Shpornaya furrow

The calcarine groove is one of the important elements of the structure of the human skull. It runs along the occipital bone and forms a depression called the calcarine groove. The calcarine groove is an important anatomical landmark for doctors and surgeons, as it is located on the border between the occipital bone and the skull.

The calcarine groove is about 10-12 cm long and about 0.5-1 cm wide. It starts from the foramen magnum and runs along the skull to its base. The calcarine groove is divided into two parts: internal and external. The inner part runs along the inner surface of the skull and forms a depression on the occipital bone, and the outer part is located on the outer surface of the skull.

The calcarine groove contains the optic nerve, which is one of the main nerves in the human body. The optic nerve passes through the calcarine sulcus and transmits information from the eyes to the brain. In addition, the calcarine groove contains vessels and nerves that provide blood supply and innervation to the tissues of the skull.

The calcular grooves are very important for humans, as they ensure the normal functioning of the optic nerve and other structures. However, if the calcarine groove is damaged or blocked, it can lead to various diseases and disorders in the body. Therefore, it is important to monitor the condition of the calcarine grooves and consult a doctor if you experience any symptoms associated with them.



Spur Furrow: The Mysterious Valley of Visual Perception

The sulcus calcarine, also known as the sulcus sulcus, is one of the most important anatomical features of the human brain. It is located at the back of the brain and plays a fundamental role in processing visual information. In this article we explore the nature and significance of Shpornoy's fissure in the context of visual perception.

The sulcus calcarine is a deep groove that extends into the back of the brain called the occipital lobe. It covers an area known as the primary visual cortex, which plays a key role in processing visual stimuli. The calcarine sulcus divides the primary visual cortex into two halves known as the superior and inferior hemispheres.

The role of the Spurnaya sulcus is to form a map of the visual field on the surface of the brain. Each half of the sulcus is responsible for processing information from the opposite half of the visual field. For example, the left half of Spurnoy's sulcus processes information received from the right half of the visual field, and vice versa. This feature allows the brain to create a complete and objective representation of the visual environment.

Abnormalities in the calcarine sulcus can lead to various visual disturbances. For example, abnormalities in the development of the Spurnaya's fissure can cause problems with processing and recognizing visual information. Such disorders can range from mild to severe and can have a significant impact on the quality of visual perception.

Medical research shows that the calcarine sulcus is essential not only for visual processing, but also for other aspects of cognition and cognitive functions. This sulcus is associated with important areas of the brain responsible for attention, memory and spatial perception.

In conclusion, the calcarine sulcus is a fascinating anatomical feature of the brain that plays a significant role in visual information processing. Its functional significance extends far beyond visual perception, encompassing other aspects of cognition and cognitive processes. Through the study of Spurnaya's sulcus, we are gaining greater understanding of how the brain processes and interprets the visual world around us.