Chapter 26 The Urinary System An Overview of the Urinary System p 952 Objective 1 Identify the components of the urinary system and describe the functions it performs Figure 26 1 The urinary system has three major functions o 1 excretion the removal of organic waste products from body fluids o 2 elimination the discharge of these waste products into the environment and o 3 homeostatic regulation of the volume and solute concentration of blood plasma The excretory functions of the urinary system are performed by the two kidneys organs that produce urine a fluid containing water ions and small soluble compounds Urine leaving the kidneys flows along the urinary tract which consists of paired tubes called ureters to the urinary bladder a muscular sac for temporary storage of urine On leaving the urinary bladder urine passes through the urethra which conducts the urine to the exterior The urinary bladder and the urethra are responsible for the elimination of urine a process called urination or micturition In this process contraction of the muscular urinary bladder forces urine through the urethra and out of the body In addition to removing waste products generated by cells throughout the body the urinary system has several other essential homeostatic functions that are often overlooked including the following o Regulating blood volume and blood pressure by adjusting the volume of water lost in urine releasing erythropoietin and releasing renin o Regulating plasma concentrations of sodium potassium chloride and other ions by controlling the quantities lost in urine and controlling calcium ion levels through the synthesis of calcitriol o Helping to stabilize blood pH by controlling the loss of hydrogen ions and bicarbonate ions in urine o Conserving valuable nutrients by preventing their excretion in urine while excreting organic waste products especially nitrogenous wastes such as urea and uric acid o Assisting the liver in detoxifying poisons and during starvation deaminating amino acids so that other tissues can break them down These activities are carefully regulated to keep the composition of blood within acceptable limits The Kidneys p 952 Objectives 1 Describe the location and structural features of the kidneys 2 Identify the major blood vessels associated with each kidney and trace the path of blood flow through a kidney 3 Describe the structure of the nephron and outline the processes involved in the formation of urine Figure 26 2 The kidneys are located on either side of the vertebral column between vertebrae T12 and L3 The left kidney lies slightly superior to the right kidney The superior surface of each kidney is capped by an adrenal gland The kidneys and adrenal glands lie between the muscles of the dorsal body wall and the parietal peritoneum in a retroperitoneal position The position of the kidneys in the abdominal cavity is maintained by 1 the overlying peritoneum 2 contact with adjacent visceral organs and 3 supporting connective tissues Each kidney is protected and stabilized by three concentric layers of connective tissue o The renal capsule a layer of collagen fibers that covers the outer surface of the entire organ o The adipose capsule a thick layer of adipose tissue that surrounds the renal capsule The renal fascia a dense fibrous outer layer that anchors the kidney to surrounding structures Collagen fibers extend outward from the renal capsule through the adipose capsule to this layer A typical adult kidney is reddish brown and about 10 cm 4 in long 5 5 cm 2 2 in wide and 3 cm 1 2 in thick Each kidney weighs about 150 g 5 25 oz The hilum a prominent medial indentation is the point of entry for the renal artery and renal nerves and the point of exit for the renal vein and the ureter o Sectional Anatomy of the Kidneys Figure 26 3 Figure 26 4 The fibrous renal capsule covering the outer surface of the kidney also lines the renal sinus an internal cavity within the kidney The renal capsule is bound to the outer surfaces of the structures within the renal sinus stabilizing the positions of the ureter and of the renal blood vessels and nerves The kidney itself has an outer cortex and an inner medulla The renal cortex is the superficial portion of the kidney in contact with the renal capsule The cortex is reddish brown and granular The renal medulla consists of 6 to 18 distinct conical or triangular structures called renal pyramids The base of each pyramid abuts the cortex and the tip of each pyramid a region known as the renal papilla projects into the renal sinus Each pyramid has a series of fine grooves that converge at the papilla Adjacent renal pyramids are separated by bands of cortical tissue called renal columns which extend into the medulla The columns have a distinctly granular texture similar to that of the cortex A renal lobe consists of a renal pyramid the overlying area of renal cortex and adjacent tissues of the renal columns Urine production occurs in the renal lobes Ducts within each renal papilla discharge urine into a cup shaped drain called a minor calyx Four or five minor calyces merge to form a major calyx and two or three major calyces combine to form the renal pelvis a large funnelshaped chamber The renal pelvis which fills most of the renal sinus is connected to the ureter which drains the kidney Urine production begins in microscopic tubular structures called nephrons in the cortex of each renal lobe Each kidney has roughly 1 25 million nephrons with a combined length of about 145 km 85 miles Blood Supply and Innervation of the Kidneys Figure 26 5 Your kidneys receive 20 25 percent of your total cardiac output In normal healthy individuals about 1200 ml of blood flows through the kidneys each minute Each kidney receives blood through a renal artery which originates along the lateral surface of the abdominal aorta near the level of the superior mesenteric artery As it enters the renal sinus the renal artery provides blood to the segmental arteries Segmental arteries further divide into a series of interlobar arteries which radiate outward through the renal columns between the renal pyramids The interlobar arteries supply blood to the arcuate arteries which arch along the boundary between the cortex and medulla of the kidney Each arcuate artery gives rise to a number of interlobular arteries which supply the cortical portions of the adjacent renal lobes Branching from each interlobular artery are numerous afferent arterioles which deliver