Welcome to Unit 5 Welcome to Unit 5 Chapters 15 & 16 Chapters 15 & 16
Jan 13, 2016
Welcome to Unit 5Welcome to Unit 5
Chapters 15 & 16Chapters 15 & 16
Chapter 15Chapter 15The Digestive SystemThe Digestive System
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DIGESTIVE SYSTEM DIGESTIVE SYSTEM (FIGURE 15-1)(FIGURE 15-1)
Irregular tube called Irregular tube called alimentary canalalimentary canal or or gastrointestinal (GI) tractgastrointestinal (GI) tract
Food must first be digested, then Food must first be digested, then absorbed, and later metabolizedabsorbed, and later metabolized
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WALL OF THE DIGESTIVE TRACT WALL OF THE DIGESTIVE TRACT (FIGURE 15-2)(FIGURE 15-2)
Digestive tract described as tube that extends Digestive tract described as tube that extends from mouth to anusfrom mouth to anus
Wall of the digestive tube is formed by four layers Wall of the digestive tube is formed by four layers of tissue:of tissue: Mucosa—mucous epitheliumMucosa—mucous epithelium Submucosa—connective tissueSubmucosa—connective tissue Muscularis—two layers of smooth muscle Muscularis—two layers of smooth muscle Serosa—serous membrane that covers the outside of Serosa—serous membrane that covers the outside of
abdominal organs; it attaches the digestive tract to the abdominal organs; it attaches the digestive tract to the wall of the abdominopelvic cavity by forming folds called wall of the abdominopelvic cavity by forming folds called mesenteriesmesenteries
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MOUTHMOUTH
Roof—formed by hard palate (parts of maxillary and Roof—formed by hard palate (parts of maxillary and palatine bones) and soft palate, an arch-shaped muscle palatine bones) and soft palate, an arch-shaped muscle separating mouth from pharynx; uvula, a downward separating mouth from pharynx; uvula, a downward projection of soft palate (Figure 15-4)projection of soft palate (Figure 15-4)
Floor—formed by tongue and its muscles; papillae, small Floor—formed by tongue and its muscles; papillae, small elevations on mucosa of tongue; taste buds, found in many elevations on mucosa of tongue; taste buds, found in many papillae; lingual frenulum, fold of mucous membrane that papillae; lingual frenulum, fold of mucous membrane that helps anchor tongue to floor of mouth (Figure 15-4)helps anchor tongue to floor of mouth (Figure 15-4)
Typical tooth (Figure 15-5)Typical tooth (Figure 15-5) Three main parts—crown, neck, and rootThree main parts—crown, neck, and root Enamel, which covers the crown, is hardest tissue in bodyEnamel, which covers the crown, is hardest tissue in body
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MOUTHMOUTH
Types of teeth—incisors, cuspids, bicuspids, and Types of teeth—incisors, cuspids, bicuspids, and tricuspids tricuspids
Twenty teeth in temporary set; average age for Twenty teeth in temporary set; average age for cutting first tooth about 6 months; set complete at cutting first tooth about 6 months; set complete at about 2 years of ageabout 2 years of age
Thirty-two teeth in permanent set; 6 years about Thirty-two teeth in permanent set; 6 years about average age for starting to cut first permanent average age for starting to cut first permanent tooth; set complete usually between ages of 17 tooth; set complete usually between ages of 17 and 24 years (Figure 15-6)and 24 years (Figure 15-6)
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What is the largest salivary gland?What is the largest salivary gland?
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SALIVARY GLANDS SALIVARY GLANDS (FIGURE 15-7)(FIGURE 15-7)
Parotid glands—largest salivary glandsParotid glands—largest salivary glands Submandibular glands—open into mouth Submandibular glands—open into mouth
on either side of frenulumon either side of frenulum Sublingual glands—open into floor of Sublingual glands—open into floor of
mouthmouth
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PHARYNXPHARYNX
Tubelike structure that allows both food Tubelike structure that allows both food and air to pass.and air to pass.
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What connects the pharynx to the stomach?What connects the pharynx to the stomach?
