Exam 1 Materials

Question 1

What are three important dates during week one of development? What happens on each day?

Answer 1

Day 1- Zygote formed after fertilization in ampulla of uterine tube

Day 4- Morula enters Uterus

Day 6- implantation of blastocyst begins

Question 2

When is the preembryonic, embryonic, and fetal periods of prenatal development? What happens in each period?

Answer 2

Weeks 1 & 2: Pre-Embryonic. Fertilization & implantation

Weeks 3-8; Embryonic. Germ layers developed & organogenesis.

Weeks 9-38: Fetal. Growth & maturation of organ systems

Question 3

What period and week do most birth defects appear? Why?

Answer 3

embryonic period 3-8 weeks b/c its the period of organogenesis

Question 4

approximately___% of embryos are spontaneously _______ in the ________period

Answer 4

50%, aborted, pre-embryonic period

Question 5

_________account for ____% of spontaneous abortions and ____% of birth defects and develop primarily during ______ stage of _________.

Answer 5

Chromosomal aberrations, 25%, 12%, Meiosis, gametogenesis.

Question 6

When does M1 begin in female oogenesis? When does it end and M2 begin? when does M2 end? what is the product of oogenesis?

Answer 6

M1 begins-prenatal
M1 ends (completed at ovulation) M2 arrested until ovulation.
M2 ends at fertilization.
produces 1 oocyte, 3 polar bodies (not viable).

Question 7

What is capacitation? How many capacitated sperm reach oocyte?

Answer 7

7 hour conditioning of sperm where the glycoprotein coat on sperm head is removed to facilitate fertilization. 300 to 500 reach oocyte

Question 8

What percent of couples are infertile and why?

Answer 8

15-30%. Infecction, low sperm count, motility issues, ovulation disorders, cysts, fibroids

Question 9

Mosaicism

Answer 9

MITOTIC (not meiotic) nondisjunction during cleavage. Generally less severe mosaic down syndrome.

Question 10

Week 2 events? What are primary nutrition sources? When is uteroplacental circulation fully established?

Answer 10

Uteroplacental exchange begins. Syncytiotrophoblast invaginates uterine wall. Primary nutrition sources are uterine gland secretions then becomes the uteroplacental exchange of vascular lacunae

Question 11

Implantation bleeding. What secretes hCG? what cascade sustains embryonic growth? What day levels detect w/ prego test?

Answer 11

can be mistaken for menstrual bleeding and effect age estimates. Syncytiotrophoblast secretes hCG.

hCG stimulates progesterone to increase uterine blood flow to sustain embryonic growth.

hCG linked to hyperemesis gravidium

Question 12

what causes hydatidiform mole? What called if malignant? What sign exists for mole?

Answer 12

embryoblast absent/incomplete and trophoblast continues to function/implant/grow without growth regulators from embryoblast and forms large tumor. choriocarcinoma if malignant. Elevated hCG.

Question 13

epiblast cavitation forms what cavity? What is the bilaminar disk?

Answer 13

amniotic cavity. embryoblast divides into hypoblast and epiblast then cavity forms in epiblast to form amniotic cavity. hypoblast becomes PYS.

Question 14

Hypoblast development? PYS,EM,CC,SYS

Answer 14

hypoblast migrates out to line the primary yoke sac, then differentiates further to form the EM: extraembryonic mesoderm. Cavitation of the EM creates a CC: Chorionic cavity which compresses the primary yolk sac into becoming a secondary yolk sac.

Question 15

Ectoderm gives rise to what?

Answer 15

Surface ectoderm-> epidermis (hair, nails, glands)
Neuro ectoderm -> NEURAL TUBE-> CNS
NEURAL CREST->PNS and more

Question 16

Endoderm turns into what organs?

Answer 16

epithelial lining of GI & respiratory systems

Question 17

Mesoderm turns into what ?

Paraxial, intermediate, lateral plate Turn into what?

Answer 17

Paraxial (somites)-

1. Sclerotome -> vertebrae & ribs
2. Dermatome -> dermis
3. Myotome -> skeletal muscle

Intermediate -> Urinary & reproductive systems

Lateral Plate

1. Parietal –> CT, Cartilage, bones & limbs
2. Visceral –>Gi & Respiratory organs (except epithelium)

Question 18

Identify Neural fold, Neural Groove, Neural tube, notochord, somites

Answer 18

Neural fold- speed humps
Neural groove almost barreled
Neural Tube- doughnut

Question 19

H&E, PAS, Trichrome, silver, orcein, Sudan red, osmic acid Stains

Answer 19

HE- Hematoxylin blue, eosin red
PAS-carbs magenta
TRICHROME- Collagen fibers blue/green
SILVER- reticular fibers/collagen- BLACK
ORCEIN- Elastic fibers brown/black
SudanRED-lipids red, OSMIC ACID-lipids Black

Question 20

What happens at week 10, 12, 15, and 24-28 weeks?

