Results 1 to 10 of about 12,090 (225)
Spinal neural tube formation and tail development in human embryos [PDF]
eLifePrimary and secondary neurulation – processes that form the spinal cord – are incompletely understood in humans, largely due to the challenge of accessing neurulation-stage embryos (3–7 weeks post-conception).
Chloe Santos +9 more
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Spectral decomposition unlocks ascidian morphogenesis [PDF]
eLifeDescribing morphogenesis generally consists in aggregating the multiple high-resolution spatiotemporal processes involved into reproducible low-dimensional morphological processes consistent across individuals of the same species or group.
Joel Dokmegang +4 more
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Linking planar polarity signalling to actomyosin contractility during vertebrate neurulation [PDF]
Open BiologyActomyosin contractility represents an ancient feature of eukaryotic cells participating in many developmental and homeostasis events, including tissue morphogenesis, muscle contraction and cell migration, with dysregulation implicated in various ...
Sarka Novotna +4 more
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Imaging in Spinal DysraphismA Pictoral Assay [PDF]
International Journal of Anatomy Radiology and Surgery, 2021 Spinal dysraphism includes the congenital malformations of the spine and spinal cord. Spinal cord development takes place through successive stages of gastrulation, primary neurulation, and secondary neurulation. Defect in any of these three phases can
Anurudh Kishore Vatti +2 more
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Mitochondria in Early Forebrain Development: From Neurulation to Mid-Corticogenesis
Frontiers in Cell and Developmental Biology, 2021 Function of the mature central nervous system (CNS) requires a substantial proportion of the body’s energy consumption. During development, the CNS anlage must maintain its structure and perform stage-specific functions as it proceeds through discrete ...
Ryann M. Fame, Maria K. Lehtinen
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Disease Models & Mechanisms, 2022 Planar cell polarity (PCP) signalling is vital for initiation of mouse neurulation, with diminished convergent extension (CE) cell movements leading to craniorachischisis, a severe neural tube defect (NTD).
Oleksandr Nychyk +6 more
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Case series of cranial and spinal dysraphism
National Journal of Clinical Anatomy, 2022 Neural tube defects (NTDs) are the second most common cause of congenital anomaly worldwide (cardiac anomalies is the first). The 3rd and 4th week of gestation is the critical period for neural tube development. Multiple genetic and environmental factors
Gayathri Pandurangam +3 more
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Spinal Dysraphisms: A New Anatomical–Clinicoradiological Classification
Indian Journal of Radiology and Imaging, 2021 Background Spinal dysraphisms refer to the congenital abnormalities of the spine and spinal cord due to aberrations in the processes of gastrulation, primary neurulation, and secondary neurulation. Embryology of many complex spinal dysraphisms
Amarnath Chellathurai +4 more
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Cell Reports, 2021 Summary: Metabolic support was long considered to be the only developmental function of hematopoiesis, a view that is gradually changing. Here, we disclose a mechanism triggered during neurulation that programs brain development by donation of ...
Şükran Özsoy +5 more
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Frontiers in Pharmacology, 2020 The neurulation process is regulated by a large amount of genetic and environmental factors that determine the establishment, folding, and fusion of the neural plate to form the neural tube, which develops into the main structure of the central nervous ...
Camila Benavides-Rivas +11 more
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