Biology 112

Chapter 15: Digestion & Nutrition

Introduction

• digestion: mechanical & chemical breakdown of food & absorption of nutrients
• alimentary canal: continuous passageway (8m long) created by organs of digestion
• mouth, pharynx, esophagus, stomach, small intestine, large intestine, rectum, anus
• accessory organs: organs that are not part of the GI tract, but participate in digestion
• salivary glands, liver, gallbladder, pancreas

General Characteristics of Alimentary Canal

• wall of GI tract consists of 4 layers
• mucosa: innermost layer, lines lumen; stratified squamous or simple columnar epithelium with mucus-secreting glands; folded in stomach & intestine to increase surface area for absorption; lined with thin layers of connective tissue & smooth muscle
• submucosa: loose CT, glands, blood vessels, lymphatics & nerves (plexuses)
• muscularis externa: 2 layers of smooth muscle (inner circular & outer longitudinal layers) that produce movements of tube to propel food
• serosa: visceral peritoneum; fibrous CT; secretes serous fluid to reduce friction
• mixing movements by rhythmic contractions of smooth muscle to crush food & mix with enzymes
• propelling movements: wavelike contraction (peristalsis) of alternate smooth muscle layers to propel food along tube

Mouth: receives food & begins mechanical & chemical digestion; includes oral cavity & vestibule (between teeth & cheeks/lips)

• cheeks: outer layers of skin, pads of fat, muscles associated with expression & chewing & inner lining epithelium
• lips: highly mobile with skeletal muscle, sensory receptors & rich blood supply
• tongue: rough surface for gripping food & mixing with saliva
• surface contains papillae with taste buds
• lingual tonsils (immune cells) at root of tongue
• palate: roof of oral cavity has hard palate formed from bone & mucosal soft palate
• uvula at tip of soft palate closes off nasal cavity during swallowing
• palatine tonsils: at either side of opening to throat at back of oral cavity
• teeth: begin mechanical digestion by breaking food into smaller pieces to increase surface area for chemical digestion
• 20 primary & 32 secondary teeth
• each tooth consists of crown (above gums) & root (below gums) & composed of enamel (calcium phosphate coating over crown), dentin (bulk of tooth), pulp, nerves & blood vessels
• periodontal ligament attaches tooth to alveolar process in maxilla or mandible

Salivary Glands: secrete saliva, which moistens food & begins chemical digestion of carbohydrates, dissolves food chemicals for taste & cleanses mouth

• salivary glands include serous glands that secrete digestive enzymes & mucous glands that secrete mucus
• parotid glands (anterior/inferior to ear) secrete amylase, an enzyme that digests carbohydrates
• submandibular gland secrete viscous saliva (serous fluid & mucus)
• sublingual gland secretes mucus

Pharynx & Esophagus: food passageways to stomach

• pharynx is divided into nasopharynx, oropharynx & laryngopharynx
• swallowing stages: food mixed with saliva & forced into pharynx; involuntary reflexes move food into esophagus; peristalsis transports food to stomach
• esophagus: passes through diaphragm & joins stomach at cardiac sphincter
• cardiac sphincter: smooth muscle valve that prevents backflow of food from stomach

Stomach: receives food, mixes it with acidic gastric juice, begins chemical digestion of proteins, absorbs limited materials, & moves food into small intestine

• stomach divided into cardiac, fundic, body & pyloric regions
• pyloric sphincter: valve to prevent backflow between stomach & small intestine
• gastric glands secrete gastric juice containing pepsin (protease; digests proteins), hydrochloric acid (HCl) and intrinsic factor (required for vitamin B12 absorption)
• parasympathetic impulses & the hormone gastrin enhance gastric secretion
• reflexes due to food in small intestine inhibit gastric secretion
• a few substances (water, small molecules) may be absorbed from the stomach wall
• mixing movements help produce chyme; peristalsis moves chyme into pyloric region & then small intestine
• rate of emptying depends on fluidity of chyme & type of food present

Pancreas: produces pancreatic juice containing digestive enzymes that is moved into the duodenum of the small intestine through the pancreatic duct

• pancreatic juice contains enzymes that digest carbohydrates (amylase), proteins, fats & nucleic acids
• pancreatic juice has a high bicarbonate ion concentration (alkaline) that helps neutralize chyme
• the hormone secretin stimulates release of pancreatic juice with bicarbonate ions
• the hormone cholecystokinin (CCK) stimulate release of pancreatic juice with enzymes

Liver: metabolizes carbohydrates, lipids and proteins; stores some substances; filters blood; destroys toxins & secretes bile

• left & right lobes contain hepatic lobules that secrete bile; bile is carried to hepatic ducts & flows into either cystic duct into gallbladder (storage) or common bile duct into duodenum of small intestine
• in small intestine, bile salts act as an emulsifier (mix lipids & water) to help digestion & absorption of lipids (fatty acids & cholesterol) & fat-soluble vitamins
• bile contains bile salts made from cholesterol, bile pigments (bilirubin), & electrolytes
• gallbladder stores bile between meals; gallbladder located under right lobe of liver
• the hormone cholecystokinin (CCK) stimulate release of bile
• sphincter muscle at base of common bile duct controls bile flow into duodenum

Small Intestine: receives pancreatic juice from pancreas & bile from liver &/or gallbladder, completes digestion of food, absorbs nutrients, and transports residues to large intestine

