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Literature DB >> 29275300

Three-Dimensional Printing-based Reconstruction of a Maxillary Bone Defect in a Dog Following Tumor Removal.

Se Eun Kim^1,2, Kyung Mi Shim^1,2, Kwangsik Jang^1,2, Jin-Hyung Shim³, Seong Soo Kang^4,2.

Abstract

Three-dimensional (3D) printing has been applied extensively not only in human, but also veterinary medicine. However, the technique is still used in the clinical area for a surgical plan or education prior to surgery. Thus, we report a case of reconstruction after tumor removal surgery with the use of a 3D-printed scaffold. A 12-year-old female mixed dog had a left caudal maxillary mass. Based on computed tomography images, a defect was confirmed on the maxillary bone due to the oral mass, and a surgical plan was designed to remove the oral mass and graft the 3D printed scaffold. Customized polycaprolactone/ beta-tracalciumphosphate (PCL/β-TCP) scaffold was fabricated using the micro-extrusion-based 3D printer. In the operation, after the removal of the oral mass, the scaffold was grafted onto the defect site. At follow-up, 8 months after surgery, the result was successful without any special problems in the periodic CT scans and oral examinations. This case is believed to be the first case of reconstruction by using a 3D printed scaffold in the maxillary bone defect, and this 3D printing technique is thought to be very helpful for veterinary patients with bone defects and several other diseases. Copyright

Entities: Chemical Disease Species

Keywords: 3D printing; PCL/β-TCP scaffold; dog; oral tumor

Mesh：

Substances：

Year: 2018 PMID： 29275300 PMCID： PMC5892642 DOI： 10.21873/invivo.11205

Source DB: PubMed Journal: In Vivo ISSN： 0258-851X Impact factor: 2.155

16 in total

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Journal: Surgery Date: 2016-01-30 Impact factor: 3.982

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Authors: B N Sarowitz; G J Davis; S Kim
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7. Evaluation of osteoconductive scaffolds in the canine femoral multi-defect model.

Authors: Viviane Luangphakdy; Esteban Walker; Kentaro Shinohara; Hui Pan; Theresa Hefferan; Thomas W Bauer; Linda Stockdale; Sunil Saini; Mahrokh Dadsetan; M Brett Runge; Amit Vasanji; Linda Griffith; Michael Yaszemski; George F Muschler
Journal: Tissue Eng Part A Date: 2013-03 Impact factor: 3.845

8. Three-dimensional printing of rhBMP-2-loaded scaffolds with long-term delivery for enhanced bone regeneration in a rabbit diaphyseal defect.

Authors: Jin-Hyung Shim; Se Eun Kim; Ju Young Park; Joydip Kundu; Sung Won Kim; Seong Soo Kang; Dong-Woo Cho
Journal: Tissue Eng Part A Date: 2014-03-21 Impact factor: 3.845

9. Results of partial mandibulectomy for the treatment of oral tumors in 142 dogs.

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Journal: Vet Surg Date: 1991 Nov-Dec Impact factor: 1.495

Review 10. 3D modeling, custom implants and its future perspectives in craniofacial surgery.

Authors: Jayanthi Parthasarathy
Journal: Ann Maxillofac Surg Date: 2014-01

7 in total

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Authors: Yifan Gu; Jing Zhang; Xinzhi Zhang; Guiping Liang; Tao Xu; Wei Niu
Journal: Tissue Eng Regen Med Date: 2019-06-17 Impact factor: 4.169

Review 2. Imaging in Non-neurologic Oncologic Treatment Planning of the Head and Neck.

Authors: Katherine S Hansen; Michael S Kent
Journal: Front Vet Sci Date: 2019-03-28

Review 3. 3D Printing: Applications in Tissue Engineering, Medical Devices, and Drug Delivery.

Authors: B G Pavan Kalyan; Lalit Kumar
Journal: AAPS PharmSciTech Date: 2022-03-17 Impact factor: 4.026

4. 3D Culture of Bone Marrow-Derived Mesenchymal Stem Cells (BMSCs) Could Improve Bone Regeneration in 3D-Printed Porous Ti6Al4V Scaffolds.

Authors: Lingjia Yu; Yuanhao Wu; Jieying Liu; Bo Li; Bupeng Ma; Yaqian Li; Zhenfei Huang; Yu He; Hai Wang; Zhihong Wu; Guixing Qiu
Journal: Stem Cells Int Date: 2018-09-05 Impact factor: 5.443