QUIZ 7

Question 1

digestive system proper

Answer 1

• from innermost to outer:
• *muscosa: epithelium, lamina propria (connective), muscularis mucosae (muscle)
• *submucosa
• *muscularis externa- internal circular and external longitudinal
• adventitia or serosa

Question 2

outer layer of digestive tube

Answer 2

• adventitia or serosa
• adventitia- loose irregular connective
• serosa- serous membrane (visceral peritoneum)
• peritoneum is the serous membrane that surrounds GI organs
• above diaphragm (like esophagus)- adventitia
• below diaphragm- intraperitoneal (all serosa) or retroperitoneal- mostly adventitia

Question 3

peritoneum

Answer 3

• serous membrane
• parietal layer (outer)- connected to organs (abdominal walls)
• peritoneal cavity- serous fluid within
• visceral layer- inner (aka serosa)
• intraperitoneal are surrounded by peritoneum
• retroperitoneum- behind the peritoneum (not surrounded)

Question 4

messentary

Answer 4

-double layer of visceral peritoneum

Question 5

jejnum

Answer 5

-intraperitoneal organ

Question 6

ascending colon

Answer 6

retroperitoneal organ

Question 7

which of the following structure is a serous membrane

Answer 7

• peritoneum
• pericardium
• pleura

Question 8

intraperitoneal structures

Answer 8

• surrounded by peritoneum
• below diaphragm- intraperitoneal (all serosa)
• stomach
• small intestine (most)
• cecum
• appendix
• transverse colon
• sigmoid colon
• liver
• part of large intestine

Question 9

retroperitoneal structures

Answer 9

• behind the peritoneum (not surrounded)
• below diaphragm- retroperitoneal- mostly adventitia
• duodenum (most) - small intestine
• pancreas
• kidneys
• ascending colon
• descending colon
• rectum
• abdominal aorta
• inferior vena cava

Question 10

what is the outermost layer of the GI tract called for the stomach

Answer 10

-serosa

Question 11

lesser omentum

Answer 11

• branching away from serosa layer of liver
• double layer mesentery
• supports the stomach within the abdominal cavity
• vasculature and nerves that supplies GI

Question 12

greater omentum

Answer 12

• dangly
• double layer of mesentery
• sheet on anterior side of abdomen
• fatty deposits
• adipose tissue
• fat is here
• barrier to impacts
• stretches from stomach down and connects to transverse colon

Question 13

transverse mesocolon

Answer 13

• connects area near pancreas to the transverse colon
• supports transverse colon
• hold it towards the top of abdominal cavity
• vasculature and nerves that supplies GI

Question 14

mesentery

Answer 14

• supplying vasculature
• large network
• folds up with the small intestine
• connects the small intestine up towards the liver and spleen
• mesentery proper

Question 15

arterial blood supply of gut

Answer 15

• flows through mesentery, mesocolon
• arterial blood supply is separated into three components:
• foregut- supplied by the celiac artery -> stomach, liver, gallbladder, spleen, pancreas, duodenum
• midgut- supplied by superior mesenteric -> small intestine, cecum, ascending colon, transverse colon
• hindgut- supplied by inferior mesenteric -> descending colon, sigmoid colon, rectum

Question 16

celiac artery

Answer 16

-branches into two parts

-

Question 17

venous drainage of the gut

Answer 17

• venous blood from the gut are going towards the liver
• hepatic portal system
• all veins brings nutrients, blood, waste product, some O2 -> to the portal system -> to liver -> liver processes and metabolizes the nutrients before it goes back to heart

Question 18

stomach

Answer 18

• digestion
• fondus- rounded superior part
• pyloris- funnel shaped -> goes into the small intestine
• antrum- wider part of pyloris
• pyloric sphincter- open to allow chyme into the small intestine
• gastric folds- present when the stomach is emptier
• three layers:
• longitudinal- smooth muscle
• circular- smooth muscle
• oblique- diagonal fibers -> mechanical digestion crushing

Question 19

functions of digestive system

Answer 19

• oral cavity- ingestion and mastication -> salivary glands (enzymes)
• pharnx and esophagus- swallow
• stomach- digestion
• small intestine- digestion and absorption
• liver, gallbladder and pancreas- enzymes
• large intestine- absorption and storage
• rectum and anus- elimination

