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Exploratory neutron tomography of articular cartilage

B. Wrammerfors, E. Tobias LU ; Törnquist, Elin LU ; Pierantoni, Maria LU orcid ; Sjögren, Amanda LU orcid ; Tengattini, Alessandro ; Kaestner, Anders ; Zandt, René in ’t ; Englund, Martin LU orcid and Isaksson, Hanna LU orcid (2024) In Osteoarthritis and Cartilage 32(6). p.702-712
Abstract

Objective: To investigate the feasibility of using neutron tomography to gain new knowledge of human articular cartilage degeneration in osteoarthritis (OA). Different sample preparation techniques were evaluated to identify maximum intra-tissue contrast. Design: Human articular cartilage samples from 14 deceased donors (18–75 years, 9 males, 5 females) and 4 patients undergoing total knee replacement due to known OA (all female, 61–75 years) were prepared using different techniques: control in saline, treated with heavy water saline, fixed and treated in heavy water saline, and fixed and dehydrated with ethanol. Neutron tomographic imaging (isotropic voxel sizes from 7.5 to 13.5 µm) was performed at two large scale facilities. The 3D... (More)

Objective: To investigate the feasibility of using neutron tomography to gain new knowledge of human articular cartilage degeneration in osteoarthritis (OA). Different sample preparation techniques were evaluated to identify maximum intra-tissue contrast. Design: Human articular cartilage samples from 14 deceased donors (18–75 years, 9 males, 5 females) and 4 patients undergoing total knee replacement due to known OA (all female, 61–75 years) were prepared using different techniques: control in saline, treated with heavy water saline, fixed and treated in heavy water saline, and fixed and dehydrated with ethanol. Neutron tomographic imaging (isotropic voxel sizes from 7.5 to 13.5 µm) was performed at two large scale facilities. The 3D images were evaluated for gradients in hydrogen attenuation as well as compared to images from absorption X-ray tomography, magnetic resonance imaging, and histology. Results: Cartilage was distinguishable from background and other tissues in neutron tomographs. Intra-tissue contrast was highest in heavy water-treated samples, which showed a clear gradient from the cartilage surface to the bone interface. Increased neutron flux or exposure time improved image quality but did not affect the ability to detect gradients. Samples from older donors showed high variation in gradient profile, especially from donors with known OA. Conclusions: Neutron tomography is a viable technique for specialized studies of cartilage, particularly for quantifying properties relating to the hydrogen density of the tissue matrix or water movement in the tissue.

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author
; ; ; ; ; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Ex vivo, Knee osteoarthritis, Microtomography, Neutron imaging
in
Osteoarthritis and Cartilage
volume
32
issue
6
pages
702 - 712
publisher
W.B. Saunders
external identifiers
  • scopus:85188674692
  • pmid:38447631
ISSN
1063-4584
DOI
10.1016/j.joca.2024.02.889
language
English
LU publication?
yes
id
169c2bb9-5420-4d29-9e18-34f5cf23bbdc
date added to LUP
2024-04-16 14:05:34
date last changed
2025-07-11 21:12:11
@article{169c2bb9-5420-4d29-9e18-34f5cf23bbdc,
  abstract     = {{<p>Objective: To investigate the feasibility of using neutron tomography to gain new knowledge of human articular cartilage degeneration in osteoarthritis (OA). Different sample preparation techniques were evaluated to identify maximum intra-tissue contrast. Design: Human articular cartilage samples from 14 deceased donors (18–75 years, 9 males, 5 females) and 4 patients undergoing total knee replacement due to known OA (all female, 61–75 years) were prepared using different techniques: control in saline, treated with heavy water saline, fixed and treated in heavy water saline, and fixed and dehydrated with ethanol. Neutron tomographic imaging (isotropic voxel sizes from 7.5 to 13.5 µm) was performed at two large scale facilities. The 3D images were evaluated for gradients in hydrogen attenuation as well as compared to images from absorption X-ray tomography, magnetic resonance imaging, and histology. Results: Cartilage was distinguishable from background and other tissues in neutron tomographs. Intra-tissue contrast was highest in heavy water-treated samples, which showed a clear gradient from the cartilage surface to the bone interface. Increased neutron flux or exposure time improved image quality but did not affect the ability to detect gradients. Samples from older donors showed high variation in gradient profile, especially from donors with known OA. Conclusions: Neutron tomography is a viable technique for specialized studies of cartilage, particularly for quantifying properties relating to the hydrogen density of the tissue matrix or water movement in the tissue.</p>}},
  author       = {{B. Wrammerfors, E. Tobias and Törnquist, Elin and Pierantoni, Maria and Sjögren, Amanda and Tengattini, Alessandro and Kaestner, Anders and Zandt, René in ’t and Englund, Martin and Isaksson, Hanna}},
  issn         = {{1063-4584}},
  keywords     = {{Ex vivo; Knee osteoarthritis; Microtomography; Neutron imaging}},
  language     = {{eng}},
  number       = {{6}},
  pages        = {{702--712}},
  publisher    = {{W.B. Saunders}},
  series       = {{Osteoarthritis and Cartilage}},
  title        = {{Exploratory neutron tomography of articular cartilage}},
  url          = {{http://dx.doi.org/10.1016/j.joca.2024.02.889}},
  doi          = {{10.1016/j.joca.2024.02.889}},
  volume       = {{32}},
  year         = {{2024}},
}