vol. 3 6/2014 Inżynier i Fizyk Medyczny
324
artykuł
\
article
radioterapia
\
radiotherapy
Literatura
1.
T.R. Mackie, J. Balog, S. Swerdloff i in.:
Tomotherapy: a new con-
cept for the delivery of conformal radiotherapy
, Med Phys, 20,
1993, 1709-1719.
2.
T.R. Mackie, J. Balog, K. Ruchala i in.:
Tomotherapy
, Semin Radiat
Oncol., 9, 1999, 31-65.
3.
S. Yartsev, T. Kron i in
.
:
Tomotherapy planning of small brain tumo-
urs
, Radiother Oncol., 74, 2005, 49-52.
4.
J. Gomez-Millan, J.R. Fernández, J.A. Medina Carmona:
Cu-
rrent status of IMRT in head and neck cancer
,
Rep Pract Oncol
Radiother., 18(6), 2013, 371-375.
5.
D.M. Shepard, G.H. Olivera, P.J. Reckwerdt i in.:
Iterative appro-
aches to dose optimisation in tomotherapy
, Phys Med Biol, 45,
2000, 69-90.
6.
D.M. Shepard i in.:
Simple model for examining issues in radiothe-
rapy optimization,
Med Phys, 26, 1999, 1212.
7.
L.J. Forrest, T.R. MacKie, K. Ruchala i in.:
The utility of megavolta-
ge computed tomography images from a helical tomotherapy sys-
tem for setup verification purposes
, Int J Radiat Oncol Biol Phys,
60, 2004, 1639-1644.
8.
K.M. Langen, Y. Zhang, R. Andrews i in.:
Initial experience with
megavoltage (MV) CT guidance for daily prostate alignments
, Int
J Radiat Oncol Biol Phys, 62, 2005, 1517-1524.
9.
T. Piotrowski, K. Kaczmarek, T. Bajon i in.:
Evaluation of Image-
guidance Strategies for Prostate Cancer
, Technol Cancer Res Tre-
at, 13, 2014, 583-591.
10.
T. Piotrowski, E. Czajka, B. Bąk i in.:
Tomotherapy: Implications
on Daily Workload and Scheduling Patients based on Three Years’
Institutional Experience,
Technol Cancer Res Treat, 13, 2014,
233-242.
11.
F.K. Lee, C.W. Yip, F.C. Cheung i in.:
Dosimetric difference amon-
gst 3 techniques: TomoTherapy, sliding-window intensity-modula-
ted radiotherapy (IMRT), and RapidArc radiotherapy in the treat-
ment of late-stage nasopharyngeal carcinoma (NPC)
, Med Dosim,
39, 2014, 44-49.
12.
T. Piotrowski, J. Kaźmierska, A. Sokołowski i in.:
Impact of the
spinal cord position uncertainty on the dose received during head
and neck helical tomotherapy
, J Med Imaging Radiat Oncol, 57,
2013, 503-511.
13.
T. Piotrowski, M. Skórska, A. Jodda i in.:
Tomotherapy – different
way of dose delivery in radiotherapy
, Współczesna Onkologia
(Contemporary Oncol)
, 16, 2012, 16-25.
14.
A. McIntosh, N. Dunlap, K. Sheng i in.:
Helical tomotherapy-based
STAT RT: Dosimetric evaluation for clinical implementation of a ra-
pid radiation palliation program
, Med Dosim, 35, 2010, 280-286.
15.
K. Składowski, A. Grzadziel, M. Hutnik i in.:
Kliniczne zasady pla-
nowania i realizacji radioterapii modulacja intensywnosci wiazki
(IMRT) u chorych na nowotwory głowy i szyi
, Onkologia w Prak-
tyce Klinicznej, 3(5), 241-248.
16.
M. Rao, W. Yang, F. Chen i in.:
Evaluation of arc based intensity
modulated radiotherapy for head and neck cancer
,
Int J Rad Oncol
Biol Phys., 75, 2009, 419.
17.
S.L. Meeks, J.F. Harmon, K.M. Langen, T.R. Willoughby i in.:
Per-
formance characterization of megavoltage computed tomography
imaging on a helical tomotherapy unit
,
Med Phys., 32, 2005,
2673-2681.
18.
M. Skórska, T. Piotrowski:
Empirical estimation of beam-on time
for prostate cancer patients treated on Tomotherapy
,
Rep Pract
Oncol Radiother., 18(4), 2013, 201-208.
19.
A. Fogliata i in.:
On the performances of Intensity Modulated Pro-
tons, RapidArc and Helical Tomotherapy for selected paediatric
cases
, Radiat Oncol., 4, 2009, 2.
20.
D. Wolff i in.:
Volumetric modulated arc therapy (VMAT) vs. serial
tomotherapy, step-and-shoot IMRT and 3D-conformal RT for treat-
ment of prostate cancer
, Radiat Oncol., 93, 2009, 226-233.
21.
Ch.-L. Tsai i in.:
Treatment and Dosimetric Advantages Between
VMAT, IMRT, and Helical TomoTherapy in Prostate Cancer
, Med
Dos., 36(3), 2011, 264-271.
22.
V. Jacob i in.:
A planning comparison of dynamic IMRT for different
collimator leaf thicknesses with helical tomotherapy and rapidArc
for prostate and head and neck tumors
,
Strahlenther Onkol.,
186(9), 2010, 502-510.
23.
M. Voordeckers i in.:
Parotid gland sparing with helical tomothe-
rapy in head-and-neck cancer
, Int J Radiat Oncol Biol Phys., 84(2),
2012, 443-448.
24.
N.P. Nguyen i in.:
Feasibility of image-guided radiotherapy based
on helical tomotherapy to reduce contralateral parotid dose in
head and neck cancer
, BMC Cancer, 12, 2012, 175.
25.
R. Tarnawski i in.:
Feasibility of reducing the irradiation dose in
regions of active neurogenesis for prophylactic cranial irradiation
in patients with small-cell lung cancer
, Neoplasma, 58(6), 2011,
507-515.
26.
T. Piotrowski i in.:
The new two-component conformity index for-
mula (TCCI) and dose-volume comparisons of the pituitary gland
and tonsil cancer IMRT plans using a linear accelerator and helical
Tomotherapy
, Rep Pract Oncol Radiother., 14(4), 2009, 133-145.
27.
S.L. Liauw, R.J. Amdur, W.M. Mendenhall, J. Palta, S. Kim:
The
effect of intravenous contrast on intensity-modulated radiation
therapy dose calculations for head and neck cancer
, Am J Clin On-
col., 28(5), 2005, 456-459.
