study. Patients with TMD were divided into two groups: (a) presence of muscular TMD (n = 122) and (b) absence of muscular TMD (n = 49). Genomic DNA was obtained from saliva samples from all participants to allow for genotyping single nucleotide polymorphisms in PAX7 (rs766325 and rs6659735). Over-representation of alleles was tested using chi-square or Fisher's exact tests. Values of p < 0.05 were considered to be statistically significant., Results: Individuals without muscular TMD were less likely to have the PAX7 rs6659735 GG genotype (p = 0.03). No associations were found for PAX7 rs766325., Conclusions: Alterations in PAX7 may influence muscular pathophysiology and individuals with TMD and the rs6659735 homozygous genotype (GG) are seemingly associated with muscular involvement of the disorder. No associations were found in the region rs766325., (© 2021. The Author(s).)

Published

2021

44. Standardized pyrogen testing of medical products with the bacterial endotoxin test (BET) as a substitute for rabbit Pyrogen testing (RPT): A scoping review.

Author

Spoladore J, Gimenes I, Bachinski R, Negherbon JP, Hartung T, Granjeiro JM, and Alves GG

Subjects

Animal Testing Alternatives, Animals, Biological Assay, Rabbits, Endotoxins analysis, Pyrogens analysis

Abstract

The Bacterial Endotoxin Test (BET) is a method for exclusion of endotoxin-related pyrogen contamination in pharmaceutical products, as an alternative to the Rabbit Pyrogen Test (RPT). However, BET does not detect a broad range of biologically relevant pyrogens, and interferences can limit its practical use for different medical products. This work aimed to scope the evidence in the scientific literature for case-by-case validity assessments of BET in different uses for medical products. A search strategy was conducted in PubMed, Scopus, and Web of Science in April 2020, according to the PRISMA-ScR statement. Twenty-two references were included, evaluating medical products for endotoxin contamination through both BET and RPT according to standardized protocols. A critical appraisal was performed through ToxRTool, followed by data extraction and qualitative synthesis of outcomes and methodological issues. Four classes of products assessed by BET were identified, including nanoparticles, drugs, blood and biological products. A considerable variation was observed on the BET methods used. Collectively, the evidence indicates different factors influencing the outcome of BET, including the chemical nature of samples that may cause interference depending on the selected method. While some applications to medical products appear adequate, others, such as nanoparticles, may require the use of different in vitro pyrogen testing methods, reinforcing the need for case-by-case validation for each BET method and type of medical product., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

45. Osseodensification enables bone healing chambers with improved low-density bone site primary stability: an in vivo study.

Author

Mello-Machado RC, Sartoretto SC, Granjeiro JM, Calasans-Maia JA, de Uzeda MJPG, Mourão CFAB, Ghiraldini B, Bezerra FJB, Senna PM, and Calasans-Maia MD

Subjects

Animals, Dental Implants, Durapatite, Female, Models, Animal, Nanostructures, Random Allocation, Sheep, Titanium, Torque, Treatment Outcome, Bone Density, Bone-Implant Interface, Ilium surgery, Osseointegration, Osteotomy methods, Osteotomy veterinary, Prosthesis Implantation methods, Prosthesis Implantation veterinary

Abstract

Primary implant stability is a prerequisite for successful implant osseointegration. The osseodensification technique (OD) is a non-subtractive drilling technique that preserves the bone tissue, increases osteotomy wall density, and improves the primary stability. This study aimed to investigate the hypothesis that OD, through a wider osteotomy, produces healing chambers (HCs) at the implant-bone interface without impacting low-density bone primary stability. Twenty implants (3.5 × 10 mm) with a nanohydroxyapatite (nHA) surface were inserted in the ilium of ten sheep. Implant beds were prepared as follows: (i) 2.7-mm-wide using subtractive conventional drilling (SCD) technique (n = 10); (ii) 3.8-mm-wide using an OD bur system (n = 10). The sheep were randomized to two groups, with samples collected at either 14-(n = 5) or 28-days (n = 5) post-surgery and processed for histological and histomorphometric evaluation of bone-implant contact (BIC) and bone area fraction occupancy (BAFO). No significant group differences were found with respect to final insertion torque and implant stability quotient (p > 0.050). BIC values were higher for SCD after 14 and 28 days (p < 0.050); however, BAFO values were similar (p > 0.050). It was possible to conclude that the OD technique allowed a wider implant bed preparation without prejudice on primary stability and bone remodeling., (© 2021. The Author(s).)

Published

2021

46. Polymorphisms in COMT, ADRB2 and HTR1A genes are associated with temporomandibular disorders in individuals with other arthralgias.

