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cylindrical (spinal) titanium mesh cages depuy  (Motech Industries)

 
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    Motech Industries cylindrical (spinal) titanium mesh cages depuy
    First case report from 1999 by Cobos et al. on the treatment of a patient (34-year-old) with post-traumatic segmental defect of the tibia (8.5 cm) with a <t>cylindrical</t> (spinal) titanium mesh cage in combination with cancellous bone allograft and demineralized bone matrix putty (Grafton) stabilized with an intramedullary nail. The titanium mesh cage was trimmed to 9 cm (diameter 2.2 cm) to fit the defect size and packed with allograft prior to implantation ( A ). Posterolateral callus consolidation around the cage on X-ray (views: ( B1 ): anterior–posterior; ( B2 ): lateral) 12 months post-reconstruction. Standing patient ( C1 ) and standing on the operated limb ( C2 ) at one-year follow-up. Adapted from Ref. , reproduced with permission from John Wiley & Sons, Inc.
    Cylindrical (Spinal) Titanium Mesh Cages Depuy, supplied by Motech Industries, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/cylindrical (spinal) titanium mesh cages depuy/product/Motech Industries
    Average 90 stars, based on 1 article reviews
    cylindrical (spinal) titanium mesh cages depuy - by Bioz Stars, 2026-04
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    Images

    1) Product Images from "The Concept of Scaffold-Guided Bone Regeneration for the Treatment of Long Bone Defects: Current Clinical Application and Future Perspective"

    Article Title: The Concept of Scaffold-Guided Bone Regeneration for the Treatment of Long Bone Defects: Current Clinical Application and Future Perspective

    Journal: Journal of Functional Biomaterials

    doi: 10.3390/jfb14070341

    First case report from 1999 by Cobos et al. on the treatment of a patient (34-year-old) with post-traumatic segmental defect of the tibia (8.5 cm) with a cylindrical (spinal) titanium mesh cage in combination with cancellous bone allograft and demineralized bone matrix putty (Grafton) stabilized with an intramedullary nail. The titanium mesh cage was trimmed to 9 cm (diameter 2.2 cm) to fit the defect size and packed with allograft prior to implantation ( A ). Posterolateral callus consolidation around the cage on X-ray (views: ( B1 ): anterior–posterior; ( B2 ): lateral) 12 months post-reconstruction. Standing patient ( C1 ) and standing on the operated limb ( C2 ) at one-year follow-up. Adapted from Ref. , reproduced with permission from John Wiley & Sons, Inc.
    Figure Legend Snippet: First case report from 1999 by Cobos et al. on the treatment of a patient (34-year-old) with post-traumatic segmental defect of the tibia (8.5 cm) with a cylindrical (spinal) titanium mesh cage in combination with cancellous bone allograft and demineralized bone matrix putty (Grafton) stabilized with an intramedullary nail. The titanium mesh cage was trimmed to 9 cm (diameter 2.2 cm) to fit the defect size and packed with allograft prior to implantation ( A ). Posterolateral callus consolidation around the cage on X-ray (views: ( B1 ): anterior–posterior; ( B2 ): lateral) 12 months post-reconstruction. Standing patient ( C1 ) and standing on the operated limb ( C2 ) at one-year follow-up. Adapted from Ref. , reproduced with permission from John Wiley & Sons, Inc.

    Techniques Used:

