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1.
Biomed Eng Online ; 22(1): 107, 2023 Nov 15.
Artículo en Inglés | MEDLINE | ID: mdl-37968671

RESUMEN

BACKGROUND: Fractures are the most common orthopedic diseases. It is known that static magnetic fields (SMFs) can contribute to the maintenance of bone health. However, the effect and mechanism of SMFs on fracture is still unclear. This study is aim to investigate the effect of moderate static magnetic fields (MMFs) on bone structure and metabolism during fracture healing. METHODS: Eight-week-old male C57BL/6J mice were subjected to a unilateral open transverse tibial fracture, and following treatment under geomagnetic field (GMF) or MMF. The micro-computed tomography (Micro-CT) and three-point bending were employed to evaluate the microarchitecture and mechanical properties. Endochondral ossification and bone remodeling were evaluated by bone histomorphometric and serum biochemical assay. In addition, the atomic absorption spectroscopy and ELISA were utilized to examine the influence of MMF exposure on iron metabolism in mice. RESULTS: MMF exposure increased bone mineral density (BMD), bone volume per tissue volume (BV/TV), mechanical properties, and proportion of mineralized bone matrix of the callus during fracture healing. MMF exposure reduced the proportion of cartilage in the callus area during fracture healing. Meanwhile, MMF exposure increased the number of osteoblasts in callus on the 14th day, and reduced the number of osteoclasts on the 28th day of fracture healing. Furthermore, MMF exposure increased PINP and OCN levels, and reduced the TRAP-5b and ß-CTX levels in serum. It was also observed that MMF exposure reduced the iron content in the liver and callus, as well as serum ferritin levels while elevating the serum hepcidin concentration. CONCLUSIONS: MMF exposure could accelerate fracture healing via promote the endochondral ossification and bone formation while regulating systemic iron metabolism during fracture healing. This study suggests that MMF may have the potential to become a form of physical therapy for fractures.


Asunto(s)
Curación de Fractura , Fracturas Óseas , Masculino , Animales , Ratones , Curación de Fractura/fisiología , Microtomografía por Rayos X , Ratones Endogámicos C57BL , Callo Óseo/diagnóstico por imagen , Callo Óseo/fisiología , Campos Magnéticos , Hierro
2.
J Mech Behav Biomed Mater ; 128: 105133, 2022 04.
Artículo en Inglés | MEDLINE | ID: mdl-35217291

RESUMEN

PURPOSE: In distraction osteogenesis (DO) of long bones, new bone tissue is distracted to lengthen limbs or reconstruct bone defects. However, mechanical boundary conditions in human application such as arising forces are mainly based on limited empirical data. Our aim was the numerical determination of the callus distraction force (CDF) and the total distraction force (TDF) during DO in the tibia of adults to advance the understanding of callus tissue behavior and optimize DO procedures. METHOD: We implemented a mathematical model based on an animal experiment to enable the calculation of forces arising while distracting callus tissue, excluding the influence of surrounding soft tissue (muscles, skin etc.). The CDF progression for the distraction period was calculated using the implemented model and varying distraction parameters (initial gap, area, step size, time interval, length). Further, we estimated the CDF based on reported forces in humans and compared the results to our model predictions. In addition, we calculated the TDF based on our CDF predictions in combination with reported resisting forces due to soft tissue presence in human cadavers. Finally, we compared the progressions to in vivo TDF measurements for validation. RESULTS: Due to relaxation, a peak and resting CDF is observable for each distraction step. Our biomechanical results show a non-linear degressive increase of the resting and peak CDF at the beginning and a steady non-linear increase thereafter. The calculated resting and peak CDF in the tibial metaphysis ranged from 0.00075 to 0.0089 N and 0.22-2.6 N at the beginning as well as 20-25 N and 70-75 N at the end of distraction. The comparison to in vivo data showed the plausibility of our predictions and resulted in a 10-33% and 10-23% share of resting CDF in the total resting force for bone transport and elongation, respectively. Further, the percentage of peak CDF in total peak force was found to be 29-58% and 27-55% for bone transport and elongation, respectively. Moreover, our TDF predictions were valid based on the comparison to in vivo forces and resulted in a degressive increase from 6 to 125 N for the peak TDF and from 5 to 76 N for the resting TDF. CONCLUSION: Our approach enables the estimation of forces arising due to the distraction of callus tissue in humans and results in plausible force progressions as well as absolute force values for the callus distraction force during DO. In combination with measurements of resisting forces due to the presence of soft tissue, the total distraction force in DO may also be evaluated. We thus propose the application of this method to approximate the behavior of mechanical callus properties during DO in humans as an alternative to in vivo measurements.