Question 20

gastric fluid

Answer 20

• break down of food
• pepsin- enzyme that breaks down
• produced in the gastric glands
• mucosal layer is thick and has pits
• gastric glands produce hydrochloric acid, pepsinogen, gastrin, mucus
• acidic
• fluid is high- for one liter of food -> 3-4 liters of fluid leave

Question 21

gastric ulcers

Answer 21

• thick mucosa layer protects the stomach
• acid eats away at the stomach when the mucosa layer wears away
• burning
• increases chance of cancer
• caused by large density of helicobacter pylori
• if helicobacter pylori produces a basic substance that protects -> if there is too much there is a reduction of mucosa layer -> ulcers (near duodenum usually)

Question 22

small intestine

Answer 22

• duodenum descending posteriorly into the retroperitoneal space
• enters the jejunum- absorption
• enters the ilium -> ileocecal valve -> cecum (large intestine)
• mucosa layer and submucosa layer form ridges (especially jejunum) -> plicae circularis- slows down material and increase SA for absorption
• within membranous layer of mucosa layer there is villi- has arteries, veins, lacteals (transport fatty molecules)
• microvilli are on the villi- further increase the SA of small intestine
• deep to submucosa- the muscularis layer -> two layers: inner circular and outer longitudinal -> peristalsis
• villi- simple columnar epithelial cell
• narrow diameter (actually longer than large intestine)

Question 23

duodenum

Answer 23

• c-shaped and fixed in place
• entrance of bile duct
• entrance of pancreatic duct
• receives chyme from stomach
• mostly retroperitoneal- bound to abdominal
• pyloric sphincter separating from stomach
• major duodenal papilla of vater -> bile duct and pancreatic duct comes from here
• duodenojejunal flexure- where the duodenum and jejunum meet
• basic mucosa

Question 24

jejunum

Answer 24

• coiled and freely mobile
• handing from mesentery
• wide lumen with plicae circularis
• intraperitoneal
• thick walled
• long vasa recta (arterial supply)

Question 25

ileum

Answer 25

• coiled and freely mobile
• narrow lumen, largely smooth inner lining
• thin walled
• short and numerous vasa recta
• intraperitoneal
• peyers patches- pick up pathogens -> immune response

Question 26

vasa recta

Answer 26

• arteries that come off the arcades
• ileum they are short and frequent
• jejunum they are long

Question 27

which portion of the small intestine are retroperitoneal

Answer 27

duodenum

Question 28

pancreas

Answer 28

• regulation of acidity
• endocrine organ
• cell within pancreas are exocrine -> make digestive enzymes and bicarbonate
• 95% of tissue = exocrine acini cells
• 5% of tissue = endocrine islet cells -> insulin and glucagon secretion (metabolism and homeostasis)

Question 29

liver and gallbladder

Answer 29

• produces bile
• bile transferred into duodenum to help with digestion
• liver is closely bound to abdominal diaphragm
• right side of liver is larger (right lobe)
• falciform ligament separate the right and left lobe
• connects to ligamentum teres
• inferior vena cava receives blood from hepatic veins
• porta hepatis: portal vein (receives blood from other organs), hepatic artery (receives oxygenated blood), common bile duct
• cystic duct connects to gall bladder
• caudate lobe- in between ligamentum teres and inferior vena cava
• quadrate lobe
• filter blood from intestines
• metabolism of: carbs, fats, proteins

Question 30

hepatic lobules

Answer 30

• hepatic lobule- functional unit
• portal triads
• central vein in the middle- take up the metabolites and send it to the inferior vena cava to the body
• hepatocytes- filter blood from intestines and metabolism of carbs, fats, proteins
• portal vein is not fully deoxygenated -> also oxygenates
• hepatic artery that comes from descending aorta is mostly oxygenating
• bile duct- sends the bile to the small intestine
• bile caniliculi- allow for transmission of bile into the duct
• hepatic vein- transport fluid out to the inferior vena cava

Question 31

gall bladder and biliary tree

Answer 31

• left and right hepatic duct -> common hepatic duct -> bile duct or cystic duct to gall bladder
• gall bladder is storage site for bile