    Exemplary challenges and failures in the use of cylindrical titanium mesh cage implants for bone defects. X-ray of a 29-year-old male with a segmental tibial defect and treatment for definitive fixation with an intramedullary nail and cylindrical titanium mesh cage (DePuy Synthes) ( A ). The asterisks in A1 highlight the graft material four months after grafting, which is packed into and on the outer surface of the cylindrical mesh implant. After 90 months, there is stagnation in the bony consolidation on the surface of the implant (asterisks) compared to plain radiography findings after four months and, in particular, no evidence of a bony structure within the cylindrical titanium mesh cage (triangles) (( B1) : anterior–posterior; ( B2 ): lateral). Patient-specific titanium mesh implant (DePuy Synthes) packed with RIA system graft material implanted to treat a femoral defect ( C ). Twenty-eight months after implantation, a subtle but distinctive callus formed bridging the defect on the implant surface (( D ), asterisks indicating bone bridge). However, no bony consolidation was observed in the inner part of the titanium mesh. The triangles in D indicate that the mesh structure is radiolucent, which would not be possible if ABG remodelling and thus successful regeneration of the graft material of the RIA system had occurred. ( A , B ): reproduced from Supplement of Ref. , with permission from the British Editorial Society of Bone & Joint Surgery; ( C ): reproduced from Supplement of Ref. , reprinted with permission from American Association for the Advancement of Science (AAAS).
    Figure Legend Snippet: Exemplary challenges and failures in the use of cylindrical titanium mesh cage implants for bone defects. X-ray of a 29-year-old male with a segmental tibial defect and treatment for definitive fixation with an intramedullary nail and cylindrical titanium mesh cage (DePuy Synthes) ( A ). The asterisks in A1 highlight the graft material four months after grafting, which is packed into and on the outer surface of the cylindrical mesh implant. After 90 months, there is stagnation in the bony consolidation on the surface of the implant (asterisks) compared to plain radiography findings after four months and, in particular, no evidence of a bony structure within the cylindrical titanium mesh cage (triangles) (( B1) : anterior–posterior; ( B2 ): lateral). Patient-specific titanium mesh implant (DePuy Synthes) packed with RIA system graft material implanted to treat a femoral defect ( C ). Twenty-eight months after implantation, a subtle but distinctive callus formed bridging the defect on the implant surface (( D ), asterisks indicating bone bridge). However, no bony consolidation was observed in the inner part of the titanium mesh. The triangles in D indicate that the mesh structure is radiolucent, which would not be possible if ABG remodelling and thus successful regeneration of the graft material of the RIA system had occurred. ( A , B ): reproduced from Supplement of Ref. , with permission from the British Editorial Society of Bone & Joint Surgery; ( C ): reproduced from Supplement of Ref. , reprinted with permission from American Association for the Advancement of Science (AAAS).

    Techniques Used:



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    Image Search Results


    First case report from 1999 by Cobos et al. on the treatment of a patient (34-year-old) with post-traumatic segmental defect of the tibia (8.5 cm) with a cylindrical (spinal) titanium mesh cage in combination with cancellous bone allograft and demineralized bone matrix putty (Grafton) stabilized with an intramedullary nail. The titanium mesh cage was trimmed to 9 cm (diameter 2.2 cm) to fit the defect size and packed with allograft prior to implantation ( A ). Posterolateral callus consolidation around the cage on X-ray (views: ( B1 ): anterior–posterior; ( B2 ): lateral) 12 months post-reconstruction. Standing patient ( C1 ) and standing on the operated limb ( C2 ) at one-year follow-up. Adapted from Ref. , reproduced with permission from John Wiley & Sons, Inc.

    Journal: Journal of Functional Biomaterials

    Article Title: The Concept of Scaffold-Guided Bone Regeneration for the Treatment of Long Bone Defects: Current Clinical Application and Future Perspective

    doi: 10.3390/jfb14070341

    Figure Lengend Snippet: First case report from 1999 by Cobos et al. on the treatment of a patient (34-year-old) with post-traumatic segmental defect of the tibia (8.5 cm) with a cylindrical (spinal) titanium mesh cage in combination with cancellous bone allograft and demineralized bone matrix putty (Grafton) stabilized with an intramedullary nail. The titanium mesh cage was trimmed to 9 cm (diameter 2.2 cm) to fit the defect size and packed with allograft prior to implantation ( A ). Posterolateral callus consolidation around the cage on X-ray (views: ( B1 ): anterior–posterior; ( B2 ): lateral) 12 months post-reconstruction. Standing patient ( C1 ) and standing on the operated limb ( C2 ) at one-year follow-up. Adapted from Ref. , reproduced with permission from John Wiley & Sons, Inc.