Asunto(s)
Osteogénesis por Distracción , Animales , Callo Óseo/fisiología , Humanos , Pierna , Extremidad Inferior , Osteogénesis/fisiología , Tibia/fisiología , Tibia/cirugía
3.
Nat Commun ; 12(1): 2860, 2021 05 17.
Artículo en Inglés | MEDLINE | ID: mdl-34001878

RESUMEN

Bone regenerates by activation of tissue resident stem/progenitor cells, formation of a fibrous callus followed by deposition of cartilage and bone matrices. Here, we show that mesenchymal progenitors residing in skeletal muscle adjacent to bone mediate the initial fibrotic response to bone injury and also participate in cartilage and bone formation. Combined lineage and single-cell RNA sequencing analyses reveal that skeletal muscle mesenchymal progenitors adopt a fibrogenic fate before they engage in chondrogenesis after fracture. In polytrauma, where bone and skeletal muscle are injured, skeletal muscle mesenchymal progenitors exhibit altered fibrogenesis and chondrogenesis. This leads to impaired bone healing, which is due to accumulation of fibrotic tissue originating from skeletal muscle and can be corrected by the anti-fibrotic agent Imatinib. These results elucidate the central role of skeletal muscle in bone regeneration and provide evidence that skeletal muscle can be targeted to prevent persistent callus fibrosis and improve bone healing after musculoskeletal trauma.


Asunto(s)
Regeneración Ósea/fisiología , Callo Óseo/fisiología , Curación de Fractura/fisiología , Fracturas Óseas/fisiopatología , Células Madre Mesenquimatosas/fisiología , Músculo Esquelético/citología , Animales , Diferenciación Celular/fisiología , Células Cultivadas , Trasplante de Células Madre Mesenquimatosas/métodos , Células Madre Mesenquimatosas/citología , Ratones Endogámicos C57BL , Ratones Transgénicos , Microscopía Fluorescente/métodos , Osteogénesis/fisiología
4.
Int J Mol Sci ; 22(7)2021 Mar 26.
Artículo en Inglés | MEDLINE | ID: mdl-33810326

RESUMEN

Musashi-1 (MSI1) is an RNA-binding protein that regulates progenitor cells in adult and developing organisms to maintain self-renewal capacities. The role of musashi-1 in the bone healing environment and its relation with other osteogenic factors is unknown. In the current study, we analyze the expression of MSI1 in an experimental model of rat femoral bone fractures. We also analyze the relation between MSI1 expression and the expression of two osteogenic markers: periostin (POSTN) and runt-related transcription factor 2 (RUNX2). We use histological, immunohistochemical, and qPCR techniques to evaluate bone healing and the expression of MSI1, POSTN, and RUNX2 over time (4, 7, and 14 days). We compare our findings with non-fractured controls. We find that in bone calluses, the number of cells expressing MSI1 and RUNX2 increase over time and the intensity of POSTN expression decreases over time. Within bone calluses, we find the presence of MSI1 expression in mesenchymal stromal cells, osteoblasts, and osteocytes but not in hypertrophic chondrocytes. After 14 days, the expression of MSI1, POSTN, and RUNX2 was significantly correlated. Thus, we conclude that musashi-1 potentially serves in the osteogenic differentiation of mesenchymal stromal cells and bone healing. Therefore, further studies are needed to determine the possibility of musashi-1's role as a clinical biomarker of bone healing and therapeutic agent for bone regeneration.


Asunto(s)
Curación de Fractura , Proteínas del Tejido Nervioso/metabolismo , Osteogénesis , Proteínas de Unión al ARN/metabolismo , Animales , Callo Óseo/citología , Callo Óseo/metabolismo , Callo Óseo/fisiología , Moléculas de Adhesión Celular/genética , Moléculas de Adhesión Celular/metabolismo , Condrocitos/metabolismo , Subunidad alfa 1 del Factor de Unión al Sitio Principal/genética , Subunidad alfa 1 del Factor de Unión al Sitio Principal/metabolismo , Masculino , Células Madre Mesenquimatosas/metabolismo , Proteínas del Tejido Nervioso/genética , Osteoblastos/metabolismo , Osteocitos/metabolismo , Proteínas de Unión al ARN/genética , Ratas , Ratas Wistar
5.
BMJ Case Rep ; 14(2)2021 Feb 08.
Artículo en Inglés | MEDLINE | ID: mdl-33558382

RESUMEN

Fracture healing has four phases: haematoma formation, soft callus, hard callus and remodelling. Often, non-healing fractures have an arrest of one of these phases, which need resurgery. We have repurposed denosumab for impaired fracture healing cases to avoid surgical intervention. Here, we report a series of three cases of impaired fracture healing where denosumab was given 120 mg subcutaneous dosages for 3 months to enhance healing. All the three cases have shown complete bone union at a mean follow-up of 6.7 months (5-9 months) as assessed clinically and radiologically, and have observed no adverse effect of the therapy. Denosumab given in this dose aids fracture healing by increasing callus volume, density and bridges the fracture gap in recalcitrant fracture healing cases where the callus fails to consolidate.


