Visualization of 3-D treatment plans with fast neutrons.

R Schmidt; T Schiemann; Martin Riemer; E Thom; K H Höhne; K H Hübener

Visualization of 3-D treatment plans with fast neutrons.

Standard

Visualization of 3-D treatment plans with fast neutrons. / Schmidt, R; Schiemann, T; Riemer, Martin; Thom, E; Höhne, K H; Hübener, K H.

in: STRAHLENTHER ONKOL, Jahrgang 168, Nr. 12, 12, 1992, S. 698-702.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Schmidt, R, Schiemann, T, Riemer, M, Thom, E, Höhne, KH & Hübener, KH 1992, 'Visualization of 3-D treatment plans with fast neutrons.', STRAHLENTHER ONKOL, Jg. 168, Nr. 12, 12, S. 698-702. <http://www.ncbi.nlm.nih.gov/pubmed/1481119?dopt=Citation>

APA

Schmidt, R., Schiemann, T., Riemer, M., Thom, E., Höhne, K. H., & Hübener, K. H. (1992). Visualization of 3-D treatment plans with fast neutrons. STRAHLENTHER ONKOL, 168(12), 698-702. [12]. http://www.ncbi.nlm.nih.gov/pubmed/1481119?dopt=Citation

Vancouver

Schmidt R, Schiemann T, Riemer M, Thom E, Höhne KH, Hübener KH. Visualization of 3-D treatment plans with fast neutrons. STRAHLENTHER ONKOL. 1992;168(12):698-702. 12.

Bibtex

@article{49c5d052e4a54b4490c26955e9a4b643,

title = "Visualization of 3-D treatment plans with fast neutrons.",

abstract = "The treatment planning for radiotherapy with fast neutrons requires modifications of the planning systems used for photons. The neutron- and photon-component of the treatment fields must be determined and can then be used for separate calculations. The corrections for inhomogeneities are performed by use of attenuation coefficients and the corresponding corrections for changes in the kerma. The treatment planning system MEVAPLAN (Siemens) was modified to follow these requirements. Thus treatment planning for 14 MeV DT-neutrons could be performed. The multiplanar option is used to calculate 3D-dose distributions based on up to 40 serial CT slices. The generated three-dimensional dose matrix and the CT data are transferred via magnetic tape to the visualization system VOXEL-MAN developed at the University Hospital of Hamburg. This system uses a ray casting algorithm based on the generalized Voxel-model to display detailed 3D-images of human anatomy together with the calculated dose distribution. Different treatment plans for neutrons and photons are calculated and visualized. Various manipulations of the data-sets are displayed to improve the critical examination of the simulated dose distribution and to discern the quality of treatment techniques.",

author = "R Schmidt and T Schiemann and Martin Riemer and E Thom and H{\"o}hne, {K H} and H{\"u}bener, {K H}",

year = "1992",

language = "Deutsch",

volume = "168",

pages = "698--702",

journal = "STRAHLENTHER ONKOL",

issn = "0179-7158",

publisher = "Urban und Vogel",

number = "12",

}

RIS

TY - JOUR

T1 - Visualization of 3-D treatment plans with fast neutrons.

AU - Schmidt, R

AU - Schiemann, T

AU - Riemer, Martin

AU - Thom, E

AU - Höhne, K H

AU - Hübener, K H

PY - 1992

Y1 - 1992

N2 - The treatment planning for radiotherapy with fast neutrons requires modifications of the planning systems used for photons. The neutron- and photon-component of the treatment fields must be determined and can then be used for separate calculations. The corrections for inhomogeneities are performed by use of attenuation coefficients and the corresponding corrections for changes in the kerma. The treatment planning system MEVAPLAN (Siemens) was modified to follow these requirements. Thus treatment planning for 14 MeV DT-neutrons could be performed. The multiplanar option is used to calculate 3D-dose distributions based on up to 40 serial CT slices. The generated three-dimensional dose matrix and the CT data are transferred via magnetic tape to the visualization system VOXEL-MAN developed at the University Hospital of Hamburg. This system uses a ray casting algorithm based on the generalized Voxel-model to display detailed 3D-images of human anatomy together with the calculated dose distribution. Different treatment plans for neutrons and photons are calculated and visualized. Various manipulations of the data-sets are displayed to improve the critical examination of the simulated dose distribution and to discern the quality of treatment techniques.

AB - The treatment planning for radiotherapy with fast neutrons requires modifications of the planning systems used for photons. The neutron- and photon-component of the treatment fields must be determined and can then be used for separate calculations. The corrections for inhomogeneities are performed by use of attenuation coefficients and the corresponding corrections for changes in the kerma. The treatment planning system MEVAPLAN (Siemens) was modified to follow these requirements. Thus treatment planning for 14 MeV DT-neutrons could be performed. The multiplanar option is used to calculate 3D-dose distributions based on up to 40 serial CT slices. The generated three-dimensional dose matrix and the CT data are transferred via magnetic tape to the visualization system VOXEL-MAN developed at the University Hospital of Hamburg. This system uses a ray casting algorithm based on the generalized Voxel-model to display detailed 3D-images of human anatomy together with the calculated dose distribution. Different treatment plans for neutrons and photons are calculated and visualized. Various manipulations of the data-sets are displayed to improve the critical examination of the simulated dose distribution and to discern the quality of treatment techniques.

M3 - SCORING: Zeitschriftenaufsatz

VL - 168

SP - 698

EP - 702

JO - STRAHLENTHER ONKOL

JF - STRAHLENTHER ONKOL

SN - 0179-7158

IS - 12

M1 - 12

ER -