Author

Bonato LL, Quinelato V, de Felipe Cordeiro PC, Vieira AR, Granjeiro JM, Tesch R, and Casado PL

Subjects

Arthralgia, Case-Control Studies, Catechol O-Methyltransferase genetics, Genotype, Humans, Polymorphism, Genetic, Receptor, Serotonin, 5-HT1A, Receptors, Adrenergic, beta-2 genetics, Temporomandibular Joint Disorders genetics, Temporomandibular Joint Dysfunction Syndrome

Abstract

Objective : To evaluate the association between polymorphisms in genes and comorbid presence of arthralgias and TMD. Methods : This is a case-control study. The groups formed were individuals with chronic arthralgia and 1) myofascial pain (n = 42); 2) articular (n = 16); 3) multiple diagnoses (n = 69); 4) with TMD and without some other arthralgia (n = 16); 5) without TMD but with pain in other joints (n = 82); and 6) a control group (n = 72). SNPs in COMT, ADRB2 , and HTR1A genes were investigated. Results : The CT genotype for the COMT (rs9332377) gene was associated with the absence of myofascial pain ( p = .05). In the ADRB2 (rs1042713) gene, the AA genotype was associated with the absence of myofascial pain ( p = .03). Discussion : This study supports the hypothesis that alterations in the COMT, ADRB2 , and HTR1A genes influence the presence of chronic pain and TMD.

Published

2021

47. Is THP-1 viability affected by the crystallinity of nanostructured carbonated hydroxyapatites?

Author

Lira RM, Sartoretto SC, da Silva Gouveia Pedrosa C, Calasans-Maia MD, Leite PE, and Granjeiro JM

Subjects

Cell Survival, Crystallization, Humans, Materials Testing, THP-1 Cells, Biocompatible Materials chemistry, Carbonates chemistry, Durapatite chemistry, Nanostructures chemistry

Abstract

In daily clinical practice, there is a notable variety of synthetic bone substitute, with various resorption rates, different chemical and structural characteristics that influence on bone regeneration and are not suitable for every clinical use. New biomaterials based on nanotechnology have been developed to be bioabsorbable as new bone is formed. This study intends to evaluate THP-1 cell viability when exposed to extracts of unsintered nanostructured carbonated hydroxyapatite (cHA) microspheres processed at 5 and 37°C compared to sintered hydroxyapatite processed at 90°C. cHA shows, in previous studies, biocompatibility, and better bioabsorption rates, consequently, improve the deposition of new bone and tissue repair. The results demonstrated that the tested biomaterials did not activate inflammatory role through THP-1 cells and did not affect activated macrophages independently of their crystallinities, suggesting their safety and biocompatibility. These results are of fundamental importance for the advancement of research on smart materials, especially in what controls the effect of nanostructured cHA microspheres in the biological environment, seems to be a promising biomaterial in clinical application on regenerative medicine., (© 2020 Wiley Periodicals LLC.)

Published

2021

48. Clinical efficacy of simvastatin gel combined with polypropylene membrane on the healing of extraction sockets: A triple-blind, randomized clinical trial.

Author

Cruz R, Moraschini V, Calasans-Maia MD, de Almeida DCF, Sartoretto SC, and Granjeiro JM

Subjects

Humans, Polypropylenes, Simvastatin therapeutic use, Tooth Extraction, Tooth Socket diagnostic imaging, Tooth Socket surgery, Treatment Outcome, Alveolar Bone Loss, Alveolar Ridge Augmentation

Abstract

Objectives: This study aimed to evaluate dimensional changes, level of soft tissue healing, and pain/discomfort perception in post-extraction sockets filling with 1.2% simvastatin (SIM) gel covered with polypropylene membranes (PPPM)., Material and Methods: Twenty-six post-extraction sockets of posterior teeth were randomly allocated in two groups: (a) socket filling with 1.2% SIM gel and covered with PPPM (n = 13) and (b) socket filling with placebo gel and covered with PPPM (n = 13). Cone-beam computed tomography (CBCT) images before and 90 days after the extraction enabled alveolar bone dimensional changes calculation using horizontal and vertical measurements. The measurements occurred at three different levels for thickness located 1, 3, and 5 mm from the top of the bone crest. The vertical (depth) measure was assessed from the most apical portion of the socket to the bone crest's most coronal portion. Seven days after the extractions, the level of soft tissue healing and pain perception were also analyzed., Results: After 90 days of extractions, the dimensional changes in thickness in the test group were significantly smaller in sections A (p = .044), B (p = .036) and C (p = .048) when compared to the control group. The test group showed a significantly lower height-dimensional change than the control group (p < .0001). Soft tissue healing index (p = .63), perception of pain (p = .23), and number of analgesics consumed (p = .25) were similar between groups., Conclusions: Simvastatin at 1.2% compared with placebo effectively reduced the dimensional changes in post-extraction sockets covered with PPPM. There was no significant difference in the level of soft tissue healing and postoperative pain between the test and control groups., (© 2021 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2021

49. Clinical Comparation of Extra-Short (4 mm) and Long (>8 mm) Dental Implants Placed in Mandibular Bone: A Systematic Review and Metanalysis.

