Human Development

Front 1

What hormones are involved in the Hypothalamic-Pituitary-Ovarian axis? What gives feedback where?

Back 1

Hypothalamus secretes GnRH, which makes the pituitary secrete LH and FSH. FSH helps mature an ovarian follicle which secretes estrogen. Estrogen levels rise and suppress LH and FSH. A high level of estrogen causes a spike in LH which causes ovulation, and the corpus luteum secretes progesterone to stabilize the endometrium. Progesterone and estrogen feedback to the hypothalamus and pituitary.

Front 2

What are the three phases of the menstrual cycle?

Back 2

Follicular phase, ovulation, luteal phase.

Front 3

What is primary amenorrhea?

Back 3

Lack of breast development by age 14, lack of menses by age 16, or lack of menses 4 years after thelarche.

Front 4

What is secondary amenorrhea?

Back 4

Menstruation that has stopped for 6 months, or 3 consecutive cycles.

Front 5

Where could the problem be in hypogonadotrophic hypogonadism?

Back 5

The hypothalamus or the pituitary.

Front 6

Where could the problem be in hypergonadotrophic hypogonadism?

Back 6

In the gonads themselves.

Front 7

What is the timeline in defining infertility?

Back 7

Under 35 years of age, 1 year of attempts with no success. If over 35 then 6 months with no success.

Front 8

What do the pubic crest, pectineal
line or pecten pubis, arcuate line, ala of sacrum, sacral promontory make up?

Back 8

The pelvic brim.

Front 9

Where is the false pelvis in relation to the pelvic brim?

Back 9

Above it (superior to it).

Front 10

What is the diagonal conjugate and how is it measured?

Back 10

The distance between the lower margin of pubic symphysis and the sacral promontory, measured per vaginum.

Front 11

What type of joint is the sacroiliac joint?

Back 11

A synovial joint.

Front 12

What two structures does the sacrotuberous ligament join?

Back 12

Posterior sacrum to the ishial tuberosity (sit bones).

Front 13

What two structures does the sacrospinous ligament join?

Back 13

Posterior sacrum to the ishial spine.

Front 14

What are the two depressions in the perineum in the female pelvis called?

Back 14

One depression between the bladder and the uterus is known as the uterovesicular pouch and the second depression between the rectum and the uterus known as the rectouterine pouch.

Front 15

What is the mesosalpinx and mesovarium and which ligament are they located in?

Back 15

Peritoneum that covers the fallopian tubes and ovaries, within the broad ligament.

Front 16

What does water under the bridge refer to?

Back 16

The ureter crosses the external iliac artery at the bifurcation of common iliac artery, passing under the uterine artery, or the vas deferens.

Front 17

What two muscles make up the pelvic floor and what are the subdivisions of one of them?

Back 17

Coccygeus and levator ani. Levator ani is made up of the pubococcygeus and iliococcygeus.

Front 18

Which spinal levels do the parasympathetic nerves of the pelvis arise from?

Back 18

S2, 3 and 4.

Front 19

What divisions does the iliac artery give off?

Back 19

Anterior and posterior divisions.

Front 20

What are the arteries in the visceral branch of the anterior division from the internal iliac artery?

Back 20

Umbilical, superior and inferior vesical, middle rectal, and uterine artery.

Front 21

What are the arteries in the somatic branch of the anterior division from the internal iliac artery?

Back 21

Inferior gluteal, internal pudendal, and obturator.

Front 22

Which reflexes are governed by the pelvic autonomic nerves S2, 3 and 4?

Back 22

Micturation, genital and defecation reflex.

Front 23

What three structures does the sperm have to cross when in contact with the ovum?

Back 23

Corona radiata, zona pellucida, and cell membrane.

Front 24

What does the fertilized ovum become after the morula stage on day 4?

Back 24

Blastocyst.

Front 25

At what stage is the fertilized ovum 'hatched' from the zona pellucida? Around what day is that?

Back 25

When it is a blastocyst around day 5 or 6.

Front 26

At what stage does cell differentiation begin to occur in the fertilized ovum?

Back 26

Around day 3 when in the morula stage, since there are now inner cells and outer cells.

Front 27

What are the first two differentiated types of cells called in the blastocyst? Where are they located?

Back 27

Embryoblast, which is from the inner cell mass, and trophoblast, which is from the outer cell mass.

Front 28

What do the fetus, amnion, inner cell layer of the chorion and extraembryonic mesoderm arise from?

Back 28

The embryoblast cells.

Front 29

What cells does the placenta arise primarily from?

Back 29

The syncytiotrophoblast and cytototrophoblast of the trophoblast.

Front 30

What is the difference between totipotent and pluripotent cells?

Back 30

Totipotent can become any type of cell, including placenta or embryo. Pluripotent can become any type of cell in the embryo (stem cells), but not the placenta.

Front 31

What are the primary chorionic villi made up of?

Back 31

The trophoblast layers of the cytotrophoblast and syncytiotrophoblast.

Front 32

What are secondary chorionic villi made up of?

Back 32

The trophoblast layers of the cytotrophoblast and syncytiotrophoblast, but the core becomes replaced with mesoderm from extra embryonic mesochyme.

Front 33

Around what days does implantation of the blastocyst take place?

Back 33

Between day 6 and 9 post-fertilization.

Front 34

Describe tertiary chorionic villi.

Back 34

They have an external layer of syncytiotrophoblast, a layer of cytotrophoblast that is no longer continuous, and a core with villous capillaries.

Front 35

What two tissues does the embryoblast differentiate into?

Back 35

The hypoblast and epiblast.

Front 36

What does the hypoblast form?

Back 36

Fetal membranes, inner cell layer of the chorion, extraembryonic and mesoderm (placenta).

Front 37

What does the epiblast form?

Back 37

The mature fetus and the ectoderm and mesoderm of the amnion.

Front 38

What is the yolk sac derived from?

Back 38

From the hypoblast spreading out to line the chorion.

Front 39

What is the name of the structure formed from remnants of the yolk sac?

Back 39

Meckel's diverticulum.

Front 40

What is the amnion made up of?

Back 40

Amniotic epithelium from epiblast and extraembryonic mesoderm (likely from the epiblast).

Front 41

What are the four different types of monozygotic twins?

Back 41

Conjoined, monochorionic/monoamniotic, monochroionic/diamnionic, and dichorionic/diamnionic.

Front 42

What are the two types of dizygotic twins?

Back 42

Dichorionic/diamnionic, and can appear to be other types through partial compression/fusion.

Front 43

Are monozygotic twins perfectly identical? Why or why not?

Back 43

No they are not. Post zygotic genetic changes occur, especially methylation of certain genes can shut down their expression in one twin or the other.

Front 44

When does the embryonic period begin and end? What is the rest of the pregnancy called?

Back 44

It starts with fertilization, so about 2 weeks LMP, and goes until 8 weeks. The rest is called the fetal period.

Front 45

What is gestational age compared to embryonic age?

Back 45

Gestational age is the first day of the last menstrual period (LMP), whereas embryonic age is from the point of fertilization.

Front 46

What are germ cell mutations compared to somatic mutations? What cells do they affect?

Back 46

Germ cell mutations are inherited from the egg or sperm so will be found in every cell. Somatic mutations are ones that occur during mitosis post-conception so will only be found in certain affected cells.

Front 47

What is a teratogen?

Back 47

Any agent which causes malformation in a fetus.

Front 48

What is the most sensitive period for teratogenic exposure in the fetus?

Back 48

Around the 5th week of embryonic age.

Front 49

What does the 'all or nothing period' refer to in dysmorphology?

Back 49

Embryonic age of 1 to 3 weeks where the fetus has not begun to differentiate the cells. If something will affect the fetus it will be overall and likely lead to miscarriage. Conversely, damaged cells can be replaced by pluripotent ones.

Front 50

What can breakthrough bleeding in pregnancy be caused by?

Back 50

Implantation, hormonal fluctuation around former menstrual cycles, pathologies of the uterus (fibroids, cysts, or signs of miscarriage).

Front 51

What is the chance of having a baby with Down syndrome if the mother is age 40?

Back 51

1 in 100.

Front 52

Do women younger than 35 or older than 35 have more babies born with Down syndrome?

Back 52

Under 35, since they have more babies in general.

Front 53

What is the development and differentiation of the spermatid head and tail called?

Back 53

Spermiogenesis

Front 54

What is the release of mature spermatozoa into the seminiferous tubule lumen called?

Back 54

Spermiation

Front 55

What hormones are needed to initiate spermiogenesis?

Back 55

LH and FSH

Front 56

What does LH increase 65x in the testes in order to maintain spermiogenesis?

Back 56

Testosterone

Front 57

How long are human gonads sexually indifferent in the embryo?

Back 57

Till 6 weeks

Front 58

At what meiosis phase do the oogonia rest at in the newborn baby girl?

Back 58

Prophase 1

Front 59

What are cortical granules for the in the oocyte?

Back 59

They block polyspermy after fertilization by releasing proteases that harden the zona pellucida.

Front 60

What are the stem cells that result in oocytes and spermatozoa?

Back 60

Primordial germ cells

Front 61

What do the oocyte and granulosa cells form?

Back 61

Graafian follicle

Front 62

What is present to ensure embryonic competence?

Back 62

Accumulation of mRNA’s during oocyte growth and the synthesis of proteins required to drive early embryonic events.

Front 63

Where does the mitochondria in the embryotic cells come from, the sperm or the ovum?

Back 63

Ovum, the sperm's mitochondria degererate.

Front 64

What ovum organelle exports huge amounts of glycoproteins to make the zona pellucida?

Back 64

The golgi

Front 65

Where do the centrioles in the fertilized ovum come from?

Back 65

The sperm, since ovum centrioles disappear.

Front 66

What is the two cell-two gonadotropin theory?

Back 66

The making of estrogen requires cooperation between the granulosa and theca cells. Thecal androgen production is stimulated by LH and yields the substrate for FSH dependent aromatase in granulosa cells.

Front 67

Which is the main trophic hormone for the uterus in the follicular phase?

Back 67

Estradiol

Front 68

What are the two layers of the endometrium? Which sheds and which regenerates?

Back 68

Functionalis sheds and basalis regenerates.

Front 69

Which child developmental stage describes development as biologic maturation, through an orderly sequence, only somewhat affected by experience?

Back 69

Gesell's maturation model

Front 70

What child development stage states that thinking is different in children vs adults, goes through series of shifts, and the key step through adolescence is abstract thinking?

Back 70

Piaget's cognitive model

Front 71

What child development stage consists of dynamic, structural and sequential components influenced by an individual’s need to gratify basic instincts?

Back 71

Freud's psychodynamic model

Front 72

In which child development model is each stage marked by a key conflict and the need to understand and come to terms with each side/extreme?

Back 72

Erikson's psychosocial model

Front 73

What are the key stages and conflicts in Erikson's model of child development? What is the hoped for outcome of each?

