1. Chapter 5 The Lipids: Fats, Oils, Phospholipids, and Sterols
Nutrition: Concepts & Controversies, 12e Sizer/Whitney

2. Learning Objectives
Discuss the reasons why a moderate intake of lipids is an essential part of a healthy diet.
Compare and contrast the physical properties and the sources of saturated, polyunsaturated, and monounsaturated fats.

3. Learning Objectives
Describe how and where dietary lipids are broken down and absorbed during digestion and how they are transported throughout the body.
Describe the significance of the blood tests for HDL and LDL cholesterol.
Describe the roles of omega-3 and omega-6 fatty acids in the body, and discuss which may be too low in some people’s diets and how they can increase their intakes.

4. Learning Objectives
Justify the recommendation to eat fatty fish instead of relying on fish oil supplements, and discuss safety issues surrounding both choices.
Describe the information and structure of a trans-fatty acid, and state ways in which consumers may reduce their intakes.

5. Learning Objectives
Develop a diet plan that provides enough of the right kinds of fats within calorie limits.
Discuss evidence for the benefits and drawbacks of specific dietary fats in terms of their potential effects on human health.

6. Introduction Diet moderate in fats Three classes of lipids
Lipids are necessary and valuable
Lipids can harm health
Three classes of lipids
Triglycerides
Phospholipids
Sterols

7. Usefulness of Fats in the Body
Chief storage form of energy
Provides most energy for body’s work
Adipose tissue
Secretes hormones
Purposes of fat
Shock absorbers, insulation, cell membranes
Fat-soluble substances

8. A Fat Cell

9. Lipids enter from blood
Muscle tissue
Fat tissue
Blood capillaries
Fat cell
Lipids enter from blood
Figure 5-1 A Fat Cell Within the fat cell, lipid is stored in a droplet. This droplet can greatly enlarge, and the fat cell membrane will expand to accommodate its swollen contents. More about fat tissue (also called adipose tissue) and body functions in Chapter 9
Lipids exit to blood
Cell membrane
Nucleus
Fig. 5.1, p. 151

10. Usefulness of Fats in Food
People naturally like high-fat foods
Aromas
Flavors
Tenderness
Satiety

11. Triglycerides: Fatty Acids and Glycerol
Glycerol backbone
Three fatty acids
Fatty acid differences
Chain length
Saturation
Animal species make triglycerides

12. A triglyceride formed from 1 glycol + 3 fatty acids
Glycerol
Figure 5-3 Triglyceride Formation Glycerol, a small, water-soluble carbohydrate derivative, plus three fatty acids equals a triglyceride.
A triglyceride formed from
1 glycol +
3 fatty acids
3 fatty acids of differing lengths
Fig. 5.3, p. 153

13. Saturated Versus Unsaturated Fatty Acids
Saturation
Hydrogen atoms
Levels of saturation
Saturated
Unsaturated
Polyunsaturated
Monounsaturated

14. Three Types of Fatty Acids

15. Points of unsaturation
Saturated
Monounsaturated
Polyunsaturated
Point of unsaturation
Points of unsaturation
Figure 5-4 Three Types of Fatty Acids The more carbon atoms in a fatty acid, the longer it is. The more hydrogen atoms attached to those carbons, the more saturated the fatty acid is.
Fig. 5.4, p. 154

16. Saturated Versus Unsaturated Fatty Acids
Melting point
More unsaturated, more liquid
Fat hardness
Softer generally is healthier
Sources of fatty acids
Heart disease

17. Fatty Acid Composition of Common Food Fats

18. Phospholipids and Sterols
Glycerol, two fatty acids, and a phosphorus molecule
Soluble in water and fat
Emulsifier
Sterols
Roles in the body
Plant sterols

19. Digestion and Absorption of Fats
Stomach
Small intestine
Bile
Pancreas

20. Watery digestive juices Bile compounds Enzyme
Fat
Fat
Watery digestive juices
Bile compounds
Enzyme
Emulsified fat
Emulsified fat
Enzymes
In the stomach, the fat and watery digestive juices tend to separate. Enzymes are in the water and can’t get at the fat.
When fat enters the small intestine, the gallbladder secretes bile. Bile compounds have an affinity for both fat and water, so it can bring the fat into the water.
Figure 5-6 The Action of Bile in Fat Digestion Detergents are emulsifiers and work the same way, which is why they are effective in removing grease spots from clothes. Molecule by molecule, the grease is dissolved out of the spot and suspended in the water, where it can be rinsed away.
After emulsification, more fat is exposed to the enzymes, making fat digestion more efficient.
Fig. 5.6, p. 157

