Tag: rhombencephalon

The embryonic brain undergoes remarkable transformation as it develops from the neural tube, progressing through distinct vesicle stages that shape its complex structure. This article examines a detailed image highlighting the primary vesicle stage with three regions and the secondary vesicle stage with five regions, providing insight into the early anatomical development of the brain.

Anencephaly is one of the most severe neural tube defects compatible with life until birth, characterized by the absence of a major portion of the brain, skull, and scalp. The image depicts an anencephalic newborn in profile view, illustrating the distinctive craniofacial features associated with this condition. Anencephaly results from failure of the rostral (head) end of the neural tube to close during embryonic development, typically between the 23rd and 26th day of gestation. This devastating congenital anomaly is universally fatal, with most affected newborns surviving only hours to days after birth. Understanding the characteristic physical manifestations, underlying pathophysiology, and available management options is essential for healthcare professionals involved in perinatal and neonatal care.

The development of the brain vesicles is a pivotal process in embryology, marking the early formation of the central nervous system. This diagram illustrates the transformation from the three primary brain vesicles in a three-to-four-week embryo to the five secondary vesicles in a five-week embryo, offering essential insights for medical students and professionals. Dive into this detailed exploration to understand the anatomical and developmental milestones of the human brain.