Spots Global Cancer Trial Database for The Development and Pilot Testing of a New MR Imaging Protocol to Quantify Myeloma Disease Burden and Bone Loss

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Trial Identification

Brief Title: The Development and Pilot Testing of a New MR Imaging Protocol to Quantify Myeloma Disease Burden and Bone Loss

Official Title: The Development and Pilot Testing of a New Magnetic Resonance (MR) Imaging Protocol to Quantify Both Myeloma Disease Burden and Associated Bone Loss

Study ID: NCT03951220

Conditions

Myeloma

Monoclonal Gammopathy of Undetermined Significance (MGUS)

Smouldering Myeloma

Interventions

Diffusion Weighted Magnetic Resonance Imaging (DWMRI)

DXA scan

Bloods and urine

Study Description

Brief Summary: In the proposed study, the investigators will aim to develop and pilot a Magnetic Resonance (MR) imaging protocol and assess its ability to achieve the following: quantification of tumour burden and bone loss, detecting longitudinal changes in tumour load with therapy and detecting longitudinal changes in microarchitecture with therapy. The investigators also aim to investigate whether bone loss is better, worse or the same with different imaging techniques. This will be investigated by correlating the DXA imaging data with Diffusion-Weighted Magnetic Resonance Imaging (DWMRI) to see if it is possible to achieve quantifiable data of bone density.

Detailed Description: In the proposed study, the investigators will aim to develop and pilot a Magnetic Resonance (MR) imaging protocol and assess its ability to achieve the following: quantification of tumour burden and bone loss, detecting longitudinal changes in tumour load with therapy and detecting longitudinal changes in microarchitecture with therapy. The investigators also aim to investigate whether bone loss is better, worse or the same with different imaging techniques. This will be investigated by correlating the DXA imaging data with Diffusion-Weighted Magnetic Resonance Imaging (DWMRI) to see if it is possible to achieve quantifiable data of bone density. Using the expertise of the Oxford Centre For Clinical Magnetic Resonance Research (OCMR) for imaging protocol development, and the new Fine Structural Analysis (FSA, Osteotronix Ltd, formerly Acuitas Medical) bone density quantification MRI method (Rafferty et al 2016), the investigators will test a single protocol which combines three emerging experimental imaging sequences into a simple, non-invasive whole body imaging protocol to quantify disease burden and bone disease. This has never been done before; if shown to be feasible, such a method would have two important applications: to precisely guide commissioned therapies in the clinic, so improving patient management; and as an exciting, novel research tool for the longitudinal combined assessment of tumour burden and cancer-induced bone disease in response to therapy. The investigators hypothesize that this imaging tool will be superior to the combined current standard-of-care investigations in the quantification of tumour burden and bone loss. There are currently no tools available for quantifying structural changes to bone and overall bone loss in myeloma.