Nutritional status and reproduction

Question 1

General reproductive characteristics of Females

Answer 1

• Born with immature ova (eggs)
• Starting at puberty – ova mature about every 28 days (ovulation)
• Ova mature within follicles in the ovaries

Question 2

General reproductive characteristics of males

Answer 2

• Born with sperm-producing systems
• Start producing sperm at puberty in response to testosterone – ongoing, not cyclic

Question 3

What are the endocrine organs involved in the reproductive system?

Answer 3

• hypothalamus
• pituitary
• ovaries and placenta (adrenal glands, adipocytes)
• testes (adrenal glands)

Question 4

Hormones from hypothalamus

Answer 4

GnRH - gonadotropin-releasing hormone

Question 5

Hormones from pituitary

Answer 5

• Follicle-Stimulating Hormone (FSH) - acts on overaries to produce estrogen, progesterone and some testosterone and stimulates ovaries to produce eggs
• Luteinizing Hormone (LH): triggers release of an egg from the ovaries

Question 6

Hormones from ovaries and placenta

Answer 6

• estrogen
• progesterone
• testosterone

Question 7

Hormones from testes

Answer 7

testosterone

Question 8

What is the HPG?

Answer 8

hypothalamus-anterior pituitary gonadal axis
* The connection between the hypothalamus, pituitary gland, and gonads. It is an important control mechanism mainly involved in the development and regulation of the reproductive system (and immune system and ageing)
* estrogen, progsterone and testosterone has a negative feedback loop to turn off hormonal release

Question 9

What are the two phases of the menstrual cycle?

Answer 9

• follicular phase
• luteal phase

Question 10

How do hormones change throughout the menstrual cycle?

Answer 10

Question 11

Describe the follicular phase

Answer 11

Days 1-14
Low estrogen and progesterone → release of
GnRH → release of FSH and LH
* Growth and maturation of follicles and ova
* Release of estrogen (and progesterone)
* Thickening of outer uterine wall (endometrium)
* Peak LH levels stimulate ovulation (~day 14)

Question 12

Describe the luteal phase

Answer 12

Days 15-28
Follicle becomes corpus luteum → releases
progesterone and some estrogen → further
endometrium development → inhibit GnRH
* If no fertilization: corpus luteum shrinks → progesterone and estrogen levels decline
* If fertilization: corpus luteum size increases → continued release of progesterone and estrogen

Question 13

role of estrogen in the menstrual cycle

Answer 13

plays a role in ovulation (when your ovaries release an egg) and thickens the lining of your uterus (endometrium) to prepare it for pregnancy

Question 14

Role of progesterone in the menstrual cycle

Answer 14

Progesterone creates a healthy uterine lining to support a fertilized egg, embryo and fetus

Question 15

Role of FSH in the menstrual cycle

Answer 15

FSH helps control the menstrual cycle and stimulates the growth of eggs in the ovaries. FSH levels in women change throughout the menstrual cycle, with the highest levels happening just before an egg is released by the ovary. This is known as ovulation.

Question 16

Role of LH in the menstrual cycle

Answer 16

LH helps control the menstrual cycle. It also triggers the release of an egg from the ovary. This is known as ovulation. LH levels quickly rise just before ovulation

Question 17

Hormone effect on males

Answer 17

GnRH levels fluctuate → LH and FSH released → testosterone released from testes

Question 18

Role of testosterone in male reproductive system

Answer 18

Testosterone and other androgens stimulate the maturation of sperm (70-80 days to mature)
* Mature sperm stored in epididymis until released (released in semen which contains fluid and nutrients)

Question 19

Result of undernutrition in female fertility

Answer 19

hypothalamic amenorrhea
* disrupts the GnRH release, thus reducing others because the body senses that the organ is not capable of hosting an embyro

Question 20

Result of undernutrition in male fertility

Answer 20

• Impaired sperm number, viability and motility
• Decreased sexual drive

Question 21

What are the most common causes of undernutrition?

Answer 21

• negative energy balance
• weight loss
• low body fat (intense physical activity)

Question 22

Role of antioxidants in fertility

Answer 22

protection of ovum/corpus luteum and sperm from reactive oxygen molecules
* ↓ intake associated with infertility

Question 23

What micronutrients are important anitoxidants for fertility?

Answer 23

• vitamin C
• vitamin E
• beta-carotene
• selenium

Question 24

Role of zinc in male fertility

Answer 24

role in testosterone synthesis and sperm maturation

Question 25

Effect of obesity on fertility

Answer 25

Excess adipose tissue, particularly excess visceral adipose tissue, alters hormones involved in reproduction leading to infertility or subfertility in both females and males

Question 26

What are the BMI classifications?

