The Digestive System PDF

Summary

This document provides an overview of the digestive system, discussing various stages of digestion, including intracellular and extracellular digestion. It details mechanical and chemical digestion processes with specific examples.

Full Transcript

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The Digestive System
Overview of the Digestive System
(00:00:13 - 00:00:35)
The digestive system is responsible for the breakdown and absorption of food into the body
Anything you eat, whether food or drink, goes through the digestive tract and gets absorbed into the
bloodstream for use by the body's cells

Lesson Overview
(00:00:35 - 00:00:50)
We will discuss the digestive pathway and the accessory organs that help with digestion and absorption

Intracellular vs. Extracellular Digestion
(00:00:50 - 00:01:07)
Intracellular digestion: Some organisms like amoebas use pseudopods to pull in food and digest it within the
cytoplasm of their cells
Humans perform extracellular digestion:
We eat food, which is then absorbed through an internal tract that runs through the body
Nutrients are extracted, and waste (feces) is expelled

Mechanical vs. Chemical Digestion
(00:01:22 - 00:02:21)
Mechanical Digestion:
The physical breakdown of food, such as chewing and the churning action of the stomach
Breaks food into smaller particles to aid chemical digestion

Chemical Digestion:
The chemical breakdown of food using enzymes
Cleaves bonds in fats, proteins, and carbohydrates to make them smaller and easier to absorb

The Digestive Pathway
(00:02:21 - 00:02:54)
The digestive system travels from the mouth, down the esophagus, through the stomach and intestines, and
ends at the colon, rectum, and anus

Mouth and Salivary Glands
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The mouth is the first site of mechanical and chemical digestion
Teeth mechanically break down food
Saliva contains the enzyme amylase, which begins breaking down carbohydrates
Salivary glands (parotid, submandibular, and sublingual) secrete saliva

Pharynx and Esophagus
(00:03:40 - 00:05:28)
The pharynx separates the trachea from the esophagus
The epiglottis blocks the trachea when swallowing to prevent choking
The esophagus uses peristalsis (rhythmic muscle contractions) to move food from the pharynx to the stomach
The upper esophagus is under voluntary, skeletal muscle control, while the lower esophagus is under
involuntary, smooth muscle control

Stomach
(00:05:41 - 00:06:56)
The stomach is the site of both mechanical and chemical digestion
The cardiac sphincter connects the esophagus to the stomach and prevents reflux of stomach contents back into
the esophagus
The churning and acidic environment of the stomach further break down food

Mechanical and Chemical Digestion in the
Stomach
(00:06:56 - 00:07:10)
The churning and swirling motion of the stomach helps to break down food into smaller pieces, which speeds
up the chemical digestion process.

(00:07:10 - 00:07:20)
The gastric pits in the stomach are the sites where acids and gastric enzymes are produced.

(00:07:20 - 00:07:31)
The G cells in the stomach release gastric, which stimulates the parietal and chief cells.

(00:07:31 - 00:07:42)
The parietal cells secrete hydrochloric acid (HCl), and the chief cells secrete pepsinogen, a zymogen (inactive
enzyme).

(00:07:42 - 00:07:55)
The HCl secreted by the parietal cells activates the pepsinogen secreted by the chief cells, converting it into the
active enzyme pepsin.

(00:07:55 - 00:08:13)
Pepsinogen is secreted as a zymogen to prevent it from activating and digesting the stomach lining before it
reaches the food.
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The pepsinogen needs to be exposed to the acid in the stomach to be converted into the active pepsin, which
then begins breaking down proteins.

(00:08:26 - 00:08:41)
Mucus cells in the stomach produce mucus to protect the stomach lining from the acid and digestive enzymes.

(00:08:41 - 00:08:53)
Pepsin is not specific and can digest the stomach lining as easily as it can digest the food, so the mucus layer is
essential for protection.

(00:08:53 - 00:09:08)
The partially digested food mixture in the stomach is called chyme, and it exits the stomach through the pyloric
sphincter.

(00:09:08 - 00:09:20)
The chyme, now mixed with stomach acid and digestive enzymes, enters the duodenum, the first part of the
small intestine.

