Near-field 3D imaging approach combining MJSR and FGG-NUFFT

Improving our understanding of host-microbe relationships in the gut requires the ability to both visualize and quantify the spatial organization of microbial communities in their native orientation with the host tissue. We developed a systematic procedure to quantify the 3D spatial structure of the native mucosal microbiota in any part of the intestines with taxonomic and high spatial resolution. We performed a 3D biogeographical analysis of the microbiota of mouse cecal crypts at different stages of antibiotic exposure. By tracking eubacteria and four dominant bacterial taxa, we found that the colonization of crypts by native bacteria is a dynamic and spatially organized process. Ciprofloxacin treatment drastically reduced bacterial loads and eliminated Muribaculaceae (or all Bacteroidetes entirely) even 10 days after recovery when overall bacterial loads returned to pre-antibiotic levels. Our 3D quantitative imaging approach revealed that the bacterial colonization of crypts is organized in a spatial pattern that consists of clusters of adjacent colonized crypts that are surrounded by unoccupied crypts, and that this spatial pattern was resistant to the elimination of Muribaculaceae or of all Bacteroidetes by ciprofloxacin. Our approach also revealed that the composition of cecal crypt communities is diverse and that bacterial taxa are distributed differently within crypts, with Lactobacilli laying closer to the lumen than Bacteroidetes, Ruminococcaceae, and Lachnospiraceae. Finally, we found that crypts communities with similar taxonomic composition were physically closer to each other than communities that were taxonomically different.

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Degradation Analysis of Thin Mg-xAg Wires Using X-ray Near-Field Holotomography

Metals ◽

10.3390/met11091422 ◽

2021 ◽

Vol 11 (9) ◽

pp. 1422

Author(s):

Sebastian Meyer ◽

Andreas Wolf ◽

Daniela Sanders ◽

Kamila Iskhakova ◽

Hanna Ćwieka ◽

...

Keyword(s):

3D Imaging ◽

Near Field ◽

Antibacterial Properties ◽

X Ray ◽

Thin Wires ◽

Degradation Rates ◽

Degradation Analysis ◽

Fetal Bovine ◽

Small Field Of View

Magnesium–silver alloys are of high interest for the use as temporary bone implants due to their antibacterial properties in addition to biocompatibility and biodegradability. Thin wires in particular can be used for scaffolding, but the determination of their degradation rate and homogeneity using traditional methods is difficult. Therefore, we have employed 3D imaging using X-ray near-field holotomography with sub-micrometer resolution to study the degradation of thin (250 μm diameter) Mg-2Ag and Mg-6Ag wires. The wires were studied in two states, recrystallized and solution annealed to assess the influence of Ag content and precipitates on the degradation. Imaging was employed after degradation in Dulbecco’s modified Eagle’s medium and 10% fetal bovine serum after 1 to 7 days. At 3 days of immersion the degradation rates of both alloys in both states were similar, but at 7 days higher silver content and solution annealing lead to decreased degradation rates. The opposite was observed for the pitting factor. Overall, the standard deviation of the determined parameters was high, owing to the relatively small field of view during imaging and high degradation inhomogeneity of the samples. Nevertheless, Mg-6Ag in the solution annealed state emerges as a potential material for thin wire manufacturing for implants.

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Near-field BP 3D imaging paraflap suppression method

2021 IEEE International Conference on Artificial Intelligence and Industrial Design (AIID) ◽

10.1109/aiid51893.2021.9456502 ◽

2021 ◽

Author(s):

Haohao Jiang ◽

Qu Wei ◽

Pengda Wang ◽

Yaoyao Dong ◽

Tianhao Gao ◽

...

Keyword(s):

3D Imaging ◽

Near Field ◽

Suppression Method

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