Answer 26

Question 27

What is the health risk associated with each BMI?

Answer 27

Question 28

Health risk associated with waist circumference

Answer 28

Question 29

What occurs with the female menstrual cycle with obesity?

Answer 29

menstrual irregularities
* increased androgens (testosterone)
* increased leptin and estrogen

Question 30

What disease occurs with increased androgens?

Answer 30

PCOS - polycystic ovary syndrome
* Hyperandrogenism (elevated testosterone)
* Impaired ovarian folliculagenesis (due to hyperinsulinemia)
* Associated with android fat distribution

Question 31

Early etiology for developing PCOS

Answer 31

Question 32

What occurs with male fertility with obesity?

Answer 32

Decreased sperm count and motility, increased risk of erectile dysfunction
* decreased testosterone
* leptin, estrogen
* increased scrotal temperature

Question 33

What is the association betwen BMI and increased risk?

Answer 33

J shaped curved

Question 34

What are some other nutritional factors that may be associated with female infertility?

Answer 34

• vegetarian/ vegan
• iron status
• alcohol

Question 35

What are some other nutritional factors that may be associated with male infertility?

Answer 35

• vitamin D
• alcohol
• heavy metals, chemicals

Question 36

What are the critical periods of fetal organ and tissue development?

Answer 36

1. hyperplasia: increased cell multiplication (optimal nutrients critical)
2. hyperplasia and hypertrophy
3. hypertrophy: increased cell size

Question 37

What are the 2 periods of growth?

Answer 37

• main embryonic period: 8 weeks
• fetal period: 9-38 weeks

Question 38

What is the longest highly sensitive period?

Answer 38

CNS development up to ~16 weeks that is critical
* neural tube defects (NTDs)
* mental retardation

Question 39

Why is nutritional status prior to pregnancy important?

Answer 39

Some critical periods of fetal development occur before women know they are pregnant
* If nutrients unavailable during critical period, can not ‘catch-up’ later (effects not reversible)
* Teratogens need period of time to clear

Question 40

What are NTDs?

Answer 40

neural tube defects (NTDs)
* Failure of closure of the neural tube during early development; weeks 3-4
* various presentations and degree of severity

Question 41

Formation of neural tube

Answer 41

Neural plate formed very early and has a series of folds that form the CNS and spinal chord.
* Result in formation of neural crest and spinal chord.

Question 42

Prevalance of NTDs

Answer 42

NTDs most common congenital anomaly in US & Canada ~1.0-1.6 per 1000 live births

Question 43

What are the types of NTDs?

Answer 43

• Anencephaly
• Encephalay
• Spina bifida

Question 44

Anencephaly

Answer 44

incomplete brain formation, absence of forebrain and skull

Question 45

Encephaly

Answer 45

protrusion of brain and membranes through skull (severity depends on length of exposure or area exposed)

Question 46

Spina Bifida

Answer 46

incomplete spinal cord formation and “Lump” formation may have nervous tissue and will never be normal
* Control of muscles distal to (below) defect affected – often lower limbs, bladder
* If defect is high in spinal cord, death may occur

Question 47

What micronutrient is essential in preventing NTDs?

Answer 47

Folate

Question 48

Evidence of the link between folate and NTDs?

Answer 48

women who give birth to babies with NTDs usually have lower serum folate and dietary intake of folate
* epidemiological studies have shown regions with higher dietary folate intake have lower rates of NTDs
* women who take supplement containing folate before and during pregnancy have lower risk of having baby with NTDs

Question 49

What vitamin is folate?

Answer 49

Vitamin B9
* water soluble

Question 50

What are the folate family of compounds?

Answer 50

• Folate: polyglutamate found naturally in foods
• Folic Acid: monoglutamate more stable found in supplements and fortifed foods
• Bioactive Form: tetrahydrofolate

Question 51

Main biological roles of folate

Answer 51

• DNA and RNA synthesis
• Methylation reactions

Question 52

Describe the methylation cycle

Answer 52

1. serum folate comes into cell with carrier to become 5-methyl tetrahydrofolate (via MTHFR)
2. the methyl of 5-MeTHF is transferred to homocystein via VitB12to produce methionine
3. Methionine reacts with ATP forming S-adenosylmethionine which is the principle donor for methylation
4. Loss of methyl group from SAM forms AdoHcy which is converted to homocysteine for cycle to continue

Question 53

What methylation processes is SAM involved with?

Answer 53

• DNA – gene regulation
• Protein – structure and function
• Lipid – synthesis

Question 54

What is MTHFR?