Answer 20

10- swallowing & urine formation (important for GI)
12- long bone ossification centers formed
12- external genitals visible w/ ultrasound
15- respiratory movements
24-28- sound & light recognition

Question 21

What do you use Ultrasound for monitoring? What measurements made? when can you use it?

Answer 21

Fetal weight, size, age, developmental defects, nutritional deficiencies.circulation. CRL, Biparietal diameter (around crown), AC, (ab circ). FL. use it after 5 weeks

Question 22

EFW? SGA?

Answer 22

Estimated Fetal Weight

Small for Gestational Age-> low EFW for age but normal weight for the size of fetus

Question 23

Low EFW for age, low EFW for size is a result of what two possible things? how much more likely is mortality?

Answer 23

Intrauterine growth restriction
or
In utero growth retardation (IUGR)
30X more likely mortality

Question 24

fFN Test? what does it assess? how? when?

Answer 24

fetal fibronectin test. Assesses preterm delivery risk. by taking vaginal swab for placental adhesive glycoproteins and is reliable between weeks 22-34. Preterm skin is red/wrinkled paucity of dermal ct

Question 25

What test do you use for RDS? what should you see? what else can you use if water breaks?

Answer 25

lecithin-sphingomyelin ratio test. Lecithin should rise relative to sphingomyelin of 2:1 by 34th week = low rds. can use vaginal swab for ACM rupture

Question 26

What types of maternal serum screening? what used for?

Answer 26

a-fetoprotein: neural tube defects, down syndrome (common used)

hCG: molar pregnancy, choriocarcinoma, ectopic pregnancy, down syndrome

Cell-free fetal DNA (cffDNA): karyotyping 7+weeks not reliable. synscitiotrophoblast cells used?

Question 27

CVS, AFT, what, when, how. Which is better?

Answer 27

Chorionic villus sampling: biopsy of chorionic villus w/ needle. 10-14 weeks, higher risk than aft, used for Karyotyping

Amniocentesis, amniotic fluid test: sample amnionic fluid w/ needle. 14-20 weeks (adequate fluid). Used for karyotyping, fetal metabolites, proteins, hormones. low risk

Question 28

PUBS, Fetendo

Answer 28

percutaneous umbilical cord blood sampling- detect/treat fetal blood disorders (anemia) or administer blood transfusion or meds.

Fetoscopy- invasive high risk, penetrates amnionic cavity.

Question 29

Culdocentesis:

Answer 29

needle transvaginal to peritoneal cavity, invasive, rare; used to detect ruptured tubal pregnancy (now they just use ultrasound and surgery)

Question 30

Dilation and curettage (DC)

Answer 30

dialation of cervix and removal of endometrium (scraping/suction). Used for miscarriage, molar pregnancy, postpartum hemorrhage.

Chorionic villi floats in saline.

Question 31

Tocodynamometer TOCO. what used with?

Answer 31

Pressure monitor on abdomen to detect uterine contractions. contractions & heart rate used together to estimate adequate fetal oxygen levels

Question 32

ACM? ABS? PROM?

Answer 32

amniochorionic membrane - fused- water break

Amniotic band syndrome with premature repturing of the ACM.

Question 33

Amnionic fluid. Function. Composition. origin. fetal circulation. maternal circulation. Amniocentesis

Answer 33

protects (physical, infection, body temp, fluid homeostasis)
composed of (fetal cells, proteins, electrolytes) 

Formed by fetal amniotic cells lining cavity, diffusion of maternal tissue fluid, fetal urination

swallowed, aspirated, absorbed skin
returns to mom uteroplacental xchng, excretion to amnion & diffused into maternal tissue

Question 34

AFV. if high what does it mean? low?

Answer 34

amnionic fluid volume.
High afv -> means GI problems (AF not being swallowed)
Low afv-> means renal malformations (fetus not urinating) or
PROM. of ACM

Question 35

Oligohydramnios (potter’s ) sequence

Answer 35

clubbed feet & cranial anomalies due to compression.

