Using 7T MRI to study hippocampal structures in Alzheimer’s disease and post‐SARS‐CoV2 infection

Abstract

AbstractBackground7T MRI allows implementation of high‐resolution quantitative susceptibility mapping (QSM) which can be used to assess the cerebral microvascular/hypoperfusion pathogenic hypothesis in Alzheimer’s disease (AD) and in the post‐SARS‐CoV2 setting to explore if there may be similarities in brain changes in these two conditions. The magnetic susceptibility (reflective of tissue iron) of hippocampal subfields was assessed in patients with 1) CSF‐Amyloidß‐status AD; 2) mild COVID‐19 over 6 months previously (Cv); 3) severe COVID‐19 with ICU admission >6 months previously (ICU‐Cv); and 4) age‐matched healthy controls (HC).Methods33 participants (10 HC, 14 Cv, 9 ICU‐Cv) for the COVID study and 24 participants (14 AD, 11HC) from AD patients with confirmed CSF‐Amyloidß levels, aged 42‐79, were scanned on a 7T scanner with the following protocol T2* GRE for the AD groups (0.7×0.7×0.7mm3,TE/TR = 20/31ms) and T2* multi‐echo GRE for the Cv groups (0.38×0.38×0.75mm3,TE1/TE2/TR = 8.2/18.4/24ms). Data were processed using QSMbox1 to produce susceptibility maps. PSIR (0.55×0.55×0.55mm3,TE/TR = 3.1/6.9ms) and T2‐weighted FSE (0.38×0.39×1.5mm3, TE/TR = 117/5900ms) images were used to segment the hippocampal subfields (Figure 1)2. One‐way analyses were used in SPSS for comparison between the HC group and each of the Cv, ICU‐Cv, and AD groups.ResultsThere was no change in susceptibility for the whole hippocampus between AD and HC, but there was a significant difference for the DG subfield (p = 0.045), Figure 2. For COVID patients, there was a significant difference between the susceptibility of the whole hippocampus in the ICU‐Cv group (p = 0.035), but not in the Cv group (p = 0.788), Figure 3, compared to HC. In subfield analyses there was a trend towards decreased susceptibility in the subiculum, an area known to be affected by Alzheimer pathology, in the ICU‐Cv group (p = 0.032) compared to HC.ConclusionThe lower susceptibility within the hippocampal structures observed in AD and ICU‐Cv patients may reflect less iron either from cerebral hypoperfusion or vascular injuries in AD or additionally result from sequelae of hypoxaemia in ICU‐Cv. The study provides preliminary evidence of detectable in vivo microstructural changes in hippocampal subfields in both AD and post‐COVID settings. Funding: Medical Research Council, UK (MR/T005580/1); National Institute of Health, USA (1R56AG074467‐01)