Question 32

which vessels/ducts carry fluid away from the hepatic lobules

Answer 32

• *bile duct
• *central vein- receives blood within hepatic lobules with metabolites into the inferior vena cava
• *hepatic vein
• hepatic artery brings blood towards the hepatic lobules

Question 33

large intestine

Answer 33

• transverse mesocolon- peritoneum -> suspend
• from the ileum material is moved to cecum
• cecum is first part of large- storage
• vermiform appendix- lymphatic, repopulates normal flora
• ascending colon- right side,
• right colic (hepatic flexure)
• transverse colon
• left colic (splenic) flexure
• descending colon
• sigmoid colon
• rectum
• anal canal
• anus

Question 34

teniae coli

Answer 34

• longitudinal layer of the large intestine doesnt go around the whole tube
• there is a strip of the teniae coli
• helps with peristalsis

Question 35

intraperitoneal: large intestine

Answer 35

• cecum
• vermiform appendix
• transverse colon
• sigmoid colon

Question 36

retroperitoneal: large intestine

Answer 36

• ascending colon
• rectum
• anal canal
• anus
• descending colon

Question 37

ileocecal orifice

Answer 37

• between ileum and cecum

- controls flow of ileum into cecum

Question 38

haustrum

Answer 38

• chambers or units in the large intestine

- semilunar folds between the haustrum

Question 39

epiploic appendages

Answer 39

• fatty structures associated with the teniae coli
• within peritoneum
• dangling

Question 40

vermiform appendix

Answer 40

• McBurney’s point- incision

- 1/3 distance of iliac spine and belly button

Question 41

hirschsprings disease

Answer 41

• innervation of large intestine that is associated with smooth muscle contraction doesnt go all the way to rectum
• no nerve impulse to parts of large intestines
• no way of excretion
• no way of peristalsis

Question 42

rectum and anal canal

Answer 42

• sigmoid colon -> rectum
• transverse rectal folds/valves of houston- hold fecal matter in place so we can pass gas without stool
• levator ani (pubococcygeus)- pelvic diaphragm -> supports
• anal columns- as solids pass anal columns gland are compressed and fluid is produced
• internal anal sphincter- smooth (sympathetic)
• external anal sphincter- skeletal
• at level of S3
• puborectalis- muscle around the rectum- regulates defication

Question 43

excretion

Answer 43

• internal and external anal sphincter must be relaxed for defecation
• puborectalis- acts as a sling around the rectum -> moves it to the side and prevents defecation when contracted
• when puborectalis is relaxed -> defecation
• sitting- puborectalis is still pulling against
• squatting- loosens the puborectalis sling around rectum

Question 44

sympathetic nervous system signals are associated with what function within the anal canal

Answer 44

• contract internal anal sphincter
• sympathetic fight or flight prevents defecation
• autonomic is associated with smooth muscle rather than skeletal (external anal sphincter)

Question 45

innervation of anal sphincter

Answer 45

Internal Anal Sphincter
-sympathetic: below L1
-parasympathetic: S2-S4
External Anal Sphincter
-somatic motor : S2-S4

Question 46

rectum vessels

Answer 46

• internal iliac
• middle rectal
• inferior rectal
• superior rectal
• middle rectal
• inferior rectal

Question 47

urinary system

Answer 47

• stores and excretes urine
• removes waste products from the blood
• maintains ion balance and acid base balance
• regulates blood and interstitial fluid volume
• regulates erythrocyte production (based on O2 levels)

Question 48

components of urinary system

Answer 48

• kidney- produce urine
• ureter- transport urine
• bladder- store urine
• urethra- transport urine

Question 49

ureter

Answer 49

• collects urine from bladder

- anterior to rectum

Question 50

kidneys

Answer 50

• in abdominal cavity
• retroperitoneal
• posterior to digestive organs
• asymmetrical- right kidney is a bit lower compared to left bc the liver is so large
• right kidney is posterior to: liver, hepatic flexure, ascending colon
• left kidney is posterior to: spleen, stomach, splenic flexure, descending colon
• kidneys are anterior to: ribs, muscles of the spine, abdominal back muscles
• regulate pH, hydration, eliminating waste,