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ESOPHAGUSESOPHAGUS
Connects pharynx to stomachConnects pharynx to stomach Dynamic passageway for foodDynamic passageway for food
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STOMACH (Figure 15-8)STOMACH (Figure 15-8)
Size—expands after large meal; about size of Size—expands after large meal; about size of large sausage when emptylarge sausage when empty
Food enters stomach through gastroesophageal Food enters stomach through gastroesophageal (cardiac) sphincter(cardiac) sphincter
Pyloric sphincter muscle closes opening between Pyloric sphincter muscle closes opening between pylorus (lower part of stomach) and duodenumpylorus (lower part of stomach) and duodenum
Wall—many smooth muscle fibers; contractions Wall—many smooth muscle fibers; contractions produce churning movements (peristalsis)produce churning movements (peristalsis)
Lining—mucous membrane; many microscopic Lining—mucous membrane; many microscopic glands that secrete gastric juice and hydrochloric glands that secrete gastric juice and hydrochloric acid into stomach; mucous membrane lies in folds acid into stomach; mucous membrane lies in folds (rugae) when stomach is empty (rugae) when stomach is empty
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SMALL INTESTINE SMALL INTESTINE (FIGURE 15-9)(FIGURE 15-9)
Size—about 7 meters (20 feet) long but Size—about 7 meters (20 feet) long but only 2 cm or so in diameteronly 2 cm or so in diameter
What are the three divisionsWhat are the three divisions
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SMALL INTESTINE SMALL INTESTINE (FIGURE 15-9)(FIGURE 15-9)
DivisionsDivisions DuodenumDuodenum JejunumJejunum IleumIleum
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The surfaceis folded and coveredwith villi.Can you tell what this does?
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SMALL INTESTINESMALL INTESTINE
Wall—contains smooth muscle fibers that Wall—contains smooth muscle fibers that contract to produce peristalsiscontract to produce peristalsis
Lining—mucous membrane; many Lining—mucous membrane; many microscopic glands (intestinal glands) microscopic glands (intestinal glands) secrete intestinal juice; villi (microscopic secrete intestinal juice; villi (microscopic finger-shaped projections from surface of finger-shaped projections from surface of mucosa into intestinal cavity) contain blood mucosa into intestinal cavity) contain blood and lymph capillaries and lymph capillaries
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LIVER AND GALLBLADDERLIVER AND GALLBLADDER
Size and location—liver is largest gland; fills upper Size and location—liver is largest gland; fills upper right section of abdominal cavity and extends over right section of abdominal cavity and extends over into left sideinto left side
Liver secretes bileLiver secretes bile Ducts (Figure 15-10)Ducts (Figure 15-10)
Hepatic—drains bile from liverHepatic—drains bile from liver Cystic—duct by which bile enters and leaves gallbladderCystic—duct by which bile enters and leaves gallbladder Common bile—formed by union of hepatic and cystic Common bile—formed by union of hepatic and cystic
ducts; drains bile from hepatic or cystic ducts into ducts; drains bile from hepatic or cystic ducts into duodenumduodenum
GallbladderGallbladder Location—undersurface of the liverLocation—undersurface of the liver Function—concentrates and stores bile produced in the Function—concentrates and stores bile produced in the
liver liver
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What does bile do?What does bile do?
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Bile acts as a detergent to mechanically Bile acts as a detergent to mechanically break up, or emulsify fats.break up, or emulsify fats.
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What is the exocrine gland that lies behind What is the exocrine gland that lies behind stomach?stomach?
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PANCREASPANCREAS
FunctionsFunctions Pancreatic cells secrete pancreatic juice (most Pancreatic cells secrete pancreatic juice (most
important digestive juice) into pancreatic ducts; important digestive juice) into pancreatic ducts; main duct empties into duodenummain duct empties into duodenum
Pancreatic islets (of Langerhans)—cells not Pancreatic islets (of Langerhans)—cells not connected with pancreatic ducts; secrete connected with pancreatic ducts; secrete hormones glucagon and insulin into the bloodhormones glucagon and insulin into the blood
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Large IntestineLarge Intestine
What are the three divisions?What are the three divisions?
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LARGE INTESTINE LARGE INTESTINE (FIGURE 15-12)(FIGURE 15-12)
DivisionsDivisions CecumCecum Colon—ascending, transverse, descending, and sigmoidColon—ascending, transverse, descending, and sigmoid RectumRectum
Food enters through ileocecal valve; external Food enters through ileocecal valve; external opening called anusopening called anus
Wall—contains smooth muscle fibers that contract Wall—contains smooth muscle fibers that contract to produce churning, peristalsis, and defecation to produce churning, peristalsis, and defecation
Lining—mucous membraneLining—mucous membrane
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?
