Nutrition Midterm Guidance PDF

Summary

This document provides guidance on nutrition, covering topics such as energy calculation, macronutrient counts, physical activity needs, and protein requirements. It includes information for various scenarios and populations. The document references the Mifflin-St. Jeor equation and different types of sugars. It considers factors such as exercise and age.

Full Transcript

Nutrition Midterm Guidance

Energy in Nutrition (week 1):
o Calculating energy requirements
▪ Know what pieces of information you need for the Mifflin-St. Jeor
equation. You will not be calculating kcals.
Males: REE= 10(weight) + 6.25(height) - 5(age) + 5
Females: REE= 10(weight) + 6.25(height) - 5(age) - 161
REE=resting energy estimate
Total energy estimate = REE x (exercise)
o Calculating calories based upon macronutrient count (nutrition labels)
▪ Know kcals for each of the macronutrients and be able to calculate total
calories with macros given (e.g., how many calories in an item with 50g
carbs and 25g protein?)
Fat = 9 kcal/g
Carb = 4 kcal/g
Protein = 7 kcal/g
o Physical activity needs – general recommendations
▪ Cardiorespiratory: adults 150 min of moderate intensity/week
30-60 min of moderate intensity 5x/week
20-60 min of vigorous intensity 3x/week
▪ Resistance: adults should train major muscles group 2-3x/week using a
variety of movements
Old ppl or previously sedentary ppl – very light-light intensity
2-4 sets each exercise to improve strength and power
8-12 reps to improve strength and power
10-15 reps to improve strength in middle-older ppls
15-20 reps to improve muscular endurance
Wait 48 hrs bn resistance training sessions (fuck that)
▪ Flexibility: adults should do 2-3 days/week to improve ROM
Hold 10-30 sec to pt of tightness or slight discomfort
2-4 x for total of 60 sec
Warm muscles before stretching
▪ Neuromotor: functional fitness ☺ adults 2-3x/week
Should improve motor skills, proprioception, and multifaceted
activities to improve physical function and prevent falls in old ppl
20-30 min/day
Risk from sedentary behavior is independent of physical activity
Protein/Amino Acids:
o Milk alternatives in infants (general)
▪ Commercially available formula NOT goat’s milk
o Protein RDA (adult) and upper limit/tolerable upper intake
▪ Know how to calculate protein needs

▪ RDA (adult) = 0.8g / bodyweight in kg / day
Athletes 1.2-1.8 g / bodyweight in kg / day
No upper limit
o May cause dehydration due to excretion of large amounts
of urea/nitrogenous waste from protein catabolism
WHO says avoid exceeding 1.5g/kg/day
100-125 g/day for max protein synthesis
o Glycogenesis: glucose broken down to form 2 pyruvate (inhibited by ATP)
▪ 3 irreversible enzymatic rxn:
1. Hexokinase
2. PFK – cell is committed to metabolizing glucose for energy,
rather than storing it
3. Pyruvate kinase
o Glycogenolysis: glycogen breakdown to glucose (for energy)
▪ Liver: glycogen breakdown to increase blood glucose

▪ Muscle: glycogen breakdown for muscle cell energy

▪ Caffeine inhibits this (via glycogen phosphorylase inhibition)
o Gluconeogenesis: glucose converted to glycogen (storage)
▪ In liver and skeletal muscle

▪ Inhibited by AMP

▪ 1st step: glucose 🡪 G-6-P
Happens fastest during normal blood glucose concentrations
Muscle: hexokinase
Liver: glucokinase (inducible by insulin)
o Protein and athletes
▪ Athletes 1.2-1.8 g / bodyweight in kg / day

▪ Can be up to 3 g/ kg + 1g / kg in supplemental protein
Ineffective in muscle gain according to WHO
Little effects on performance
Retention of nitrogen (might be an indicator of protein status
Strength/power and body builders are more at risk for excess
consumption
 ▪ Diff to quantify max protein

▪ Excess protein can put athletes at risk for consuming inadequate CHO for
glycogen stores
o Bones
▪ Protein is acidic

▪ Fruits and veggies supply bicarb which as a buffer
Impacted by the amount of Ca+ consumed with protein
▪ More protein = more Ca+ excreted (Ca+ necessary to buffer acidic blood