Question 36

Pulmonary hypoplasia

Answer 36

Pulmonary hypoplasia (under-developed lungs) due to lack of fluid during respiratory movements

Question 37

Placenta is made up of what layers?

Answer 37

Decidua basalis (maternal derived from endometrium)
Villous Chorion (from fetal chorion)

Question 38

Plaental barrier transformation at 4 months fertilization age. What happens? What happens if the transformation fails?

Answer 38

cytotrophoblast cells detach and migrate to line the maternal arteries to INCREASE maternal BLOOD VESSELS and INCREASE BLOOD FLOW.

If fails: Preeclampsia: causes maternal hypertension/slowed fetal growth

Eclampsia- seizures, coma, death

Question 39

Placenta acts like a membrane. What does it allow to pass or not to pass?

Answer 39

Blocks: large molecules, protein hormones, bacteria

Allows: gas, nutrient, waste, steroid hormones, antibodies, medications/drugs, viruses

Question 40

What is it called when the placenta attaches to the myometrium? invades myometrium? penetrates myometrium?

Answer 40

Placenta ACCRETA: attaches uterus
Placenta INCRETA: invades uterus
Placenta PERCRETA: penetrates uterus

Question 41

DZ twins? DCDA

Answer 41

fraternal twins; derived from two fertilized oocytes (unique dna). Each twin has its own everything and develops independently. ALWAYS HAS ITS OWN CHORION AND ITS OWN AMNION

Question 42

MZ: DCDA, MCDA, MCMA
#trophoblasts = # chorions
#embryoblasts=# amnions

Answer 42

Monozygotic twins- Identical.
DCDA–>2 cell zygote splits to form 2 blastocyts
MCDA-> one blastocyst w/ two embryoblasts
MCMA-> one blastocyst w/ one embryoblast

Question 43

Conjoined, parasitic, vanishing, TTTS

Answer 43

conjoined: incomplete splitting of monozygotic twins
parasitic: asymmetrical conjoined monozygotic twins
vanishing: death of 1 fetus (common)
twin-to-twin transfusion syndrome (TTTS): MONOCHORIONIC TWINS ONLY… donor has slow growth, recipient is loaded w/ fluid

Question 44

What characteristics should you find in a PROTEIN SECRETING CELL? What is constitutive vs. regulative?

Answer 44

Nucleus, Rough ER (make proteins), Golgi (package and ship), Secretory vesicle (exocytosis) mitochondria.

Constitutive is continuous; Regulative is for storage and release when signaled

Question 45

What characteristics found in a STEROID SECRETING CELL?

Answer 45

SMOOTH ER (looks like cross sections of tubes), Lipid inclusions (droplets) cholesterol storage for steroid production

Vesicular mitochondria (tube-shaped cristae; for modifying steroids)

Question 46

If I have blue or green fibers what stain and what type of tissue?

Answer 46

Trichrome & Collagen Fibers

Question 47

What kind of stain for red/brown or black fibers? What kind of tissues?

Answer 47

Orcein for elastic fibers/ brown/red or black

Question 48

What stains lipids red? black?

Answer 48

Sudan red, osmic acid-black

Question 49

What stains reticular fibers and collagen? what color?

Answer 49

Silver stains collagen and reticular fibers BLACK

Question 50

what stain used for glycoproteins and carbs?

Answer 50

PAS

Question 51

What is urinary & reproductive system derived from?

Answer 51

INTERMEDIATE PLATE of the MESODERM that comes from EPIBLAST which comes from EMBRYOBLAST which comes from inner mass cells of the morula

Question 52

What layer does skeletal muscle come from?

Answer 52

MYOTOME layer of PARAXIAL SOMITES of the MESODERM

Question 53

What layer does the dermis come from?

Answer 53

DERMATOMES from PARAXIAL SOMITES from MESODERM

Question 54

Where does vertebrae and ribs come from?

Answer 54

SCLEROTOME from PARAXIAL SOMITES from MESODERM

Question 55

What three layers derived from PARAXIAL SOMITES?

Answer 55

SCLEROTOME (vertebrae/ribs), DERMATOME (dermis), MYOTOME (skeletal muscle).

Question 56

Where is CT, Cartilage, bones of body wall and limb derived from?

Answer 56

PARIETAL from LATERAL PLATE from MESODERM

Question 57

Where is GI & Respiratory organs derived from?

Answer 57

VISCERAL from LATERAL PLATE from MESODERM

Question 58

Where is epithelial lining of Respiratory, GI, Urinary derived from?

Answer 58

ENDODERM

Question 59

What are the three layers of mesoderm

Answer 59

PARAXIAL SOMITES- INTERMEDIATE- LATERAL PLATE

Question 60

Where is epidermis derived from?

Answer 60

SURFACE ECTODERM from ECTODERM

Question 61

Where is Nervous system and more derived from?

Answer 61

NEUROECTODERM from ECTODERM

Question 62

When is the formation of the Neurotube?

Answer 62

nurulation of week three

Question 63

When does the trilaminar disc form?

Answer 63

gastrulation of week 3

Question 64

what lines the blastocyst cavity?

Answer 64

Cytotrophoblast after cavitation, but during bilaminar disc formation. hypoblast cells line the cavity and becomes PRIMARY YOLK SAC

Question 65

what makes the extraembryonic mesoderm? what do they make when they undergo cavitation?

Answer 65

Hypoblast cells which then forms the chorionic cavity

Question 66

what is the chorion made of?

Answer 66

cytotrophoblast, syncytiotrophoblast, extraembryonic mesoderm

Question 67

What type of Connective tissue is found in Sclera, Dentin, Joint/Organ capsules, and scar tissue? What stain used?

Answer 67

Type 1 Collagen Most abundant 90%. Forms fibrils, fibers, or bundles so it is very customizable in function. w/ HE STAIN; they turn pink, in TRICHROME blue/green

Question 68

What cells make collagen?

Answer 68

FIBROBLASTS; epithelial cells, smooth muscle, schwann cells (PNS).

Question 69

What is the structure of elastic fibers of ECM? Where are they found? What stain?

Answer 69

ELASTIN CORE w/ FIBRILIN MICROFILAMENTS. found in Skin, Heart Valves, Arteries, Alveolar lungs. Stain with HE and ORCEIN to distinguish between elastic fibers and collagen.

Question 70

NEONATAL RDS- What is it? When is it High, moderate, and low risk? What used to treat prenatal? postnatal treatment?

Answer 70

Respiratory distress syndrome from underdeveloped lungs.
HIGH RISK 34 weeks
Prenatal treatment of glucocorticoids (steroids)
Postnatal treatment using CPAP

Question 71

How do you assess the risk of RDS?

Answer 71

Lecithin-sphingomyelin ratio test- Lecithin 2:1 ratio by 34th week (indicates low RDS).

AMNIOCENTESIS- or vaginal swab if water broke

Question 72

How do you test for neural tube defects or down snyndrome?

Answer 72

Alpha fetoprotein test- neural tube defects & downsyndrome

hCG- for down syndrome

Question 73

What are some different ways to test for KARYOTYPING?

Answer 73

cffDNA- cell free fetal DNA test- uses at 7+ weeks. false positives.

CVS- chorionic villus sampling- 10-14 weeks (risky needle into chorionic villus)

AFT- Amniocentesis Amnionic Fluid test (14-20 weeks)- amniotic cavity sample, uses fetal metabolites, proteins, hormones

Question 74

How would you detect/treat fetal blood disorders like fetal anemia? How would you administer fetal blood transfusions or medications? When can it be used?

Answer 74

PUBS- percutaneous umbilical cord blood sampling.
>17 weeks
high risk

Question 75

What is Fetoscopy “fetendo”? When is it used?

Answer 75

endoscopy to visualize the fetus.
INVASIVE (penetrates amniotic cavity)
HIGH RISK

USED IN Twin-twin transfusion syndrome or banding syndrome.

Question 76

How do you detect if you have a hemaperitoneum from RUPTURED TUBULE PREGNANCY?

Answer 76

Culdocentesis: get fluid from peritoneal cavity- rare, invasive

Question 77

Dilation and curettage (d&C) . how do you do it? When/why done?

Answer 77

dilate cervix, removal of endometrium (scraping and suction)

Chorionic villi floats ensures removal.

Question 78

What are two common types of fetal monitoring? When to use each one, what they measure?

Answer 78

Continuous electronic fetal heart rate monitor- fetal heart rate during labor/delivery

Tocodynamometer- Toco - detects uterine contractions to estimate adequate fetal oxygen levels

Question 79

ACM what is it? whats PROM?

Answer 79

amnio chorionic membrane, prom is premature rupture of membrane. risky business, can cause complications for fetus

Question 80

Amniotic Fluid. Functions, contains, formed by, circulation

Answer 80

protects from infection, permits movement, regulates temperature & fluid/electrolyte homeostasis

Contains: Fetal cells, Proteins, Electrolytes (collected amniocentesis)

Formed by fetal amniotic cells, diffused maternal tissue fluid, fetal urination.