Question 51

kidney: well cushioned

Answer 51

• surrounded by protective tissue and fat
• pararenal fat- surrounding connective tissue
• renal fascia- surround pararenal fat
• perienal fat-
• renal capsule
• renal (fibrous) capsule- connective tissues surrounding kidney, protecting it from trauma and pathogens
• renal fascia- connective tissue anchoring kidney to posterior abdominal wall

Question 52

left kidney

Answer 52

• T11-L2
• 11th and 12th ribs
• anterior of quadratus lumborum and psoas major

Question 53

right kidney

Answer 53

• T12-L3
• 12th rib
• anterior of quadratus lumborum and psoas major

Question 54

vasculature of kidneys

Answer 54

• closely associated with major blood vessels
• left and right renal artery- supply blood into kidneys
• renal veins- dumps into the inferior vena cava -> heart
• vein and artery connect at hilum
• renal artery segments into segmental arteries -> interlobar arteries (go around laterally on the pyramids) -> meet superficially on the arcuate artery (anastomoses) -> interlobular artery (towards the nephrons of the cortex) -> nephrons -> filter -> interlobular veins -> arcuate veins -> interlobar veins -> segmental veins

Question 55

anatomy of the kidney

Answer 55

• vein, ureter, and artery connect at hilum- indent
• medulla- renal pyramids (internal)
• medulla is broken up into 6-8 different pyramids
• vasculature surrounds the pyramids
• cortex- renal columns (superficial)
• renal papilla- end of renal pyramid
• as soon as urine leaves the renal pyramid it enters the minor calyx and major calyx -> renal pelvis
• renal pelvis is collecting all the urine from one kidney
• renal sinus- concave hollow area, where you find the pelvis, the calyx, and vasculature

Question 56

what blood vessel receives blood from multiple arcuate veins

Answer 56

-interlobar vein

Question 57

nephrons

Answer 57

• major functional unit of kidney
• produces urine (filter blood)
• > 1 million nephrons in each kidney
• spans the boundary between renal cortex and medulla
• vascular and tubular components

Question 58

nephron vasculature

Answer 58

• efferent arterioles
• interlobular artery- away from arcuate arteries into the cortex (away from medulla)
• afferent arterioles- bring blood to one specific nephron -> into glomerulus
• glomerulus- first filtration
• from the glomerulus -> efferent arterioles -> into the peritubular capillaries surrounding the tubes within the cortex
• descends down around the nephron loop as vasa recta (parallel blood vessels)
• venules -> interlobar veins

Question 59

tubular component

Answer 59

• cortical nephrons- 85% (most of the nephrons) - nephron loop is short- doesnt go far into the pyramids
• juxtamedullary nephrons- 15%- descend deep into the medulla

Question 60

filtration

Answer 60

• blood in the glomerulus (high pressure) -> push material (filtrate) out into the bowmans capsule (renal corpuscle)
• proximal convuluted tubule (PCV)- associates with capillary network- transport of material between PCV
• water getting send back into the blood stream via capillaries
• distal convoluted tubule- tubular secretion- active transport of things out of the blood into the urine (waste product)

Question 61

proximal and distal convoluted tubule

Answer 61

• active transport from the blood back into the tube

- secretion

Question 62

resorption

Answer 62

-transport of molecules from within the tubes into the blood

Question 63

renal corpuscle

Answer 63

• podocytes form visceral layer around the fenestrated capillaries
• flow of different types of molecules
• through the endothelial layer of capillaries
• podocytes have pedicles that interlace with pedicles of other podocytes -> forms slits that filter
• afferent arteriole- flowing into glomerulus (wider)
• efferent arteriole- flowing out of glomerulus (narrower)

Question 64

glomerular filtration

Answer 64

• filtrate- fluid from plasma + solutes (not proteins or cells)
• larger afferent arterioles diameter than efferent = higher pressure
• three filtering layers: fenestrated capillaries (block cells), continuous basement membrane (blocks large proteins), podocyte pedicles (block most small proteins)
• podocyte pedicles form filtration slits
• capillary basement membrane
• fenestrated capillary endothelium

Question 65

capillaries

Answer 65

• continuous capillaries (only allow O2 and other nutrients to pass through)
• fenestrated- allow from larger molecules to pass through
• sinusoid- whole cells can pass (spleen)

Question 66

at the renal capsule, the afferent arteriole is carrying ____ blood and the efferent arteriole is carrying ___ blood

Answer 66

-oxygenated, oxygenated

Question 67

efferent arterioles

Answer 67

carry oxygenated blood!!!

