This study aimed to evaluate the clinical outcomes of a new multicomponent protocol for treating fractures of the nasal zygomatic orbital complex (NZOC) by integrating 3D-printed artificial bone implants, platelet-rich fibrin (PRF) membranes, minimally invasive surgical approaches, and elastography for objective structural assessment. A total of 197 patients (aged 18-65) with confirmed NCOC fractures were included in the study from 2014 to 2024 across three institutions. Inclusion criteria were a Karnofsky index≥70%, absence of severe systemic comorbidities, and patient consent. All patients underwent computer tomography (MSCT) and 3D reconstruction to determine fracture characteristics. In the study group, custom 3D-printed osteoconductive implants were placed along with titanium mini-plates and PRF membranes, using endoscopic-assisted repositioning for orbital floor and naso-orbital support
This study aimed to evaluate the clinical outcomes of a new multicomponent protocol for treating fractures of the nasal zygomatic orbital complex (NZOC) by integrating 3D-printed artificial bone implants, platelet-rich fibrin (PRF) membranes, minimally invasive surgical approaches, and elastography for objective structural assessment. A total of 197 patients (aged 18-65) with confirmed NCOC fractures were included in the study from 2014 to 2024 across three institutions. Inclusion criteria were a Karnofsky index≥70%, absence of severe systemic comorbidities, and patient consent. All patients underwent computer tomography (MSCT) and 3D reconstruction to determine fracture characteristics. In the study group, custom 3D-printed osteoconductive implants were placed along with titanium mini-plates and PRF membranes, using endoscopic-assisted repositioning for orbital floor and naso-orbital support
| № | Author name | position | Name of organisation |
|---|---|---|---|
| 1 | Iminov K.. | PhD | Tashkent Medical Academy |
| 2 | Boymuradov S.. | Professor | Tashkent Medical Academy |
| № | Name of reference |
|---|---|
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