Back 73

Infant:Trust vs Mistrust = hope
Toddler: Autonomy vs Shame and Doubt = will
Preschooler: Initiative vs Guilt = purpose
School-­‐Age Child: Industry vs Inferiority = confidence
Adolescent: Identity vs Role Confusion = fidelity
Young Adult: Intimacy vs Isolation = love
Middle-­‐Age Adult: Generativity vs Stagnation = caring
Older Adult: Integrity vs Despair = wisdom

Front 74

What child development model is based on strengthening and weakening of stimulus/response functions?

Back 74

Behavioural model

Front 75

What is sperm activation known as?

Back 75

Capitation

Front 76

What happens to the haploid DNA when the sperm fertilizes the egg? What does this result in?

Back 76

The separate sperm and ovum pronuclei replicate their DNA and then undergo mitosis. This results in 2 diploid daughter cells, each with a single nucleus with 23 pairs of chromosomes each.

Front 77

What is the correct order of development for morula, blastocyst, zygote and blastomere? When do these develop?

Back 77

Zygote upon fertilization.
Blastomere is when it starts to divide.
Morula is around day 3 when it is a ball of cells.
Blastocyst is when inner and outer mass cells begin to differentiate around day 4.

Front 78

What has been shown to increase birth weight, prevent preterm births, and reduce child abuse and neglect?

Back 78

Prenatal care.

Front 79

How much folate should women have who may become pregnant? How about for higher risk women?

Back 79

No risk factors, 0.4 mg / day
Prior pregnancy affected by folate problem, 1 mg / day
History of NTD, 4 mg / day

Front 80

When should ultrasound dating be considered?

Back 80

- Uncertain LMP
- Abnormal / irregular menstrual cycles
- < 3 cycles since last pregnancy
- < 3 cycles since discontinuation of hormonal contraception

Front 81

What is the Gravida/para/abortus (GPA) scale measuring?

Back 81

Gravida indicates the number of times the mother has been pregnant in total, Para indicates the number of viable (>20 wks) births (twins count as 1), and Abortus is the number of pregnancies that were lost for any reason.

Front 82

How are losses of fetuses and infants classified?

Back 82

Abortus if under 20 weeks, Stillborn if over 20 weeks, Early neonatal death if under 7 days of age, and Late neonatal death if under 28 days of age.

Front 83

When are maternal serum testing's scheduled?

Back 83

First trimester, 9 - 14 weeks and second trimester 15 - 21 weeks.

Front 84

When is the Early Pregnancy Review Screening Ultrasound for Fetal Aneuploidy for women at risk?

Back 84

11 to 14 weeks.

Front 85

What risk factors do women have who are offered Antenatal Screening for Fetal Aneuploidy?

Back 85

Advanced maternal age (≥ 35 at EDD), multiple gestation, medical comorbidities (ex: pregestational DM), IVF, recurrent pregnancy loss, prior history of birth anomalies.

Front 86

When is the routine prenatal ultrasound offered?

Back 86

18 - 21 weeks.

Front 87

What is the appropriate weight gain when pregnant for someone with a normal BMI? With an overweight BMI? With an obese BMI?

Back 87

- Normal weight: 11.5-16 kg (25-35 lb)
- Overweight: 7 11.5 kg (15-25 lb)
- Obese: 5-9 kg (11-20 lb)

Front 88

How high should the uterine fundus be at 12 weeks, 20 weeks and each week thereafter?

Back 88

- Pubic symphysis
- Umbilicus
- 1 cm per week higher

Front 89

How often are prenatal visits in low risk pregnancies?

Back 89

- 4 - 28 weeks gestational age is monthly
- 28 - 36 weeks is every 2 weeks
- 36 weeks to term is weekly
- 6 weeks postpartum

Front 90

What are the Bs of the postnatal visit?

Back 90

• Baby • Breasts • Bladder • Bowels • Bleeding • Birth control • Blues

Front 91

What is the genotype and how do you analyze it? What is the phenotype and how do you analyze it?

Back 91

Genotype refers to all of the genes a person has. It is measured via DNA analysis. Phenotype refers to which genes are expressed. It is measured via clinical evaluation.

Front 92

What does Mendel's law of segregation refer to?

Back 92

Every individual possesses a pair of alleles for any particular trait. Each parent passes a randomly selected copy (allele) of only one of these to its offspring.

Front 93

What does Mendel's law of independent assortment refer to?

Back 93

Separate genes for separate traits are passed independently of one another from parents to offspring.

Front 94

What is the Hardy-­‐Weinberg
Law? What do the letters refer to?

Back 94

p2 + 2pq + q2 (assume p + q =1)
AA (unaffected): p2
Aa (heterozygous): 2pq
aa (affected): q2

Front 95

What is the primary mechanism of clinical genetic investigation?

Back 95

Family history.

Front 96

What type of specimen is commonly used for chromosome testing? Can it be frozen?

Back 96

Peripheral blood. Needs to be fresh and cultured for ~ 4 days.

Front 97

What does an acrocentric chromosome mean?

Back 97

It has one short arm so the centromere is not in the centre.

Front 98

What are the 4 main types of errors in chromosomal abnormalities?

Back 98

• Errors in meiosis (gametogenesis)
• Errors in mitosis (mosaicism)
• Errors in fertilization (polyploidy)
• Structural abnormalities and rearrangements

Front 99

What is the concern with a balanced chromosomal abnormality?

Back 99

Passing on the imbalance to offspring that can have phenotypical abnormalities.

Front 100

What is aneuploidy?

Back 100

Any number of chromosomes different than 23 in a haploid.

Front 101

What are two common sex chromosome aneuploidy, one for each gender?

Back 101

Turner syndrome 45X in females and Klinefelter 47 XXYin males.

Front 102

What is the cause of aneuploidy in the gamete? In the somatic cells?

Back 102

Meiotic or mitotic non-disjunction.

Front 103

What is used to visualize the chromosome, and at what resolution is it normally done?

Back 103

G-banding and at 400 bands.

Front 104

What is polyploidy?

Back 104

The loss or gain of complete haploid set.

Front 105

What is an example of a structural chromosomal abnormality? Is it always lethal?

Back 105

A chromosomal breakage with a reunion in a different configuration. It is not necessarily lethal if all clinically relevant genetic material is retained.

Front 106

What is a Robertsonian translocation? What does the total chromosome count end up being?

Back 106

A translocation between two acrocentric chromosomes by fusion at or near the centromere with loss of short arms. 45 instead of 46.

Front 107

Which numbers are the acrocentric chromosomes?

Back 107

13, 14, 15, 21 and 22.

Front 108

What is the chromosomal rearrangement in Down syndrome from a Robertsonian translocation?

Back 108

14, 21

Front 109

What is the percent risk of having a baby with Down syndrome from a Robertsonian translocation that is passed down by the mother? By the father?

Back 109

10 - 13% if the mother is a carrier, and 2 - 3% if the father is a carrier.

Front 110

What is FISH? What does it test?

Back 110

Fluorescence in situ hybridization, used as an adjunct to G-banding. It tests small pathogenic imbalances on individual chromosomes.

Front 111

What is microarray and what does it test?

Back 111

It tests the entire genome to identify genetic anomalies.

Front 112

What is the benefit of the myometrium being smooth muscle?

Back 112

Greater shortening of muscle fibers compared to skeletal muscle. Forces being exerted in multiple directions is ideal for expelling baby. Greater multidirectional force can be generated in fundus to push baby down.

Front 113

What are the 4 Phases of Labour?

Back 113

Quiescence - most of the pregnancy
Activation - Uterus becomes activated in response to uterotropins from fetus and mother
Stimulation (Labour) - Progressive uterine contractions that cause cervical effacement, dilation and delivery
Involution - Uterine involution and cervical repair

Front 114

What are the 4 Ps involved in the baby successfully negotiating the pelvis for delivery?

Back 114

1. Power – uterine contractions
2. Passage – the maternal pelvis
3. Passenger – the fetus
4. Psyche

Front 115

What are some of the variables regarding the fetus that can affect normal delivery?

Back 115

A. Fetal Size
B. Fetal Lie - The relation of the long-­‐axis of the fetus to that of the mother
C. Fetal Presentation - part of the fetal body that is lowest in the birth canal (vertex vs. breech)
D. Fetal Position - Occiput Anterior is the most common and ideal
E. Station - Measure of descent of the bony presenting part of the fetus through the pelvis - ischial spine of mother is reference point
F. Fetal anomalies (e.g. hydrocephalus)

Front 116

What is a locus?

Back 116

The specific physical location of a gene on a chromosome.

Front 117

What is a gene?

Back 117

The hereditary factor that interacts with the
environment to determine a trait.
The specific physical location of a gene on a chromosome.

Front 118

What is an allele?

Back 118

Different forms of the same gene.

Front 119

What is the genotype?

Back 119

The genetic constitution of an individual made up of a specific allelic combination.

Front 120

What is the phenotype?

Back 120

The observable traits determined by a person's genotype interacting with the environment.

Front 121

What is homozygous?

Back 121

The two alleles on homologous chromosomes are identical.

Front 122

What is heterozygous?

Back 122

The two alleles of the same gene on a pair of homologous chromosomes are different. Can be referred to as carriers.

Front 123

What is hemizygous?

Back 123

A male with an abnormal allele located on the X chromosome when there is no other copy of the gene. Not homozygous or heterozygous.

Front 124

What are dominant traits?

Back 124

A trait is dominant if it is phenotypically expressed in heterozygotes (as well as homozygotes).

Front 125

What are recessive traits?

Back 125

A trait phenotypically expressed only in the homozygote. The mutant allele must be present on both chromosomes for expression.

Front 126

Where are autosomal traits found? How about X-linked?

Back 126

Chromosomes 1 - 22. Sex chromosomes, on the X chromosome.

Front 127

What conditions are found through vertical transmission? What is the chance of passing it along? Are their carriers?

Back 127

Autosomal dominant conditions. There is a 50% chance of passing it along. There are no carriers of it, you either have the phenotype or you do not.

Front 128

What type of transmission and where do 'new mutations' arise from? Do they get passed along?

Back 128

Primarily autosomal dominant disorders. Mostly of paternal origin. Associated with advanced paternal age. There is less likely a chance of reproduction to pass it along.

Front 129

Which transmission form has a horizontal pedigree pattern? What is the chance a person will be affected?

Back 129

Autosomal recessive, which means both parents must be a carrier. Each sibling of an affected person has a 25% (1 in 4) chance of being affected.

Front 130

Consanguinity increases the risk of passing along what type of condition?

Back 130

An autosomal recessive condition since related parents are more likely carriers of certain conditions.

Front 131

Who is affected by X-linked recessive conditions? What pattern of transmission does it form? Who is it passed along to?

Back 131

50% of males from their mothers. Diagonal transmission. Affected males have daughters who become carriers, but they do not pass it down to their sons.

Front 132

What is X inactivation?

Back 132

This is the state where one of the X chromosomes is turned off in females, but it is the 'normal' chromosome that is turned off, leaving the mutant allele on. She can manifest X linked diseases then.

Front 133

Who is affected by X linked dominant conditions?

