Design and Fabrication of 3D printed Scaffolds with a Mechanical Strength Comparable to Cortical Bone to Repair Large Bone Defects

Abstractthe reconstruction of large bone defects (12 cm3) remains a challenge for clinicians. We developed a new critical-size mandibular bone defect model on a mini-pig, close to human clinical issues. We analyzed the bone reconstruction obtained by a 3D printed scaffold made of clinical-grade PLA, coated with a polyelectrolyte film delivering an osteogenic bioactive molecule (BMP-2). We compared the results (CT-scan, μCT, histology) to the gold standard solution, bone autograft. We demonstrated that the dose of BMP-2 delivered from the scaffold significantly influenced the amount of regenerated bone and the repair kinetics, with a clear BMP-2 dose-dependence. Bone was homogeneously formed inside the scaffold without ectopic bone formation. The bone repair was as good as for the bone autograft. The BMP-2 doses applied in our study were reduced 20 to 75-fold compared to the commercial collagen sponges used in the current clinical applications, without any adverse effects. 3D printed PLA scaffolds loaded with reduced doses of BMP-2 can be a safe and simple solution for large bone defects faced in the clinic.

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3D-Printed Individualized Porous Implants for Large Bone Defects: Novel Therapeutic Approach Involving 'Implant-Bone' Interface Fusion

SSRN Electronic Journal ◽

10.2139/ssrn.3761829 ◽

2021 ◽

Author(s):

Teng Zhang ◽

Qingguang Wei ◽

Hua Zhou ◽

Zehao Jing ◽

Xiaoguang Liu ◽

...

Keyword(s):

Therapeutic Approach ◽

Bone Defects ◽

Bone Interface ◽

3D Printed ◽

Large Bone ◽

Large Bone Defects ◽

Novel Therapeutic

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Investigating the Influence of Architecture and Material Composition of 3D Printed Anatomical Design Scaffolds for Large Bone Defects

International Journal of Bioprinting ◽

10.18063/ijb.v7i2.268 ◽

2021 ◽

Vol 7 (2) ◽

Author(s):

Evangelos Daskalakis ◽

Fengyuan Liu ◽

Boyang Huang ◽

Anil A. Acar ◽

Glen Cooper ◽

...

Keyword(s):

Mechanical Properties ◽

Calcium Phosphate ◽

Cost Effective ◽

Bone Defects ◽

Material Composition ◽

Biodegradable Materials ◽

3D Printed ◽

Large Bone ◽

Different Levels ◽

Large Bone Defects

There is a significant unmet clinical need to prevent amputations due to large bone loss injuries. We are addressing this problem by developing a novel, cost-effective osseointegrated prosthetic solution based on the use of modular pieces, bone bricks, made with biocompatible and biodegradable materials that fit together in a Lego-like way to form the prosthesis. This paper investigates the anatomical designed bone bricks with different architectures, pore size gradients, and material compositions. Polymer and polymer-composite 3D printed bone bricks are extensively morphological, mechanical, and biological characterized. Composite bone bricks were produced by mixing polycaprolactone (PCL) with different levels of hydroxyapatite (HA) and β-tri-calcium phosphate (TCP). Results allowed to establish a correlation between bone bricksarchitecture and material composition and bone bricks performance. Reinforced bone bricks showed improved mechanical and biological results. Best mechanical properties were obtained with PCL/TCP bone bricks with 38 double zig-zag filaments and 14 spiral-like pattern filaments, while the best biological results were obtained with PCL/HA bone bricks based on 25 double zig-zag filaments and 14 spiral-like pattern filaments.

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3D-printed magnetic Fe3O4/MBG/PCL composite scaffolds with multifunctionality of bone regeneration, local anticancer drug delivery and hyperthermia

Journal of Materials Chemistry B ◽

10.1039/c4tb01063a ◽

2014 ◽

Vol 2 (43) ◽

pp. 7583-7595 ◽

Cited By ~ 121

Author(s):

Jianhua Zhang ◽

Shichang Zhao ◽

Min Zhu ◽

Yufang Zhu ◽

Yadong Zhang ◽

...

Keyword(s):

Drug Delivery ◽

Bone Regeneration ◽

Tumor Resection ◽

Bone Defects ◽

Composite Scaffolds ◽

Anticancer Drug Delivery ◽

3D Printed ◽

Large Bone ◽

Large Bone Defects ◽

Magnetic Fe3o4

The 3D-printed Fe3O4/MBG/PCL scaffolds with potential multifunctionality would be promising for use in the treatment and regeneration of large bone defects after tumor resection.

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Use of Adipose Derived Stem Cells to Treat Large Bone Defects. Addendum

10.21236/ada586568 ◽

2009 ◽

Author(s):

Barbara D. Boyan ◽

Robert E. Gulderg

Keyword(s):

Stem Cells ◽

Bone Defects ◽

Adipose Derived Stem Cells ◽

Large Bone ◽

Large Bone Defects

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Factors related to large bone defects of bipolar lesions and a high number of instability episodes with anterior glenohumeral instability

Journal of Orthopaedic Surgery and Research ◽

10.1186/s13018-021-02395-5 ◽

2021 ◽

Vol 16 (1) ◽

Author(s):

Noboru Matsumura ◽

Kazuya Kaneda ◽

Satoshi Oki ◽

Hiroo Kimura ◽

Taku Suzuki ◽

...

Keyword(s):

Humeral Head ◽

Glenohumeral Joint ◽

Three Dimensional ◽

Clinical Results ◽

Bone Defects ◽

Symptom Duration ◽

Glenohumeral Instability ◽

Explanatory Variables ◽

Large Bone ◽

Large Bone Defects

Abstract Background Significant bone defects are associated with poor clinical results after surgical stabilization in cases of glenohumeral instability. Although multiple factors are thought to adversely affect enlargement of bipolar bone loss and increased shoulder instability, these factors have not been sufficiently evaluated. The purpose of this study was to identify the factors related to greater bone defects and a higher number of instability episodes in patients with glenohumeral instability. Methods A total of 120 consecutive patients with symptomatic unilateral instability of the glenohumeral joint were retrospectively reviewed. Three-dimensional surface-rendered/registered models of bilateral glenoids and proximal humeri from computed tomography data were matched by software, and the volumes of bone defects identified in the glenoid and humeral head were assessed. After relationships between objective variables and explanatory variables were evaluated using bivariate analyses, factors related to large bone defects in the glenoid and humeral head and a high number of total instability episodes and self-irreducible dislocations greater than the respective 75th percentiles were evaluated using logistic regression analyses with significant variables on bivariate analyses. Results Larger humeral head defects (P < .001) and a higher number of total instability episodes (P = .032) were found to be factors related to large glenoid defects. On the other hand, male sex (P = .014), larger glenoid defects (P = .015), and larger number of self-irreducible dislocations (P = .027) were related to large humeral head bone defects. An increased number of total instability episodes was related to longer symptom duration (P = .001) and larger glenoid defects (P = .002), and an increased number of self-irreducible dislocations was related to larger humeral head defects (P = .007). Conclusions Whereas this study showed that bipolar lesions affect the amount of bone defects reciprocally, factors related to greater bone defects differed between the glenoid and the humeral head. Glenoid defects were related to the number of total instability episodes, whereas humeral head defects were related to the number of self-irreducible dislocations.

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Vascularization of Nanohydroxyapatite/Collagen/Poly(L-lactic acid) Composites by Implanting Intramuscularly In Vivo

International Journal of Polymer Science ◽

10.1155/2014/153453 ◽

2014 ◽

Vol 2014 ◽

pp. 1-5 ◽

Cited By ~ 1

Author(s):

Hai Wang ◽

Xiao Chang ◽

Guixing Qiu ◽

Fuzhai Cui ◽

Xisheng Weng ◽

...

Keyword(s):

Lactic Acid ◽

Orthopaedic Surgery ◽

Bone Substitutes ◽

Bone Defects ◽

Large Defect ◽

Natural Bone ◽

Composition And Structure ◽

Large Bone ◽

Large Bone Defects

It still remains a major challenge to repair large bone defects in the orthopaedic surgery. In previous studies, a nanohydroxyapatite/collagen/poly(L-lactic acid) (nHAC/PLA) composite, similar to natural bone in both composition and structure, has been prepared. It could repair small sized bone defects, but they were restricted to repair a large defect due to the lack of oxygen and nutrition supply for cell survival without vascularization. The aim of the present study was to investigate whether nHAC/PLA composites could be vascularized in vivo. Composites were implanted intramuscularly in the groins of rabbits for 2, 6, or 10 weeks (n=5×3). After removing, the macroscopic results showed that there were lots of rich blood supply tissues embracing the composites, and the volumes of tissue were increasing as time goes on. In microscopic views, blood vessels and vascular sprouts could be observed, and microvessel density (MVD) of the composites trended to increase over time. It suggested that nHAC/PLA composites could be well vascularized by implanting in vivo. In the future, it would be possible to generate vascular pedicle bone substitutes with nHAC/PLA composites for grafting.

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