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A cross section of a kidney a solid out regions outlines triangular regions labeled lobes. A tubes beginning at the points of each lobe fuse into a single large tube labeled ureter. A close-up of a lobe showing two nephrons feeding into the tube that feeds into the ureter. Nephrons have a bulb at one end labeled glomerulus. This becomes a tube labeled proximal convoluted tubule which becomes the loop of Henle which becomes the distal convoluted tubule which feeds into the collecting duct. From here urine flows to the renal papilla and ureter. Afferent arterioles feed into the glomerulus and efferent arterioles take materials away from the glomerulus. The venule carries blood away.
The kidney contains several lobes, each of which contains millions of nephrons. The nephron is the functional unit of the kidney, filtering the blood and removing water and dissolved compounds. The filtrate first enters the glomerulus and then enters the proximal convoluted tubule. As it passes through the tubule, the filtrate is further modified by osmosis and active transport until it reaches the larger ducts as urine.

Anatomy of the reproductive system

The male reproductive system ( [link] ) is located in close proximity to the urinary system, and the urethra is part of both systems. The testes are responsible for the production of sperm. The epididymis is a coiled tube that collects sperm from the testes and passes it on to the vas deferens. The epididymis is also the site of sperm maturation after they leave the testes. The seminal vesicles and prostate are accessory glands that produce fluid that supports sperm. During ejaculation, the vas deferens releases this mixture of fluid and sperm, called semen, into the urethra, which extends to the end of the penis .

The female reproductive system is located near the urinary system ( [link] ). The external genitalia ( vulva ) in females open to the vagina , a muscular passageway that connects to the cervix. The cervix is the lower part of the uterus (the organ where a fertilized egg will implant and develop). The cervix is a common site of infection, especially for viruses that may lead to cervical cancer. The uterus leads to the fallopian tubes and eventually to the ovaries. Ovaries are the site of ova (egg) production, as well as the site of estrogen and progesterone production that are involved in maturation and maintenance of reproductive organs, preparation of the uterus for pregnancy, and regulation of the menstrual cycle.

A longitudinal section of the female reproductive and urinary systems. A tube labeled ureter leads to the urinary bladder which leads to the urethra. The urinary bladder sits just internal to the pubic bone. Just above and behind the urinary bladder is the uterus (an oval shaped structure with a thick wall). Above the uterus is a tube labeled fallopian tube which connects to a small oval ovary. The opening in the uterus is the cervix which leads to the vagina. Behhind this is the rectum which leads to the anus. The external flaps of skin are labeled labium minora and majora. A longitudinal section of the male reproductive and urinary system. A tube at the top is labeled ureter which connects to the urinary bladder, which sits just behind the pubic bone. The bladder leads to a long tube labeled urethra which is in the center of the penis. The vas deferens also feeds into the urethra. The testis has a structure on the top called epididymis which becomes the vas deferens. The seminal vesicles connect to the vas deferens just before it goes through the prostate gland (a structure just below the urinary bladder). The vas deferens connects to the urethra after it passes through the prostate gland.  The rectum and anus are behind all of these structures.
The female reproductive system is located in close proximity to the urinary system. In males, the urethra is shared by the reproductive and urinary systems.
  • What are the major structures of the urinary system, starting where urine is formed?
  • What structure in males is shared by the reproductive and the urinary systems?

Normal microbiota of the urogenital system

The normal microbiota of different body sites provides an important nonspecific defense against infectious diseases (see Physical Defenses ), and the urogenital tract is no exception. In both men and women, however, the kidneys are sterile. Although urine does contain some antibacterial components, bacteria will grow in urine left out at room temperature. Therefore, it is primarily the flushing action that keeps the ureters and bladder free of microbes.

Below the bladder, the normal microbiota of the male urogenital system is found primarily within the distal urethra and includes bacterial species that are commonly associated with the skin microbiota. In women, the normal microbiota is found within the distal one third of the urethra and the vagina. The normal microbiota of the vagina becomes established shortly after birth and is a complex and dynamic population of bacteria that fluctuates in response to environmental changes. Members of the vaginal microbiota play an important role in the nonspecific defense against vaginal infections and sexually transmitted infections by occupying cellular binding sites and competing for nutrients. In addition, the production of lactic acid by members of the microbiota provides an acidic environment within the vagina that also serves as a defense against infections. For the majority of women, the lactic-acid–producing bacteria in the vagina are dominated by a variety of species of Lactobacillus . For women who lack sufficient lactobacilli in their vagina, lactic acid production comes primarily from other species of bacteria such as Leptotrichia spp., Megasphaera spp., and Atopobium vaginae . Lactobacillus spp. use glycogen from vaginal epithelial cells for metabolism and production of lactic acid. This process is tightly regulated by the hormone estrogen. Increased levels of estrogen correlate with increased levels of vaginal glycogen, increased production of lactic acid, and a lower vaginal pH . Therefore, decreases in estrogen during the menstrual cycle and with menopause are associated with decreased levels of vaginal glycogen and lactic acid, and a higher pH. In addition to producing lactic acid, Lactobacillus spp. also contribute to the defenses against infectious disease through their production of hydrogen peroxide and bacteriocins (antibacterial peptides).

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Source:  OpenStax, Microbiology. OpenStax CNX. Nov 01, 2016 Download for free at http://cnx.org/content/col12087/1.4
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