(00:09:20 - 00:09:31)
The pyloric sphincter is a smooth muscle sphincter that controls the exit of chyme from the stomach into the
duodenum.

(00:09:31 - 00:09:42)
Both mechanical and chemical digestion occur in the mouth and stomach. In the mouth, chewing and salivary
amylase begin the digestive process.

(00:09:42 - 00:10:00)
In the stomach, the churning motion, pepsin, gastric lipase, and hydrochloric acid further the mechanical and
chemical digestion of the food.

(00:10:00 - 00:10:13)
The key gastric cells to remember are the G cells, parietal cells, chief cells, and mucus cells.

Digestion and Absorption in the Small
Intestine
(00:10:13 - 00:10:24)
90% of digestion and nutrient absorption occurs in the small intestine, which includes the duodenum, jejunum,
and ileum.

(00:10:24 - 00:10:34)
The small intestine is the main organ responsible for digestion and absorption, not the stomach.

(00:10:34 - 00:10:49)
The small intestine is where the majority of fats, sugars, and proteins are absorbed from the food.

(00:10:49 - 00:10:59)
The small intestine needs to protect itself from the acidic chyme entering from the stomach.

(00:11:13 - 00:11:29)
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Goblet cells in the small intestine secrete mucus to protect the epithelium from the acid and digestive enzymes.

(00:11:29 - 00:11:40)
Neutralization of the acid also occurs in the small intestine, with the help of bicarbonate secreted by the
pancreas.

(00:11:40 - 00:11:59)
Cholecystokinin (CCK) triggers the release of pancreatic enzymes and bile to aid in the digestion and
absorption of fats and proteins.

(00:11:59 - 00:12:21)
CCK also inhibits gastric emptying to prevent more acidic chyme from entering the small intestine too quickly.

(00:12:21 - 00:12:31)
The pancreatic enzymes secreted include amylase, lipase, trypsin, and chymotrypsin.

(00:12:31 - 00:12:45)
Bile, secreted by the gallbladder, also aids in the digestion and absorption of fats.

(00:12:45 - 00:12:57)
The mnemonic "Amy's Lips, Tricky" can be used to remember the pancreatic secretions triggered by CCK.

(00:12:57 - 00:13:08)
Villi in the small intestine greatly increase the surface area for nutrient absorption.

(00:13:08 - 00:13:20)
Without the villi, the small intestine would not be able to absorb nearly as many nutrients and vitamins.

(00:13:20 - 00:13:32)
Microvilli on the surface of the enterocytes (absorptive cells) further increase the surface area for absorption.

(00:13:32 - 00:13:51)
Diseases like celiac disease can damage the villi, leading to malabsorption of nutrients.

The Small Intestine
(00:14:02 - 00:14:20)
The crypts located between the villi are where the stem cells are found
These stem cells produce new epithelial cells for the intestine
The new epithelial cells grow and move up the villi over time

(00:14:20 - 00:14:34)
Glucose and amino acids are absorbed into capillaries
They need to cross through the enterocytes to get into the blood

(00:14:34 - 00:14:47)
There are very tight junctions between the intestinal cells
This forms a barrier to prevent bacteria and the microbiome from entering the bloodstream directly

(00:14:47 - 00:15:02)
The intestines are not a sterile place, containing a lot of bacteria and microbes
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There needs to be a filter barrier to prevent anything from the intestines from entering the bloodstream

(00:15:02 - 00:15:13)
The tight junctions and epithelial layer act as a filter barrier

(00:15:13 - 00:15:25)
Antibodies are also secreted to sit on the epithelial layer and help ward off pathogens

(00:15:25 - 00:15:38)
Glucose and amino acids are absorbed into the capillaries
They are first taken in intracellularly by the enterocytes, then transported into the blood

(00:15:38 - 00:15:53)
Fatty acids and glycerol are absorbed into the lacteals
They then pass through the capillaries into the intestinal blood flow

(00:15:53 - 00:16:15)
The blood flow from the intestines goes to the portal vein and then to the liver
Mnemonic for small intestine parts: "DJI" - Duodenum, Jejunum, Ileum
Digestion occurs in the duodenum, absorption occurs in the duodenum and ileum