Answer 54

Methylene tetrahydrofolate reductase
* rate-limiting enzyme in the methyl cycle that converts folate to 5-MeTHF and is coded by the MTHFR gene.
* regulates pathway

Question 55

What is the connection between folate and NTDs?

Answer 55

Variety of factors

Question 56

How does MTHFR gene effect NTDs?

Answer 56

Variant gene is associated with increased plasma homocysteine and risk of NTD
* CC – ‘normal’ MTHFR
* CT – heterozygous variant (est 40% population) and is increased risk of NTDs (OR 1.1 to 1.3)
* TT – homozygous variant (est 10% population) is higher increased risk of NTDs (OR 1.6 to 1.9)

Question 57

How can reduced MTHFR be overcome?

Answer 57

dietary folate can bypass it to ensure methylation continues

Question 58

How the MTHFR varient changes flux of methylation vs. nucleotide synthesis

Answer 58

Question 59

Increased risk of NTDs if?

Answer 59

• dietary folate prior to and during pregnancy is inadequate
• genetic mutation of folate metabolism

Question 60

What are the folate equivalents?

Answer 60

1Dietary Folate Equivalents (DFE)
* = 1 μg food folate
* = 0.6 μg synthetic folic acid with food
* = 0.5 μg synthetic folic acid from supplement on empty stomach

folic acid is more bioavailable

Question 61

What are the folate requirements?

Answer 61

• RDA (adult females): 400μg/day
• RDA (pregnancy): 600μg/day
• UL (synthetic folic acid only): 1000μg/d

Question 62

Folate supplementation reccomendations

Answer 62

Health Canada recommends women who can become pregnancy should take 400 μg synthetic folic acid/day from multivitamin supplement
* women do not generally meet recommendations

Question 63

Food sources of naturally ocurring folate?

Answer 63

• Vegetables: peas (10 cups), beans, asparagus, dark leafy greens (only bioavailable when cooked)
• Fruits: oranges, orange juice, pineapple juice (juices highly bioavailable)

Question 64

Food sources of fortified foods

Answer 64

Bread and grain products
* 150 μg folic acid /100g flour
* 200 ug folic acid/100g pasta

Question 65

What are teratogens?

Answer 65

Substances that can produce or increase the incidence of an abnormality in embryonic or fetal development
* drugs (including alcohol), chemicals, infections, radiation
* vitamin A, lead, mercury

Question 66

What is common cause for vitamin A toxicity?

Answer 66

Toxic level not usually from food but a result of:
* Mega dose supplements (Acne treatment)
* Retinoid drugs

Question 67

Problem with retinoid drugs?

Answer 67

Such as isotretinoin (e.g. Accutane)
* increased risk of spontaneous abortion and birth defects
* craniofacial defects, cleft palate, cardiovascular and CNS abnormalities
* neuropsychological impairment later in life

Question 68

Vitamin A DRIs for adult female?

Answer 68

• RDA: 700 ug/d
• UL: 3,000ug/d (pre-formed only)

Question 69

What is the reccomendation for stopping retinoid drugs?

Answer 69

Stop use at least 6 months before pregnancy
* Stays stored in fat so have to wait a bit

Question 70

Methyl mercury as a teratogen

Answer 70

Main food source of methyl mercury is
contaminated fish, diet high in mercury before and during pregnancy:
* CNS defects including cerebral atrophy, seizures, mental impairment, blindness

Question 71

What fish are recommended to avoid?

Answer 71

fresh or frozen tuna, shark, marlin, orange roughy, escolar and canned albacore tuna
* Health Canada reports that most fish in
Canada have very low mercury levels.

Question 72

Fish reccomendation for pregnant women

Answer 72

Women who are planning to get pregnant or those are currently pregnant are advised to have at least 150 g of cooked, low mercury fish each week (~2-3 servings)
* A good source of long chain omega-3 fatty acids that are important for fetal brain development

Question 73

Alcohol as a teratogen

Answer 73

crosses the placenta and fetal liver can not metabolize because does not have the enzymes
* Most affected is CNS development which is a critical period through-out pregnancy
* Heavy alcohol intake increased risk of miscarriage, stillbirth and infant mortality

Question 74

What is FASD?

Answer 74

fetal alcohol spectrum disorder (mild to severe)
* FAS
* FAE

Question 75

What is FAS?

Answer 75

fetal alcohol syndrome
* growth impairment, neurological abnormalities, facial characteristics
* developmental delays, behavioral and learning disabilities which some effects may not show up until the child is older

Question 76

What is the most common cause of impaired mental functioning?

Answer 76

Alcohol consumption during pregnancy