Asunto(s)
Conservadores de la Densidad Ósea/uso terapéutico , Denosumab/uso terapéutico , Curación de Fractura/efectos de los fármacos , Fracturas no Consolidadas/fisiopatología , Fracturas no Consolidadas/terapia , Adulto , Callo Óseo/efectos de los fármacos , Callo Óseo/fisiología , Fracturas del Fémur/fisiopatología , Fracturas del Fémur/terapia , Fijación Interna de Fracturas , Fracturas Cerradas/fisiopatología , Fracturas Cerradas/terapia , Humanos , Fracturas del Húmero/fisiopatología , Fracturas del Húmero/terapia , Masculino , Persona de Mediana Edad , Reoperación , Adulto Joven
6.
Ann Biomed Eng ; 49(4): 1209-1221, 2021 Apr.
Artículo en Inglés | MEDLINE | ID: mdl-33111968

RESUMEN

Bone lengthening and bone transport are regeneration processes that commonly rely on distraction osteogenesis, a widely accepted surgical procedure to deal with numerous bony pathologies. Despite the extensive study in the literature of the influence of biomechanical factors, a lack of knowledge about their mechanobiological differences prevents a clinical particularization. Bone lengthening treatments were performed on sheep metatarsus by reproducing the surgical and biomechanical protocol of previous bone transport experiments. Several in vivo monitoring techniques were employed to build an exhaustive comparison: gait analysis, radiographic and CT assessment, force measures through the fixation, or mechanical characterization of the new tissue. A significant initial loss of the bearing capacity, quantified by the ground reaction forces and the limb contact time with the ground, is suffered by the bone lengthening specimens. The potential effects of this anomaly on the musculoskeletal force distribution and the evolution of the bone callus elastic modulus over time are also analyzed. Imaging techniques also seem to reveal lower bone volume in the bone lengthening callus than in the bone transport one, but an equivalent mineralization rate. The simultaneous quantification of biological and mechanical parameters provides valuable information for the daily clinical routine and numerical tools development.


Asunto(s)
Regeneración Ósea/fisiología , Callo Óseo/fisiología , Marcha/fisiología , Huesos Metatarsianos/fisiología , Osteogénesis por Distracción , Animales , Fenómenos Biomecánicos , Callo Óseo/diagnóstico por imagen , Callo Óseo/cirugía , Módulo de Elasticidad , Femenino , Huesos Metatarsianos/diagnóstico por imagen , Huesos Metatarsianos/cirugía , Ovinos , Tomografía Computarizada por Rayos X
7.
J Mol Neurosci ; 71(8): 1543-1555, 2021 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-31808034

RESUMEN

Pituitary adenylate cyclase-activating polypeptide (PACAP) is a naturally secreted signaling peptide and has important regulatory roles in the differentiation of the central nervous system and its absence results in disorders in femur development. PACAP has an important function in prevention of oxidative stress or mechanical stress in chondrogenesis but little is known about its function in bone regeneration. A new callus formation model was set to investigate its role in bone remodeling. Fracturing was 5 mm distal from the proximal articular surface of the tibia and the depth was 0.5 mm. Reproducibility of callus formation was investigated with CT 3, 7, and 21 days after the operation. Absence of PACAP did not alter the alkaline phosphatase (ALP) activation in PACAP KO healing process. In developing callus, the expression of collagen type I increased in wild-type (WT) and PACAP KO mice decreased to the end of healing process. Expression of the elements of BMP signaling was disturbed in the callus formation of PACAP KO mice, as bone morphogenic protein 4 (BMP4) and 6 showed an early reduction in bone regeneration. However, elevated Smad1 expression was demonstrated in PACAP KO mice. Our results indicate that PACAP KO mice show various signs of disturbed bone healing and suggest PACAP compensatory and fine tuning effects in proper bone regeneration.


Asunto(s)
Regeneración Ósea , Callo Óseo/metabolismo , Polipéptido Hipofisario Activador de la Adenilato-Ciclasa/metabolismo , Animales , Proteína Morfogenética Ósea 4/genética , Proteína Morfogenética Ósea 4/metabolismo , Callo Óseo/fisiología , Células Cultivadas , Colágeno Tipo I/genética , Colágeno Tipo I/metabolismo , Ratones , Polipéptido Hipofisario Activador de la Adenilato-Ciclasa/genética , Proteína Smad1/genética , Proteína Smad1/metabolismo
8.
Plant Signal Behav ; 15(9): 1794147, 2020 09 01.
Artículo en Inglés | MEDLINE | ID: mdl-32662721

RESUMEN

Developmental plasticity and the ability to regenerate organs during the life cycle are a signature feature of plant system. De novo organogenesis is a common mode of plant regeneration and may occur directly from the explant or indirectly via callus formation. It is now evident that callus formation occurs through the root development pathway. In fact, callus cells behave like a group of root primordium cells that are under the control of exogenous auxin. Presence or absence of auxin decides the subsequent fate of these cells. While in presence of external supplementation of auxin they are maintained as root primordia cells, absence of exogenous auxin induces the callus cells into patterning, differentiation and finally root emergence. Here we show that in absence of functional ABI3, a prominent member of the B3 superfamily of transcription factors, root regeneration is compromised in Arabidopsis callus cells. In culture medium free of any exogenous hormone supplementation, while adventitious root emergence and growth was prominently observed in wild type cells, no such features were observed in abi3-6 cells. Expression of auxin-responsive AUX1 and GH3 genes was significantly reduced in abi3-6 cells, indicating that auxin levels or distribution may be altered in absence of ABI3.


