Frameless stereotaxic integration of CT imaging data: accuracy and initial applications.
about
Basic principles and clinical applications of neuronavigation and intraoperative computed tomography.Is the head position during preoperative image data acquisition essential for the accuracy of navigated brain tumor surgery?Optical tracking of a microscope for image-guided intranasal sinus surgery.BrainLab VectorVision Neuronavigation System: technology and clinical experiences in 131 cases.Image-guided therapy and intraoperative MRI in neurosurgery.Accurate external localization of the left frontal cortex in dogs by using pointer based frameless neuronavigation.The silent loss of neuronavigation accuracy: a systematic retrospective analysis of factors influencing the mismatch of frameless stereotactic systems in cranial neurosurgery.Navigational risks associated with sinus surgery and the clinical effects of implementing a navigational system for sinus surgery.Practical Applications of Image-Guided Navigation during Anterior Craniofacial Resection.Endoscopic surgery of the anterior skull base.Multimodal navigated skull base tumor resection using image-based vascular and cranial nerve segmentation: A prospective pilot studyNoninvasive tracking of patient's head movements during computer-assisted intranasal microscopic surgery.Quantitative error analysis for computer assisted navigation: a feasibility studyEndoscopic trans-sphenoidal removal of cholesterol granuloma of the petrous apex: case report and literature review.Development of computer-aided surgery for otorhinolaryngology.The medical videoscope: neurosurgery into the 21st century.Computer-aided endoscopic sinus surgery.Advantages and disadvantages of three-dimensional computed tomography intraoperative localization for functional endoscopic sinus surgery.Three-dimensional reconstruction of the feline larynx with serial histologic sections.Interventional and intraoperative MRI: a general overview of the field.Passive marker computer-aided sinonasal and cranial base surgery: observations from a learning curve.3D image-guided surgery on the example of the 5,300-year-old Innsbruck Iceman.Transcranial magnetic stimulation and the challenge of coil placement: a comparison of conventional and stereotaxic neuronavigational strategies.Image-guided ultrasonography for recurrent cystic gliomas.Development and implementation of intraoperative magnetic resonance imaging and its neurosurgical applications.Intra-operative MR guidance during trans-sphenoidal pituitary resection: preliminary results.In-vitro assessment of a registration protocol for image guided implant dentistry.Application accuracy of automatic registration in frameless stereotaxy.Endoscopic sinus surgery using intraoperative computed tomography imaging for updating a three-dimensional navigation system.Image-guided surgery in a new magnetic resonance suite: preclinical considerations.Clinical introduction of an adjustable rigid instrument holder for frameless stereotactic interventions.Frameless stereotactic guided neurosurgery: clinical experience with an infrared based pointer device navigation system.
P2860
Q30636823-9EB792C0-9A58-4031-B3E7-AD7868CA9C55Q30646865-71EDD661-E80E-4C78-8100-57F58F3A80D1Q31916751-D47C2C18-F386-4091-A2BF-6167445D040FQ31931483-D711DA0A-B60E-4976-8646-A647D99AE703Q33531312-788973F0-EE3C-4774-BEFF-371DE60E6DF8Q33897513-55FFA85B-5009-4B94-9570-09EF20EA48DDQ34555062-5746F4F8-E894-4648-9225-6FF6293710BBQ34778436-5642AE63-3C58-4FB4-A99B-F8681252A32DQ35167051-6DD91FD2-1834-46E3-9F68-13FA76D4BEE1Q35998712-A7A4BC2C-0937-46C5-8AE3-3E7DAEC7B0C0Q36334026-BF99EA7A-DCDE-454B-BAD0-BA920C9505E3Q36855138-16CFD374-CD8C-4409-84D0-0E5DA47F7C9AQ36980269-D8315841-4496-45F4-B511-DF18F212CDACQ37802930-98CF7A4F-5044-4383-9744-BFA2B4DC6B5DQ39487658-7FE06234-C0B7-4197-A122-F7FF1AC105ADQ40576178-1D518DE6-6BF4-4BD5-AC8D-47BB9C33ED1EQ40851284-5D658F01-306D-48AF-8613-9A06C9DAD189Q40924173-7D2DE132-00A5-43AB-B452-18A94C91BC40Q40995117-CDA51857-F796-43DB-AD6B-180D44393E63Q41720085-0D97E729-0A14-48E7-A460-0022B86001C5Q44891863-B19CB9D1-7EDD-4AC7-9413-24B2671EA4EBQ47799278-B7679387-3151-4CC6-8E93-214B9DB4B37CQ48264169-D1994585-E7F0-4314-8F1F-BB07B22CA207Q48444818-D038D1CE-83D1-4EB1-9D00-051FA4BAFCACQ48620176-A83435CC-8427-4DA0-B447-CAC444651256Q49040801-1D4D8E64-48A8-414B-87D8-1B9C07C460A9Q49047069-E88DED9C-3F90-40F0-B855-86FF63DF090BQ51164266-1A14D820-D70C-42F0-93E7-8311856E2790Q51417737-EAAD2C2B-48FC-4718-8FFF-D11236A21BC1Q51575182-E6A9301E-5E2F-493D-8089-4B396C94F690Q55478929-6E734362-150C-4ACA-BA23-886239F7D024Q55478973-008330FD-183E-4460-A6F3-30A1E08765B1
P2860
Frameless stereotaxic integration of CT imaging data: accuracy and initial applications.
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
1993年论文
@zh
1993年论文
@zh-cn
name
Frameless stereotaxic integration of CT imaging data: accuracy and initial applications.
@ast
Frameless stereotaxic integration of CT imaging data: accuracy and initial applications.
@en
type
label
Frameless stereotaxic integration of CT imaging data: accuracy and initial applications.
@ast
Frameless stereotaxic integration of CT imaging data: accuracy and initial applications.
@en
prefLabel
Frameless stereotaxic integration of CT imaging data: accuracy and initial applications.
@ast
Frameless stereotaxic integration of CT imaging data: accuracy and initial applications.
@en
P2093
P1433
P1476
Frameless stereotaxic integration of CT imaging data: accuracy and initial applications.
@en
P2093
Kennedy DW
Zinreich SJ
vander Kolk CA
P304
P356
10.1148/RADIOLOGY.188.3.8351341
P407
P577
1993-09-01T00:00:00Z