We welcome collaboration proposals from scientists who want to explore and discover the potential of XRH for their research portfolio.
We aim to promoting 3D X-ray histology by addressing different communities and levels of technology awareness
The XRH team comprises experienced X-ray beam scientists, microscopists, biomedical researchers and pathologists, together with computing and information scientists. The team is uniquely placed to support and develop a broad range of biomedical imaging applications.
Typical applications include:
‣ production of XRH images
‣ image analysis -
(sample visualisation and measurement)
‣ correlative imaging -
(combining XRH with conventional histology, immunohistochemistry, and/or other microscopy techniques such as serial block face SEM)
‣ Bespoke analysis -
(e.g. Image base model generation (meshing) for FE/CFD modeling or 3D printing)
Should you wish to discuss your needs in more details please contact us at info@xrayhistology.org and a member of XRH team will contact you as soon possible.
The Foundations for routine 3D X‐ray histology (XRH) project in Southampton runs for 3 years from January 2019 on, and is based on technology developments for soft tissue‐optimised micro‐computed tomographic (μCT) imaging. The project aims to stimulate and support novel and exploratory projects, introducing three‐dimensional (3D) XRH to the wider biomedical research and clinical pathology community and identifying application‐specific imaging needs.
We anticipate that most projects will be limited to relatively small proof‐of‐principle studies with a maximum of 5 samples in the first instance and we can offer limited free‐of‐charge collaborative μCT imaging based on the following understanding:
Collaborators must consult with the XRH Team.
A person should be identified in the Collaborator’s team, liaising as primary contact with the XRH Team.
The priority, eligibility and resources are determined by the XRH Project Management Group. We particularly aim to encourage:
[a] Initial trials exploring image quality and the added value of XRH datasets.
[b] Adding μCT to existing projects where it was not part of the initial experimental design.
[c] Generating pilot data in advance of larger funding applications.
We are limited by equipment and staff-time availability. This arrangement is not suitable where the scheduling of scans is part of the critical path of a project (e.g., where external bodies and/or related projects rely on the results according to set deadlines). For such investigations, please consult the
μ-VIS X-ray Imaging Centre
and/or the
Biomedical Imaging Unit
A contribution to cover the costs of consumables or data management may be necessary and, if so, will be discussed with the Collaborator.
The Collaborator must confirm samples are non-hazardous and required ethics approval is in place. Copies of safety assessments or ethical approval may be needed. Human samples and data should be anonymised. Any exceptions must be discussed with the XRH Team before transferring any samples.
The Collaborator should provide empty, NTFS-formatted, labelled, external hard disk(s) with sufficient capacity to collect their data, or another suitable method for data transfer.
All data will be stored by the XRH Team for up to one month. After this time, it may be deleted. Data of one proof-of-principle study (up to 5 samples) will be stored by the XRH Team for the duration of this Wellcome Trust project.
Collaboration with the XRH Team is contingent upon working to produce a brief case study or substantive report of the work, including both text and images describing the project and the XRH datasets. This should be within 90 days of the project completion and may be used for inclusion in our report to the Wellcome Trust and for XRH publicity. Redaction of specific technical details, or embargoes prior to publication will be considered on a case-by-case basis.
The work should be planned in anticipation of publication. In any publication(s) the collaboration should be recognised with co-authorship of XRH staff according to contemporary publishing practice (e.g. www.nature.com/authors/policies/authorship.html ).
The XRH Teams' contribution should be acknowledged in any publications*
With appropriate acknowledgement, Collaborators and the XRH Team will have the right to use mutually agreed representative image data from collaborations for capability demonstrations, publicity material and general interest publications.
A key objective of this Wellcome Trust project is to promote & demonstrate XRH capabilities for future research. It is anticipated that findings will particularly support new, fully funded proposals. The XRH Team and/or μ-VIS/BIU staff (see 3. above) should be consulted as soon as possible on costings for such proposals.
All reasonable care will be taken by the XRH Team during work undertaken, but cannot accept liability for any loss, damage, destruction or disclosure of material(s).
“ The authors acknowledge the µ-VIS X-ray Imaging Centre (supported by EPSRC grant EP/H01506X/1) and the Biomedical Imaging Unit at the University of Southampton, for the provision of imaging, data processing and management infrastructure and expertise. This work was supported by the Wellcome Trust Biomedical Resource and Technology Development Grant 212940/Z/18/Z. ”