Magnetic resonance microscopy of prenatal dolphins (Mammalia, Odontoceti, Delphinidae) – Ontogenetic and phylogenetic implications

The structure of two preserved prenatal dolphins were visualized by 3D MR microscopy (isotropic nominal resolution up to 78.1μm), which is a high-resolution 3D magnetic resonance imaging (MRI) technique. To determine the benefits and limitations of this method, the acquired 3D datasets were segmente...

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Bibliographic Details
Published in:Zoologischer Anzeiger 2012-04, Vol.251 (2), p.115-130
Main Authors: Haddad, Daniel, Huggenberger, Stefan, Haas-Rioth, Michaela, Kossatz, Lars S., Oelschläger, Helmut H.A., Haase, Axel
Format: Article
Language:English
Subjects:
Aquatic adaptation
Cetacea
data collection
Delphinidae
Developmental biology
developmental stages
dolphins
Embryology
Evolution
fossils
image analysis
lifestyle
magnetic resonance imaging
Magnetic resonance imaging (MRI)
Mammalia
Marine
microscopy
Odontoceti
phylogeny
tissues
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Summary:The structure of two preserved prenatal dolphins were visualized by 3D MR microscopy (isotropic nominal resolution up to 78.1μm), which is a high-resolution 3D magnetic resonance imaging (MRI) technique. To determine the benefits and limitations of this method, the acquired 3D datasets were segmented manually and compared to histological sections of different specimens in corresponding developmental stages. The MR images visualize the external and internal morphology of both prenatal dolphins in detail. Various organ systems with their main components are clearly documented in the images, allowing a complete segmentation of the specimens and the calculation of volumes and surface areas of different organ systems. Due to its non-invasive character and the detailed imaging within its resolution range, MR microscopy proves to be a valuable tool in developmental biology for the visualization of the inner architecture of rare and delicate museum specimens, such as the small dolphin embryo and fetus examined. In these two prenatal dolphins, the profound structural modifications at the transition from the embryonic to the fetal stage reflect the adaptations of the mammalian bauplan to the requirements of a holaquatic cetacean life-style. However, the developmental pattern and sequence of the emerging tissues and organs in prenatal life do not resemble the hypothesized evolution of the structural and functional adaptations found in the fossil record.
ISSN:0044-5231
1873-2674
DOI:10.1016/j.jcz.2011.06.004