Asunto(s)
Proteínas de Arabidopsis/metabolismo , Arabidopsis/metabolismo , Arabidopsis/genética , Arabidopsis/fisiología , Proteínas de Arabidopsis/genética , Callo Óseo/metabolismo , Callo Óseo/fisiología , Regulación de la Expresión Génica de las Plantas , Raíces de Plantas/genética , Raíces de Plantas/metabolismo , Raíces de Plantas/fisiología , Transducción de Señal , Factores de Transcripción/metabolismo
9.
Biomech Model Mechanobiol ; 19(6): 2307-2322, 2020 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-32524288

RESUMEN

In bone fracture healing, new tissue gradually forms, ossifies, and eventually remodels itself to restore mechanical stiffness and strength across injury site. Mechanical strain at the fracture site has been implicated in controlling the process of healing and numerical mechanoregulation models with strain-based fuzzy logic rules have been applied to simulate bone healing for simple fracture geometries. However, many of these simplified models cannot capture in vivo observations such as delays in healing with torsional instability or differences in healing rate between different fracture types. Accordingly, the purpose of this work was to apply a fuzzy logic mechanoregulation fracture healing simulation technique to 3D models representing a range of clinically inspired fracture geometries with intramedullary nail fixation and multiaxial loading conditions. The models predicted that the rate of healing depends on the geometry of the fracture and that all fracture types experience a small healing delay with torsional instability. The results also indicated that when realistic torsional loading and fixator mechanics are included, previously published strain-based rules for tissue destruction lead to simulated nonunions that would not be expected in vivo. This suggested that fracture healing may be more robust to distortional strain than has been previously reported and that fuzzy logic models may require parameter tuning to correctly capture clinically relevant healing. The strengths of this study are that it includes fracture morphology effects, realistic implant mechanics, and an exploratory adaptation of the upper distortional strain threshold. These findings may help future researchers extend these methods into clinical fracture healing prediction.


Asunto(s)
Curación de Fractura/fisiología , Fracturas Óseas , Mecanotransducción Celular/fisiología , Algoritmos , Animales , Huesos/fisiología , Callo Óseo/fisiología , Fuerza Compresiva , Simulación por Computador , Análisis de Elementos Finitos , Fijación de Fractura/métodos , Lógica Difusa , Humanos , Modelos Biológicos , Distribución de Poisson , Estrés Mecánico
10.
PLoS One ; 15(3): e0229127, 2020.
Artículo en Inglés | MEDLINE | ID: mdl-32134943

RESUMEN

Vibration acceleration through whole body vibration has been reported to promote fracture healing. However, the mechanism responsible for this effect remains unclear. Purpose of this study was to determine whether vibration acceleration directly affects cells around the fracture site and promotes endochondral ossification. Four-week-old female Wistar Hannover rats were divided into two groups (vibration [V group] and control [C group]). The eighth ribs on both sides were cut vertically using scissors. From postoperative day 3 to 11, vibration acceleration using Power Plate® (30 Hz, low amplitude [30-Low], 10 min/day) was applied in the V group. Mature calluses appeared earlier in the V group than in the C group by histological analysis. The GAG content in the fracture callus on day 6 was significantly higher in the V group than in the C group. The mRNA expressions of SOX-9, aggrecan, and Col-II in the fracture callus on day 6 and Col-X on day 9 were significantly higher in the V group than in the C group. For in vitro analysis, four different conditions of vibration acceleration (30 or 50 Hz with low or high amplitude [30-Low, 30-High, 50-Low, and 50-High], 10 min/day) were applied to a prechondrogenic cell (ATDC5) and an undifferentiated cell (C3H10T1/2). There was no significant difference in cell proliferation between the control and any of the four vibration conditions for both cell lines. For both cell lines, alcian blue staining was greater under 30-Low and 50-Low conditions than under control as well as 30-High and 50-High conditions on days 7 and 14. Vibration acceleration under 30-L condition upregulated chondrogenic gene expressions of SOX-9, aggrecan, Col-II, and Col-X. Low-amplitude vibration acceleration can promote endochondral ossification in the fracture healing in vivo and chondrogenic differentiation in vitro.


