Placental Element Content Assessed via Synchrotron-Based X-ray Fluorescence Microscopy Identifies Low Molybdenum Concentrations in Foetal Growth Restriction, Postdate Delivery and Stillbirth.
Vladimira FotevaKaushik MaitiJoshua J FisherYixue QiaoDavid J PatersonMichael W M JonesRoger SmithPublished in: Nutrients (2024)
Placental health and foetal development are dependent upon element homeostasis. Analytical techniques such as mass spectroscopy can provide quantitative data on element concentrations in placental tissue but do not show spatial distribution or co-localisation of elements that may affect placental function. The present study used synchrotron-based X-ray fluorescence microscopy to elucidate element content and distribution in healthy and pathological placental tissue. The X-ray fluorescence microscopy (XFM) beamline at the Australian Synchrotron was used to image trace metal content of 19 placental sections from healthy term ( n = 5, 37-39 weeks), foetal growth-restricted ( n = 3, <32 weeks, birth weight <3rd centile), postdate ( n = 7, >41 completed weeks), and stillbirth-complicated pregnancies ( n = 4, 37-40 weeks). Samples were cryo-sectioned and freeze-dried. The concentration and distribution of fourteen elements were detected in all samples: arsenic, bromine, calcium, chlorine, copper, iron, molybdenum, phosphorous, potassium, rubidium, selenium, strontium, sulphur, and zinc. The elements zinc, calcium, phosphorous, and strontium were significantly increased in stillbirth placental tissue in comparison to healthy-term controls. Strontium, zinc, and calcium were found to co-localise in stillbirth tissue samples, and calcium and strontium concentrations were correlated in all placental groups. Molybdenum was significantly decreased in stillbirth, foetal growth-restricted, and postdate placental tissue in comparison to healthy-term samples ( p < 0.0001). Synchrotron-based XFM reveals elemental distribution within biological samples such as the placenta, allowing for the co-localisation of metal deposits that may have a pathological role. Our pilot study further indicates low concentrations of placental molybdenum in pregnancies complicated by foetal growth restriction, postdate delivery, and stillbirth.
Keyphrases
- gestational age
- birth weight
- high resolution
- single molecule
- preterm birth
- healthcare
- public health
- drinking water
- preterm infants
- high throughput
- deep learning
- heavy metals
- computed tomography
- genome wide
- high speed
- magnetic resonance imaging
- body mass index
- label free
- physical activity
- social media
- electronic health record
- energy transfer