Class website… kind of
• http://bio200-nutrition.wikispaces.com/• Has all of the past lectures, syllabus, disease
list, important reminders etc.• We will be using this for the time being.• Eventually will be replaced with professors
online
Outline and Content
• Objective – To identify basic structure, sources, and digestion of carbohydrates. Also to identify the role of carbs and some of the issues associated with to little or to much
• Content– Finish up with alternative sweeteners– Making carbs available– Role of carbohydrates in the body– Glycemic index and glycemic load
Tagatose
• Brand name = Naturlose®• Altered form of fructose• Poorly absorbed • Yields 1.5 kcal/g• Eventually fermented in LI so thought to act as
prebiotic
Stevia
• Brand name = Sweet Leaf®• Derived from South American shrub• 100-300 times sweeter than sucrose• Provides no energy• Available in Japan since ‘70s but not approved
in US till 2008
Digestion of Carbs
• Where does the breakdown of carbohydrates begin?– Begins with cooking– Heat will break down some of the connective
structure• Food is easier to chew
– Starch molecules will absorb water causing them to swell• Easier to digest
Digestion of Carbs: quick review
• Mouth– mechanical breakdown by
chewing– Chemical breakdown by
salivary amylase-short lived• Stomach– Salivary amylase inactivated
by acid– No further digestion of carbs
occurs in the stomach
Digestion of Carbs: quick review
• Pancreas– Enzymes released into SI– Enzymes (more amylase)
breakdown starch to maltose• Small Intestine– Enzymes in lining breakdown
disaccharides into monosaccharides• Maltase, sucrase, and lactase
– Absorption of monos heads to the liver for processing
Digestion of Carbs: quick review
• Large Intestine– Viscous fiber is fermented into
acids and gases by bacteria• Rectum and Anus– Nonfermentable fiber
excreted– Little other dietary carbs
remain
Absorption of Carbs
• Disaccharides are broken down by absorptive cells
• Glucose and Galactose are taken up by active transport
• Fructose is taken up by facilitated diffusion– Not absorbed as fast– Large amounts of
fructose can result in diarrhea
Absorption of Carbs
• Once in the absorptive cells, some fructose is converted to glucose– Small fraction
• All monosaccharides transported to the liver via the portal vein
• What are the functions of the liver in carbohydrate availability to the body?– Metabolize fructose and galactose to glucose– Release glucose into blood stream– Store glucose by producing glycogen– May produce fat – only if extreme caloric excess
Lactose Maldigestion and Intolerance
• Reduced ability or complete inability to digest lactose– Results in reduced lactase production by absorptive cells– Symptoms are caused by excess gas produced by the
fermentation of lactose by bacteria in the gut– When symptoms are severe then called “intolerance”
• Affects ~25% of adults• Begins in early childhood and progresses through
adulthood• More predominant in those from Asian, African, or
Latino descent
Lactose Maldigestion and Intolerance
• Most people can handle some amounts of lactose - ~1/2 to 1 cup with a meal
• What are some health impacts of lactose maldigestion and intolerance?– ↓milk comsuption = ↓ Ca+ and Vit. D– ↑ discomfort caused by excess gas
• What are some ways to handle it?– Eat foods with Lactase in them– Drink milk with fatty meal– Eat foods with bacteria in them; i.e: yogurt– Lactase pills
Digestible carbs in the body
• Remember from previous lecture the difference between digestible and indigestible carbs?
• What is the main monosaccharide in the body?– Glucose
• What is the primary role of glucose in the body?– Provide fuel/energy to the body
Digestible carbs in the body
• What happens when not enough carbs are present in the diet?– The body breaks down fat – process known as Ketosis
• Produces ketone bodies• Can disrupt acid-base balance in the blood• Debate about health issues - argument against low-carb diets
– The body can also breakdown protein – usually only in extreme cases like extreme starvation• Results in protein being catabolized from tissues; i.e; muscle,
kidney, liver and heart• Can lead to system failure• Primary cause of death in eating disorders? Heart failure due to
breakdown of cardiac tissue
Regulating glucose
Elevated blood glucose
Normal Glucose Levels
100 mg/dL
70 mg/dL
Hyperglycemia
125 mg/dLPancreas releases
insulin
Glucose uptake by cells
Glucose converted to Glycogen
Hypoglycemia
50 mg/dLLow blood glucose
Pancreas releases Glucagon
Increased gluconeogenesis
Glycogen broken down to Glucose
Concentration of Glucose in blood (m
illigrams/deciliter)
Regulating Glucose
• Under tight regulation by liver and pancreas– Liver controls glucose ↔ gylcogen conversion– Pancreas secretes hormones
• Insulin• Glucagon
• When is insulin released and what are insulin’s effects on blood glucose?– Released after a meal– On liver-causes conversion of glucose to glycogen– On cells-causes uptake of glucose
Regulating Glucose
• When is glucagon released and what are glucagon’s effects on blood glucose levels?– Released when blood glucose levels fall below 70
mg/dL– Caused liver to convert glycogen to glucose
• Epinephrine also elevates blood glucose levels– Released by adrenal glands due to perceived
threat– Causes liver to increase glycogen breakdown
Hyperglycemia/Hypoglycemia:The two extremes
• Hyperglycemia-severely elevated blood glucose levels; >125 mg/dL
• Hypoglycemia-severely low blood glucose levels; < 50 mg/dL
• Usually caused by hormone imbalance; i.e: reduced insulin production in type 1 diabetics
Glycemic index
• Different foods increase blood glucose levels differently– Kraft Mac N’ Cheese vs. Chili
• Why care about the impacts of different carbohydrate sources on blood glucose?– Sources that cause quick elevations cause big spikes in
insulin– Chronically high insulin results in a host of problems
• Increased fat deposition• Resistance of insulin’s effects on muscle tissues
Glycemic Index
• Ratio of blood glucose response of a food compared to a standard – usually glucose or white bread
• Examples of high GI foods – baked potatos, short grain white rice, and mashed potatos
• Examples of low GI foods – Carrots, skim milk and bread
• Problem – based on the serving of food that would deliver 50 g of carbs– May not reflect the typical serving of food
Glycemic Load
• Takes into account the glycemic index and the amount of carbs consumed
• Considered more reflective of the effects on blood glucose levels
• How to calculate:Glycemic Load = (Glycemic Index) x (Grams of carbs consumed)
100Example: Baked Potato (1 cup)
GI=85Carbs (g) = 57
(85*57)/100=48