Asunto(s)
Diferenciación Celular , Condrocitos/fisiología , Condrogénesis/fisiología , Curación de Fractura/fisiología , Osteogénesis/fisiología , Vibración , Aceleración , Animales , Fenómenos Biomecánicos/fisiología , Callo Óseo/fisiología , Células Cultivadas , Femenino , Fracturas Óseas/fisiopatología , Fracturas Óseas/terapia , Ratas , Ratas Wistar , Vibración/uso terapéutico
11.
Eur J Orthop Surg Traumatol ; 30(4): 643-651, 2020 May.
Artículo en Inglés | MEDLINE | ID: mdl-31865455

RESUMEN

BACKGROUND: Interest around carbon/PEEK plates and nails has been raising. The elastic modulus close to the bone, the high load-carrying capacity and radiolucency make CFR/PEEK materials a potential breakthrough. In the literature, there are abundant data about CFR/PEEK plates in the treatment of proximal humerus, distal radius and distal fibula fractures. In patients affected by bone metastasis, CFR/PEEK nails were proved effective and safe with 12 months of follow-up. Very little is known about performances of CFR/PEEK nails in patients affected by other pathologies. PURPOSES: The aim of the study was to evaluate safety and efficacy of CFR/PEEK nails in the treatment of various pathological conditions. It was also investigated whatever radiolucency of this nails could lead to a more objective evaluation of bone callus or disease site. PATIENTS AND METHODS: In the study group were included 20 patients (22 bone segments) who underwent CFR/PEEK nail implantation (eight humerus, one tibia, nine femur and four knee arthrodesis). They were affected by pathological fractures, and in four cases, they required an arthrodesis of the knee. They were retrospectively evaluated considering nail failures and bone callus or disease progression (RUSH scores). Mean follow-up time was 11 months (min 6.8-max 20.3). In the control group were included patients treated with titanium nails in the same institution for the same pathologies. An interclass correlation coefficient (ICC) analysis was performed in both groups considering RUSH scores by two expert surgeon from two institution to assess whether radiolucency could lead to a more objective evaluation of disease or bone callus site. RESULTS: The ICC of mean values between RUSH scores was 0.882 (IC 95%: 0.702-0.953) in the CFR/PEEK group, while it was 0.778 (IC 95%: 0.41-0.91) in the titanium group. Observers' evaluation showed a significantly higher obscuration by titanium nails than by CFR/PEEK nails. No osteosynthesis failures were reported in both groups. CONCLUSIONS: Our results confirm the safety of CFR/PEEK nails in the short-medium term. The radiolucency of these materials led our observers to perform more objective evaluations of bone callus formation or disease progression compared to the titanium group given the higher ICC. LEVEL OF EVIDENCE: III Case-control therapeutic study.


Asunto(s)
Clavos Ortopédicos , Neoplasias Óseas , Callo Óseo , Fibra de Carbono/uso terapéutico , Fracturas del Fémur , Fijación Intramedular de Fracturas , Fracturas del Húmero , Cetonas/uso terapéutico , Polietilenglicoles/uso terapéutico , Fracturas de la Tibia , Artrodesis/instrumentación , Artrodesis/métodos , Benzofenonas , Materiales Biocompatibles/uso terapéutico , Neoplasias Óseas/complicaciones , Neoplasias Óseas/secundario , Neoplasias Óseas/terapia , Callo Óseo/diagnóstico por imagen , Callo Óseo/fisiología , Progresión de la Enfermedad , Módulo de Elasticidad , Femenino , Fracturas del Fémur/etiología , Fracturas del Fémur/patología , Fracturas del Fémur/cirugía , Fijación Intramedular de Fracturas/instrumentación , Fijación Intramedular de Fracturas/métodos , Fracturas Espontáneas/cirugía , Humanos , Fracturas del Húmero/etiología , Fracturas del Húmero/patología , Fracturas del Húmero/cirugía , Articulación de la Rodilla/patología , Articulación de la Rodilla/cirugía , Masculino , Persona de Mediana Edad , Oseointegración/fisiología , Polímeros , Radioterapia/métodos , Fracturas de la Tibia/etiología , Fracturas de la Tibia/patología , Fracturas de la Tibia/cirugía , Resultado del Tratamiento , Soporte de Peso
12.
J Orthop Surg Res ; 14(1): 206, 2019 Jul 05.
Artículo en Inglés | MEDLINE | ID: mdl-31277691

RESUMEN

BACKGROUND: The positive effects of grape seed proanthocyanidin extract (GSPE) on bone health, which is a potent antioxidant, are known but its effects on fracture healing are not sufficiently covered in the literature. This study aims to investigate the effects of GSPE on fracture healing and biomechanics of healing bone. MATERIALS AND METHODS: Sixty-four adult Wistar-Albino male rats were divided into 8 groups of 8 animals in each group. Osteotomy was performed to the right femurs of all groups except the negative control (G1) and positive control (G2) groups, and intramedullary Kirchner wire was used for fixation. GSPE was given to half of the rats (G2-G4-G6-G8) 100 mg/kg/day by oral gavage. The rats were sacrificed on the tenth (G3-G4), twentieth (G5-G6), and thirtieth (G1-G2-G7-G8) days, respectively, and histopathological, radiological, and biomechanical examinations were performed. RESULTS: Histopathological examination of the specimens from the callus tissues revealed that bone healing was more prominent in the groups supplemented with GSPE (G4, G6, G8). There was a statistically significant improvement in radiological recovery scores and callus volumes in groups with GSPE. When biomechanical strengths were evaluated, it was found that GSPE increased bone strength not only in fracture groups but also in the positive control group (G2). CONCLUSIONS: As a result, this study showed that GSPE, a potent anti-oxidant, had a positive effect on bone healing and improved mechanical strength of the healing bone.


