Very simply, the scrotum is a cutaneous sac that contains the testes, or testicles, and the lower parts of the spermatic cord. Importantly, the scrotum allows the testes to be positioned outside of the body.
To understand the significance of this anatomical structure and its location, this article will discuss the development and anatomy of the scrotum, its contents and function, its blood and nerve supply, and the clinical significance of the scrotum, especially in infant males.
In the embryo, the scrotum develops from a pair of ridges or elevations, that form on either side of the embryonic genital tubercle.
The tubercle will later develop into the penis in the male, or the clitoris in the female.
The elevations on either side of the tubercle are known as labioscrotal swellings, as they will later develop into either the scrotum in males, or into the labia majora in females. As the embryo continues to develop and become a fetus, the separated pair of labioscrotal swellings will fuse at the midline, creating one continuous sac, the scrotum. Towards the end of pregnancy, approximately 32 weeks, both testes have completed their descent from the posterior abdominal wall, through the inguinal canal, to finally reach the scrotum.
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Because of the pathway of descent through the anterior abdominal wall, the testes will be covered by the layers of fascia and muscles (external and internal obliques, and transversus abdominis) associated with the abdominal region. The scrotum however, has only two layers, because it develops separately from the testes.
Externally is the skin, and below the skin a layer of fascia known as dartos fascia. This fascial layer is devoid of fat but does include smooth muscle fibers collectively known as the dartos muscle.
Since the fascial layer, including its muscle fibers, attaches to the overlying skin, when the dartos muscle contracts it gives the scrotum its wrinkled appearance. internally, the dartos fascia will divide the scrotum into right and left compartments to house each of the testes.
This internal fascial septum, or wall, can be visualized externally as a ridge of skin known as the scrotal raphe. The scrotal raphe indicates the line of fusion of the labioscrotal swellings in the embryo.
Contents
As mentioned previously, the scrotum contains the testes and parts of the spermatic cord. The testes are the site of sperm production, and as such, form the essential component of the male reproductive system.
Sperm leaves the testes via the epididymis, which then drains into the ductus or vas deferens. The epididymis and lower portions of the ductus deferens are located within the scrotum. The ductus deferens is joined by blood vessels supplying the testes, creating the contents of the spermatic cord.
Function
It is sperm production, or spermatogenesis, in the testes that highlights the essential function of the scrotum. The production of sperm is most efficient within a small range of temperature. The presence of the testes in the scrotum means they are located just outside of the body, allowing them to be slightly cooler than the internal body temperature.
However, if the temperature of the testes drops,
Regulation of femperature
Our skin loses water through perspiration and cools itself, thereby, removing heat from the body. It also allows the hot blood to move to the surface of the skin, where its heat is radiated out of the skin. The phenomenon of “goosebumps’ is also a temperature regulation response.
Camouflage
Many animals exhibit the phenomenon of camouflage where their skin produces colours and patterns that blend in with the surroundings and protects them from predators. Also, it makes it easier for predators to catch their prey by making themselves invisible in the surroundings. The skin of chameleons can release different amounts of pigments at their own will.
Storage
The skin can store fats and water in its tissues. These provide extra insulation to our body. The animals found in colder regions develop thick layers of fat to prevent themselves from the outside cold.
Excreting Scent Signals
The sweat secreted by our skin can also act as a signal to other organisms. Many animals mark their territories by secreting some scent from the glands in their skin which contains information about its age . availability to the mate. Q