▪ Research varies 🡪 some say catabolic and some say anabolic effects

▪ Anabolic effects more commonly found in old ppl (women)
Protein consumption increases serum IGF-1
o Satiety
▪ Stimulates nucleus tractus solitarius and arcuate nucleus
CCK
Peptide YY
GLP-1
▪ Diminished brain reward systems
Reductions in limbic regions related to food motivates with higher
protein breakfast
▪ Important for weight loss
o kidneys
▪ Damage usually only a concern if there is previous kidney damage

▪ Stones are debatably a concern at stupid levels and more common in men

▪ Plant sources may be better than animal
Nitrogen Use Dose Adverse effect Conditions
compounds
Carnitine Transports FA across mito 1-2g/day in Diarrhea Keto diets (due to high
membrane adults fat content)
- Needs Fe, B6, vitamin C, B3 for
carnitine synthesis Heart disease (increase
-Found in meats like beef or pork available energy to
-Absorption saturated at ~2g heart cells)
-Depletion: carnitine deficiency 🡪
impaired metabolism

Tryptophan Precursor to B3, serotonin, 1-2 g 30 min Drowsiness -Insomnia 1-2d at
melatonin, picolinic acid before bedtime Nausea bedtime
 -Low: Crohn’s, EtOH, lactose Diarrhea -Adding niacinamide
intolerance, fructose intolerance Large dose: may increase efficacy
-Malabsorption 🡪 tryptophan Nystagmus -Migraines
binds to sugars in GI tract Euphoria
-Contra indicated for pregnancy Hyperactivity
and anti-depressants (increases
efficacy)

Glutamine Alanyl-glutamine more stable and 1-30 g/day >30g/day Acute pancreatitis
better absorbed 🡪high BUN Peptic ulcers.5-1g
Conditionally essential 2-3x/day
Fuel source for s. intestine Chemo: 24-20g/day
Increase immune function
Synth and stored in skeletal
muscle
Depletion: physical stress, lower
muscle mass
Contraindication: liver failure,
Crohn’s
Methionine Essential 1-6 g/day >8g/day and Pancreatitis often in
Most toxic AA empty stomach possibly lower combo with selenium,
Needed for carnitine and SAM or low protein Increase vitamin E and C,
synthesis meal homocysteine beta-carotene
levels 🡪 might parkinson’s
improve w/ UTI: acidifies urine
B6, B9, B12 diaper rash
supplements

o Phenylketonuria: unable to convert phenylalanine to tyrosine by PAH in the liver
▪ Pathway in Fe dependent

▪ BH4 is cofactor

▪ Autosomal recessive

▪ 1:10,000 in US

▪ Leads to neurologic problems if untreated

▪ Treatment: low protein diet and supplement with phe-free protein

▪ Aspartame contains phenylalanine
o Protein digestion, metabolism (destination)
▪ PDCAAs: Protein digestibility corrected AA score
Indicator of protein quality
Compare limiting AA of a test protein with reference protein
(egg/milk)
True digestibility of the protein determined by testing fecal
nitrogen
 Equation:
(𝑎𝑚𝑜𝑢𝑛𝑡 (𝑚𝑔) 𝑜𝑓 𝑙𝑖𝑚𝑖𝑡𝑖𝑛𝑔 𝐴𝐴 𝑖𝑛 1𝑔 𝑡𝑒𝑠𝑡 𝑝𝑟𝑜𝑡𝑒𝑖𝑛)
𝑃𝐷𝐶𝐴𝐴𝑆 (%) = (𝑎𝑚𝑜𝑢𝑛𝑡 (𝑚𝑔) 𝑜𝑓 𝑠𝑎𝑚𝑒 𝐴𝐴 𝑖𝑛 1𝑔 𝑟𝑒𝑓 𝑝𝑟𝑜𝑡𝑒𝑖𝑛)
* 𝑡𝑟𝑢𝑒 𝑑𝑖𝑔𝑒𝑠𝑡𝑖𝑏𝑖𝑙𝑖𝑡𝑦

