Navigated implantation after microsurgical bone transfer using intraoperatively acquired cone-beam computed tomography data sets.

Max Heiland; Philipp Pohlenz; Marco Blessmann; Heiner Werle; Meike Fraederich; Rainer Schmelzle; Felix Blake

Navigated implantation after microsurgical bone transfer using intraoperatively acquired cone-beam computed tomography data sets.

Standard

Navigated implantation after microsurgical bone transfer using intraoperatively acquired cone-beam computed tomography data sets. / Heiland, Max; Pohlenz, Philipp; Blessmann, Marco; Werle, Heiner; Fraederich, Meike; Schmelzle, Rainer; Blake, Felix.

In: INT J ORAL MAX SURG, Vol. 37, No. 1, 1, 2008, p. 70-75.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Heiland, M, Pohlenz, P, Blessmann, M, Werle, H, Fraederich, M, Schmelzle, R & Blake, F 2008, 'Navigated implantation after microsurgical bone transfer using intraoperatively acquired cone-beam computed tomography data sets.', INT J ORAL MAX SURG, vol. 37, no. 1, 1, pp. 70-75. <http://www.ncbi.nlm.nih.gov/pubmed/17822880?dopt=Citation>

APA

Heiland, M., Pohlenz, P., Blessmann, M., Werle, H., Fraederich, M., Schmelzle, R., & Blake, F. (2008). Navigated implantation after microsurgical bone transfer using intraoperatively acquired cone-beam computed tomography data sets. INT J ORAL MAX SURG, 37(1), 70-75. [1]. http://www.ncbi.nlm.nih.gov/pubmed/17822880?dopt=Citation

Vancouver

Heiland M, Pohlenz P, Blessmann M, Werle H, Fraederich M, Schmelzle R et al. Navigated implantation after microsurgical bone transfer using intraoperatively acquired cone-beam computed tomography data sets. INT J ORAL MAX SURG. 2008;37(1):70-75. 1.

Bibtex

@article{026954fc545240b4b5275df05d9b767e,

title = "Navigated implantation after microsurgical bone transfer using intraoperatively acquired cone-beam computed tomography data sets.",

abstract = "The use of a combination of intraoperative cone-beam computed tomography (CBCT) and a navigation system via a spinal software platform for the navigated implantation of oral implants after microsurgical bone transfer is described. Intraoperative data sets were generated using Arcadis Orbic 3D (Siemens, Medical Solutions, Erlangen, Germany) and immediately transferred to the VectorVision(2) navigation system (BrainLAB, Feldkirchen, Germany) via the NaviLink interface. In two patients who underwent microsurgical bone transfer for midfacial reconstruction, implants were placed using intraoperatively acquired CBCT data sets for planning and navigated insertion. In both cases, successful realization of the planned implant sites was achieved by the guidance of the drill, leading to rehabilitation of both patients. CBCT data generated by mobile systems are sufficient for the planning of implant position, and can be used for navigated insertion using tools originally developed for spinal surgery.",

author = "Max Heiland and Philipp Pohlenz and Marco Blessmann and Heiner Werle and Meike Fraederich and Rainer Schmelzle and Felix Blake",

year = "2008",

language = "Deutsch",

volume = "37",

pages = "70--75",

journal = "INT J ORAL MAX SURG",

issn = "0901-5027",

publisher = "Churchill Livingstone",

number = "1",

}

RIS

TY - JOUR

T1 - Navigated implantation after microsurgical bone transfer using intraoperatively acquired cone-beam computed tomography data sets.

AU - Heiland, Max

AU - Pohlenz, Philipp

AU - Blessmann, Marco

AU - Werle, Heiner

AU - Fraederich, Meike

AU - Schmelzle, Rainer

AU - Blake, Felix

PY - 2008

Y1 - 2008

N2 - The use of a combination of intraoperative cone-beam computed tomography (CBCT) and a navigation system via a spinal software platform for the navigated implantation of oral implants after microsurgical bone transfer is described. Intraoperative data sets were generated using Arcadis Orbic 3D (Siemens, Medical Solutions, Erlangen, Germany) and immediately transferred to the VectorVision(2) navigation system (BrainLAB, Feldkirchen, Germany) via the NaviLink interface. In two patients who underwent microsurgical bone transfer for midfacial reconstruction, implants were placed using intraoperatively acquired CBCT data sets for planning and navigated insertion. In both cases, successful realization of the planned implant sites was achieved by the guidance of the drill, leading to rehabilitation of both patients. CBCT data generated by mobile systems are sufficient for the planning of implant position, and can be used for navigated insertion using tools originally developed for spinal surgery.

AB - The use of a combination of intraoperative cone-beam computed tomography (CBCT) and a navigation system via a spinal software platform for the navigated implantation of oral implants after microsurgical bone transfer is described. Intraoperative data sets were generated using Arcadis Orbic 3D (Siemens, Medical Solutions, Erlangen, Germany) and immediately transferred to the VectorVision(2) navigation system (BrainLAB, Feldkirchen, Germany) via the NaviLink interface. In two patients who underwent microsurgical bone transfer for midfacial reconstruction, implants were placed using intraoperatively acquired CBCT data sets for planning and navigated insertion. In both cases, successful realization of the planned implant sites was achieved by the guidance of the drill, leading to rehabilitation of both patients. CBCT data generated by mobile systems are sufficient for the planning of implant position, and can be used for navigated insertion using tools originally developed for spinal surgery.

M3 - SCORING: Zeitschriftenaufsatz

VL - 37

SP - 70

EP - 75

JO - INT J ORAL MAX SURG

JF - INT J ORAL MAX SURG

SN - 0901-5027

IS - 1

M1 - 1

ER -