Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Intraventricular Shunt Catheter Placement of Adult Normal Pressure Hydrocephalus Using an AxiEMTM Electromagnetic Neuronavigation System: A Single-Center Experience
CONCLUSION: The placement of the ventricular catheter under EM-guided navigation technology reduces the proximal-end failure caused by malpositioning, obstruction, and infection.PMID:38282586 | DOI:10.5137/1019-5149.JTN.41703-22.1 (Source: Turkish Neurosurgery)
Source: Turkish Neurosurgery - January 29, 2024 Category: Neurosurgery Authors: Mehdi Hekimoglu Talat Kiris Source Type: research
Exploring complications following cranioplasty after decompressive hemicraniectomy: A retrospective bicenter assessment of autologous, PMMA and CAD implants
AbstractCranioplasty (CP) after decompressive hemicraniectomy (DHC) is a common neurosurgical procedure with a high complication rate. The best material for the repair of large cranial defects is unclear. The aim of this study was to evaluate different implant materials regarding surgery related complications after CP. Type of materials include the autologous bone flap (ABF), polymethylmethacrylate (PMMA), calcium phosphate reinforced with titanium mesh (CaP-Ti), polyetheretherketone (PEEK) and hydroxyapatite (HA). A retrospective, descriptive, observational bicenter study was performed, medical data of all patients who un...
Source: Neurosurgical Review - January 29, 2024 Category: Neurosurgery Source Type: research