Question 81

What is AFV? what does high AFV indicate? Low?

Answer 81

Amniotic fluid volume AFV. 500-1000ml in 3rd trimester.

High=gi malformations
Low= renal malformations or PROM

Question 82

Oligohydramnios POTTERS Sequence

Answer 82

Clubbed feet, cranial abnormalities due to compression

Pulmonary hypoplasia (underdeveloped lungs) due to lack of fluid during respiratory movements.

Question 83

Umbilical cord Composition

Answer 83

1 umbilical vein (blood to fetus)

2 umbilical arteries (blood to placenta intestine, yolk sac, vitelline vessels.

Question 84

Allantois

Answer 84

Umbilical cord, collects waste

Question 85

What are the two parts of the placenta? where are they derived from ?

Answer 85

Decidua basalis- maternal derived from endometrium

Villous Chorion- from fetal chorion

Question 86

Villous Chorion what and where? What doesn’t happen?

Answer 86

Extraembryonic mesoderm carrying fetal blood vessels outward. fetal maternal blood doesn’t mix

Question 87

Placenta- when developed? from where? what does it do? what happens if it doesn’t happen?

Answer 87

4 months fertilization age- Cytotrophoblast cells detach and migrate to line maternal arteries to increase blood flow.

PRE-ECLAMPSIA- failed cytotrophoblast migration- hypertension/slowed fetal growth

Question 88

Preeclampsia/eclampsia

Answer 88

Failed cytotrophoblast migration- causes maternal hypertension and slowed fetal growth.

Eclampsia- seizures, coma, death of fetus and or mother

Question 89

Placental barrier whats allowed? Denied?

Answer 89

Allows-
gas, nutrient, waste
steroid hormones
antibiodies
medication/drugs
viruses

Denies, large molecules
protein hormones and bacteria

Question 90

What is it called when the placenta attaches to the myometrium of the uterus? what about if it invades or penetrates uterus?

Answer 90

Placenta accreta- attaches
Increta- invades
Percreta- penetrates

Question 91

Fraternal TWins

Answer 91

Dizygotic fraternal twins. derived from two fertilized oocytes w/ unique dna.

DCDA, has own chorion and amnion

Question 92

Monozygotic twins-identical

# trophoblasts= # of chorions
# embryoblasts= # amnions

Answer 92

DCDA- same as DZ twins- two chorions, two amnions.

MCDA- on chorion two amnions

MCMA- share chorion and amnion

Question 93

TTTS (twin to twin transfusion syndrome)

Answer 93

Monochorionic twins, donor has slowed growth, recipient overloaded with fluid

Question 94

What are the characteristics of a steroid secreting cell?

Answer 94

big SER looks like bubbles of white noise on TEM.

Has Vesicular Mitochondria- tube-shaped cristae to modify steroids

Lipid inclusions (droplets)- cholesterol storage for steroid production

Question 95

What does the SER make and contain? What kind of cell uses mainly SER?

Answer 95

Steroid-secreting or detoxifying cell.
SER makes- phospholipids for cellular membranes
Steroid hormones for secretion

Contains enzymes for Detoxifying reactions (hepatocytes in liver), glycogen metabolism

Question 96

What type of cell has lipid droplets, lots of SER, and vesicular mitochondria?

Answer 96

Steroid-Secreting cells

Question 97

What type of cells display Microvilli, basal & lateral folds, lots of mitochondria?

Answer 97

Rapid Active Transport Cells

Question 98

What are types of endocytosis (absorption)? regulated or constitutive?

Answer 98

Pinocytosis- constitutive
Receptor-mediated: regulated
Phagocytosis- specialized; phagosomes

Question 99

Huntingtons disease?

Alzheimer’s disease?

Answer 99

failure to degrade misfolded nuclear proteins- huntingtons

failure to degrade hyperphosphorylated cytoskeletal proteins- Alzheimer’s

Question 100

MICROTUBULES

Answer 100

1. intracellular movement of organelles
2. flagella & cilia
3. mitotic spindle of cell division
4. changes in cell shape

Question 101

ACTIN FILAMENTS- Where found. what do?