Asunto(s)
Callo Óseo/efectos de los fármacos , Callo Óseo/diagnóstico por imagen , Fuerza Compresiva/efectos de los fármacos , Fémur/efectos de los fármacos , Fémur/diagnóstico por imagen , Extracto de Semillas de Uva/administración & dosificación , Animales , Antioxidantes/administración & dosificación , Fenómenos Biomecánicos/fisiología , Callo Óseo/fisiología , Fuerza Compresiva/fisiología , Suplementos Dietéticos , Fémur/lesiones , Masculino , Ratas , Ratas Wistar
13.
Int J Numer Method Biomed Eng ; 35(9): e3227, 2019 09.
Artículo en Inglés | MEDLINE | ID: mdl-31197959

RESUMEN

In silico models of distraction osteogenesis and fracture healing usually assume constant mechanical properties for the new bone tissue generated. In addition, these models do not always account for the porosity of the woven bone and its evolution. In this study, finite element analyses based on computed tomography (CT) are used to predict the stiffness of the callus until 69 weeks after surgery using 15 CT images obtained at different stages of an experiment on bone transport, technique in which distraction osteogenesis is used to correct bone defects. Three different approaches were used to assign the mechanical properties to the new bone tissue. First, constant mechanical properties of the hard callus tissue and no porosity were assumed. Nevertheless, this approach did not show good correlations. Second, random variations in the elastic modulus and porosity of the woven bone were taken from previous experimental studies. Finally, the elastic properties of each element were assigned depending on gray scale in CT images. The numerically predicted callus stiffness was compared with previous in vivo measurements. It was concluded firstly that assignment depending on gray scale is the method that provides the best results and secondly that the method that considers a random distribution of porosity and elastic modulus of the callus is also suitable to predict the callus stiffness from 15 weeks after surgery. This finding provides a method for assigning the material properties of the distraction callus, which does not require CT images and may contribute to improve current in silico models.


Asunto(s)
Callo Óseo/fisiología , Callo Óseo/cirugía , Modelos Biológicos , Osteogénesis por Distracción/estadística & datos numéricos , Animales , Fenómenos Biomecánicos , Ingeniería Biomédica , Callo Óseo/diagnóstico por imagen , Simulación por Computador , Módulo de Elasticidad , Femenino , Análisis de Elementos Finitos , Curación de Fractura/fisiología , Humanos , Imagenología Tridimensional , Modelos Anatómicos , Porosidad , Oveja Doméstica , Estrés Mecánico , Tomografía Computarizada por Rayos X
14.
J Orthop Res ; 37(5): 1164-1171, 2019 05.
Artículo en Inglés | MEDLINE | ID: mdl-30839117

RESUMEN

Diagnostic monitoring and prediction of bone fracture healing is critical for the detection of delayed union or non-union and provides the requisite information as to whether therapeutic intervention or timely revision are warranted. A promising approach to monitor fracture healing is to measure the mechanical load-sharing between the healing callus and the implanted hardware used for internal fixation. The objectives of this study were to evaluate a non-invasive measurement system in which an antenna electromagnetically couples with the implanted hardware to sense deflections of the hardware due to an applied load and to investigate the efficacy of the system to detect changes in mechanical load-sharing in an ex vivo fracture healing model. The measurement system was applied to ovine metatarsal bones treated with osteotomies, resulting in four different levels of bone stability which simulated various degrees of fracture healing. Computational finite element simulations supplemented these ex vivo experiments to compare the osteotomy model of fracture healing to a more clinically applicable callus stiffening model of healing. In the ex vivo experiments, the electromagnetic coupling system detected significant differences between the four simulated degrees of healing with good repeatability. Computational simulations indicated that the experimental model of fracture healing provided a good surrogate for studying healing during the early time period as the callus stiffness is increasing as well as when diagnostic monitoring of the healing process is most critical. Based upon the data reported herein, the direct electromagnetic coupling method holds strong potential for clinical assessments and predictions of fracture healing. © 2019 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res.


Asunto(s)
Curación de Fractura , Monitoreo Fisiológico/métodos , Animales , Callo Óseo/fisiología , Fenómenos Electromagnéticos , Análisis de Elementos Finitos , Fijadores Internos , Monitoreo Fisiológico/instrumentación , Ovinos , Telemetría , Soporte de Peso
15.
Acta Cir Bras ; 34(1): e20190010000002, 2019 Feb 14.
Artículo en Inglés | MEDLINE | ID: mdl-30785503

RESUMEN

PURPOSE: To evaluate the effects of food restriction on fracture healing in growing rats. METHODS: Sixty-eight male Wistar rats were assigned to two groups: (1) Control and (2) Dietary restriction. After weaning the dietary restricted animals were fed ad libitum for 42 days with 50% of the standard chow ingested by the control group. Subsequently, the animals underwent bone fracture at the diaphysis of the right femur, followed by surgical stabilization of bone fragments. On days 14 and 28 post-fracture, the rats were euthanized, and the fractured femurs were dissected, the callus was analyzed by dual-energy X-ray absorptiometry, micro-computed tomography, histomorphometry, mechanical tests, and gene expression. RESULTS: Dietary restriction decreased body mass gain and resulted in several phenotypic changes at the bone callus (a delay in cell proliferation and differentiation, lower rate of newly formed bone and collagen deposition, reductions in bone callus density and size, decrease in tridimensional callus volume, deterioration in microstructure, and reduction in bone callus strength), together with the downregulated expression of osteoblast-related genes. CONCLUSION: Dietary restriction had detrimental effects on osseous healing, with a healing delay and a lower quality of bone callus formation.