• still hasnt hit the capillaries at this point
• oxygen isnt necessarily being filtered out

Question 68

tubular fluid

Answer 68

• filtrate as modified by tubular component of nephron: water, waste products, ions, vitamins, some small proteins
• filtrate becomes tubular fluid once it enters tubules
• active transport of tubular fluid
• reabsorption occurs bc there are important substances in the tubular fluid

Question 69

nephron: tubular vascular

Answer 69

• glomerulus filtration- salts, amino acids
• active tubular reabsorption- amino acids are transported back into capillaries beds
• tubular secretion

Question 70

tubular resorption

Answer 70

• diffusion and transport of water and needed solute back into blood from tubular fluid
• 60-65% of water is resorbed
• water is diffusion
• solutes are active
• from the tubes into the blood
• into the proximal convoluted tubule (PCT)- simple cuboidal epithelium with microvilli (connective tissue surrounding)
• nephron loop also does resorption
• microvilli allows for greater resorption

Question 71

tubular secretion

Answer 71

• active transport of solute out of blood into tubular fluid
• into the proximal or distal convoluted tubule or nephron
• distal convoluted tubule- secretion of K+ and H+

Question 72

nephron loop

Answer 72

• simple cuboidal epithelium (thick part)
• simple squamous epithelium (thin part)
• descends into medulla
• resorption of water, Na+, Cl-, and other solutes

Question 73

distal convoluted tubule

Answer 73

• simple cuboidal epithelium
• no microvilli
• resorption of water
• secretion of K+ and H+

Question 74

clinical correlate: kidney failure

Answer 74

• loss of renal function- damage to glomerulus or small blood vessels
• common causes: autoimmune disease, high blood pressure, diabetes
• treatments: dialysis and kidney transplant
• hemodialysis- machine filters
• peritoneal dialysis- 4-6 times a day a tube goes through abdomen -> done by pressure and gravity

Question 75

urine

Answer 75

-tubular fluid that enters the collecting duct to pass out of the renal pyramid

Question 76

what structure does urine flow within just after exiting the renal pyramid

Answer 76

-minor calyx

Question 77

ureters

Answer 77

• retroperitoneal
• 3 layers: mucosa (inner), muscularis (middle), adventitia (outer)
• peristalsis moves fluid (muscularis)
• ureters to bladder

Question 78

ureter tunics

Answer 78

• inner layer of mucosa layer: transitional epithelium
• outer layer of mucosa: lamina propria
• transitional epithelium- cells like cuboidal but the cells become more and more elongated as the cell stretched (look squamous)

Question 79

clinical correlate: kidney stones

Answer 79

• renal calculi
• formed mostly of calcium
• can become lodged in kidney, renal pelvis, or ureter
• cramping pain across lower abdomen and pelvis (loin to groin)
• blood in urine
• referred pain (autonomic)- we dont know where it comes from (abdominal pain even though it is kidney)
• ultrasonic sound waves are used to break them up

Question 80

bladder

Answer 80

• ureters connect to the bladder on the posterior side on the trigone (obliquely)
• trigone- connection of bladder to the posterior abdominal wall -> funnels fluid downward to the urethra
• when bladder is relaxed there is rugae
• transitional epithelium
• internal sphincter- urinary sphincter (smooth muscle)
• external sphincter- you can control consciously to pee (skeletal)
• urethra between the internal and external urethra)
• detrusor muscle in the muscular layer

Question 81

bladder tunics

Answer 81

• mucosa- transitional epithelium and lamina propria
• submucosa
• muscularis- smooth muscle in random orientation (compression in all directions)
• adventitia
• retroperitoneal

Question 82

bladder: expansion

Answer 82

• trigone keeps bladder anchored
• rugae flatten as transitional epithelium stretches
• smooth muscles remain relaxed until we micturate
• oblique ureter openings are pinched by bladder wall expansion (prevents backflow)

Question 83

bladder: innervation

Answer 83

• stretch receptors in bladder wall - micturition reflex -> parasympathetic (S2-S4) -> contract detrusor and relax internal sphincter (opens for urine to pass into urethra)
• sympathetic (T11-L2) -> relax detrusor and contract internal sphincter
• somatic (pudendal nerve S2-S4) -> contract external sphincter -> prevents us from peeing ourselves

Question 84

given the innervation of the external urethral (urinary) sphincter, what kind of muscle is this?

