Paul C Diemoz
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Explore the profile of Paul C Diemoz including associated specialties, affiliations and a list of published articles.
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27
Citations
198
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Recent Articles
1.
Nagarajan M, Coan P, Huber M, Diemoz P, Glaser C, Wismuller A
Proc SPIE Int Soc Opt Eng
. 2017 Dec;
8672.
PMID: 29200588
The current approach to evaluating cartilage degeneration at the knee joint requires visualization of the joint space on radiographic images where indirect cues such as joint space narrowing serve as...
2.
Zamir A, Hagen C, Diemoz P, Endrizzi M, Vittoria F, Chen Y, et al.
J Med Imaging (Bellingham)
. 2017 Oct;
4(4):040901.
PMID: 29057286
Edge illumination (EI) is an x-ray phase-contrast imaging technique, exploiting sensitivity to x-ray refraction to visualize features, which are often not detected by conventional absorption-based radiography. The method does not...
3.
Abidin A, Nagarajan M, Checefsky W, Coan P, Diemoz P, Hobbs S, et al.
Proc SPIE Int Soc Opt Eng
. 2017 Aug;
9417.
PMID: 28835729
Phase contrast X-ray computed tomography (PCI-CT) has recently emerged as a novel imaging technique that allows visualization of cartilage soft tissue, subsequent examination of chondrocyte patterns, and their correlation to...
4.
Nagarajan M, Coan P, Huber M, Diemoz P, Wismuller A
Proc SPIE Int Soc Opt Eng
. 2017 Aug;
9038.
PMID: 28835728
Current assessment of cartilage is primarily based on identification of indirect markers such as joint space narrowing and increased subchondral bone density on x-ray images. In this context, phase contrast...
5.
Zamir A, Diemoz P, Vittoria F, Hagen C, Endrizzi M, Olivo A
Opt Express
. 2017 Aug;
25(10):11984-11996.
PMID: 28788753
In this paper we present a single-image phase retrieval algorithm for multi-material samples, developed for the edge illumination (EI) X-ray phase contrast imaging method. The theoretical derivation is provided, along...
6.
Astolfo A, Endrizzi M, Vittoria F, Diemoz P, Price B, Haig I, et al.
Sci Rep
. 2017 May;
7(1):2187.
PMID: 28526835
X-ray phase contrast imaging (XPCI) is an innovative imaging technique which extends the contrast capabilities of 'conventional' absorption based x-ray systems. However, so far all XPCI implementations have suffered from...
7.
Diemoz P, Bravin A, Sztrokay-Gaul A, Ruat M, Grandl S, Mayr D, et al.
Phys Med Biol
. 2016 Nov;
61(24):8750-8761.
PMID: 27893445
Since the breast is one of the most radiosensitive organs, mammography is arguably the area where lowering radiation dose is of the uttermost importance. Phase-based x-ray imaging methods can provide...
8.
Diemoz P, Vittoria F, Hagen C, Endrizzi M, Coan P, Bravin A, et al.
Phys Med
. 2016 Nov;
32(12):1759-1764.
PMID: 27836637
Purpose: Edge illumination (EI) X-ray phase-contrast imaging (XPCI) has been under development at University College London in recent years, and has shown great potential for both laboratory and synchrotron applications....
9.
Diemoz P, Vittoria F, Olivo A
Opt Express
. 2016 Jul;
24(10):11250-65.
PMID: 27409946
Previous studies on edge illumination (EI) X-ray phase-contrast imaging (XPCi) have investigated the nature and amplitude of the signal provided by this technique. However, the response of the imaging system...
10.
Hagen C, Maghsoudlou P, Totonelli G, Diemoz P, Endrizzi M, Rigon L, et al.
Sci Rep
. 2015 Dec;
5:18156.
PMID: 26657471
Acellular scaffolds obtained via decellularization are a key instrument in regenerative medicine both per se and to drive the development of future-generation synthetic scaffolds that could become available off-the-shelf. In...