Scores:
o 100% PDCAAS = milk protein, egg white, ground beef, tuna,
some other natural animal products
o 94% PDCAAS = Soy
o 100
Reference protein:
o Infants: human milk
o Other: use chart – I don’t have time to memorize that shit
o Protein requirements
▪ Adults: Minimum: 0.8g/kg/day
AMDR: 10-35% of energy intake
▪ Kiddos:
Preterm: 3.5-5g/kg/day
0-12 months: 1.5 g/kg/day
1-3 yrs: 1.1g/kg/day
4-13 yrs: 0.95g/kg/day
14-18 yrs: 0.85g/kg/day
o BCAA’s
▪ Leucine, isoleucine, and valine
Essential: thought to promote anabolic pathway
First site of metabolism in skeletal muscle
Oxidation of leucine produces more ATP than gluciose
Leucine oxidized well during fasting
▪ Dose: up to 20g/day in divided doses

▪ Upper limit? 🡪 500 mg/kg/day for healthy men

▪ Adverse effects: unlikely; correlated with some conditions like DM and
CHD
▪ Conditions:
Liver failure
May attenuate post exercise muscle soreness
o Doesn’t appear to help improve performance
 o Newborn screening – general
▪ 31 disorders
6 AA
5 FA
Many others have nutritional components
▪ Blood spot heall stick
1st screening 24-36 hrs post birth
2nd 5-10 days old
3rd screeninf in case of false +
o Marasmus vs Kwashiorkor (general)
Disease Marasmus Kwashioker
Cause Wasting: severe Edematous wasting: low
undernourishment protein
Sx Underweight Edema in legs, face, belly
inadequate muscle and Inadequate protein in
fat blood causes water to
Low bone density move out of the blood and
Drooping skin into the interstitial space
Tx Food all macros Protein

Carbohydrates:
o Glycemic index of foods (including high/med/low values)
▪ Glycemic index: increase in blood glucose above baseline during a 2 hr
period after consuming a defined amount of CHO (usually 50g) compared
to the same amount of CHO in another food item
Affected by temp, cooking, processing, ripeness, variety, location
of growth
High: >/=70
o Rapidly digested and absorbed 🡪 rapid increase in blood
glucose
o Rapid increase in blood glucose 🡪 high insulin response
o High insulin response 🡪 rapid fall in blood glucose
(hypoglycemia)
Moderate: 56-69
Low: /=20
 Intermediate: 11-19
Low: 30g/day
▪ RDA
Men 19-50: 38 g/day
Women 19-50: 25g/day
o CVD/Hyperlipidemia
▪ For both 🡪 increase dietary fiber to decrease risk

Remember, the test is intended to cover the basic nutrition information from your main
Powerpoints and readings rather than our in-depth discussions in the teaching kitchen.
Disease Cause Prevelence Sx Treatment Note
PKU Autosomal 1:10,000 in Neuologic Low protein diet Aspartame
recessive US problems Supplement with contains
phe-Free protein phe
Tyrosinemia 1:250,000 Skin and Phe and tyr
type II WW eyew lesions restrictions
Impaired
mental dev’t
Alkaptonuria Homogentistic 1:250,000 – Oxidation of
acid cannot 1 million homogentisti
convert to WW c acid 🡪
Black urine
 maleyacetoace More Arthritis
tate common in
-high Slovokia
homogentistic
acid in urine
and tissue
Propionic Defect in 1:35,000-70, Vomiting, Restrict
acidemia propionic acid 000 WW ketoacidosis, threonine,
in body fluids More hypertonia, isoleucine, and
leading to common in FTT, valine
accumulation Greenland respiratory
B7 dependent and Saudi problems

Methymalonic Defect in 1:48,000
acidemia methylmalonyl
-CoA mutase
Homocystinuria Defect in 1:200,000-3 Osteoporosis Low protein diet
methionine 00,000 WW Ocular Limit methionine
metabolism More changes Supplement
*cystanthionin common in Mental cysteine,
e B synthase Ireland retardation betaine, folate
(homocysteine
to
cystathionine)
High hc and
meth
Low cyst
Maple Syrup Defect in BCAA 1:225,000 Urine smells Restrict BCAA High plasma
Urine Disease DH complex WW like maple and thiamine leucine is
Thiamine is 1:150 US syrup supplementation more
coenzyme Mennonite Acidosis Liver transplant neurotoxic
population Vomiting than
Lethargy isoleucine
Coma and valine
Death
Urea cycle Urea enzyme Toxic Protein Mild cases
disorders defects cause ammonia restriction may be
high levels of levels can Supp: citrulline triggered by
blood lead to coma, and arginine stress
ammonia death
Newborn:
low body
temp, failure
to feed