Answer 101

globular proteins

1. Anchor plasma membrane
2. Core of Microvilli (Mv)
3. Cell migration (lamellipodia, filopodia)
4. phagocytosis
5. contraction of muscles and
6. contractile ring of cytokenesis

Question 102

INTERMEDIATE FILAMENTS

Answer 102

ADHESION:
Cell to cell and
Cell to ECM adhesion
(larger than actin)

Question 103

Whats it called when cells multiply, when get bigger, smaller, change into something else?

Answer 103

HYPERPLASIA- multiply
HYPERTROPHY-bigger
ATROPHY-smaller
METAPLASIA-Change into something else

Question 104

Epithelium is made from what germ layer?

Answer 104

All three germ layers make epithelium
Ectoderm-skin
Endoderm-Respiratory/Urinary system
Mesoderm-blood&lymph (endothelium), body cavities (mesothelium). Urinary & reproductive

Question 105

Structure of Microvilli Mv.

Answer 105

Mv Core of ACTIN filaments that are cross-linked to plasma membrane. Anchored to TERMINAL WEB (TW).

Question 106

What is the Glycocalyx? what stain used? function?

Answer 106

Gell coat above microvilli in the lumen. a Layer of glycoproteins & glycolipids stained with PAS.

Functions in metabolism, cell recognition, receptor sites

Question 107

Structure of Cilia? What is it anchored to?

What is Mv structure?

Answer 107

9+2 arrangement of MICROTUBULES. Anchored to BASAL BODY of 9 TRIPLETS.. MOVEMENT

Mv is actin, anchored by TERMINAL WEB. ABSORPTION

Question 108

Where is cilia located? Mv located?

What are two types of abnormal cilia? one type of Mv

Answer 108

Cilia in respiratory, Uterine tubes.

Mv in intestines and kidney tubules

KINOCILIUM (inner ear) & FLAGELLUM (sperm)

STEROCILIA (CILIUM) in male reproductive system is actually a GIANT MICROVILLI

Question 109

Kinocilium? Sterocilia/cilium?

Answer 109

kinocilium- cilia inner ear

Sterocilia/cilium- microvilli in male reproductive system

Question 110

What lateral domain feature establishes polarity and forms a barrier to paracellular transport? What does it NOT do?

Answer 110

Tight junction. NOT INVOLVED WITH ADHESION.

Transmembrane proteins that are sewn/stitched into top lateral cell surface and act like VELCRO as they meet the adjacent cell’s TP’s. These Tight junctions can get tighter or looser depending on the cell needs.

Question 111

Zona occludens/ Occluding Junction. Where located?

Answer 111

Tight junctions- Located upper lateral domain and forms a belt-like junction between adjacent cells.

est barier for paracellular transport and a polarity of apical surface (locks membrane proteins from changing domain locations).

ONCE TIGHT JUNCTIONS FORMED, DOMAINS ESTABLISHED AND CELL SAID TO HAVE POLARITY. think of it as polarity of domain.

Question 112

What 2 transmembrane proteins weave in and out of the cell’s plasma membrane, extending into the ICS? Work like velcro

Answer 112

Occludin and Claudins.
Intercellular structure of tight junctions.
ions and small molecules can paracellularly transport past, and WBC’s from blood vessels into CT’s can pass too.

Question 113

What transmembrane proteins link actin filaments of adjacent cells cytoskeletons together?

Answer 113

e-cadherin, Zonula adherens, CAMS. cell surfaces don’t touch.

Question 114

What does cadherin do?

Answer 114

Resist mechanical separation of cells near the apical surface. Maintains structure when epithelia is a sheet of cells.

It is the end to end adhesion of cells, and links the actin filaments of a cell’s cytoskeleton to another cell’s cytoskeleton through that cells cadherin.

Question 115

Macula adherens- STRONG, Linked to Keratin

Answer 115

Desmosomes where CAMS overlap but cells still dont touch. Creates a cadherin zipper appearance in the ICS at TEM. and the CAMS insert into an ATTACHMENT PLAQUE (looks like a black end of a neuron/synapse) with ghost fibers that are KERATIN attaching to the ATTACHMENT PLAQUE..

Question 116

What types of junctions from apical to basal

Answer 116

Tight at top lateral, then adheren junction belt, then desmosomes (macula adherens). MACULA = spot.

Question 117

Junctional complex- what kind of cells?

Answer 117

ABSORPTIVE CELLS
1. ZO- occludin
2. ZA-adherin
3. D-macula adherin
gap junctions under the adheren belt junction

Question 118

LATERAL FOLDS of lateral epithelial domain

Answer 118

1. increases SA for cell contact (like grip tape)

2. Rivers for fluid/electrolyte transport (via transcellular pathway)

Question 119

If you see a TEM that looks like it has a river/stream on a map and the cell has brush boarder Mv,

Answer 119

LATERAL FOLDS (grip tape SA, Fluid transcell transport)

Question 120

NEXUS. what made of? function?

