1. Preservation of neurons in an AD 79 vitrified human brain
- Author
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Maria Giuseppina Miano, Francesco Sirano, Giuseppe Castaldo, Massimo Niola, Elena Vezzoli, Vincenzo Graziano, Alessandro Vona, Pierpaolo Petrone, Alessandra Pensa, Sergio Savino, Giuseppe Quaremba, Emanuele Capasso, Guido Giordano, Petrone, P., Giordano, G., Vezzoli, E., Pensa, A., Castaldo, G., Graziano, V., Sirano, F., Capasso, E., Quaremba, G., Vona, A., Miano, M. G., Savino, S., and Niola, M.
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0301 basic medicine ,Central Nervous System ,Male ,Perfect state ,Databases, Factual ,Image Processing ,Social Sciences ,Gene Expression ,Kinesins ,Brain tissue ,Nervous System ,Myelin ,Nerve Fibers ,0302 clinical medicine ,Animal Cells ,Medicine and Health Sciences ,Image Processing, Computer-Assisted ,Electron Microscopy ,Neurons ,Microscopy ,Multidisciplinary ,Tissue Preservation ,Brain ,Geology ,Human brain ,Kinesin ,medicine.anatomical_structure ,Archaeology ,Spinal Cord ,X-ray spectroscopy ,Engineering and Technology ,Medicine ,Scanning Electron Microscopy ,Cellular Types ,Anatomy ,CNS ,Research Article ,Human ,Science ,Central nervous system ,Volcanology ,Volcanic Eruptions ,Biology ,Research and Analysis Methods ,03 medical and health sciences ,Young Adult ,human archaeological remains ,Genetics ,medicine ,Humans ,Biology and Life Sciences ,Spectrometry, X-Ray Emission ,Cell Biology ,Neuron ,Spinal cord ,Axons ,Neuroanatomy ,030104 developmental biology ,Cellular Neuroscience ,Signal Processing ,Earth Sciences ,Ultrastructure ,Microscopy, Electron, Scanning ,Neuroscience ,030217 neurology & neurosurgery - Abstract
Detecting the ultrastructure of brain tissue in human archaeological remains is a rare event that can offer unique insights into the structure of the ancient central nervous system (CNS). Yet ancient brains reported in the literature show only poor preservation of neuronal structures. Using scanning electron microscopy (SEM) and advanced image processing tools, we describe the direct visualization of neuronal tissue in vitrified brain and spinal cord remains which we discovered in a male victim of the AD 79 eruption in Herculaneum. We show exceptionally well preserved ancient neurons from different regions of the human CNS at unprecedented resolution. This tissue typically consists of organic matter, as detected using energy-dispersive X-ray spectroscopy. By means of a self-developed neural image processing network, we also show specific details of the neuronal nanomorphology, like the typical myelin periodicity evidenced in the brain axons. The perfect state of preservation of these structures is due to the unique process of vitrification which occurred at Herculaneum. The discovery of proteins whose genes are expressed in the different region of the human adult brain further agree with the neuronal origin of the unusual archaeological find. The conversion of human tissue into glass is the result of sudden exposure to scorching volcanic ash and the concomitant rapid drop in temperature. The eruptive-induced process of natural vitrification, locking the cellular structure of the CNS, allowed us to study possibly the best known example in archaeology of extraordinarily well-preserved human neuronal tissue from the brain and spinal cord.
- Published
- 2020
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