Author

Moraschini V, Mourão CFAB, Montemezzi P, Kischinhevsky ICC, de Almeida DCF, Javid K, Shibli JA, Granjeiro JM, and Calasans-Maia MD

Abstract

This systematic review (SR) aimed to evaluate implant survival rate, marginal bone loss (MBL), and biological/prosthetic complications of extra-short 4 mm dental implants. An electronic search without language or date restrictions was performed in five databases and in gray literature for articles published until August 2020. Prospective cohort studies and randomized clinical trials (RCTs) that evaluated the clinical performance of extra-short 4 mm dental implants were included. Studies were independently assessed for risk of bias using the Cochrane Collaboration's tool. The protocol of this SR was registered in the PROSPERO database under number CRD42019139709. Four studies were included in the present SR. There was no significant difference in implant survival rate ( p = 0.75) between extra-short 4 mm and long implants. After 12 months of function, the extra-short implants had a significantly ( p = 0.003) lower marginal bone loss (MBL) rate when compared to long implants. Extra-short implants had a lower number of biological and prosthetic complications when compared to long implants. After 12 months of follow-up, extra-short 4 mm dental implants placed in the mandible exhibit satisfactory clinical outcomes concerning implant survival rate and MBL when compared to longer implants, with a low number of biological and prosthetic complications. A higher number of RCTs with longer follow-up is necessary for the future.

Published

2021

50. A Scaffold- and Serum-Free Method to Mimic Human Stable Cartilage Validated by Secretome.

Author

Côrtes I, Matsui RAM, Azevedo MS, Beatrici A, Souza KLA, Launay G, Delolme F, Granjeiro JM, Moali C, and Baptista LS

Subjects

Adipose Tissue, Cell Differentiation, Cells, Cultured, Chondrocytes, Chondrogenesis, Humans, Thrombospondin 1, Tissue Engineering, Cartilage, Mesenchymal Stem Cells

Abstract

A stabilized cartilage construct without signs of hypertrophy in chondrocytes is still a challenge. Suspensions of adipose stem/stromal cells (ASCs) and cartilage progenitor cells (CPCs) were seeded into micromolded nonadhesive hydrogel to produce spheroids (scaffold- and serum-free method) characterized by size, immunohistochemistry, fusion, and biomechanical properties. After cell dissociation, they were characterized for mesenchymal cell surface markers, cell viability, and quantitative real-time polymerase chain reaction. Both targeted and nontargeted (shotgun mass spectrometry) analyses were conducted on the culture supernatants. Induced ASC spheroids (ø = 350 μm) showed high cell viability and CD73 downregulation contrasting to CD90. The transforming growth factor (TGF)-β3/TGF-β1 ratio and SOX9 increased ( p  < 0.05), whereas interleukin (IL)-6, IL-8, RUNX2 , and ALPL decreased. Induced ASC spheroids were able to completely fuse and showed a higher force required to compression at day 14 ( p  < 0.0001). Strong collagen type II in situ was associated with gradual decrease of collagen type X and a lower COLXA1 gene expression at day 14 compared with day 7 ( p  = 0.0352). The comparison of the secretome content of induced and non-induced ASCs and CPCs identified 138 proteins directly relevant to chondrogenesis of 704 proteins in total. Although collagen X was absent, thrombospondin-1 (TSP-1), described as antiangiogenic and antihypertrophic, and cartilage oligomeric matrix protein (COMP), a biomarker of chondrogenesis, were upregulated in induced ASC spheroids. Our scaffold- and serum-free method mimics stable cartilage acting as a tool for biomarker discovery and for regenerative medicine protocols. Impact Statement Promising adult stem cell sources for cartilage regeneration include adipose stem/stromal cells (ASCs) from subcutaneous adipose tissue. Our main objective was the development of a reproducible and easy-to-handle scaffold- and serum-free method to obtain stable cartilage from induced ASC spheroids. In addition to targeted protein profiling and biomechanical analysis, we provide the first characterization of the secretome composition for ASC spheroids, providing a useful tool to monitor in vitro chondrogenesis and a noninvasive quality control of tissue-engineered constructs. Furthermore, our secretome analysis revealed a potential novel biomarker-thrombospondin-1 (TSP-1), known by its antiangiogenic properties and recently described as an antihypertrophic protein.

Published

2021