Back 133

All daughters of an affected male and a normal female are affected. All sons of an affected male and a normal female are normal, since father's don't pass along an X to their son. But matings of affected females and normal males produce 1/2 the sons affected and 1/2 the daughters affected.

Front 134

What is mitochondrial inheritance? Who do we inherit it from?

Back 134

Females pass their mitochondria down to off spring, it can be passed down to almost all children, but does not always follow Mendelian law. Many organs can be affected by diseases passed this way.

Front 135

What are unstable repeat expansions? What are some examples?

Back 135

It is an unstable mutation from generation to generation. Expansions within a gene of a DNA segment consisting of repeating units of usually 3 nucleotides in tandem. Huntington's is an example.

Front 136

What is imprinting involved in genetic disease?

Back 136

There are some diseases that vary depending on whether it is passed down from mother or father. An example is the same deletion on an allele in mom will lead to Angelman syndrome and if it is deleted in dad it will lead to Prader-Willi syndrome.

Front 137

What are mutations?

Back 137

Any permanent inheritable change in the sequence of genomic DNA. They can be genomic (additional chromosomes), chromosomal (translocations), or gene mutations (altered base pairs - insertions or deletions).

Front 138

What is the most common point mutation occurring 50% of the time?

Back 138

A missense mutation, where a different amino acid is put into the protein. Many are benign, but it depends on where they are.

Front 139

What is a non-sense mutation?

Back 139

Where a premature stop codon is inserted. This drastically alters the protein.

Front 140

What happens in a mutation if there is an addition or deletion that is not a multiple of three? What if it is a multiple of three?

Back 140

You get a frameshift mutation which leads to premature termination of a protein. If you have a multiple of three, you get an inserted or deleted amino acid - function changes will depend on where it is located.

Front 141

What are polymorphisms compared to mutations? What is a variant of unknown significance?

Back 141

2 or more alternate genotypes in a population at a frequency greater than could be accounted for by recurrent mutation alone, but are benign. Mutations lead to non-functioning or abnormal proteins leading to disease. A VUS is somewhere in between and unclear whether or not it is pathological.

Front 142

What are coding region mutations known for?

Back 142

They lead to structurally abnormal proteins, which results in a loss of function, such as the loss function of tumour supressor genes-­‐ BRCA1/BRCA2

Front 143

What are non-coding region mutations known for?

Back 143

Proteins are normal but the regulating of their expression is not, leading to loss of function or gain of function based on the protein amount. Can lead to ectopic gene expression of oncogenes.

Front 144

What is the process in which the cranial/caudal and left/right axes are defined? When does it occur?

Back 144

Gastrulation which takes place 3 weeks post fertilization.

Front 145

What is locus heterogeneity?

Back 145

It means that a disease can arise from a number of different loci.

Front 146

In embryology, when is 'position' defined?

Back 146

At the time that a structure first develops. Secondary changes and folding can change the relative position of structures.

Front 147

What is rostral?

Back 147

Towards the top of the vertical axis. Usually defined based upon neural anatomy.

Front 148

What is caudal?

Back 148

It is defined by neural axis. The most caudal structure is the coccyx. Note: the lower limb represents a secondary outgrowth and is therefore “less” caudal.

Front 149

How do you define limb position?

Back 149

Generally use 1st digit as a landmark, i.e. preaxial addition vs. postaxial addition.

Front 150

What do signals from the notochord cause? What is formed at the edges of the fold?

Back 150

Neurolation, which causes the overlying ectoderm to thicken into the neural plate. The edges of the fold thicken and become the neurocrest.

Front 151

How and when does the neural tube close? What happens if it doesn't?

Back 151

Points along it close and then zipper towards each other. The cranial end closes on day 25, caudal end closed on day 27. NTD form if it does not close.

Front 152

What does the mesoderm become?

Back 152

Bone, Muscle, Kidneys, Heart, Blood, Gonads, Serous membranes.

Front 153

After gastrulation the mesoderm is divided into which 5 fields?

Back 153

1. Notochord
2. Paraxial- forms somites
3. Intermediate-(thorax only) forms kidneys, gonads
(Exception: Germ Cells (Yolk Sac)
4. Lateral Plate-(thorax only) forms: the body wall, appendicular skeleton, the wall of the gut and the circulatory system
5. Cardiogenic field

Front 154

What is the first sign of segmentation in the embryo? What does it play a role in segmenting? Which direction does it go?

Back 154

Somite formation. It helps form segments of the PNS in a cranial to caudal direction.

Front 155

What 3 'tomes' do somites form? What are each related to?

Back 155

Dermatomes - axial dermis
Myotomes - axial, limb & tongue musculature
Sclerotome - vertebrae & ribs

Front 156

What does intermediate mesoderm form?

Back 156

Urinary system, and genital system, including genital ridges which contribute to the gonadal support cells.

Front 157

What does the lateral plate mesoderm form?

Back 157

The body wall, appendicular skeleton, the wall of the gut and the circulatory system.

Front 158

How many primary oocytes are present at birth? What stage are they at? What happens to the stage during ovulation? During fertilization?

Back 158

1 - 2 million primary oocytes halted in prophase I. During ovulation they complete prophase I and release a polar body as they shed a homologous chromosome, and halt in metaphase II known as a secondary oocyte. When fertilized they shed the sister chromatid.

Front 159

What is the cortical reaction?

Back 159

When the sperm makes it through the zona pelucida the cortical granules release enzymes that harden zona, preventing polyspermy (other sperm from entering).

Front 160

What is the best non-permanent form of contraception?

Back 160

Mirena IUD, an IUD that secretes low does progesterone.

Front 161

How does Trisomy 21 occur? Name two ways.

Back 161

Meiotic dysjuction or translocation.

Front 162

What is considered the in-utero age of viability?

Back 162

24 weeks gestational age.

Front 163

What does the SRY gene do? Which chromosome is it located on?

Back 163

The SRY gene sends instructions to cells in the gonads, telling them to make a protein called testis-determining factor (TDF). The SRY gene is from the Y chromosome.

Front 164

When does the pronephros appear? When does it disappear? Is it functional?

Back 164

Third week, fifth week. Nope.

Front 165

What does the intermediate mesoderm give rise to?

Back 165

The urinary and genital systems.

Front 166

What do the ureteric buds form? Around when?

Back 166

They form the metanephros, or permanent kidney, around the 5th week.

Front 167

What causes horseshoe kidney and what are the complications of it?

Back 167

When the metanephros tries to ascend and gets blocked by the superior mesenteric artery.
Some complications are stones, UTIs and susceptibility to trauma.

Front 168

What does the paramesonephric duct go on to form? What must not be present for that to happen?

Back 168

It forms the fallopian tubes, uterus and upper third of the vagina. AMH must not be present, for if it is secreted by Sertoli cells then the duct will degenerate.

Front 169

What is the mesonephric duct also known as? What does it become? What structures along the same path does it not form?

Back 169

Wolffian duct. It becomes the epididymis, vas deferens and seminal vesicles. It does not form the prostate nor the bulbourethral glands, these form from the urinary bladder.

Front 170

What male organ is homologous to the clitoris, labia minora and labia majora?

Back 170

The penis, urogenital folds that fuse to enclose the penile urethra, and the scrotum.

Front 171

What does the gubernaculum do in males? What is it attached to and what passage does it help create?

Back 171

It guides the testes down into the scrotum. It is attached to the testes and the floor of the abdominopelvic cavity, and passes through what becomes the inguinal canal.

Front 172

What does the gubernaculum do in females? What does it become afterwards?

Back 172

It helps pull the ovaries inferiorly. Afterwards it becomes the ovarian ligament (which attaches the ovary to the uterus), and the round ligament (which attaches the lateral superior corner of the uterus through the inguinal ligament to the labia majora.)

Front 173

What is cryptorchidism? What is the risk if it persists?

Back 173

Undescended testes, risk of testicular cancer.

Front 174

What is the tunica vaginalis and how does it get formed in the male? What happens if it does not fully fuse at the top?

Back 174

It is the space left after the scrotum has been invaginated by the vaginal process. This happens by the body wall elongating and forming the scrotum, eventually fusing at the top. This is the site of inguinal hernia formation if not fully fused.

Front 175

What are the cost implications of expanding screening program test panels?

Back 175

• direct costs include not only health care (hospital/ out-patient/pharmacy/diet) but also education, social services, transportation for the affected
• indirect costs may include health care costs for parents, and cost due to time off work, travel time, etc
• non‐tangible costs include the stress, anxiety, change in family dynamics, loss of an “expected outcome”

Front 176

What are the legal requirements for newborn screening?

Back 176

Provinces are mandated to have to provide NBS, but to partake of them is not mandatory.

Front 177

What are the principles that underlie the decision about which diseases should be screened for?

Back 177

(1) The condition sought should be an important health problem. (2) There should be an accepted treatment for patients with recognized disease. (3) Facilities for diagnosis and treatment should be available. (4) There should be a recognizable latent or early symptomatic stage. (5) There should be a suitable test or examination. (6) The test should be acceptable to the population. (7) The natural history of the condition, including development from latent to declared disease, should be adequately understood. (8) There should be an agreed policy on whom to treat as patients. (9) The cost of case-finding (including diagnosis and treatment of patients diagnosed) should be economically balanced in relation to possible expenditure on medical care as a whole. (10) Case-finding should be a continuing process and not a "one and for all" project.

Front 178

What structures are the first anatomical evidence of segmentation? What do they play a role in segmenting?

Back 178

Somites, the PNS.

Front 179

What do signals from the notocord cause the ectoderm to do?

Back 179

It thickens into the neural plate, the edges form the neural fold, the dorsal edges pinch off to form the neural crest.

Front 180

What forms the bone, muscle, kidneys, heart, blood, gonads, and serous membranes?

Back 180

The mesoderm.

Front 181

What do segmented somites induce further segmentation into?

Back 181

The dorsal root ganglia of the afferent/efferent PNS, and the sympathetic chain.

Front 182

What does lateral plate mesoderm split into? When they laterally fold do they remain split?

Back 182

Parietal mesoderm that continues into the amnion, and visceral mesoderm that continues into the yolk sac. Yes, they form a tube within a tube.

Front 183

What does the trachea start out as?

Back 183

A diverticulum off the foregut.

Front 184

What hidden tracheal problem can lead to recurrent pneumonia?

Back 184

Tracheal esophageal fistula, which can lead to polyhydraminos and be part of VACTERL syndrome.

Front 185

What does the liver grow out of? Where does it grow into? What does each part form?

Back 185

Grows out of a pocket of endoderm and grow into the mesodermic septum transversum. The endoderm forms the hepatoblats and ducts, the mesoderm forms the stroma.

Front 186

Is the gut always a hollow tube? What problems can occur if not?

Back 186

It starts hollow, then parts become solid in the 2nd month. They later recanalize unevenly forming villi. Sometimes parts don't recanalize leading to atresia, especially in the duodenum.

Front 187

Which organ makes amniotic fluid in the 2nd half of the pregnancy? What if that organ fails or is blocked?

Back 187

The kidneys. Failure can lead to oligohydraminos which causes malformation due to compression, as well as pulmonary hypoplasia.

Front 188

What does the mesonephric duct go on to form in the male?

Back 188

Vas deferens

Front 189

What forms cranially to the buccopharyngeal membrane? What is cranial to that structure? How do they end up reversed in the completed body?

Back 189

The heart tube is cranial to the BPM, and the septum transversum is further cranial. The cranial folding rolls them down into place.

Front 190

What two structures does caudal folding bring in beside the yolk sac? What do these three things become incorporated into?

Back 190

The allantois and vitelline duct. Along with the stretching, thinning yolk sac they become part of the umbilical cord.

Front 191

Define genetic penetrance. What does incomplete penetrance account for?

Back 191

The frequency with which a phenotype is actually expressed when the person has the genotype. Incomplete penetrance can cause skipped generations.

Front 192

What is genetic 'expressivity'?

Back 192

It is the degree of phenotypic variation from a specific genotype.

Front 193

What is pleiotropy?

Back 193

It is the genetic effect of a single gene on multiple phenotypic traits, such as Marfan syndrome - one gene, many different manifestations of disease.

Front 194

What does allelic heterogeneity mean?

Back 194

The same phenotype may be produced by different genotypes and/or at different loci, i.e. CF is caused by many different mutations on the same gene, or adult PCKD from more than one loci.

Front 195

What variables affect phenotype?

Back 195

Gender, age of onset, non-paternity, mosaicism, imprinting, environment.

Front 196

What does a mutation in the PAH gene lead to? What does this cause and why is it a problem?

Back 196

It leads to an increase in serum phenylalanine (over 1000 umol) and causes PKU. When elevated Phe gets through the blood brain barrier it is toxic to neurons and leads to significant mental impairment.

Front 197

What gene is responsible for a lack of proper chloride channel functioning?

Back 197

The CFTR, or Cystic fibrosis transmembrane conductance regulator gene.

Front 198

What form of CF only affects men?

Back 198

Congenital bilateral absence of the vas deferens.

Front 199

What does genetic 'anticipation' mean? What is an example?

Back 199

The progressive earlier onset and increase in severity of certain diseases in successive generations. An example is an expansion of unstable repeats found in Huntington's disease.

Front 200

How is Huntington's disease passed down? What is happening on the DNA level?

Back 200

It is autosomal dominant. It is caused by trinucleotide expansion at the 5' end of the huntington gene.

Front 201

What is mosaicism? What are the two types and can they be passed on?

Back 201

It is the presence in a whole person (Germline) or a tissue (Somatic) of two genetically different cells from the same zygotic origin. Germline can be passed on, but somatic arise spontaneously after birth and is not passed along.

Front 202

What is a sensitive test good at screening for? How about a specific test?

Back 202

Sensitive tests are to correctly identify people who have the disease. Specific tests identify people who do not have the disease.

Front 203

What is the difference between screening and diagnostic tests in terms of who is targeted and what they find?

Back 203

Screening targets seemingly well people to try and detect disease before it has manifested. Diagnostic tests are used to confirm diagnosis in those who are affected.

Front 204

What are three broad categories of genetic tests and what are examples of each?

Back 204

Cytogenic - karyotyping, FISH, comparative genomic hybridization (CGH)
Molecular - southern blot, PCR analysis, gene or genome sequencing
Biochemical - metabolite levels, enzyme activity assays

Front 205

When are CVS tests done? How about amniocentesis? What are they looking for?

Back 205

CVS - 10 - 12 weeks, amniocentesis 15 - 18 weeks. They look for genetic anomolies, and amniotic fluid can be also tested for AFP.

Front 206

What is a haplotype?

Back 206

A small segment of chromosome containing multiple loci. It is usually passed on to offspring in its entirety.

Front 207

Are genetic heterogeneity and complex inheritance the same thing?

Back 207

No, GH is a Mendelian concept of multiple genes involved in disease, whereas CI means many other things are involved as well.

Front 208

What is polygenic inheritance? What does it result in?

Back 208

A trait manifested by 2 or more genes, often numerous genes, often with multiple alleles for each gene. It creates a blended phenotype in the offspring.

Front 209

How do monogenic and polygenic traits differ?

Back 209

Monogenic traits are either or, discreet and based on a limited allele that leads to a limited phenotypic expression. Polygenic are continuous, with multiple alleles that add up and create a number of different versions of traits.

Front 210

What two things is multifactorial inheritance based on?

Back 210

Polygenic inheritance plus environmental factors.

Front 211

What does a model for threshold multifactorial inheritance look like?

Back 211

A combination of just enough locus traits plus environmental factors to bring on disease.

Front 212

Does a cluster of disease in a family prove it is genetic?

Back 212

No, because environmental factors can be shared commonly in families, as can infectious factors.

Front 213

What genes to parents and children have in common? How about siblings?

Back 213

Children and parents have 50% of their genes and 1 allele at each locus in common. Siblings have 50% of their genes, but 0 thru 2 alleles in common at each locus.

Front 214

What does genetic liability refer to?

Back 214

When a multifactorial condition occurs to someone who does not have any obvious risk factors - the cause of the condition must have been primarily genetic, i.e. heart attack in healthy young woman.

Front 215

What are the main factors to consider when gauging a sibling's chance of disease?

Back 215

If other low risk siblings have the disease, it points to a high genetic predisposition in that family. Gender predisposition is considered next. Shared environmental issues are also then considered.

Front 216

What is a GWAS study? What does it form the basis of? Are they effective for creating change?

Back 216

A genome-wide association study is a case control study looking at genetic risk for a particular condition. It compares relative haplotypes at multiple specific loci between two groups. It is the basis of a personal genomic. They are not proven to modify behaviour.

Front 217

What affect can genetics have on pharmacokinetics?

Back 217

Varying levels of CP450 or other enzymes can determine how quickly or slowly someone will metabolize the drugs.

Front 218

In multifactorial inheritance do affected children more or less likely have parents also affected by the disease or trait?

Back 218

Parents are likely not affected.

Front 219

What factors affect risk of a proband's condition showing up in a relative, in multifactorial inheritance?

Back 219

Closer degree of relation, consanguinity, number of affected relatives, and severity of condition in the proband.

Front 220

Does emergency contraception terminate a pregnancy?

Back 220

No, it prevents it from occurring (an important point for anti-abortion patients).

Front 221

What is the most effective emergency contraception form?

Back 221

A copper IUCD inserted within 5 days of intercourse, for 99.9% effectiveness.

Front 222

How many abortions take place per year around the world? How many are safe and unsafe?

Back 222

42 million per year, 22 million safely, 20 million unsafely.

Front 223

When are medical abortions typically performed? What forms are there, and who are they best suited to?

Back 223

Under 8 weeks. Methotrexate plus Misoprostol is typically used together. They are used for people who are able to adhere to treatment and commit to follow up.

Front 224

What is the gold standard form of pregnancy termination? When is it performed?

Back 224

Suction dilatation and curettage performed under 13 weeks.

Front 225

When are dilatation and evacuation procedures performed? Are any pre-procedure techniques required?

Back 225

13 - 22 weeks. Generally over 18 weeks is rarely done and only by very experienced physicians in a few centres. The pre-procedure is to soften the cervix for dilatation with misprostol or osmotic dilators-laminaria tents.

Front 226

When is labour induction used for pregnancy termination? How is it achieved?

Back 226

Second trimester, 14 - 28 weeks using uterotonic agents such as misoprostol, to stimulate contractions and delivery in hospital.

Front 227

What are the complications of pregnancy termination and what are not (but commonly worried about)?

Back 227

True complications, Rh isoimmunization (RhiG given for Rh - women), bleeding (1%), cervical shock (rare), cervical injury (usually superficial and benign), uterine perforation (.2%), hematometra (.1 - 1%). False risks, infertility, ectopic pregnancy, preterm births, breast cancer, placenta previa (unless many procedures and cervical trauma).

Front 228

How much does the uterus grow in pregnancy? What is the blood flow to the uterus at term?

Back 228

It grows from 70 grams to 1100 grams! At term blood flow is 500 ml per minute.

Front 229

What is pyogenic granuloma? Is it commonly removed?

Back 229

A benign 'juicy' red nodular lesion on the face or gums during pregnancy. It is not removed as it is highly vascular and typically resolves itself after pregnancy.

Front 230

What happens to CHO metabolism during pregnancy? What hormones are involved? What can this lead to?

Back 230

In the first trimester there is an increase in insulin sensitivity in the mother so she absorbs more carbs, but in the second trimester there is more insulin resistance which makes the fetus absorb more of the carbs. Human placental lactogen (HPL), estradiol, progesterone, and cortisol. This can lead to gestational diabetes especially in the second trimester.

Front 231

What pituitary hormones increase in pregnancy? Which part are they from? What happens to the size of the gland?

Back 231

There is an increase in prolactin to mature the breasts and for lactation, in growth hormone, in ACTH, and in oxytocin during labour. Oxytocin is from the posterior pituitary, the others from the anterior. The pituitary gets bigger in pregnancy.

Front 232

What happens to the thyroid in pregnancy? Which hormones increase and which do not?

Back 232

It increases in size and increases its metabolic rate by 25%. TBG, T3 and T4 increase. Free T3, free T4, TSH and TRH do not increase.

Front 233

What happens to the parathyroid gland in pregnancy? Why?

Back 233

There is a state of 'physiologic hyperparathyroidism' in order to facilitate greater absorption of Ca2+ from the gut, reabsorb from the kidneys and resorb from mom's bones. Mom's serum calcium is reduced during this time as it is being shunted to the fetus.

Front 234

What happens to the liver and enzyme levels during pregnancy?

Back 234

There is less blood flow to it and less albumin made. There is an increase in cholesterol levels and alk phos levels. ALT and AST levels stay the same.

Front 235

What happens to the maternal GI tract during pregnancy?

Back 235

Increase in appetite due to elevated HCG, increase cravings, hyperemesis (70%), decreased tone/emptying (so reflux, constipation), and venous stasis leading to hemorroids.

Front 236

How long does the corpus luteum make progesterone till the placenta kicks in?

Back 236

10 - 12 weeks.

Front 237

What happens in the maternal respiratory tract during pregnancy?

Back 237

Increase in blood flow and estrogen leads to congestion and epistaxis, diaphragm is elevated 4 cm, increase in thoracic diameter, lung tidal volume increases by 30 - 40%, relative hyperventilation leading to alkalosis (maybe to pull off CO2 from the fetus and be high in O2 in mom's bloodstream).

Front 238

What are the hematological changes in pregnancy?

Back 238

Blood volume increases 40 - 45% beginning at 4 weeks. This offers protection from blood loss in birth. There is a greater increase in plasma volume than RBCs, leading to physiological anemia (may be protective from DVT due to venous stasis, and to facilitate placetal perfusion).

Front 239

When is the greatest risk for a DVT in pregnancy? Can you do a D-dimer test?

Back 239

Post-partum, no since it will be elevated anyway.

Front 240

How do you calculate Cardiac Output? What happens to it during pregnancy?

Back 240

Stroke volume per minute times heart rate per minute. CO increases by 30 - 50% during pregnancy, mostly increasing to uterus (10 times more) and kidneys (50% more).

Front 241

How much of the CO goes to the uterus during labour?

Back 241

50%

Front 242

What happens to BP during pregnancy? During labour?

Back 242

It decreases (the diastolic more than systolic) in pregnancy, and increases by around 30 mmHg during labour.

Front 243

How many vessels does the umbilical cord have? What are they are which direction does oxygenated blood flow?

Back 243

There are 2 arteries that carry deoxygenated blood away from the fetus and 1 vein that brings oxygenated blood back to the fetus.

Front 244

Which way does Hemoglobin F shift the O2 disassociation curve? Why?

Back 244

It shifts it left showing Hf's high affinity for O2, since the fetus is living in a less saturated oxygen environment.

Front 245

How do the following products cross (or do not cross) the placenta? Glucose, ketones, insulin, thyroid horomones, PTH?

Back 245

Glucose - facilitated diffusion
Ketones - diffusion (toxic to baby)
Insulin - does not cross
Thyroid horomones - do not cross
PTH - active transport of Ca2+, Mg, Phos, but not PTH itself

Front 246

What is the pathway of fetal circulation?

Back 246

From the umbilical vein half of the blood enters ductus venosus to the inferior vena cava. The other half enters the liver then moves to the right atrium, through the foramen ovale into the left atrium and into the aorta. Some enters the right ventricle and is pumped into the pulmonary into the ductus arteriosus, which directs most of this blood away from the lungs.

Front 247

Which part of the gut has a ventral mesentery?

Back 247

The foregut only.

Front 248

What organ is made from both endoderm and mesoderm?

Back 248

The liver.

Front 249

When is the embryological gut herniated? Why? What rotations does it undergo?

Back 249

6 - 10 weeks, in order to go through rapid growth. It undergoes 2 different rotations, first 90 degrees CCW then another 180 degrees CCW.

Front 250

What does bilious green vomiting indicate? Is it an emergency?

Back 250

Malrotation which can lead to ischemia and bowel death, or atresia which can be a congenital obstruction. Both are medical emergencies (especially ischemia).

Front 251

What two remnant structures can cause issues at the umbilibus?

Back 251

Vitelline duct and urachus can both have fistulas and leaking, one from the small intestine, the other from the bladder.

Front 252

What buds off the inferior mesonephric duct? What can this duct become in the male?

Back 252

The ureteric bud becomes the ureters - they induce formation of the kidneys. This duct becomes the vas deferens, epididymis and seminal vesicles in the presence of testes.

Front 253

What do mesothelium, mesenchyme and primordial germ cells form? Where?

Back 253

The indifferent gonads. Medial to the mesonephros forming the gonadal ridges.

Front 254

Where do primordial germ cells originate, migrate to, and when?

Back 254

They begin in endodermal cells of yolk sac near the allantois. They migrate along the dorsal mesentery to the gonadal ridges where they meet the primary sex cords. From 4 - 6 weeks.

Front 255

In males, what do the primary sex cords evolve into, then into which type of cells? What structures do they end up forming?

Back 255

Primary sex cords grow into the medulla and become medullary cords. Cells then differentiate into Sertoli cells (secrete AMH & make sperm). The sex cords become the seminiferous tubules and the rete testes.

Front 256

In females, what happens to the primary sex cords, what other sex cords develop? What structures do they end up forming?

Back 256

Primary sex cords involute without TDF. Secondary sex cords arise from the epithelium and incorporate primordial germ cells. The cord breaks up and forms 2 million primordial follicles.

Front 257

What do the paramesonephric ducts become in the absence of testes?

Back 257

The proximal ends becomes fallopian tubes, the mid-portions merge together to form the uterus, cervix and superior third of vagina.

Front 258

What does the lower 2/3 portion of the vagina form from? What happens if it doesn't fully fuse with the paramesonephric structures?

Back 258

The sinovaginal bulb in the urogenital sinus develops and grows cranially and caudally. The caudal end finishes with the hymen and the cranial end merges with the top 1/3 from the paramesonephric duct. If incomplete then various septa up to a double uterus form.

Front 259

What can congenital adrenal hyperplasia cause? What is it caused by?

Back 259

It can lead to a drastic increase in testosterone in 46XX which leads to masculinization of the female genitals. It is caused by an enzyme deficiency in the production of cortisol, so ACTH levels become very high.

Front 260

How do de novo mutations act in comparison to ancient mutations?

Back 260

They have a large effect, i.e. Huntingtons, compared to a small effect such as predisposition to diabetes.

Front 261

What are forms of indirect and direct genetic testing?

Back 261

Indirect is looking at a pedigree chart for what is normal around the proband. Direct is looking right at the genome for a mutation.

Front 262

What is the athlete triad?

Back 262

Low fat/low food intake plus increased exercise equals amenorrhea/decreased bone density.

Front 263

How many oocytes are there by puberty? What stage do some of them complete and where do they rest at?

Back 263

400,000 oocytes. Some complete Meiosis 1 and release a polar body of excess chromosomal material. They begin Meiosis 2 and halt at metaphase 2 until fertilization.

Front 264

How is the corpus luteum maintained in pregnancy until the placenta forms? Why?

Back 264

The fetus secretes HCG to maintain the corpus luteum's progesterone secretion and subsequent maintenance of the endometrium.

Front 265

What percent of the time is the male or female the cause of infertility.

Back 265

40% each, 20% both.

Front 266

What are the main signs in the sperm of male fertility?

Back 266

Sperm count >15 million
Progressive motility > 32%
Morphology > 4% normal

Front 267

What is considered a viable age of gestation?

Back 267

At 24 weeks more than 50% of fetuses will survive if born.

Front 268

What might hypotonia, brachyencephaly, brushfield spots, epicanthal folds, a protruding tongue, and a simian crease indicate in a newborn? Are these diagnostic?

Back 268

Down syndrome, but they are not diagnostic since there are many physical signs that can be found in other conditions, or can be normal.

Front 269

Is Down syndrome inherited? Why or why not?

Back 269

It is only if from a Robertsonian translocation of 14:21. Otherwise it arises randomly from meiotic nondysjunction.

Front 270

What is talipes and how are they inherited?

Back 270

Clubfoot. It has a multifactorial inheritance pattern, so 3 - 5% recurrence rate.

Front 271

What is ABS? What can it cause? Is it genetic?

Back 271

Amniotic band syndrome. It is pieces of sticky ruptured amnion floating around the fetus. It can wrap around limbs or the blood supply causing disruption leading to birth defects. It is a random occurrence that affects 1 in 1200.

Front 272

Does Paroxetine cause miscarriage?

Back 272

Antidepressants double the average risk of miscarriage from 2.7% to 5%.

Front 273

What is the difference between deformation, disruption and malformation? When do they occur?

Back 273

Deformation are birth defects that occur in the 2nd - 3rd trimester from mechanical forces on normal structures, such as oligohydramnios causing talipes. Disruption is when normal structures are interrupted in growth by teratogenic effects or trauma, such as infection or ABS occurring in the 2nd - 3rd trimester. Malformation is a disorder of tissue development from a chromosomal abnormality or chemical exposure. It occurs in the 1st trimester.

Front 274

What does assisted reproductive technology (ART) include? What does it not include?

Back 274

Treatments or procedures that include the in vitro handling of both oocytes and sperm or of embryos for the purpose of establishing a pregnancy.
ART does not include assisted insemination using sperm from a woman’s partner or a sperm donor.

Front 275

What percent of sexually active couples are infertile?

Back 275

15%

Front 276

What is the probability that intercourse at ovulation will result in pregnancy during one cycle?

Back 276

20-­‐25% in couples less than age 35.

Front 277

What age is the peak for number of oocytes?

Back 277

20 weeks gestation.

Front 278

What pregnancy problems begin to double beyond age 35?

Back 278

Spontaneous abortion, stillbirth and ectopic pregnancy.

Front 279

In infertile couples with no known cause, what percent will become pregnant without IVF?

Back 279

3%

Front 280

What is the main concern with controlled ovarian stimulation and intra-uterine insemination? How does IVF get around that?

Back 280

Superovulation leading to multiple fetuses in the uterus. IVF takes the multiple eggs out and only puts one or two embryos back (can freeze any others).

Front 281

How does IVF live birth rate compare to the normal birth rate of fertile couples under 35 yoa?

Back 281

IVF is 30%, general population is 25%

Front 282

How many ova are ideal for IFV and how many are indicative of ovarian hypersensitivity syndrome.

Back 282

2 - 15 is ideal, getting up to 30 is leading to OHSS.

Front 283

How is IVF begun with medications?

Back 283

A GnRH agonist is used to downregulate the body's GnRH to allow clinicians to control ovulation. FSH and LH is given to strongly stimulate ovulation and mature more than one follicle. When 3 are greater than 18 mm in diameter, an HCG injection is given to initiate ovulation. 36 hours later the eggs are retrieved.

Front 284

When is ICSI used in IVF?

Back 284

Intra-cytoplasmic sperm injection occurs when infertility is a male problem or when frozen.

Front 285

What occurs on day 3 or day 5 in IVF? Which has a higher success rate?

Back 285

An 8 cell embryo, or a blastocyst of 150 - 200 cells are put into the uterus. Day 5 is more successful since the blastocyst is ready to implant.

Front 286

What type of genes are BRCA1 and 2? Are they dominant or recessive?

Back 286

Dominant tumor suppressing genes.

Front 287

How many more times likely is a woman to get breast cancer if she has the BRCA1 or 2 mutation?

Back 287

5 - 6 times. Her lifetime risk is 60% as opposed to the general population of 12%.

Front 288

When does the mammary ridge develop in utero? What is another name for it and what does it form?

Back 288

6 weeks. Also known as the milk line that goes on to form the mammary gland.

Front 289

What ovarian hormones affect breast tissue and in which parts of the menstrual cycle?

Back 289

Estrogen stimulates growth of milk ducts in the first half of the cycle. After ovulation, progesterone stimulates the acini glands.

Front 290

What is mammary heterotopia?

Back 290

Ectopic breast tissue, including supernumerary nipples/polythelia, and polymastia found along the milk line.

Front 291

What are some causes of gynecomastia?

Back 291

Puberty, testicular tumors, adrenal abnormalities, hepatic disease, estrogen therapy, antidepressants, steroids and marijuana.

Front 292

What is acute mastitis and when might it occur?

Back 292

Cellulitis of interlobular connective tissue of the breast. It occurs with cracked or fissured nipples from breast feeding when there is milk stasis and infiltration of staph or strep bacteria.

Front 293

What are 4 different inflammatory conditions of the breast?

Back 293

Acute mastits - lactation
Recurring subareola abscess - recurrent, needs drainage, smokers
Mammary duct ectasia - granular secretions that may calcify, over 50, smokers
Granulomatous mastitis - secondary to TB, silicone, but usually idiopathic

Front 294

What are 3 general types of fibrocystic changes that can occur in the breast? Which has the greatest risk?

