Trypsinogen
the inactive form of trypsin
gallbladder
is a small, pear-shaped organ located beneath the liver
Bile
plays a crucial role in the digestion and absorption of fats.
Bile salts
emulsify large fat globules into smaller droplets, increasing the surface area for enzymes (such as lipase) to efficiently break down fats into fatty acids and glycerol.
Peptidases
enzymes present on the brush border of the small intestine's epithelial cells (enterocytes), further break down peptides into individual amino acids.
Amino acids
are absorbed across the apical membrane of the enterocytes (the side facing the intestinal lumen) through various transporter proteins.
enterocytes
amino acids are processed and may undergo various modifications before being transported to the basolateral membrane (the side facing the bloodstream).
liver
plays a role in regulating amino acid levels, as well as in amino acid metabolism.
slightly acidic to neutral
typical pH range found in the mouth
Saliva
which is produced by the salivary glands and presen
Enzymes
play a crucial role in digestion by facilitating the breakdown of complex food molecules into smaller, absorbable units.
Digestion
involves the conversion of large macromolecules, such as carbohydrates, proteins, and fats, into smaller components like sugars, amino acids, and fatty acids.
Amylase
Breaks down complex carbohydrates (starches) into simpler sugars (such as maltose and glucose).
Pepsin (in the stomach), trypsin, chymotrypsin, and peptidases (in the small intestine)
Breaks down proteins into peptides and amino acids.
Lipase
 Hydrolyzes triglycerides (fats) into fatty acids and glycerol, allowing for their absorption.
Nucleases
Breaks down nucleic acids (DNA and RNA) into nucleotides.
Brush Border Enzymes
Located on the surface of intestinal epithelial cells, these enzymes further break down disaccharides into monosaccharides for absorption.
Enterokinase
Activates trypsinogen into trypsin in the small intestine.
6 to 7
The pH in the duodenum
7 to 8
The pH in the jejunum
Pepsin
is an enzyme produced by the chief cells in the stomach lining.
Trypsin
is produced by the pancreas and released into the duodenum of the small intestine.
Coenzymes
are essential for the activity of various enzymes involved in metabolic pathways.
thiamine (vitamin B1)
is a coenzyme that participates in reactions related to energy metabolism.
 B vitamins
function as coenzymes
vitamins C and E
function as antioxidants.
Mechanical digestion
involves the physical breakdown of food into smaller particles.Â
Chewing or Mastication
The process in Mechanical Digestion
Chemical digestion
involves the breakdown of complex molecules into simpler ones through the action of enzymes.
Salivary digestion by enzymes
The process in Chemical Digestion
large macromolecules
Most dietary nutrients come in the form of
Salivary amylase
is produced by the salivary glands and released into the mouth.Â
Pancreatic amylase
is produced by the pancreas and released into the duodenum of the small intestine.
Gastric lipase
is produced in the stomach.
Trypsin and chymotrypsin
further break down peptides into smaller fragments, and peptidases on the brush border of the small intestine complete the process by breaking down peptides into individual amino acids.
Extracellular fluid (ECF)
This fluid is found outside cells and includes interstitial fluid (between cells) and plasma (within blood vessels).
Homeostasis
is the maintenance of stable internal conditions.Â
Negative feedback mechanisms
work to counteract changes and return the system to a set point.
Loop of Henle
This structure in the kidney creates an osmotic gradient, allowing for the concentration of urine.
Medulla
assists in concentrating urine by reabsorbing water.
ADH (Antidiuretic Hormone)
is released by the pituitary gland and increases water reabsorption in the kidneys, reducing urine volume and helping maintain water balance.
Dark urine
This color of urine may indicate dehydration.
Basal Metabolic Rate (BMR)
is the amount of energy expended by the body at rest to maintain basic physiological functions such as breathing, circulation, and cell production.
Energy Intake - Energy Expenditure = Energy Balance.
what is the Energy Balance Equation?
Energy Balance
The relationship between energy intake and expenditure determines whether an individual is in a state of energy balance, surplus, or deficit.
Type I (Slow-Twitch) Fibers
About 10-15 grams of glycogen per 100 grams of muscle tissue.
Type II (Fast-Twitch) Fibers
About 3-5 grams of glycogen per 100 grams of muscle tissue.
Low-Intensity Exercise
Type I fibers predominantly use glycogen for energy.
High-Intensity Exercise
Both Type I and Type II fibers utilize glycogen, with Type II fibers relying more heavily on anaerobic glycolysis.
glycemic index (GI)
is a measure of how quickly a carbohydrate-containing food raises blood glucose levels.
Sodium
Helps maintain electrolyte balance, preventing hyponatremia during prolonged exercise.
Carbohydrate
Provides a source of energy to delay fatigue during endurance events.
Central Nervous System (CNS) Depression
Alcohol acts as a depressant, impairing cognitive function, coordination, and reaction time.
Dehydration
Alcohol is a diuretic, leading to increased urine production and potential dehydration.
Metabolic Effects
Alcohol can interfere with nutrient
Antioxidants
are substances that neutralize free radicals, protecting cells from oxidative damage.