Answer 120

Communicating junctions or GAP JUNCTIONS.
Made of CONNEXONS aligned with other cells connexons.
Open and close to send messages to each other.

Question 121

If you see a TEM of rivers attached to the basement membrane surrounded by mitochondria what is this indicative of? on LM basal part of cell looks STRIATED (b/c mitochondria).

Answer 121

Basal folds of BM and TRANSPORT type cell

Question 122

What two layers of BM? What distinguishes them?

Answer 122

Basal Lamina & Reticular Lamina.

At LM=BM but can see TEM=BL & RL

Question 123

What is composed of Integrins, TypeIV collagen, Fibronectin, and laminin? and what Are the three functions?

Answer 123

Basal Lamina

1. attachment of EC’s to CT
2. Regulation/filtration of EC’s CT
3. Scaffolding support

Question 124

What is the basal lamina composed of? 4 things.

Answer 124

1. Integrins, 2. TypeIV collagen, 3. Fibronectin, 4. Laminin

Question 125

What is made from type III collagen fibrils in form of reticular fibers, that is made by Fibroblasts (CT cells) that links the CT to the BL?

Answer 125

Reticular lamina

Question 126

Reticular lamina- composition-function.

Answer 126

type3 collagen (reticular fibrils), anchoring fibrils and plaques.

Strengthens BM and links CT to BL

Question 127

what attaches the basal part of the cell to the basal lamina? How is it attached? What does it look like on TEM?

Answer 127

INTEGRINS linked to the Basal lamina insert through the Epithelial cell’s basal domain through ATTACHMENT PLAQUES and link to KERATIN filaments in the cell’s cytoplasm.
TEM: BM with dark pyramids coming out of the BM into the cytoplasm. looks Just like keratin fibers on desmosomes in the lateral domain.

Question 128

FOCAL ADHESIONS

Answer 128

Mechanosensitivity & Adhesion.

They attach basal lamina to actin filament in basal domain of epithelial cells

Question 129

What epithelium is composed of columnar cells and basal cells? Where is it specialized for? Where are the nuclei for each cell?

Answer 129

Pseudostratified columnar epithelium. Respiratory/Male reproductive system. Basal nuclei near BM, columnar nuclei located at differing levels.

Question 130

What epithelium found in stomach? in esophagus? is it keratinized?

Answer 130

Stomach is simple columnar ET.

Esophagus is stratified squamous NON KERATINIZED

Question 131

Replacing one MATURE epithelium with another MATURE epithelium (often suited to handle new stress). What is most important about this? Barrets Esophagus

Answer 131

METAPLASIA– REVERSIBLE

Question 132

All epithelial cells present within a gland called?

CT that supports the gland (includes blood & lymph vessels) called?

Answer 132

PARENCHYMA- cell of the gland

STROMA- supporting CT (bv & lv’s)

Question 133

Glands secrete toward basal lamina to vessels in the stroma?

Glands that secrete to lumen surface?

Answer 133

Endocrine glands–>stroma–> vessels (NO DUCTS)

Exocrine glands–>lumen/surface (HAS DUCT)

Question 134

TEM w/ small vesicles near BM w/ lots of RER & GOLGI. NO LUMEN, no polarization to apical surface

Answer 134

protein/peptide based hormone ENDOCRINE GLAND

Question 135

TEM w/ large lipid droplets all around cell, No domains, no lumen, no free surface, no accumulated secretory vessels.

Answer 135

Endocrine gland- Lipid/Steroid hormone producing

Question 136

SIMPLE/COMPOUND & TUBULAR/ACINAR

Answer 136

Acinar- round ended/berry shaped
Tubular- uniform like a tube
simple- ONE DUCT
compound- MULTIPLE DUCTS

Question 137

What type of gland has two types of secretion modes? what are they?

Answer 137

EXOCRINE GLAND
Merocrine=Exocytosis
Apocrine=takes some membrane
Holocrine=take all membrane with it
OR 
Secretory of SEROUS or MUCUS

Question 138

LM has a lumen, round nucleus near BM, granulated cytoplasm, slightly basophilic in color w/ HE stain. TEM shows Regulated type seretion stores located near lumen, abundant RER.