21. Digestion and Absorption of Fats
Fatty acids split from glycerol
Fatty acids, phospholipids, and monoglycerides
Bile shuttles lipids across mucus layer
Efficiency of absorption process
Speed of digestion

22. The Process of Lipid Digestion and Absorption

23. Esophagus Pancreas Liver Stomach Small intestine Large intestine1
In the mouth and stomach:
Little fat digestion takes place. 2
Small intestine 2
In the small intestine:
Digestive enzymes accomplish most fat digestion in the small intestine. There, bile emulsifies fat, making it available for enzyme action. The enzymes cleave triglycerides into free fatty acids, glycerol, and monoglycerides. 3
Large intestine
(colon) 4 3
At the intestinal lining:
The parts are absorbed by intestinal villi. Glycerol and short-chain fatty acids enter directly into the bloodstream.
Capillary network
Lymph
The cells of the intestinal lining convert large lipid fragments, such as monoglycerides and long-chain fatty acids back into triglycerides and combine them with protein, forming chylomicrons (a type of lipoprotein) that travel in the lymph vessels to the bloodstream. 4
Figure 5-7 The Process of Lipid Digestion and Absorption
Villi
Chylomicrons
Blood vessels 5
In the large intestine:
A small amount of cholesterol trapped in fiber exits with the feces
Lymph to blood 5
Bloodstream
Fig. 5.7, p. 158

24. Transport of Fats Glycerol and shorter-chain fatty acids Larger lipids
Bloodstream
Larger lipids
Protein carriers
Released into lymph
Chylomicrons

25. Storing and Using the Body’s Fat
Body conserves fat molecules
Fat depots
Excess carbohydrate
Call for energy
Dismantle stored triglycerides
Release fatty acids into blood
Carbohydrate’s role
How to use more fat for energy…

26. Glucose to Fat

27. The fragments can provide immediate energy for the tissues.
Fatty acid
Glucose is broken down
into fragments.
The fragments can provide immediate energy for the tissues.
Or, if the tissues need no more energy, the fragments can be reassembled, not back to glucose but into fatty acid chains.
Figure 5-8 Glucose to Fat Glucose can be used for energy, or it can be changed into fat and stored.
Fig. 5.8, p. 159

28. Dietary Fat, Cholesterol, and Health
Heart and artery disease
Saturated and trans fats
Beneficial fats
Cancer
Diet high in saturated fats
Obesity
Overconsumption of calories

29. Recommendations for Lipid Intakes
Some fat in the diet is essential
Healthy range of fat intakes
DRI
20 to 35 percent of daily energy
Fats to keep low
Essential fatty acids

30. Lipoproteins and Heart Disease Risk
Lipoprotein movement in the body
Liver
Types of lipoproteins
Chylomicrons
Very-low-density lipoproteins (VLDL)
Low-density lipoproteins (LDL)
High-density lipoproteins (HDL)

31. Lipoproteins

32. (More lipid, less protein) (Less lipid, more protein)
100 80
Protein 60
Percent 40
Cholesterol 20
Phospholipid
Triglyceride
Figure 5-9 Lipoproteins As the graph shows, the density of a lipoprotein is determined by its lipid-to-protein ratio. All lipoproteins contain protein, cholesterol, phospholipids, and triglycerides in varying amounts. An LDL has a high ratio of lipid to protein (about 80 percent lipid to 20 percent protein) and is especially high in cholesterol. An HDL has more protein relative to its lipid content (about equal parts lipid and protein).
LDL
(More lipid, less protein)
HDL
(Less lipid, more protein)
Lower density
Higher density
Fig. 5.9, p. 162

33. Phospholipid Protein Cholesterol Triglyceride A typical lipoprotein
Figure 5-9 Lipoproteins As the graph shows, the density of a lipoprotein is determined by its lipid-to-protein ratio. All lipoproteins contain protein, cholesterol, phospholipids, and triglycerides in varying amounts. An LDL has a high ratio of lipid to protein (about 80 percent lipid to 20 percent protein) and is especially high in cholesterol. An HDL has more protein relative to its lipid content (about equal parts lipid and protein).
A typical lipoprotein
Fig. 5.9, p. 162

34. Lipoproteins and Heart Disease Risk
LDL and HDL difference
Size and density
Delivery and scavenging
Inflammation
Heart attack risk
Oxidation of LDL
Phytochemicals

35. Food Cholesterol and Blood Cholesterol
Saturated and trans fats
CVD risk indicators
Dietary cholesterol
Genetic inheritance
Moderation is key