    Article Snippet: The first clinical application of cylindrical (spinal) titanium mesh cages (DePuy Motech, Warsaw, IN, USA) was described in 1999 for combination with cancellous bone allograft and demineralized bone matrix for the reconstruction of posttraumatic diaphyseal tibial defects in two patients [ ].

    Techniques:

    Exemplary challenges and failures in the use of cylindrical titanium mesh cage implants for bone defects. X-ray of a 29-year-old male with a segmental tibial defect and treatment for definitive fixation with an intramedullary nail and cylindrical titanium mesh cage (DePuy Synthes) ( A ). The asterisks in A1 highlight the graft material four months after grafting, which is packed into and on the outer surface of the cylindrical mesh implant. After 90 months, there is stagnation in the bony consolidation on the surface of the implant (asterisks) compared to plain radiography findings after four months and, in particular, no evidence of a bony structure within the cylindrical titanium mesh cage (triangles) (( B1) : anterior–posterior; ( B2 ): lateral). Patient-specific titanium mesh implant (DePuy Synthes) packed with RIA system graft material implanted to treat a femoral defect ( C ). Twenty-eight months after implantation, a subtle but distinctive callus formed bridging the defect on the implant surface (( D ), asterisks indicating bone bridge). However, no bony consolidation was observed in the inner part of the titanium mesh. The triangles in D indicate that the mesh structure is radiolucent, which would not be possible if ABG remodelling and thus successful regeneration of the graft material of the RIA system had occurred. ( A , B ): reproduced from Supplement of Ref. , with permission from the British Editorial Society of Bone & Joint Surgery; ( C ): reproduced from Supplement of Ref. , reprinted with permission from American Association for the Advancement of Science (AAAS).

    Journal: Journal of Functional Biomaterials

    Article Title: The Concept of Scaffold-Guided Bone Regeneration for the Treatment of Long Bone Defects: Current Clinical Application and Future Perspective

    doi: 10.3390/jfb14070341

    Figure Lengend Snippet: Exemplary challenges and failures in the use of cylindrical titanium mesh cage implants for bone defects. X-ray of a 29-year-old male with a segmental tibial defect and treatment for definitive fixation with an intramedullary nail and cylindrical titanium mesh cage (DePuy Synthes) ( A ). The asterisks in A1 highlight the graft material four months after grafting, which is packed into and on the outer surface of the cylindrical mesh implant. After 90 months, there is stagnation in the bony consolidation on the surface of the implant (asterisks) compared to plain radiography findings after four months and, in particular, no evidence of a bony structure within the cylindrical titanium mesh cage (triangles) (( B1) : anterior–posterior; ( B2 ): lateral). Patient-specific titanium mesh implant (DePuy Synthes) packed with RIA system graft material implanted to treat a femoral defect ( C ). Twenty-eight months after implantation, a subtle but distinctive callus formed bridging the defect on the implant surface (( D ), asterisks indicating bone bridge). However, no bony consolidation was observed in the inner part of the titanium mesh. The triangles in D indicate that the mesh structure is radiolucent, which would not be possible if ABG remodelling and thus successful regeneration of the graft material of the RIA system had occurred. ( A , B ): reproduced from Supplement of Ref. , with permission from the British Editorial Society of Bone & Joint Surgery; ( C ): reproduced from Supplement of Ref. , reprinted with permission from American Association for the Advancement of Science (AAAS).

    Article Snippet: The first clinical application of cylindrical (spinal) titanium mesh cages (DePuy Motech, Warsaw, IN, USA) was described in 1999 for combination with cancellous bone allograft and demineralized bone matrix for the reconstruction of posttraumatic diaphyseal tibial defects in two patients [ ].

    Techniques: