11. References 1.
Saha, G.B. Basics on PET Imaging. New York : Springer, 2010.
2.
Moses, W. Nuclear Medical Imaging-Techniques and Challenges. [Online] 15 04 2017.
http://instrumentationcolloquium.lbl.gov/Nuclear%20Medical%20Imaging.pdf.
3.
Van der Veldt, A.A.M, Smit, E.F. and Lammertsma, A.A. Positron Emission
Tomograpy as a method of measureing drug delivery to tumors in vivo: the example of
[11C] docetaxel.
Frontiers in Oncology. 2013.
4.
Warburg, O. On the origin of cancer cells.
Science. 1956, Vol. 123, 3191.
5. US National Library of Medicine.
NCBI. [Online] [Cited: 23 03 2017.]
www.ncbi.nlm.nih.gov.
6.
Grupen, C. and Buvat, I. Handbook of Particle Detection and Imaging. Heidelberg,
Dordrecht, London, New York : Springer, 2012. p. 366.
7.
Moskal, P. Matrix device and method for determining the location and time of reaction of the gamma quanta and the use of the device to determine the location and time of reaction of the gamma quanta in positron emission tomography. EP 10745021.5 2014.
8.
Moskal, P. .
Strip device and method for determining the location and time of reaction of the gamma quanta and the use od the device to determine the location and time of reaction of the gamma quanta in positron emission tomography. EP 10766127.4 2014.
9.
Moskal, P. et al. Time resolution of the plastic scintillator strips with matrix
photomultiplier readout for J-PET tomograph.
Physics in Medicine & Biology. 2016, Vol.
61.
10.
Moskal, P. et al. . Test of a single module of the J-PET scanner based on plastic
scintillators.
Nuclear Instruments and Methods in Physics Research. 2014, Vol. A, 764.