• small intestine consists of duodenum, jejunum & ileum
• wall is lined with villi (folds) that increase surface area & aid in mixing & absorption
• intestinal glands located between villi
• secretes mucus & digestive enzymes (break down sugars, proteins & fats)
• gastric juice, chyme & stretch reflexes stimulate secretions
• enzymes on microvilli of mucosal cells complete digestion
• villi absorb monosaccharides, amino acids, fatty acids & glycerol; nutrients move through mucosal cells & into capillaries
• long-chain fatty acids absorbed by lacteals (lymphatic capillaries); short-chain fatty acids absorbed by blood capillaries
• mixing movements & peristalsis propel material through small intestine
• ileocecal sphinctercontrols movement of materials into large intestine

Large Intestine: reabsorbs water & electrolytes; forms, stores & eliminates fecal waste

• large intestine consists of cecum, colon, rectum & anal canal
• colon divided into ascending, transverse, descending & transverse colon
• tissue of wall similar to stomach & small intestine, but longitudinal muscle layer arranged in distinct bands (teniae coli); muscle tension forms pouches (haustra)
• forms mucus; little to no digestive function
• movements similar to small intestine; mass movements 2-3 times daily
• defecation reflex stimulates defecation to remove waste
• internal anal sphincter (smooth muscle) & external anal sphincter (skeletal muscle) control removal of waste
• feces consist of water, undigested material, electrolytes, mucus & bacteria
• color of feces due to bilirubin pigment of bile converted to dark pigment by bacteria

Nutrition: study of nutrients & how the body utilizes them

• macronutrients (carbohydrates, lipids & proteins) required in large amounts; micronutrients (vitamins & minerals) required in smaller amounts
• calories measure potential energy in foods
• calorie is amount of energy needed to raise temperature of 1g of water by 1˚C
• kilocalories (Cal) are used to measure potential energy in macronutrients
• carbohydrates & proteins yield ~ 4 Cal/gram; lipids yield ~ 9 Cal/gram

• carbohydrates: used primarily to supply energy for cellular processes
• carbohydrates include sugars (monosaccharides & disaccharides) & complex carbohydrates (starch, glycogen & cellulose)
• starch from grains & vegetables; glycogen from meats; disaccharides from cane sugar; monosaccharides from honey & fruit
• cellulose (in plant cell walls) cannot be digested by humans ® fiber; provides bulk that assists movement through GI tract
• energy is released from glucose through oxidation (aerobic cellular respiration)
• lipids & proteins can be utilized for energy in most cells if glucose levels low
• neurons require constant supply of glucose
• excess glucose is stored as glycogen or converted to fat (stored in adipose tissue)
• carbohydrates required to synthesize nucleic acids & breast milk
• carbohydrate requirements vary for different people depending on activity

• lipids: supply energy for cellular processes & aid in building structures such as cell membrane & molecules such as steroids
• lipids include fats (mostly triglycerides), phospholipids & cholesterol
• saturated fats found in meats, eggs, milk & some oils; unsaturated fats found in seeds, nuts & plant oils (monounsaturated fats in olive, peanut & canola oils considered healthiest); cholesterol in egg yolk, milk, butter, cheese & meats
• digestion breaks down triglycerides to fatty acids & glycerol
• beta oxidation releases acetyl coA from fatty acids; acetyl coA can be used for energy or converted to ketone bodies (acetone)
• excess fatty acids & glycerol stored in adipose tissue
• linoleic acid, linolenic acid & arachidonic acid are essential fatty acids (required in diet)
• liver synthesizes triglycerides, phospholipids, lipoproteins (transport lipids in blood) & cholesterol
• cholesterol used in synthesis of bile salts, steroid hormones, membranes & vitamin D
• fat intake requirements also vary for individuals; must be sufficient to carry fat-soluble vitamins (A, D, E & K)

• proteins: wide variety of functions... enzymes control metabolism in cells; clotting factors clot blood; structural proteins include keratin of skin & collagen of connective tissue; plasma proteins regulate water balance; actin & myosin in muscle cells; hormones & antibodies in blood
• proteins can be broken down for energy; must be converted to amino acids & amino acids deaminated (removes amino group; converted to urea waste) & converted to acetyl coA
• proteins found in meats, fish, poultry, cheese, milk, nuts, eggs, cereals & legumes
• 8 amino acids (10 in children) are essential amino acids (required from diet)
• complete proteins provide all essential amino acids; meats provide complete proteins; vegetables must be combined for complete proteins (grain & legume)
• protein requirements: must have sufficient protein to supply all essential amino acids & to provide nitrogen for synthesis of nitrogen-containing compounds

• vitamins: organic molecules that are essential nutrients required for metabolism
• fat-soluble vitamins (vitamins A, D, E & K) are absorbed with lipids
• water-soluble vitamins (vitamin C & B vitamins) absorbed with water
• vitamin A can be synthesized from beta-carotene (antioxidant in orange vegetables) required for synthesis of visual pigments, normal development of bones, teeth & maintenance of epithelia
• vitamin D required for calcium & phosphorus absorption during digestion
• vitamin E is antioxidant (prevents oxidation of vitamin A & polyunsaturated fatty acids)
• vitamin K required for blood clotting
• B vitamins (B1-B12) required for cellular metabolism
• vitamin C (ascorbic acid) required for collagen production, storage of folic acid, & metabolism of some amino acids; promotes iron absorption & synthesis of steroid hormones

• adequate diets: provide sufficient energy & essential nutrients to support growth, maintenance & repair of tissues

• food guide pyramids can help to personalize diets
• malnutrition is poor nutrition due to lack of food or failure to utilize food