Back 294

Non-proliferative, proliferative without atypia, and proliferative with atypia (the greatest risk).

Front 295

Which type of atypical breast hyperplasia is a general warning sign in a broad area, and which is a precursor to cancer in a specific site, ductal or lobular?

Back 295

Ductal is a specific site and progresses to ductal carcinoma in situ and into cancer if over 3 cm. Lobular can occur in any area, duct or lobe and is a general warning sign.

Front 296

What are the two types of breast stromal lesions? Are they cancerous?

Back 296

Diabetic fibrous mastopathy - mimics cancer but is not cancer, uncommon and likely to recur.
Pseudoangiomatous stromal hyperplasia (PASH) - appears to be cancer coming from a blood vessel but is not. Generally benign but are removed once palpable.

Front 297

What percent of lumps in premenopausal female breast tissue are benign? What about postmenopausal?

Back 297

In premenopausal women 90% are benign, but in post-menopausal women consider lumps cancer till proven otherwise.

Front 298

What percent of breast cancer is ductal in origin?

Back 298

70%

Front 299

Do the more common Phyllodes tumors metastesize? How are they surgically treated? Why?

Back 299

They do not metatasize. They are excised with a 1 cm margin since they are prone to growing back. Rare malignant ones spread by blood only, not lymphatics, so act more like sarcomas than other breast cancers.

Front 300

What are the three main types of malignant neoplams of the breast? What percent of each?

Back 300

Ductal, 70%, lobular, 15%, and connective tissue, 15%.

Front 301

What are the more worrisome types of nipple discharge?

Back 301

Spontaneous, copious clear, small and bloody, unilateral, or single duct.

Front 302

What types of nipple discharge are considered physiological as opposed to pathological?

Back 302

Non-spontaneous (have to be squeezed out), bilateral, multiple ducts, not bloody.

Front 303

What different factors affect how much a teratogen exerts an effect?

Back 303

Genotype of conceptus
Developmental stage during exposure
Teratogens act in specific ways on developing tissues
Effect grows from none to lethal depending on dosage increase

Front 304

What five criteria are needed to deem a substance teratogenic?

Back 304

Proven exposure at a critical development stage.
Two or more high quality epidemiological studies.
Careful delineation of specific defect of syndrome.
Rare exposure linked to rare defect.
Association of exposure to defect should make biological sense.

Front 305

What are 5 challenges in assessing if a substance is teratogenic?

Back 305

Evidence comes from clinical case reports.
Epidemiological studies are the only way to gain estimates of exposure to pregnant women.
Difficult to tell the difference between drug and underlying illness causing effect.
Hard to tell natural prevalence of defect vs. exposure to substance.
Cannot do controlled studies.

Front 306

What 6 factors affect placental transfer of possibly teratogenic substances?

Back 306

Concentration in maternal and fetal blood.
Rate of maternal blood through intervillous space.
Surface area of villous trophoblast.
Specific receptors on the trophoblast.
Size of area of exchange across fetal capillaries in placenta.
Presence of binding or carrier proteins in maternal of fetal blood.

Front 307

Does the fetal blood or maternal blood have a higher affinity for CO2? How about O2?

Back 307

Maternal has higher CO2 affinity, whereas fetal has higher O2 affinity.

Front 308

How do the following substances cross the placental membrane?
Glucose & lactate
Proteins and other large molecules
Iron and trace minerals

Back 308

Facilitated diffusion.
Endocytosis.
Active transfer/carrier mediated.

Front 309

What was thalidomide used for in pregnancy? What effects were seen if given day 21 - 27, 27 - 30 and 30 - 33? What was the rate of effect seen?

Back 309

It was an anti-anxiety and sedative given for symptoms associated with morning sickness.
21 - 27 days lead to ear defects (anotia)
27 - 30 days was upper limb phocomelia
30 - 33 days was lower limb phocomelia
It's teratogenicity rate is 20 - 30%.

Front 310

What effect can high levels of Vitamin A and its derivatives have in utero?

Back 310

Spontaneous abortion, microtia and micropthalmia, CNS defects, thymic agenesis, CV abnormalities, mental deficits, cleft lip & palate.

Front 311

What Vitamin A derivative drug has a risk of 25 - 35% major in utero malformations?

Back 311

Accutane - must have a negative pregnancy test and two forms of contraception used before starting treatment

Front 312

What is the prevalence of Fetal Alcohol Syndrome in offspring of heavy drinkers?

Back 312

10 - 50%, but the overall prevalence is unknown.

Front 313

What are 4 classifications of birth defects from alcohol consumption?

Back 313

FASD - Fetal Alcohol Spectrum Disorders, a wide range of anomolies
FAS - Fetal Alcohol Syndrome, atypical facial appearance, heart defects, microcephaly, brain & behavioural anomalies, growth restriction
ARBD - Alcohol-Related Birth Defects, no facial abnormalities nor growth retardation, but brain and other impairments
ARND - Alcohol-Related Neurodevelopmental Disorder, functional or mental impairments linked to prenatal alcohol exposure

Front 314

What does Rubella exposure cause in the fetus? What is the risk of defects if exposed in first 11 weeks, 11 - 12 weeks, 13 - 14 weeks, 15 - 16 weeks, and beyond that?

Back 314

Microcephaly, mental deficits, cataracts, deafness, congenital heart disease?
under 11 weeks, 90%
11 - 12 weeks, 33%
12 - 14 weeks, 24%
15 - 16 weeks, 11%
beyond that 0%.

Front 315

What are the 5 levels of FDA classification of teratogenicity of medications? What is an example of each?

Back 315

Category A - no demonstrated risk (prenatal vitamins
Category B - animal studies indicate no risk, but no human studies to prove otherwise OR adverse effects in animal studies but not in well-controlled studies (acetominophen)
Category C - no adequate animal or human studies OR adverse events in animals but no data on humans (Zidovudine/AZT)
Category D - evidence of fetal risk but benefits outweigh risks (Phenytoin anticonvulsant)
Category X - proven fetal risks that outweighs benefits of drug (Isotretinoin for cystic acne).

Front 316

What are 6 principles for prescribing drugs in pregnancy?

Back 316

Preconceptual counselling is ideal.
Determine if drug is necessary.
Weigh maternal health and medication requirements with fetal health.
Choose safest drug possible.
Use reliable resources for drug info.
Arrange consultation when needed.

Front 317

How many miscarriages must one have before they are considered recurrent? How common are miscarriages in pregnancies?

Back 317

When one has 3 consecutive miscarriages they are considered recurrent. 1 in 10 pregnancies ends in miscarriage.

Front 318

What are some of the risks to monochorionic/diamniotic twins?

Back 318

With a shared placenta there are aberrant vascular connections which can predispose to thrombi. This can cause disruptions and congenital abnormalities.

Front 319

What is twin-to-twin transfusion syndrome?

Back 319

Where shared placental twins have an uneven blood supply either from how the placenta forms, from a thrombi in the blood supply, or from the death of one of the twins. In general, one twin gets too much blood, the other not enough. If one dies the blood will pool as the heart no longer helps the circulation. High levels of mortality or morbidity.

Front 320

What is echogenic bowel and what can it be a worrisome sign of? What is the rate of abnormality seen with echogenic bowel symptoms?

Back 320

It is a bowel obstruction seen on ultrasound sometimes caused by a build-up of meconium. 1 out of 10 times it is indicative of a congenital issue. If it does not resolve and the child is born with meconium ileus then it is a strong indicator of CF.

Front 321

What is the rate of being a CF carrier in the general public? Which is the most common mutation? What has been gained or lost?

Back 321

1 out of 29. It is a deletion at Delta F 508 with the loss of a phenylalanine amino acid.

Front 322

How is CF screened and diagnosed? How many times does the diagnostic test have to be performed to be considered accurate?

Back 322

Neonatal heel prick screening, followed up by a sweat test looking for elevated levels of chloride since the chloride channel is defective. It has to be positive on two separate occasions to be considered an accurate diagnosis.

Front 323

What could be the condition involved if a 46XX baby is born with ambiguous genitalia? Is this a medical emergency?

Back 323

Congenital adrenal hyperplasia. CAH can be a medical emergency since the infant can go into adrenal crisis and develop hypotension and shock.

Front 324

What condition is likely if a 46XY baby is born with female genitalia and mullerian organs?

Back 324

Swyer syndrome where no gonads formed, so no AMH was secreted to change the genitals to male.

Front 325

What are the three components of psychosexual development?

Back 325

Gender identity - male or female
Gender role - behaviour within culture
Gender orientation - choice of sexual partner

Front 326

What is MRKH syndrome? What effect does it have on fertility and childbearing?

Back 326

It is Mayer-Rokitansky-Küster-Hauser Syndrome, or Mullerian agenesis. The Mullerian ducts fail to form and mature, so no fallopian tubes, uterus nor upper portion of the vagina form. There are ovaries and normal hormonal levels, so women are able to produce ova but cannot carry a pregnancy. Surrogate mothers can be used to carry the baby to term.

Front 327

What are the 4 compartments to consider for problems in female reproductive health?

Back 327

Compartment 1 - disorders of uterus and outflow tract
Compartment 2 - disorders of ovarian function
Compartment 3 - disorders of the pituitary
Compartment 4 - disorders of the hypothalamus

Front 328

What does an elevated AFP mean is occurring in the fetus? What conditions can this point to?

Back 328

Elevated alpha fetoprotein means that the fetuses main circulating protein is leaking out of its body and into the amniotic fluid. This can show signs of neural tube defects, or gastroschisis.

Front 329

What type of bladder dysfunction can be seen in spina bifida in the lumbar region?

Back 329

Neurogenic bladder, in which the sympathetic, parasympathetic and skeletal muscle nerves are all affected and lose the coordinated response needed for bladder continence.

Front 330

What embryonic process is not completed in spina bifida, encepahlocele, and anencephaly?

Back 330

Neurolation is not completed, specifically the caudal neuropore, the lower craniopore, or the upper craniopore.

Front 331

What can prenatal exposure to valproic acid cause?

Back 331

Spina bifida.

Front 332

What are the 4 main movements the fetus undergoes moving through the birth canal?

Back 332

Internal rotation, extension, external rotation, expulsion.

Front 333

What is the preferred location of the occiput while pushing in a normal vaginal delivery?

Back 333

Occiput anterior.

Front 334

What is a Bishop's score and when is it used? What does a score below 5 mean? How about above 9?

Back 334

It is a pre-labour score based on 5 components (cervical dilation, cervical effacement, cervical consistency, cervical position, fetal station), to see whether labour needs to be artificially induced. A score below 5 means labour will not likely start within a safe timeframe. A score above 9 means labour will most likely be spontaneous and needs no intervention.

Front 335

Is newborn screening mandatory?

Back 335

It is not mandatory, however provinces are mandated to provide it for those who want it.

Front 336

What criteria make for a good screening test?

Back 336

The disease in question should
constitute a significant public health problem, meaning that it is a common condition with significant morbidity and mortality.
have a readily available treatment with a potential for cure that increases with early detection.
The test for the disease must
be capable of detecting a high proportion of disease in its preclinical state
be safe to administer
be reasonable in cost
lead to demonstrated improved health outcomes
be widely available, as must the interventions that follow a positive result.

Front 337

What will happen to girls growth in height after menarche?

Back 337

Her growth spurt is likely done and she will only grow a bit more in height.

Front 338

When is the peak growth curve in females? How about in males?

Back 338

12 in girls and 13 - 14 in boys.

Front 339

What is the emotional focus of children and adolescents at these different stages? How is their future focus evolving?
Age 10 - 13, 14 - 16, 17 +

Back 339

10 - 13, appearance, friends of the same sex, concrete thinking, not focused on tomorrow
14 - 16, risk taking, peer pressure, 'who am I', experiment with ideas
Age 17+, future focused, intimate relationships, operational planning

Front 340

What factors are important in creating a conducive environment for interviewing an adolescent?

Back 340

Triangle of communication (means include parents or others there, but speak to adolescent as an equal), discuss confidentiality, explain and separate adult from adolescent, discuss risk taking activities, plan for follow-up, focus on their resiliency and strengths that are protecting them.

Front 341

Can someone under 12 consent to sexual activity? How about 12 and 13?

Back 341

Under 12 cannot consent to sexual activity, but a 12 to 13 year old can if it is with someone no more than 2 years older.

Front 342

Who can a 14 - 15 year old consent to having sex with in terms of age?

Back 342

With someone no more than 5 years older.

Front 343

What are some specific examples in sexual health that need to be respected for a mature minor?

Back 343

Their own health care, contraception, morning after pill, confidential STI treatment.

Front 344

How common is chlamydia in Canadian adolescents?

Back 344

1 in 10 females in the 15 – 24 age group will get chlamydia.

Front 345

What are the three types of erections?

Back 345

Genital-stimulated (contact or reflexogenic), central-stimulated (noncontact or psychogenic), and central-originated (nocturnal).

Front 346

What are the two categories erectile dysfunction is classified in? What percent does each play in ED?

Back 346

Psychogenic (20%) and organic (80%).

Front 347

What are risk factors for erectile dysfunction?

Back 347

Hypertension, hyperlipidemia, diabetes mellitus, heart disease, history or radiation or surgery for prostate or other pelvic cancers, chronic alcohol use, prescription and recreational drug use, smoking.

Front 348

What systems are important to evaluate during the physical examination in a male for erectile dysfunction?

Back 348

Overall health including mental status; cardiovascular; neurologic; and genitourinary systems.

Front 349

What can ADHD lead to in adolescent sexual health?

Back 349

Earlier initiation of sexual activity and intercourse, more sexual partners, more casual sex, and more partner pregnancies.

Front 350

What is Kohlberg's Theory of Moral Development?

Back 350

Adolescents at the conventional level of reasoning, have a basic understanding of conventional morality, and can reason with an understanding that norms and conventions are necessary to uphold society.

Front 351

What does parental support, control, and knowledge help form in their children in terms of adolescent sexual health?

Back 351

Delay of first sexual intercourse, safer sexual practices, and higher sexual competence.

Front 352

What does effective prevention and management of STIs require on the part of the health care practitioners?

Back 352

1. Assessing the reason for a consultation. 2. Knowing about STI risk factors and epidemiology. 3. Performing a brief patient history and STI risk assessment. 4. Providing patient-centred education and counselling. 5. Performing a physical examination. 6. Selecting appropriate screening/testing. 7. Diagnosing by syndrome or by organism and post-test counselling. 8. Treating. 9. Reporting to public health and partner notification. 10. Managing co-morbidity and associated risks. 11. Following up

Front 353

What is the most lethal renal malignancy? What percent does it make up of all adult malignancies?

Back 353

Renal Cell Carcinoma, it makes up 2 - 3% of adult malignancies.

Front 354

How are most cases of renal cell carcinoma detected? If not this way, what is the classic triad it presents as?

Back 354

Usually picked up as 'incidenalomas'. The classic triad is flank pain, hematuria, and palpable mass.

Front 355

How is renal cell carcinoma treated? How effective is chemo? Radiation?

Back 355

It is a surgical treatment with total or partial nephrectomy. Chemotherapy and radiation are largely ineffective.

Front 356

What is hydronephrosis and what extrinsic and intrinsic things can cause it?

Back 356

Hydronephrosis is swelling of one kidney due to a backup of urine.
Extrinsic causes are: Ureteropelvic junction obstruction (crossing vessel), Aneurysm (aortic or iliac), Tumor/mass effect, Retroperitoneal fibrosis, Urinary retention/obstruction, Pelvic organ prolapse, Gravid uterus.
Intrinsic are: Stones, Transitional cell carcinoma, Stricture, Congenital adynamic segment, Bladder stones and obstuction, Prostate cancer with local invasion, Blood clots, Sloughed papillae

Front 357

What is the gold standard test for picking up kidney stones?

Back 357

CT scan (without dye needed, so also good for those with renal insufficiency)

Front 358

What is the greatest risk factor for Transitional Cell Carcinoma? What percent of people with it have painless hematuria?

Back 358

Smoking is the greatest risk for bladder cancer. 85% will have painless hematuria.

Front 359

What urine test finding means a call to the urologist, especially if there is no UTI?

Back 359

Gross or microscopic hematuria (2 RBCs show up on high power field).

Front 360

What precent of bladder cancer at presentation is low grade, and what is high grade?

Back 360

60% low (of which 80 - 90% go on to cure or no progression)
40% high (of which 50% are invasive or metastatic)

Front 361

What would a high-riding testicle, in a “horizontal lie”, with swelling and edema, and absence of cremasteric reflex indicate?

Back 361

Testicular torsion, a medical emergency.

Front 362

If you suspect testicular torsion what investigation should you do?

Back 362

Urgent scrotal ultrasound looking for blood flow around testicle, or its absence.

Front 363

What might you consider as the source of epididymitis in a man under 35? How about over 35?

Back 363

Under 35, think STI (gonorrhea, chlamydia, or E. coli). Over 35, think gram neg. from the urinary tract.

Front 364

What age range is testicular cancer most common in? Is it more prominent in a particular ethic group? What is the most common type?

Back 364

Age 15 - 34. Caucasians are most at risk. 95% of the time it is germ cell tumors (seminomas and nonseminomas).

Front 365

How much does having had an undescended testes increase the risk of testicular cancer?

Back 365

10 times.

Front 366

What percent of cancer is based on heredity? What percent is sporadic?

Back 366

5 - 10% heredity
90 - 95% sporadic

Front 367

What types of cancer does someone with the Lynch gene have higher risks of? How is the gene passed down?

Back 367

Colon, endometrial, stomach/small bowel, ovarian are the most common, with a slight increase in urinary tract, brain, pancreas and biliary tract cancers. It is an autosomal dominant gene.

Front 368

What increase in cancer risk for breast and ovarian cancer does having the BRCA 1 /2 genes cause?

Back 368

60% lifetime risk of breast cancer compared to 11% in the general public. 15 - 40% ovarian cancer compared to 1.4%.

Front 369

How are the BRCA mutations passed on?

Back 369

Autosomal dominant.

Front 370

How common is chlamydia in Canadian adolescents? What percent of females aged 15 - 24 will become infected?

Back 370

65000 reported cases annually (in 2006). 1 in 10 gals will contract it.

Front 371

What are the laws regarding age limits and consent to have sex?

Back 371

The age of consent is 16 as long as it is without any exploitation by someone in a position of authority (in which case it is 18).
People 14 or 15 can consent if the older partner is no more than 5 years older.
12 or 13 year olds can consent to sex with someone no more than 2 years older.

Front 372

What is the most common presentation of chlamydia in males and females? What are the long term risks for females?

Back 372

Asymptomatic. Can develop into pelvic inflammatory disease in females, leading to infertility or risk of ectopic pregnancies.

Front 373

What percent of newly diagnosed cases of HIV infection are in people over the age of 50?

Back 373

10 - 15%

Front 374

What three types of erection can occur?

Back 374

Genital-stimulated (contact or reflexogenic), central-stimulated (noncontact or psychogenic), and central-originated (nocturnal).

Front 375

How is erectile dysfunction classified? Which type is most common?

Back 375

Psychogenic and organic, with 80% being organic in origin.

Front 376

What percent of erectile dysfunction can be medication related?

Back 376

25%

Front 377

What percent of women worldwide have sexual concerns? What percent report personal distress from this?

Back 377

40% worldwide, with around 20% for distress.

Front 378

What are the 4 phases of the female sexual response cycle? Are they alway in this sequence?

Back 378

Excitement, Plateau, Orgasm, Resolution. They can vary in order or may be absent.

Front 379

Which form of menopause has a more adverse effect on sexual arousal and function, medical or natural?

Back 379

Medical menopause.

Front 380

What medical conditions can affect sexual desire in females?

Back 380

Neurologic - i.e. MS and Parkinson’s
Endocrine - Elevated prolactin, ?DM
Hypertension - ?HTN vs. meds
Other - Renal failure and other chronic conditions
Gynecologic concerns - childbirth, prolapse, pain with endometriosis, fibroids or cysts

Front 381

What is the primary determinant of female sexual satisfaction?

Back 381

Relationship factors.

Front 382

What are the APA diagnoses of female sexual dysfunction? What is a key factor in all of these diagnoses and why?

Back 382

- Hypoactive Sexual Desire Disorder
- Female Sexual Arousal Disorder
- Female Orgasmic Disorder
- Dyspareunia
- Vaginismus (involuntary spasm of the musculature of the outer third of the vagina)
The key factor is they all must be persistent situations and must cause marked distress or interpersonal difficulty, since it is common for any female to experience all the above periodically.

Front 383

Is a hormone test effective in discerning sexual satisfaction disorders in females?

Back 383

No, there is not a correlation between hormonal levels and sexual issues.

Front 384

What hormonal medication can help sexual satisfaction in post-menopausal women?

Back 384

Vaginal estrogen to keep the local tissue healthy.

Front 385

What class of medications can affect sexual function in females? Why?

Back 385

Selective serotonin re-uptake inhibitors (which are used for depression or anxiety disorders). They likely inhibit dopamine, which is involved in sexual arousal.

Front 386

What 2 ways can neoplasms be classified?

Back 386

By clinical behaviour, i.e.
Benign (slow growing, encapsulted, do not metastasize) vs. malignant (fast growing, invades adjacent tissue, no capsule, do metastasize)

AND

Histological origin, i.e.
Epithelium & excretory = carcinoma,
Mesenchymal = sarcomas
Neural & melanocytic = neuroblastoma/melanoma
Hematopoietic & lymphoid = leukemia/lymphoma
Germ cells = teratomas

Front 387

What suffix often distinguishes between a benign and malignant tumor?