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APPENDIXAPPENDIX
Blind tube off cecumBlind tube off cecum No important digestive functions in No important digestive functions in
humanshumans
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PERITONEUM (FIGURE 15-14)PERITONEUM (FIGURE 15-14)
Definitions—peritoneum, serous membrane lining Definitions—peritoneum, serous membrane lining abdominal cavity and covering abdominal organs; parietal abdominal cavity and covering abdominal organs; parietal layer of peritoneum lines abdominal cavity; visceral layer of layer of peritoneum lines abdominal cavity; visceral layer of peritoneum covers abdominal organs; peritoneal space lies peritoneum covers abdominal organs; peritoneal space lies between parietal and visceral layersbetween parietal and visceral layers
Extensions—largest are the mesentery and greater Extensions—largest are the mesentery and greater omentum omentum Mesentery is extension of parietal peritoneum, which attaches Mesentery is extension of parietal peritoneum, which attaches
most of small intestine to posterior abdominal wall most of small intestine to posterior abdominal wall Greater omentum, or “lace apron,” hangs down from lower Greater omentum, or “lace apron,” hangs down from lower
edge of stomach and transverse colon over intestinesedge of stomach and transverse colon over intestines X-ray studies of the GI tract—radiopaque contrast medium X-ray studies of the GI tract—radiopaque contrast medium
used to help visualize structures in study imagesused to help visualize structures in study images
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DIGESTION (TABLE 15-2)DIGESTION (TABLE 15-2)
Definition—transforms foods into substances that Definition—transforms foods into substances that can be absorbed and used by cellscan be absorbed and used by cells Mechanical digestion—chewing (mastication), Mechanical digestion—chewing (mastication),
swallowing (deglutition), and peristalsis break food into swallowing (deglutition), and peristalsis break food into tiny particles, mix them well with digestive juices, and tiny particles, mix them well with digestive juices, and move them along the digestive tractmove them along the digestive tract
Chemical digestion—breaks up large food molecules Chemical digestion—breaks up large food molecules into compounds that have smaller molecules; brought into compounds that have smaller molecules; brought about by digestive enzymes (Figure 15-15)about by digestive enzymes (Figure 15-15)
Enzymes and chemical digestionEnzymes and chemical digestion Enzymes are specialized protein molecules that act as Enzymes are specialized protein molecules that act as
catalystscatalysts Breakdown process called hydrolysisBreakdown process called hydrolysis
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DIGESTIONDIGESTION
Carbohydrate digestion—mainly in small Carbohydrate digestion—mainly in small intestineintestine Pancreatic amylase—breaks polysaccharides Pancreatic amylase—breaks polysaccharides
down to disaccharidesdown to disaccharides Intestinal juice enzymesIntestinal juice enzymes
• Maltase—changes maltose to glucoseMaltase—changes maltose to glucose
• Sucrase—changes sucrose to glucoseSucrase—changes sucrose to glucose
• Lactase—changes lactose to glucoseLactase—changes lactose to glucose
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DIGESTIONDIGESTION
Protein digestion—starts in stomach; completed in Protein digestion—starts in stomach; completed in small intestinesmall intestine Gastric juice enzymeGastric juice enzyme pepsin pepsin partially digests proteins partially digests proteins Pancreatic enzyme, Pancreatic enzyme, trypsintrypsin, continues digestion of , continues digestion of
proteinsproteins Intestinal enzymes, Intestinal enzymes, peptidasespeptidases, complete digestion of , complete digestion of
partially digested proteins and convert them to amino partially digested proteins and convert them to amino acidsacids
Fat digestionFat digestion Bile contains no enzymes but emulsifies fats (breaks fat Bile contains no enzymes but emulsifies fats (breaks fat
droplets into very small droplets)droplets into very small droplets) Pancreatic lipase changes emulsified fats to fatty acids Pancreatic lipase changes emulsified fats to fatty acids
and glycerol in small intestineand glycerol in small intestine
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ABSORPTIONABSORPTION
Definition—process by which digested food Definition—process by which digested food moves from intestine into blood or lymphmoves from intestine into blood or lymph
Foods and most water minerals and vitamins are Foods and most water minerals and vitamins are absorbed from small intestine; some water and absorbed from small intestine; some water and vitamin K also absorbed from large intestinevitamin K also absorbed from large intestine
Surface area absorption Surface area absorption Structural adaptations increase absorptive surface areaStructural adaptations increase absorptive surface area Fractal geometry—study of fragmented geometric Fractal geometry—study of fragmented geometric
irregular shapes such as those in lining of intestineirregular shapes such as those in lining of intestine
Chapter 16Chapter 16Nutrition and MetabolismNutrition and Metabolism
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DEFINITIONSDEFINITIONS
Nutrition—food, vitamins, and minerals that are Nutrition—food, vitamins, and minerals that are ingested and assimilated into the bodyingested and assimilated into the body
Metabolism—process of using food molecules as Metabolism—process of using food molecules as energy sources and as building blocks for our own energy sources and as building blocks for our own molecules molecules
Catabolism—breaks food molecules down, Catabolism—breaks food molecules down, releasing their stored energy; oxygen used in releasing their stored energy; oxygen used in catabolismcatabolism
Anabolism—builds food molecules into complex Anabolism—builds food molecules into complex substancessubstances
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ROLE OF THE LIVERROLE OF THE LIVER
Secretes bile, which breaks down large fat Secretes bile, which breaks down large fat globulesglobules
Helps maintain normal blood glucose levelHelps maintain normal blood glucose level Helps metabolize carbohydrates, fats, and Helps metabolize carbohydrates, fats, and
proteins; synthesizes several kinds of proteins; synthesizes several kinds of protein compoundsprotein compounds
Removes toxins from the bloodRemoves toxins from the blood
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NUTRIENT METABOLISMNUTRIENT METABOLISM
Carbohydrates—preferred energy food of the bodyCarbohydrates—preferred energy food of the body What are the three series of chemical reactions in glucose What are the three series of chemical reactions in glucose
metabolism?metabolism?