36. Recommendations Applied
Heart disease
Leading cause of death among Americans
Lower LDL
Dietary tactics
Trim saturated and trans fats from diet
Raise HDL
Physical activity
Benefits for heart health

37. Food Fat, Saturated Fat, and Calories

38. Top Contributors of Saturated Fats to the U.S. Diet

39. The Need for Essential Fatty Acids
Linoleic acid and linolenic acid
Functions
Eicosanoids
DRI recommendations
Deficiencies

40. Omega-6 and Omega-3 Fatty Acid Families
Linoleic
Omega-6 fatty acid
Arachidonic acid
Linolenic acid
Omega-3 fatty acid
DHA and EPA
Heart disease
Brain function and vision
Inflammation

41. Fish Oil Intakes and Cardiovascular Death Rates

42. Recommendations for Omega-3 Fatty Acid Intake
Competition for metabolic enzymes
Consumption levels
Lacking omega-3 fatty acids
Fish oil supplements
Health concerns with fish oil supplements
Omega-3 enriched foods
Flaxseed

43. Food Sources of Omega-6 and Omega-3 Fatty Acids

44. Seafood Safety – Balancing Risks and Benefits
Safe consumption levels
Mercury
Methylmercury
Damage to the body
Cooking methods of fish
Benefits outweigh risks

45. Mercury in Fish Species

46. Effects of Processing on Unsaturated Fats
Hydrogenation
Effects on fats
Oxidation of unsaturated oils
Hydrogenation of oils
Benefits of hydrogenation
Nutrient losses
Alternatives to hydrogenation

47. Hydrogenation Yields Both Saturated and Trans-Fatty Acids

48. Unsaturated fatty acid
Points of unsaturation are places on fatty acid chains where hydrogen is missing. The bonds that would normally be occupied by hydrogen in a saturated fatty acid are shared, reluctantly, as a double bond between two carbons that both carry a slightly negative charge.
Point of
unsaturation
Figure 5-14 Hydrogenation Yields Both Saturated and Trans-Fatty Acids
When a positively charged hydrogen is made available to an unsaturated bond, it readily accepts the hydrogen and, in the process, becomes saturated. The fatty acid no longer has a point of unsaturation.
Hydrogenated fatty acid (now fully saturated)
Trans-fatty acid
The hydrogenation process also produces some trans fatty acids. The trans fatty acid retains its double bond but takes a twist instead of becoming fully saturated. It resembles a saturated fatty acid both in shape and in its effects on health.
Fig. 5.14, p. 172

49. Effects of Processing on Unsaturated Fats
Trans-fatty acids
Polyunsaturated fats
Change in chemical structure
Health effects
LDL and HDL cholesterol
Similarities with saturated fat
Trans fat in foods

50. Fat in the Diet Essential fat Visible vs. invisible fat Added fats
20% of calories from unsaturated fats
Visible vs. invisible fat
Added fats
Majority are invisible fats

51. Fat in the Diet Meat, poultry, fish, dried peas & beans, eggs, & nuts
Four categories for meat
Limit intake to 5 to 7 ounces per day
Choosing low-fat meats
Ground turkey or chicken vs. beef
Milk, yogurt, and cheese
Foods not included in this category
Grains

52. Calories, Fat, and Saturated Fat in Cooked Ground Meat Patties

53. Lipids in Milk, Yogurt, and Cheese

54. Lipids in Bread, Cereal, Rice, and Pasta

55. Defensive Dining Portion sizes In the grocery stores
Fat replacers & artificial fats
Olestra
“Fat-free” options
Cooking at home

56. Substitute Ingredients to Lower Saturated Fat Intakes

57. Defensive Dining Use flavorful fats Choose unsaturated oils
Revamp recipes
Suggestions
Find lower-fat fast foods
Change your habits

58. Good Fats and Bad Fats – Which are Which?
Controversy 5

59. Objectives to “Low-Fat” Guidelines
Problems with low-fat diets
Groups who benefit from low-fat diets
Mediterranean-type diets
New guidelines
Up to 35 percent of total calories

60. High-Fat Foods and Heart Health
Olive oil
Potential health benefits
Darker the better (extra virgin)
Canola oil

61. High-Fat Foods and Heart Health
Mediterranean diet
Whole foods
Dietary focus
Fish
Nuts
Walnuts
Almonds
Potential benefits

62. High-Fat Foods and Heart Health
Butter or margarine
Read labels
Low saturated fat and trans fat levels
Plant-enriched margarines
Drawbacks
Fats to avoid
Choose carefully among high-fat foods

63. Impact of Change in Saturated Fatty Acid Intake on Blood LDL Cholesterol and Heart Disease Risk