(00:16:15 - 00:16:28)
Patients can develop "short gut syndrome" if too much of the intestine is surgically removed
This can lead to malabsorption of nutrients

(00:16:28 - 00:16:40)
Knowing where absorption occurs is clinically important

(00:16:40 - 00:16:51)
Important hormones to know are CCK (cholecystokinin) and secretin

(00:16:51 - 00:17:02)
CCK triggers the release of pancreatic enzymes
CCK also triggers many other processes to get digestion going

(00:17:02 - 00:17:13)
Important digestive enzymes are amylase, lipase, pepsin, trypsin, and chymotrypsin

The Large Intestine
(00:17:13 - 00:17:24)
The large intestine is a site of:
Water absorption
Mineral absorption
Vitamin B and K production and absorption

(00:17:24 - 00:17:38)
The appendix is a projection from the cecum
It may harbor the gut microbiome and help repopulate it if needed

(00:17:38 - 00:18:05)
Appendicitis can occur if something gets trapped in the appendix, causing inflammation
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(00:18:05 - 00:18:18)
Mnemonic for the roles of the large intestine: "SALT" - Salt absorption, water absorption, vitamin
production/absorption

(00:18:40 - 00:18:51)
The large intestine is also a site of bile reabsorption

(00:18:51 - 00:19:09)
Bile that is secreted by the liver is reabsorbed in the large intestine
This allows the body to recycle and reuse the bile, rather than having to constantly produce it de novo

The Gallbladder
(00:19:09 - 00:19:26)
The gallbladder stores bile produced by the liver
Bile is used to emulsify fats to aid in their absorption

(00:19:26 - 00:19:37)
Bile travels from the liver down the hepatic duct into the gallbladder
It is stored in the gallbladder until released

(00:19:37 - 00:19:48)
Cholecystokinin signals the gallbladder to release the stored bile

(00:19:48 - 00:19:59)
The bile then travels down the common bile duct into the small intestine
Bile acts like a detergent to break up fat droplets and emulsify them

The Pancreas
(00:20:11 - 00:20:22)
The pancreas is an incredibly important organ with two main functions:
Exocrine pancreas
Endocrine pancreas

(00:20:22 - 00:20:38)
The exocrine pancreas will be the focus here, the endocrine pancreas will be covered later

(00:20:38 - 00:20:57)
The exocrine pancreas contains the islets of Langerhans, which have alpha and beta cells
This is the endocrine portion of the pancreas

(00:20:57 - 00:21:14)
Outside the islets is the exocrine pancreatic tissue that secretes digestive enzymes

The Pancreas and Digestive Enzymes
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(00:21:14 - 00:22:26)
The pancreas secretes digestive enzymes that flow down the pancreatic duct and into the common bile duct.
These enzymes include:
Bicarbonate ions to neutralize hydrochloric acid
Pancreatic amylase to break down carbohydrates
Pancreatic lipase to break down fats, working with bile
Trypsin and chymotrypsin to further break down proteins

Enzyme Activation Cascade(00:22:26 - 00:24:35)
The pancreas secretes these enzymes as inactive zymogens to prevent them from digesting the pancreas itself.
Trypsinogen is activated to trypsin by an endopeptidase once it reaches the small intestine.
Trypsin then activates more trypsin and also activates chymotrypsin, creating a cascade of enzyme activation.
If this activation happens prematurely in the pancreas, it can lead to pancreatitis.

The Pancreas and Diabetes(00:24:35 - 00:26:56)
The pancreas also has an endocrine function, producing insulin from beta cells in the islets of Langerhans.
In type 1 diabetes, the beta cells are autoimmunely destroyed, leading to a lack of insulin.
In type 2 diabetes, the body becomes resistant to insulin, leading the pancreas to overproduce it until it
eventually fails.

Mnemonic for Islet Cells(00:26:56 - 00:27:21)
Beta cells secrete insulin to make diabetics feel better.
Alpha cells secrete glucagon when glucose is gone.

The Liver
(00:27:34 - 00:28:27)
The liver has two lobes and is a very important organ.
The falciform ligament is a useful landmark when examining the liver.
The gallbladder is tucked under the edge of the liver, so the liver can be palpated to check for gallbladder
issues.

