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Lecture 18 The Digestive System Food for Energy and Growth Food provides animals with energy and essential nutrients for growth A healthy diet contains more carbohydrates than fats It also contains a lot of proteins The pyramid of nutrition Who Is Overweight? The body mass index is used to determine who’s overweight BMI = body weight in kg (height in m)2 = (body weight in lbs) X 703 (height in in)2 Obesity Essential Substances for Growth Many vertebrates are unable to manufacture one or more of the 20 amino acids needed to make proteins Humans are unable to synthesize 8 amino acids These essential amino acids must be obtained through food In addition, all vertebrates cannot synthesize certain polyunsaturated fats Trace elements Minerals required in small amounts Iodine, cobalt, zinc, molybdenum, manganese Vitamins Essential organic substances required in small amounts Humans require at least 13 different vitamins Vitamin C (ascorbic acid) if not in diet, the disease scurvy will develop Evolution of the Digestive System Digestive System Overview Consists of tubular gastrointestinal tract and accessory digestive organs Mouth and pharynx Esophagus – Delivers food to the stomach Stomach – Some preliminary digestion Small intestine – Digestion and absorption Large intestine – Water and mineral absorption Rectum – Waste excretion General Structure of Digestive Organs The gastrointestinal tract has a characteristic layered structure Mucosa Epithelium Submucosa Connective tissue Muscularis Smooth muscles Serosa Connective tissue Breaking Down Food in the Mouth Many vertebrates have teeth that are used for chewing (mastication) Carnivores have pointed teeth adapted for cutting and shearing Herbivores have large flat teeth well suited for grinding plant cellulose Omnivores have carnivorous teeth in front and herbivorous teeth in the back The Structure of a Tooth Tooth and Gum Disease: Periodontitis Dental caries – gradual demineralization of enamel and dentin by bacterial action Dental plaque, a film of sugar, bacteria, and mouth debris, adheres to teeth Acid produced by the bacteria in the plaque dissolves calcium salts Without these salts, organic matter is digested by proteolytic enzymes Daily flossing and brushing help prevent caries by removing forming plaque Gingivitis – as plaque accumulates, it calcifies and forms calculus, or tartar Accumulation of calculus: Disrupts the seal between the gingivae and the teeth Puts the gums at risk for infection Periodontitis – serious gum disease resulting from an immune response Immune system attacks intruders as well as body tissues, carving pockets around the teeth and dissolving bone Tongue Superior surface bears three types of papillae Filiform – give the tongue roughness and provide friction Fungiform – scattered widely over the tongue and give it a reddish hue Circumvallate – V-shaped row in back of tongue Sulcus terminalis – groove that separates the tongue into two areas: Anterior 2/3 residing in the oral cavity Posterior third residing in the oropharynx In The Mouth The tongue mixes food with a solution called saliva Saliva moistens and lubricates food and contains amylase which initiates breakdown of starch into maltose The secretions of the salivary glands are controlled by the nervous system A continuous secretion of about 0.5 milliliters per minute keeps the mouth moist The presence of food in the mouth triggers an increased rate of secretion Swallowing Prior to swallowing, the tongue moves food to the back of the mouth The soft palate elevates, pushing against back wall of pharynx This stimulates neurons to send impulses to the swallowing center in the brain Muscles contract and raise the larynx The glottis is pushed against the epiglottis which keeps food out of the respiratory tract, and into the esophagus The Esophagus and Stomach The esophagus is a muscular tube that connects the pharynx to the stomach The swallowing center stimulates successive waves of contraction Peristalsis moves food along the esophagus to the stomach The stomach and gastric glands Movement of food from esophagus into stomach is controlled by a ring of smooth muscle, the sphincter Humans lack a true sphincter and thus, can regurgitate The stomach is a saclike portion of the tract with a convoluted surface enabling expansion It contains an extra layer of smooth muscles for mixing food with gastric juices Two kinds of secretory cells Parietal cells – Secrete hydrochloric acid Chief cells – Secrete pepsinogen The human stomach produces about 2 liters of HCl and other gastric secretions every day This gastric juice has a pH of ~ 2 It kills most bacteria ingested with food and also denatures food proteins The mixture of partially digested food and gastric juice is termed chyme Chyme leaves the stomach to the small intestine through the pyloric sphincter Ulcers The hormone gastrin regulates the synthesis of HCl Overproduction of gastric acid can occasionally eat a hole through the stomach wall These gastric ulcers are rare Susceptibility increases when mucosal barriers are weakened by Helicobacter pylori infection Over 90% of gastrointestinal ulcers are duodenal ulcers Caused by too much chyme in the small intestine The Small Intestine The small intestine is the body’s true digestive vat It breaks down large molecules into smaller ones which are then absorbed into the bloodstream The small intestine is ~ 6 m long The first 25 cm (~ 4%) constitute the duodenum The duodenum is the actual site of digestion The pancreas secretes digestive enzymes into it The liver secretes bile salts into it, to make fats easier to digest The ileum is the rest of the small intestine (~ 96%) It is devoted to absorption The lining is covered with finger-like projections called villi Each cell covering a villus has cytoplasmic projections called microvilli which increase the absorptive surface Anatomy of the Small Intestine The Large Intestine The large intestine, or colon is only 1 meter long But has a larger diameter than the small intestine No digestion and little absorption take place in the large intestine Its primary function is to act as a refuse dump by collecting and compacting solid wastes Feces pass through the rectum as a result of peristalsis and leave the body through the anus Accessory Digestive Organs Pancreas Functions as both an exocrine & endocrine gland Exocrine: Cell clusters called acini secrete Trypsin and chymotrypsin which digest proteins Amylase which digests starch Lipase which digests fats Bicarbonate which neutralizes HCl in chyme Endocrine: Cell clusters called Islets of Langerhans secrete Insulin and glucagon which regulate sugar levels in blood Liver Largest internal organ of the body Its main exocrine secretion is bile Aids in the digestion of fats in the duodenum Chemically modifies substances absorbed in the gastrointestinal tract Converts poisons into less toxic forms Produces most of the proteins found in plasma Gall bladder Stores and concentrates bile Delivers it to the duodenum via the bile duct Microscopic Anatomy of the Liver Hepatocytes’ functions include: Production of bile Processing bloodborne nutrients Storage of fatsoluble vitamins Detoxification Secreted bile flows between hepatocytes toward the bile ducts in the portal triads Liver sinusoids – enlarged, leaky capillaries located between hepatic plates Kupffer cells – hepatic macrophages found in liver sinusoids Homeostasis Homeostasis is the dynamic constancy of the internal environment Conditions fluctuate continuously within narrow limits Homeostasis is essential for life Play Hormones & Gastric Secretion Regulating Blood Glucose Blood glucose levels are monitored by the Islets of Langerhans in the pancreas When levels are high, insulin is released When levels are low, glucagon is released