Answer 138

SEROUS CELLS of exocrine gland

secrete watery sub. thats has poorly glycosylated proteins

Question 139

LM is pink with white/pink LACY spider web with central lumen in HE stain. Nucleus is Basal located and FLAT

Answer 139

Mucus cells of exocrine gland. abundant in highly glycosylated proteins (mucins). abundant tight pakced secretory vesicles.

Question 140

LM of epithelial cells (simple columnar w/ brush border) white looking cells in between epithelial cells. nucleus basal located. Secretory vessels lumen located. abundant in RER

Answer 140

Goblet cells of mucous exocrine gland

Question 141

which junction establishes polarity? which ones for adherens? communication?

Answer 141

Tight
Adherens
Desmosomes
Gap

Question 142

Uncontrolled proliferation of cells (failure of normal regulatory mechanisms).

Answer 142

Neoplasia

Question 143

Carcinoma in Situ.

Answer 143

BM still intact. Invasive carcinoma goes through BM, and Metastatic carcinoma gets to the CT and bv’s and spreads to other locations

Question 144

Where do Glycosaminoglycans, proteoglycans, and multi-adhesive glycoproteins come into play with connective tissue?

Answer 144

Main components of the GROUND SUBSTANCE

appears white on TEM, clear on LM

Question 145

What are the 3 main components of Ground substance?

Answer 145

GAG’s, MGP’s, PG’s

Question 146

Build me a Proteoglycan out loud. What is special about GAG’s?

Answer 146

GAG’s bound to a protein core. GAG’s Sulfated, VERY NEGATIVE, attract Na+ which attracts water to form a hydration shell around the proteoglycan.

Question 147

Primary function of Proteoglycans. Why important?

Answer 147

Hydrate ECM & hold water in the CT. Important for cell motility, and establishing concentration gradients

Question 148

What is a primary component of Cartilage ECM? Function?

Answer 148

Proteoglycan agregates are PG’s connected to Haluronin with linker proteins (not sulfated but neg charged). Primary function of resisting compression as “shock absorbers”

Question 149

Primary function of GAGS & PG’s in BM?

Answer 149

Charge-based filtration

Question 150

Proteins that run parallel to plasma membrane function of
 1. ECM assembly/stabilization 
2. Adhesion (fibroblast to ECM)
3. Mechanosensation
4. Regulate cell migration
What are 5 types?
What are integrins?

Answer 150

MGP’s- Multi adhesive glyco proteins

1. fibronectin
2. laminin
3. tenascin
4. osteopontin
5. enactin/nidogen

INTEGRINS are transmembrane proteins that connect ACTIN to MGP’s

Question 151

Fibronectin, Laminin, Tenascin, Osteopontin, Enactin/nidogen are all examples of what type of Protein?

Answer 151

MGP’s Multi adhesive glyco proteins.

With INTEGRINS, MGP’s form FOCAL ADHESIONS.
Focal adhesions are cell to matrix adhesions that transfer mechanical signals to ECM

Question 152

Elastic Fiber distribution: Stain: Structure.

TEM looks like large BLACK stain with black granules surrounding it

Answer 152

Dermis (skin), Heart valves, Walls of large arteries, Lungs (alveolar walls). H&E with ORCEIN to distinguish between collagen fibers.
ELASTIN CORE- Fibrillin microfibrils

Question 153

Collagen. Structure, Function, Distribution. Where is it made? STAIN

Answer 153

Fibrils, Fibers, Bundles, STRENGTH

Found: Dermis, Hypodermis, fascia, Bones, ligament, tendons, joint capsules, sclera of Eye, dentin, organ/joint capsules

Made by Fibroblasts, EC’s, Smooth Muscle cells, Schwann Cells (PNS).
Made outside the cell (extracellularly)
1. tropocollagen ordered alignment forms Fibril, bundle of fibrils makes a fiber, bundle of fibers makes bundle.
HE stain pink. TRICHROME- Green or blue

Question 154

TEM shows striated fibers or groups of uniform polkadots

Answer 154

Collagen Type 1

Question 155

Type 2 Collagen Distribution:Function:Stain

TEM looks like fiberglass; NO BUNDLES

Answer 155

CARTILAGE & VITREOUS HUMOR
(articular cartilage, epiphyseal plates)
Strength & resists PG agregate expansion>resistance to pressure.
TYPE 2 turns slightly pink

LM looks like smooth glossed blue/pink fiberglass with clear bubbles. TEM looks like back side of unfinished fiberglass