Reconstruction of Ipsilateral Femoral and Tibial Bone Defect by 3D Printed Porous Scaffold Without Bone Graft

Abstract Background We present a case of an immense unprecedented tibial bone lengthening of 33.5 cm. The management of chronic osteomyelitis of the right tibia with subtotal tibial bone defect, talus defect and equinus ankle deformity. We demonstrate limb reconstruction by distraction osteogenesis and correction of ankle deformity with the Ilizarov technique. Limb salvage was preferred as an alternative to amputation to restore basic limb function. Case presentation A 16-year-old male patient fell and injured his right lower leg. He attempted to treat the symptoms with traditional home remedies. During 15 months of self-treating, he developed osteomyelitis of the right tibia and had lost function in his foot. Radiology revealed immense bone defect of the right tibia, including talus bone defect and equinus deformity of the calcaneus. The patient’s right tibia was non weight-bearing, had drainage sinus just below his knee and a large scar anteriorly along the entire length of the tibia. Conclusion Upon completion of treatment, the patient was able to avoid amputation of his leg with partially restored function for weight-bearing. He carried himself without assistance after 3 years of lost function in his right leg. Tibial bone distraction osteogenesis of 33.5 cm was done after 90% of the tibial length was defected. To the best of our best knowledge, this case is one of a kind to achieve distraction of tibial bone to such length.

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Repair of bone defect with vascularized tissue engineered bone graft seeded with mesenchymal stem cells in rabbits

Microsurgery ◽

10.1002/micr.20854 ◽

2011 ◽

Vol 31 (2) ◽

pp. 130-137 ◽

Cited By ~ 17

Author(s):

Mingdong Zhao ◽

Jian Zhou ◽

Xilei Li ◽

Taolin Fang ◽

Wenda Dai ◽

...

Keyword(s):

Stem Cells ◽

Mesenchymal Stem Cells ◽

Bone Graft ◽

Bone Defect

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3D-printed Poly-Lactic Co-Glycolic Acid (PLGA) scaffolds in non-critical bone defects impede bone regeneration in rabbit tibia bone

Bio-Medical Materials and Engineering ◽

10.3233/bme-216017 ◽

2021 ◽

pp. 1-7

Author(s):

Jin Xi Lim ◽

Min He ◽

Alphonsus Khin Sze Chong

Keyword(s):

Computed Tomography ◽

Bone Regeneration ◽

Bone Defect ◽

Volume Ratio ◽

Bone Defects ◽

Control Group ◽

Micro Computed Tomography ◽

Rabbit Tibia ◽

3D Printed ◽

Critical Bone Defects

BACKGROUND: An increasing number of bone graft materials are commercially available and vary in their composition, mechanism of action, costs, and indications. OBJECTIVE: A commercially available PLGA scaffold produced using 3D printing technology has been used to promote the preservation of the alveolar socket after tooth extraction. We examined its influence on bone regeneration in long bones of New Zealand White rabbits. METHODS: 5.0-mm-diameter circular defects were created on the tibia bones of eight rabbits. Two groups were studied: (1) control group, in which the bone defects were left empty; (2) scaffold group, in which the PLGA scaffolds were implanted into the bone defect. Radiography was performed every two weeks postoperatively. After sacrifice, bone specimens were isolated and examined by micro-computed tomography and histology. RESULTS: Scaffolds were not degraded by eight weeks after surgery. Micro-computed tomography and histology showed that in the region of bone defects that was occupied by scaffolds, bone regeneration was compromised and the total bone volume/total volume ratio (BV/TV) was significantly lower. CONCLUSION: The implantation of this scaffold impedes bone regeneration in a non-critical bone defect. Implantation of bone scaffolds, if unnecessary, lead to a slower rate of fracture healing.

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