The Liver and Portal System
(00:28:27 - 00:28:42)
The liver is located under the ribs on the right side of the body
The portal system is an important concept for understanding blood flow through the intestines and back to the
liver

(00:28:42 - 00:28:53)
The portal system is very important for understanding blood flow from the intestines to the liver

(00:28:53 - 00:29:04)
Blood flows from the aorta into the intestines to pick up nutrients
This blood does not directly recirculate, but instead travels to the portal vein

(00:29:04 - 00:29:20)
The blood from the intestines and stomach collects in the portal vein
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The portal vein then drains into the liver

(00:29:20 - 00:29:33)
The portal vein flows into capillary beds in the liver
The blood then returns to the vena cava and back to the heart

(00:29:33 - 00:29:52)
The liver has an important role in cleaning and detoxifying substances from the blood
This is why the blood flows through the liver before returning to the heart

(00:29:52 - 00:30:04)
The liver detoxifies any toxins or substances from the food you've eaten
The liver also supports the digestive system

(00:30:04 - 00:30:15)
The liver plays an important role in the circulatory system
It helps recycle red blood cells and hemoglobin

(00:30:15 - 00:30:26)
Hemoglobin is broken down into bilirubin, which the liver secretes in bile
This allows the body to get rid of old hemoglobin

(00:30:26 - 00:30:39)
If the liver is not functioning properly, bilirubin can build up, causing jaundice (yellowing of the skin and eyes)

(00:30:39 - 00:30:49)
Severe jaundice can occur if the liver is not excreting bilirubin properly

(00:30:49 - 00:31:03)
The liver also plays an important role in glucose metabolism:
Stores glucose as glycogen
Can break down glycogen (glycogenolysis) to release glucose when needed

(00:31:03 - 00:31:20)
The liver can also perform gluconeogenesis:
Creating new glucose from glycerol and amino acids

(00:31:20 - 00:31:35)
Mnemonics for liver glucose metabolism:
Glycogenesis - creating glycogen
Glycogenolysis - breaking down glycogen
Gluconeogenesis - creating new glucose

(00:31:35 - 00:31:47)
The liver also converts ammonia (a toxic byproduct) into urea for excretion

(00:31:47 - 00:32:16)
Glycogenesis - creating glycogen
Glycogenolysis - breaking down glycogen
Gluconeogenesis - creating new glucose from other molecules

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The liver converts ammonia into urea, which is less toxic and can be excreted

(00:32:29 - 00:33:04)
When amino acids are broken down, ammonia is produced
The liver metabolizes this ammonia into urea, which is then excreted by the kidneys

(00:33:04 - 00:33:17)
The liver is also the site of production for many blood proteins, like albumin

(00:33:17 - 00:33:40)
If the liver fails, it stops producing albumin, leading to fluid buildup in tissues (edema)
This is because albumin provides the osmotic force to pull fluid back into the bloodstream

(00:33:40 - 00:34:09)
Without albumin production from the liver, excess fluid builds up in tissues

(00:34:09 - 00:34:24)
The liver also produces many blood clotting factors
Liver failure can lead to problems with blood clotting (coagulopathy)

(00:34:24 - 00:34:38)
One of the first signs of liver failure is decreased production of antithrombin III, a clotting factor

(00:34:38 - 00:34:50)
Mnemonic for accessory digestive organs: Gall bladder, Liver, Pancreas (GAIL'S PANTS)

(00:34:50 - 00:35:07)
The gallbladder stores and concentrates bile, aiding in fat digestion
If the gallbladder is removed, the liver has to work harder to produce enough bile

(00:35:07 - 00:35:17)
The liver, gallbladder, and pancreas are all essential for proper digestive function

(00:35:17 - 00:35:29)
Mnemonic for liver functions:
Blood (maintenance, storage, detoxification)
Globin (hemoglobin recycling)
Protect (detoxification, protein production)

(00:35:29 - 00:35:43)
Liver functions:
Blood maintenance, storage, detoxification
Glucose metabolism (glycogenesis, glycogenolysis, gluconeogenesis)
Protein metabolism (production of blood proteins like albumin and clotting factors)

(00:35:43 - 00:35:53)
The liver is an essential and complex organ with many vital functions in the body.

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