Asunto(s)
Densidad Ósea/fisiología , Callo Óseo/fisiología , Fracturas del Fémur/fisiopatología , Curación de Fractura/fisiología , Fracturas Cerradas/fisiopatología , Desnutrición , Animales , Fracturas del Fémur/diagnóstico por imagen , Fijación Intramedular de Fracturas , Fracturas Cerradas/diagnóstico por imagen , Masculino , Osteoporosis/prevención & control , Ratas , Ratas Wistar
16.
J Craniomaxillofac Surg ; 47(3): 454-460, 2019 Mar.
Artículo en Inglés | MEDLINE | ID: mdl-30683623

RESUMEN

INTRODUCTION: In edentulous patients the form and size of the maxillary sinus vary greatly. Therefore sinus floor augmentation is a standard procedure for implantological purposes. As the sinus membrane cannot be characterized as periosteum, various augmentation materials are used. HYPOTHESIS: an artificially generated space underneath the sinus membrane in the floor of the sinus will lead to spontaneous callus forming and a stable bony consolidation without augmentation material. METHODS: Ten edentulous patients with highly atrophic maxillae were selected. Augmentation of the sinus floor was carried out in a split-mouth study design: On one side a combination of autogenous and xenogenous bone was used, and on the contralateral side a sinus membrane elevation was performed without using any substitutes. After a 6-month interval bone specimens from the test regions were harvested during implant placement. RESULTS: Clear histological evidence of new bone formation was found in all human bone specimens. An active de-novo bone formation process could be proven by the presence of Haversian systems (osteons) displaying osteoblastic and osteoclastic activity. CONCLUSION: In the maxillary sinus of edentulous patients a spontaneous callus-derived de-novo bone formation is possible by elevating the sinus membrane without using augmentation materials.


Asunto(s)
Regeneración Ósea/fisiología , Sustitutos de Huesos , Ilion/trasplante , Seno Maxilar/cirugía , Minerales , Boca Edéntula/cirugía , Elevación del Piso del Seno Maxilar/métodos , Trasplante Óseo/métodos , Callo Óseo/fisiología , Humanos , Osteogénesis/fisiología
17.
J Orthop Res ; 37(1): 35-50, 2019 01.
Artículo en Inglés | MEDLINE | ID: mdl-30370699

RESUMEN

The biology of bone healing is a rapidly developing science. Advances in transgenic and gene-targeted mice have enabled tissue and cell-specific investigations of skeletal regeneration. As an example, only recently has it been recognized that chondrocytes convert to osteoblasts during healing bone, and only several years prior, seminal publications reported definitively that the primary tissues contributing bone forming cells during regeneration were the periosteum and endosteum. While genetically modified animals offer incredible insights into the temporal and spatial importance of various gene products, the complexity and rapidity of healing-coupled with the heterogeneity of animal models-renders studies of regenerative biology challenging. Herein, cells that play a key role in bone healing will be reviewed and extracellular mediators regulating their behavior discussed. We will focus on recent studies that explore novel roles of inflammation in bone healing, and the origins and fates of various cells in the fracture environment. © 2018 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res.


Asunto(s)
Curación de Fractura/inmunología , Osteogénesis , Transducción de Señal , Animales , Callo Óseo/fisiología , Condrocitos/fisiología , Células Progenitoras Endoteliales/fisiología , Humanos , Células Madre Mesenquimatosas/fisiología , Neovascularización Fisiológica , Osteoblastos/fisiología , Osteoclastos/fisiología
18.
Musculoskelet Surg ; 103(3): 257-262, 2019 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-30536224

RESUMEN

BACKGROUND: Elongation in patients with achondroplasia provides better overall skeletal proportionality and significantly improves such individuals' access to their perineal region to self-manage personal hygiene. This paper describes our surgical technique and outcomes for bilateral humeral lengthening in achondroplasia patients over 26 years. METHODS: Ours was a retrospective study of 55 patients with achondroplasia-related short stature, in whom bilateral humeral lengthening was performed from 1990 to 2016. We describe the surgical technique and analyze mean gain in humeral length, days using an external fixator, mean percentage of lengthening, external fixation index, type of callus, and complications. Pre- and postoperative radiographic measurements were obtained. Patients also were contacted by telephone and asked about their ability to perform peri-anal self-hygiene and about their overall satisfaction. RESULTS: In total, 110 humeri were lengthened (28 males and 27 females) with medium elongation of 9.5 cm on the right and 9.6 cm on the left, while averaging 220 days in an external fixator. We observed 14 minor complications. There was no significant association between pin position and type of callus, and elongation most often external and in the presence of a straight callus. Before elongation, 77.1% of patients reported difficulties with perineal hygiene and 85.4% could not put their hands in their pockets. Upon completion of lengthening, 100% could perform both tasks and 94.5% were very satisfied. CONCLUSIONS: Bilateral humeral elongation yields significant improvements in patient autonomy, with a relatively low complication rate and very high patient satisfaction.