Back 387

'Oma' usually means benign, whereas 'sarcoma' means malignant (melanoma is one of a few exceptions to this rule).

Front 388

What is the 4th most common cancer in men? How lethal is it?

Back 388

Bladder cancer. It is less lethal since it is 10th in terms of lethal cancers.

Front 389

What are some other risks for bladder cancer other than smoking?

Back 389

- long term use of analgesics
- chronic bladder irritation (chronic UTIs, indwelling catheters)
- bladder irradiation from other malignancy treatments i.e. prostate CA treatment

Front 390

How are the urothelial bladder tumors classified?

Back 390

As papillary or flat.

Front 391

What are the two determinants for a positive prognosis in urothelial neoplasia?

Back 391

Stage and grade at diagnosis.
Stage refers to how far it has spread (it is the best predictor of prognosis).
Grade shows how much the tissue has changed.

Front 392

Which proteins does HPV use to create its effects in cervical cancer?

Back 392

E6 and E7 - they are oncogenic by inactivating two tumor suppressor genes pRb (leads to proliferation) and p53 (loss of ability to induce apoptosis).

Front 393

Which type of mature cell tissue does HPV prefer?
Permanent (neurons, cardiac, sk. muscle)
Stable (liver cells, renal parenchymal cells) OR
Labile (epidermis, mucosal epitherlium)

Back 393

Labile tissue since it is undergoing much more rapid cell division which allows for greater proliferation.

Front 394

What is a histological sign that helps determine an inflammatory process from dysplasia in the cervix?

Back 394

The transition of change between the appearance of cells in an inflammatory process will be gradual, whereas in a dysplastic process there will be a sharp delineation between the original and the changed areas.

Front 395

What causes urinary and bladder changes in women as they age? In men?

Back 395

In women, the pelvic floor muscles are the greatest determinants in continence. In men, the size of the prostate is the greatest change in urination in age.

Front 396

Which sphincter is in charge of passive continence? How is it controlled? How about active continence and its control?

Back 396

Passive control is smooth muscle of bladder neck and proximal urethra. It is under involuntary control.
Active continence is under control of the striated sphincter. It is a bulky skeletal muscle lateral to urethra in men, and in the middle segment in women, under voluntary control.

Front 397

What are the goals of the bladder?

Back 397

1. Filling - Efficient and low pressure
2. Storage - Low pressure, with perfect continence
3. Emptying - Periodic complete urine expulsion, at low pressure, when convenient

Front 398

What reflex does tightening the external urethral sphincter stimulate?

Back 398

It stops the internal sphincter from relaxing and stops the detrusor muscle from contracting.

Front 399

What are the 2 phases of bladder functioning?

Back 399

PHASE 1 - Bladder Filling and Storage, Filling at low pressure, Bladder outlet that is closed, Absence of involuntary bladder contractions, a “stable” bladder
PHASE 2
Bladder Emptying/Voiding: Coordinated contraction of bladder smooth muscle, Concomitant relaxation and lowering of resistance of the sphincter, Absence of anatomic obstruction

Front 400

What sympathetic, parasympathetic and somatic nerves are involved in bladder control?

Back 400

Hypogastric Nerve (Involuntary, control of bladder neck and intrinsic
sphincter)
Pelvic Nerve (Involuntary, contraction of detrusor muscle)
Pudendal Nerve (Voluntary contraction or relaxation of external sphincter)

Front 401

What type of medication helps with urethral obstruction from an enlarged prostate?

Back 401

Alpha blockers, since there are smooth muscle alpha receptors in the prostate. Blocking their receptors reduces their contraction to relax the urethra.

Front 402

What are anti-muscarinic medications for?

Back 402

They block receptors in the bladder, leading to relaxation of the muscle and relief of over active bladder.

Front 403

How are lower urinary tract symptoms classified?

Back 403

Storage (urgency, frequency, nocturia, incontinence)

and

Voiding (hesitancy, poor flow, intermittency, straining, terminal dribble) (including post-micturation - post void dribble, incomplete sense of emptying)

Front 404

What is urgency, with or without urgency incontinence, usually with frequency and nocturia the definition of?

Back 404

Bladder Overactivity (OAB)

Front 405

What are the three general causes of overactive bladder?

Back 405

Idiopathic – no cause (related to aging)
Neuropathic - (stroke, Parkinson’s disease, MS, Alzheimer’s disease, brain tumor)
Other Cause/Bladder irritation - (UTI, bladder CA, stones)

Front 406

What is stress urinary incontinence (SUI) defined as? What percent of women will have this by age 60.

Back 406

Complaint (symptom) or observation (sign) of involuntary leakage from the urethra on exertion or effort, coughing or straining. 49%.

Front 407

What type of incontinence is proceeded by a strong feeling of needing to urinate?

Back 407

Urgency incontinence.

Front 408

What is the gold standard for urinary leaking in women and men?

Back 408

Urethral sling for both, or an artificial urinary sphincter in men.

Front 409

What causes emptying/voiding failure in the bladder?

Back 409

Bladder Underactivity - failure of bladder contractility from alteration in one of the neuromuscular mechanisms necessary for initiating and maintaining detrusor contraction

Outlet Overactivity or Obstruction - due to anatomic obstruction (enlarged prostate), failure of relaxation of sphincter (BN obstruction), active contraction of sphincter during bladder contraction (Detrusor sphincter dysynergia - DSD in high SCI), urethral stricture

Front 410

What are three common symptoms in bladder rupture? What two distinctions are made between locations of rupture?

Back 410

The triad of symptoms are:
suprapubic pain, difficulty or inability to urinate, and hematuria.
Extraperitoneal and intraperitoneal are the two areas it can rupture urine into.

Front 411

Which nerves control emission and ejaculation?

Back 411

Pudendal nerve from S2 - 4
Hypogastric sympathetic nerves from T12 - L2.

Front 412

Which nerves are involved in an erection?

Back 412

Pudendal nerve from S2 - 4
Parasympathetic nerves from S2 - 4

Front 413

Why is hematuria in bladder cancer painless?

Back 413

There is no inflammation involved.

Front 414

Where does 90% of the testis blood supply arise from and travel through?

Back 414

It arises from the abdominal aorta near the kidneys and travels through the internal spermatic testicular artery.

Front 415

What is a varicocele? How common is it, and how common in men with low fertility?

Back 415

It is dilated and tortuous veins of the pampiniform plexus. They occur in 15% of men, and 40% of men with fertility problems.

Front 416

On which side is a scrotal varicocele more common and why?

Back 416

It is more common on the left since the left pampiniform plexus drains on a 90 degree angle into the renal vein, whereas the right plexus drains directly into the IVC at an easier oblique angle.

Front 417

On which type of scan does adipose tissue show up white, MRI or CT scan?

Back 417

MRI

Front 418

What are Leopold Maneuvers for? What are the 4 different positions?

Back 418

Used to determine fetal lie, presentation & position.
First maneuver: Fundal Grip, is it feet or head at the fundus?
Second maneuver: Umbilical Grip, (on either side of umbilicus), which side is the back and which is limbs folded up
Third maneuver: Pawlick's Grip (grasp above pubic symphysis), confirm where head or feet are
Fourth maneuver: Pelvic Grip (facing mother's feet, grip either side of low abdomen), which part is entering the pelvic inlet?

Front 419

Describe the 4 pelvic types and the fetal presentation it is associated with.

Back 419

Gynaecoid (50%) - best for vaginal delivery, slightly transverse oval inlet, occiput anterior
Anthropoid (25%) - Long anteroposterior diameters, short transverse diameters, usually presents occiput posterior
Android (20%) - Triangular or heart-shaped inlet with anterior narrow apex, worst for vaginal delivery
Platypelloid (5%) - short anteroposterior diameters, long transverse diameters, face presentation or occiput transverse

Front 420

What is the minimum span for the pelvic inlet/diagonal conjugate for a vaginal birth? What is the minimum span for the pelvic outlet/diameter between the ischial tuberosities?

Back 420

> 11.5 cm for inlet
> 8 cm for outlet

Front 421

What is the normal rate and rhythm for the fetal heart beat?

Back 421

110 - 160 bpm, regular with variability and accelerations (with fetal movement).

Front 422

What are the standard components of the physical examination at a second or third trimester prenatal visit?

Back 422

 Blood pressure (BP)
 Symphysis-Fundal Height (SFH)
 Leopold Maneuvers
 Auscultation of the fetal heart rate & rhythm (FHR)

Front 423

What 3 things occur during the 'week of 2s' in embryology?

Back 423

Trophoblast differentiates into 2 layers (cytotrophoblast and syncytiotrophoblast).
Embryoblast forms 2 layers (epiblast and hypoblast)
Extraembryonic mesoderm splits into 2 layers (2 cavities form, yolk sac & amniotic cavity)

Front 424

What is the definition of erectile dysfunction (ED)?

Back 424

The consistent or recurrent inability of a man to attain and/or maintain a penile erection sufficient for satisfactory sexual performance.

Front 425

Is erectile dysfunction a necessary consequence of aging?

Back 425

No it does go up with age but because it is the associated medical conditions or lifestyle choices increase the risk factors and compound with age, but not purely from age itself.

Front 426

Is erectile dysfunction over diagnosed?

Back 426

No, erectile dysfunction is underdiagnosed due to a reluctance of patients and healthcare providers to discuss sexual function.

Front 427

What is the average range of men with erectile dysfunction by age for 40, 50, 60 and 70 year olds?

Back 427

40%, 50%, 60% and 70%.

Front 428

What can erectile dysfunction be a warning sign of for later on?

Back 428

Cardiovascular disease.

Front 429

What are differential diagnoses for erectile dysfunction that Viagra won't work for?

Back 429

• Decreased libido
• Painful intercourse
• Premature ejaculation
• Retrograde ejaculation
• Anorgasmia

Front 430

What are first line treatments for erectile dysfunction? How about second and third line treatments?

Back 430

Prior to first line is look at modifiable risk factors (smoking, excessive alcohol)
First line is counselling (marital or sex), and PDE5 inhibitors (dealt with at the GP level)
Second line are vacuum devices, injectable agents, intraurethral therapy (at the urologist)
Third line are surgical prosthesis

Front 431

What other medications are of concern if someone is on PDE5 for erectile dysfunction?

Back 431

Nitrate medications for angina and other cardiac diseases since they act in a similar way and blood pressure can go too low.

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What meds are used for intercavernosal infection for ED?

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Triple P or Tri-Mix
Papaverine
Phentolamine
Prostaglandin

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What does intersex mean?

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The presence of intermediate or atypical combinations of physical features that usually distinguish female from male

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What is transsexualism?

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An individual's identification with a gender inconsistent or not culturally associated with their assigned sex and may lead to medical interventions such as sex reassignment therapy.

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How do 'combined contraceptive' medications work? (OCP, patch, vaginal ring)

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They suppress pituitary secretion of FSH and LH, including suppressing the LH surge. This prevents ovulation. In addition, they thicken cervical mucous so it is less penetrable by sperm, and thin the endometrium so less ability to implant.