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NUTRIENT METABOLISMNUTRIENT METABOLISM
Carbohydrates—preferred energy food of the bodyCarbohydrates—preferred energy food of the body Three series of chemical reactions in glucose metabolismThree series of chemical reactions in glucose metabolism
• GlycolysisGlycolysis Changes glucose to pyruvic acidChanges glucose to pyruvic acid Anaerobic (uses no oxygen)Anaerobic (uses no oxygen) Yields small amount of energy (transferred to ATP)Yields small amount of energy (transferred to ATP) Occurs in cytoplasm Occurs in cytoplasm
• Citric acid (Krebs) cycleCitric acid (Krebs) cycle Changes pyruvic acid to carbon dioxideChanges pyruvic acid to carbon dioxide Aerobic (requires oxygen)Aerobic (requires oxygen) Yields large amount of energy (mostly as high energy electrons)Yields large amount of energy (mostly as high energy electrons) Occurs in mitochondriaOccurs in mitochondria
• Electron transfer systemElectron transfer system Transfers energy from high energy electrons (from citric acid cycle) to Transfers energy from high energy electrons (from citric acid cycle) to
ATP moleculesATP molecules Located in mitochondriaLocated in mitochondria
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NUTRIENT METABOLISMNUTRIENT METABOLISM
Carbohydrates (cont.)Carbohydrates (cont.) Carbohydrates are primarily catabolized for energy (Figure 16-1), but Carbohydrates are primarily catabolized for energy (Figure 16-1), but
small amounts are anabolized by glycogenesis (a series of chemical small amounts are anabolized by glycogenesis (a series of chemical reactions that changes glucose to glycogen—occurs mainly in liver reactions that changes glucose to glycogen—occurs mainly in liver cells where glycogen is stored)cells where glycogen is stored)
Adenosine triphosphate (ATP)—molecule in which energy obtained Adenosine triphosphate (ATP)—molecule in which energy obtained from breakdown of foods is stored; serves as a direct source of energy from breakdown of foods is stored; serves as a direct source of energy for cellular work (Figure 16-2)for cellular work (Figure 16-2)
Blood glucose (imprecisely, Blood glucose (imprecisely, blood sugarblood sugar)—normally stays between )—normally stays between about 80 and 110 mg per 100 mL of blood during fasting; insulin about 80 and 110 mg per 100 mL of blood during fasting; insulin accelerates the movement of glucose out of the blood into cells, accelerates the movement of glucose out of the blood into cells, therefore decreases blood glucose and increases glucose catabolismtherefore decreases blood glucose and increases glucose catabolism
Fats—catabolized to yield energy and anabolized to form adipose Fats—catabolized to yield energy and anabolized to form adipose tissue (Figure 16-3)tissue (Figure 16-3)
Proteins—primarily anabolized and secondarily catabolizedProteins—primarily anabolized and secondarily catabolized
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Catabolism of nutrients
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VITAMINS AND MINERALSVITAMINS AND MINERALS
Vitamins—organic molecules that are Vitamins—organic molecules that are needed in small amounts for normal needed in small amounts for normal metabolism (Table 16-2)metabolism (Table 16-2)
Minerals—inorganic molecules found Minerals—inorganic molecules found naturally in the earth, required by the body naturally in the earth, required by the body for normal function (Table 16-3)for normal function (Table 16-3)
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METABOLIC RATESMETABOLIC RATES
Basal metabolic rate (BMR)—rate of Basal metabolic rate (BMR)—rate of metabolism when a person is lying down metabolism when a person is lying down but awake and not digesting food and but awake and not digesting food and when the environment is comfortably warmwhen the environment is comfortably warm
Total metabolic rate (TMR)—the total Total metabolic rate (TMR)—the total amount of energy, expressed in calories, amount of energy, expressed in calories, used by the body per day (Figure 16-4)used by the body per day (Figure 16-4)
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BODY TEMPERATUREBODY TEMPERATURE
Hypothalamus—regulates the Hypothalamus—regulates the homeostasis of body temperature homeostasis of body temperature (thermoregulation) through a variety of (thermoregulation) through a variety of processesprocesses
Skin—can cool the body by losing heat Skin—can cool the body by losing heat from the blood through four processes: from the blood through four processes: radiation, conduction, convection, radiation, conduction, convection, evaporation (Figure 16-5)evaporation (Figure 16-5)
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Questions??Questions??
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