Chapter 1
The Anatomy and Physiology: The Male Reproductive System

Reproduction is a fundamental aspect of living organisms, vital for the perpetuation of species. Although it may not be crucial for individual survival, it ensures the continuation of life through the creation of new offspring.

Reproduction entails a multifaceted process that involves a sequence of interrelated anatomical and physiological functions. While the anatomical and physiological aspects of the reproductive system are central to procreation, it is essential to recognise the significant roles played by psychological and social factors in reproduction. Additionally, the enjoyment that is typically associated with reproductive organs highlights the holistic nature of the reproductive experience.

Gonads, such as testes in males and ovaries in females, produce gametes and hormones indispensable for reproductive function and sexual characteristics.

In contrast to the female reproductive system, the male reproductive system is more visibly external, with the majority of its organs being located outside the body (see Figure 1.1).

Figure 1.1 The male reproductive system.

Source: Peate (2012). With permission of John Wiley & Sons.

In collaboration with other bodily systems, the male reproductive system produces vital hormones that are crucial for biological development, sexual behaviour and performance. These systems include the neuroendocrine and musculoskeletal systems. Additionally, the male reproductive system plays a central role in the efficient operation of the urinary system.

Comprising the scrotum, testes, spermatic ducts, sex glands and penis, the male reproductive system collectively functions to produce sperm – the male gamete – and other components of semen. Furthermore, these organs collaborate in ejaculating semen from the body through the penis, facilitating its delivery into the vagina for the fertilisation of egg cells, typically occurring within the female body, leading to the formation of a zygote, subsequently developing into an embryo and then a fetus.

The primary functions of the male reproductive system are discussed.

Production, Maintenance and Transportation of Male Sperm and Seminal Fluid

• The testes serve as the primary site for sperm production.
• Sperm cells undergo maturation and are nourished within the epididymis, which is located on the surface of each testis.
• Sperm cells are transported through the vas deferens.
• Secretions from various accessory glands, including the seminal vesicles and prostate gland, are added to the sperm to form semen.

Ejaculation of Semen from the Penis

• During sexual arousal, the male reproductive system prepares for ejaculation. This involves the contraction of muscles surrounding the reproductive organs, including the muscles of the pelvic floor and the smooth muscles of the vas deferens.
• Rhythmic contractions of these muscles propel semen through the urethra and out of the body via the penis, known as ejaculation.
• The penis becomes engorged with blood during sexual arousal, facilitating rigidity for penetration during intercourse.

Production and Secretion of Male Sex Hormones

• Producing and secreting hormones known as androgens; testosterone is the primary androgen.
• Testosterone plays a crucial role in regulating various aspects of male physiology and behaviour.
• Functions of testosterone include the development and maintenance of secondary sexual characteristics. It also influences libido, mood and bone density.

Integration with Other Body Systems

• The male reproductive system collaborates closely with the neuroendocrine system, which includes the hypothalamus and pituitary gland, regulating hormone production and maintaining reproductive function.
• The musculoskeletal system plays a role in supporting and facilitating reproductive activities, particularly during sexual intercourse.

This chapter outlines the anatomy and physiology of the male reproductive system, encompassing gonads and various accessory organs. In males, these include the testes, accessory ducts, accessory glands and the penis.

The Scrotum

The scrotum, an anatomical feature that is unique to male mammals, is a specialised pouch of skin and tissue. It is suspended from the base of the penis. It serves as protective housing for the testes, which are the primary organs responsible for sperm production and hormone secretion.

Externally, the scrotum appears as a singular sac, visually divided into two halves by a distinct ridge that is known as the raphe. This external division results from the underlying scrotal septum, a fibrous partition that separates the scrotum into two compartments, each contains one testicle. This arrangement helps to prevent physical contact between the testes, reducing the risk of injury and facilitating independent movement (Figure 1.2).

Figure 1.2 The scrotal sac and testes.

Source: Peate (2020). With permission of John Wiley & Sons.

The scrotum is highly vascularised internally, ensuring adequate blood flow to the testes for their metabolic needs. Additionally, the scrotal skin is rich in sweat glands, which help with thermoregulation by facilitating evaporative cooling when necessary.

The location of the scrotum, located outside the pelvic cavity, is essential for maintaining the optimal temperature for sperm production, which is approximately 2–3 °C below the body’s core temperature. This lower temperature is necessary for spermatogenesis (the process of sperm production) to occur efficiently, as high temperatures can impair sperm production and their viability.

Temperature regulation in the scrotum is primarily mediated by two sets of muscles: the cremaster muscle and the dartos muscle. The cremaster muscle, which is an extension of the internal abdominal oblique muscle, responds to changes in ambient temperature by contracting or relaxing. When it is cold, the cremaster muscle contracts, pulling the testes closer to the body to absorb more heat. Conversely, in warm conditions, the cremaster muscle relaxes, allowing the testes to descend away from the body to cool down. Simultaneously, the dartos muscle, a layer of smooth muscle within the scrotal wall, adjusts the surface area and tension of the scrotal skin. In cold temperatures, the dartos muscle contracts, causing the scrotum to wrinkle and become tighter, which reduces heat loss. Conversely, in warm conditions, the dartos muscle relaxes, allowing the scrotal skin to become smoother and more relaxed, facilitating heat dissipation through increased surface area.

The complex structure and dynamic function of the scrotum play a critical role in supporting spermatogenesis and ensuring the production of healthy sperm. Temperature regulation mechanisms mediated by the cremaster and dartos muscles help maintain the optimal conditions for sperm development and contribute to male fertility and reproductive health.

The Testes

The reproductive glands of the male are the testes, which are analogous to the female ovaries.

During the prenatal development of the male fetus, the testes initially emerge within the abdominal cavity. Before birth, they usually migrate through the inguinal canal, and they settle into the scrotal sac. Suspended within this sac, they hang on either side of the penis, typically with one positioned lower than the other. This external positioning is essential for the production of viable sperm. The primary functions of the testes include:

• Producing sperm (spermatozoa)
• Producing male sex hormones, such as testosterone

The testes are small, oval-shaped organs. They measure approximately 5 cm in length and 2.5 cm in width, enveloped by a layer of serous fibrous connective tissue (Mate 2020). The testes are covered by three layers:

1. Tunica vaginalis
2. Tunica albuginea
3. Tunica vasculosa

See Figure 1.3.

Figure 1.3 A testicle, seminiferous tubules.

Source: Peate (2020). With permission of John Wiley & Sons.

Internally, the testes are divided into approximately 250–300 compartments or lobules. Each of the compartments contains tightly coiled hollow tubes that are known as seminiferous tubules, which serve as the site of sperm production. Interspersed between the tubules are spaces that house interstitial or Leydig cells. These cells are responsible for synthesising and secreting the hormone testosterone, along with other androgens that are essential for male development and reproductive function.

The seminiferous tubules are lined with an outer layer of smooth muscle and an inner layer that is composed of Sertoli cells and developing sperm cells. Sperm cells, in various stages of development, gradually move through the spaces between the adjacent Sertoli cells until they are released into the lumen of the seminiferous tubule. Sertoli cells play a crucial role in nurturing and controlling the development of sperm; they are often referred to as nurse cells or mother cells. Some key functions of Sertoli cells include stimulating sperm proliferation and differentiation, providing nutrients for developing sperm, phagocytosing defective sperm and secreting fluid and proteins into the lumen of the seminiferous tubule.

Spermatogenesis

Spermatogenesis is a complex process. Its aim is to produce mature sperm...