Asunto(s)
Acondroplasia/cirugía , Alargamiento Óseo/métodos , Húmero/cirugía , Acondroplasia/diagnóstico por imagen , Adolescente , Adulto , Alargamiento Óseo/efectos adversos , Alargamiento Óseo/psicología , Callo Óseo/fisiología , Niño , Fijadores Externos , Femenino , Humanos , Húmero/anatomía & histología , Húmero/diagnóstico por imagen , Higiene , Masculino , Satisfacción del Paciente , Complicaciones Posoperatorias , Estudios Retrospectivos , Autocuidado , Factores de Tiempo , Resultado del Tratamiento , Adulto Joven
19.
Acta cir. bras ; 34(1): e20190010000002, 2019. graf
Artículo en Inglés | LILACS | ID: biblio-983685

RESUMEN

Abstract Purpose: To evaluate the effects of food restriction on fracture healing in growing rats. Methods: Sixty-eight male Wistar rats were assigned to two groups: (1) Control and (2) Dietary restriction. After weaning the dietary restricted animals were fed ad libitum for 42 days with 50% of the standard chow ingested by the control group. Subsequently, the animals underwent bone fracture at the diaphysis of the right femur, followed by surgical stabilization of bone fragments. On days 14 and 28 post-fracture, the rats were euthanized, and the fractured femurs were dissected, the callus was analyzed by dual-energy X-ray absorptiometry, micro-computed tomography, histomorphometry, mechanical tests, and gene expression. Results: Dietary restriction decreased body mass gain and resulted in several phenotypic changes at the bone callus (a delay in cell proliferation and differentiation, lower rate of newly formed bone and collagen deposition, reductions in bone callus density and size, decrease in tridimensional callus volume, deterioration in microstructure, and reduction in bone callus strength), together with the downregulated expression of osteoblast-related genes. Conclusion: Dietary restriction had detrimental effects on osseous healing, with a healing delay and a lower quality of bone callus formation.


Asunto(s)
Animales , Masculino , Ratas , Callo Óseo/fisiología , Densidad Ósea/fisiología , Curación de Fractura/fisiología , Desnutrición , Fracturas del Fémur/fisiopatología , Fracturas Cerradas/fisiopatología , Osteoporosis/prevención & control , Ratas Wistar , Fracturas del Fémur/diagnóstico por imagen , Fijación Intramedular de Fracturas , Fracturas Cerradas/diagnóstico por imagen
20.
Anat Rec (Hoboken) ; 301(12): 2112-2121, 2018 12.
Artículo en Inglés | MEDLINE | ID: mdl-30290071

RESUMEN

Computational simulations of fracture healing are a valuable tool to improve fracture treatment and implants. Several finite-element models have been established to predict callus formation due to mechanobiological rules. This work provides a comprehensive simulation for virtual implantation through the combination of callus simulation and finite-element structural synthesis (FESS) of (re-)modeling during and after healing based on Pauwel's theory of histogenesis and Wolff's law. The simulation is based on a linear elastic material model and includes generation of fracture hematoma and initial mesenchymal stem cell concentration out of an unspecified solid, cell proliferation, migration, and differentiation due to mechanical stimuli and time-dependent axial loading. Three nondisplaced femoral shaft fractures with initial interfragmentary movement of 0.2, 0.6, and 1 mm and one fracture with 4 mm translation are modeled. The predictions of interfragmentary movement during fracture healing, healing success, and healing time agree with observed clinical outcome, animal models, and other numerical models. Initial interfragmentary movement between 0.2 and 1 mm leads to healing success, with the fastest healing occurring at 0.2 mm. The model of the dislocated fractures shows no further bending after remodeling and is loaded with physiological stress of -13 MPa. Ideal load-time graphs may give insight into the bone's ability to withstand loads as healing time progresses, and thus holds potential for applications in rehabilitation planning. Better knowledge of the forces present during fracture healing is needed to deploy simulations for surgical planning and manufacturing of patient individualized implants. Anat Rec, 301:2112-2121, 2018. © 2018 Wiley Periodicals, Inc.


Asunto(s)
Remodelación Ósea/fisiología , Callo Óseo/fisiología , Análisis de Elementos Finitos , Curación de Fractura/fisiología , Fracturas Óseas/fisiopatología , Modelos Biológicos , Animales , Fenómenos Biomecánicos/fisiología , Humanos
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