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Functions of the Digestive System. Digestion - mechanical and chemical breakdown of foods for use by the body’s cells Absorption - the passage of digested food from the digestive tract into the circulatory system Elimination - the expulsion of undigested food or body waste. Digestive System.
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Functions of the Digestive System • Digestion- mechanical and chemical breakdown of foods for use by the body’s cells • Absorption- the passage of digested food from the digestive tract into the circulatory system • Elimination- the expulsion of undigested food or body waste
Digestive System • A fresh-baked apple pie is browning in the oven. Just the sight and smell of it — and the anticipation of eating it — are enough to make you start salivating and producing stomach acids. So even before you take a bite, your digestive system has swung into action. After the first morsel enters your mouth, the many organs of your digestive tract kick into high gear.
Mouth and salivary glands • After you take your first bite of pie, your salivary glands produce enough digestive juices (saliva) to begin breaking it down chemically. Besides the salivary glands in the lining of your mouth, you have three pairs of larger salivary glands. Together they produce 1 to 3 pints (about .5 to 1.5 liters) of saliva a day. • Not all of the work is chemical, though. As you savor the bite of pie, your teeth work to grind the pie while your tongue mixes it with saliva (mechanical). This action transforms it into a soft, moist, rounded mass (bolus) suitable for swallowing.
Esophagus • As you swallow the bite of pie, muscles in your mouth and throat propel it to your upper esophagus, the tube that connects your throat to your stomach. Muscles in the wall of your esophagus create synchronized waves — one after another — that propel the pie into your stomach. In this process, called peristalsis, muscles behind the bolus of pie contract, squeezing it forward, while muscles ahead of it relax, allowing it to advance without resistance. • When the bolus reaches the lower end of your esophagus, pressure from the food signals a muscular valve — the lower esophageal sphincter — to relax and let the food enter your stomach.
Stomach • With its powerful muscles, the stomach begins churning and mixing the food into smaller pieces. Gastric juices, rich in acid and enzymes, flow from glands that line your stomach. The acid and enzymes help break down food into a thick, creamy fluid called chyme. • Once the chyme is well mixed, waves of muscle contractions propel it through the pyloric valve and into the first section of your small intestine (duodenum). The pyloric valve releases less than an eighth of an ounce of chyme at a time.
Pancreas, liver and gallbladder • In your duodenum, digestion continues as chyme from the stomach mixes with a variety of digestive juices from your pancreas, liver and gallbladder: • Pancreas. The pancreas produces digestive enzymes that help break down proteins, carbohydrates and fats. It also produces the hormones insulin and glucagon, which help regulate the level of sugar (glucose) in your blood. • Liver. The liver performs more than 500 functions, including storing nutrients, filtering and processing chemicals in food, and producing bile, a solution that helps digest fats and eliminate waste products. • Gallbladder. The gallbladder stores and concentrates bile. As fatty food enters the upper portion of your small intestine (the duodenum), the gallbladder contracts and forces bile into the small intestine through the common bile duct.
Small intestine • As bile and pancreatic digestive juices mix with other juices secreted by the wall of your small intestine, digestion continues. What was once apple pie is propelled into the second portion of your small intestine, the jejunum. Here it's further broken down into smaller molecules of nutrients that can be absorbed. Then it slides into the final and longest portion of your small intestine — the ileum — where virtually all of the remaining nutrients are absorbed through the lining of the ileum's wall. • What remains of the food when it reaches the end of the ileum is a combination of water, electrolytes and waste products, such as plant fiber and dead cells shed from the lining of your digestive tract
Large intestine • As this residue passes through the colon, nearly all of the water is absorbed, leaving a usually soft but formed substance called stool. Muscles in the wall of your colon separate the waste into small segments that are pushed into your lower colon and rectum. As the rectal walls are stretched, they signal the need for a bowel movement. • When the sphincter muscles in your anus relax, the rectal walls contract to increase pressure. These coordinated muscle contractions expel the stool.
How long does it take? • Digestion time varies depending on the individual. For healthy adults, it's usually between 24 and 72 hours. After you eat, it takes about six to eight hours for food to pass through your stomach and small intestine. Food then enters your large intestine (colon) for further digestion and absorption of water. Elimination of undigested food residue through the large intestine usually begins after 24 hours. Complete elimination from the body may take several days.
What happens if I swallow gum? • Although chewing gum is designed to be chewed and not swallowed, it isn't harmful if swallowed. Folklore suggests that swallowed gum sits in your stomach for seven years before it can be digested. But this isn't true. If you swallow gum, it's true that your body can't digest it. But the gum doesn't sit in your stomach. It progresses relatively intact through your digestive system and is excreted in your stool. • On rare occasions, large amounts of swallowed gum combined with constipation have caused intestinal blockage in children.
What are the 3 functions of the digestive system? • Where does digestion begin? • What is responsible for the initial breakdown of carbs.? • What causes heartburn? • Food – bolus- ?
Digestion, absorption, elimination • Brain • Saliva • Cardiac Sphincter • Chyme