Answer 84

-skeletal

Question 85

anal and urethral sphincters

Answer 85

• internal: smooth muscle, involuntary, autonomic innervation
• external: skeletal muscle, voluntary, somatic innervation
• tiring or increased pressure of muscle -> accidents

Question 86

bladder: male and female

Answer 86

• male and women
• uterovesicle pouch- posterior and superior to the bladder for women (anterior to uterus)
• rectovesicle pouch- anterior to rectus and anus for males

Question 87

urethra: females

Answer 87

• one part of urethra that open into vestibule (where vagina is)
• sphincter urethrae surrounding (external sphincter)

Question 88

urethra: male

Answer 88

• three parts: prostatic (within prostate), membranous (sphincter urethrae- external sphincter), penile (corpus spongiosum)
• urethra is not just urinary
• prostatic- ejaculatory ducts -> semen
• penile- bulbourethral (cowper’s) glands -> lubricating

Question 89

reproductive system

Answer 89

• common pelvis anatomy- bony pelvis, pelvic diaphragm, urogenital and anal triangles, muscles of the perineum
• male genitalia- scromtum, testis and epididymis, seminal veiscles and prostate, penis
• female genitalia- external genitalia, vagina, utrerus, …….

Question 90

reproductive cavtities

Answer 90

• thoracic
• abdominal
• pelvis
• peritoneum extends into pelvic cavity (broad ligament, tunica vaginalis)
• descent of the ovaries and testes
• pelvic cavity proper- defined by bony features
• superior inferior for thoracic and abdominal
• pelvis is angled obliquely- superior anterior to the posterior inferior side
• pubic bone- anterior
• sacrum- posterior

Question 91

bony pelvis

Answer 91

• sacral promontary
• arcuate line
• margin of sacral ala
• pectineal line- ilium to pubic bone
• pubic crest
• all of these make up pelvic brim
• false pelvis- ilium (whole wings and cup)
• true pelvis- pelvis brim

Question 92

pelvic soft tissue: pelvic diaphragm (PD)

Answer 92

• pelvic diaphragm- muscular floor of the pelvic cavity
• resists pressure from contraction of abdominal muscle during defecation and childbirth
• resists gravity
• keeps us up
• support recuts, uterus, bladder
• makes sure we dont poop out organs
• strong
• two muscle group: levator ani and (ischio)coccygeus
• levator ani- pubococcygeus, iliococcygeus, puborectalis

Question 93

perineum

Answer 93

• superficial region define by pelvic bony landmarks
• inferior to pelcic diaphragm
• pubic symphysis
• coccyx
• ischial tuberosity
• space between pubic symphysis and inferior to ischial tuberosity
• weaker

Question 94

pelvic wall: muscles

Answer 94

• piriformis (through greater sciatic foramen) to the femur

- obturator internus- (through lesser sciatic foramen) to femur

Question 95

pelvic diaphragm msucles

Answer 95

• connect to sacrum, ischium, pubis
• levator ani muscle- iliococcygeus, pubococcygeus, pubrectalis -> connect to obturator
• (ischio)coccygeus
• piriformis
• tendinous arch

Question 96

urogenital and anal triangles

Answer 96

• urogenital triangle (anterior) divided into superior and inferior compartments by perineal membrane
• anal triangle has no perineal membrane (posterior)- the ischiorectal fossa is filled with fat
• diamond of the perineal space

Question 97

urogenital triangle

Answer 97

• perineal membrane separates superior and inferior compartments
• superior perineal space between the perineal membrane and pelvic diaphragm
• urethra is found across all three: superior and inferior

Question 98

muscles of perineum

Answer 98

• sphincter urethrae
• sphincter urethrae- for males in the membranous portion
• between pelvis diaphragm and perineal membrane

Question 99

in males, which part of the urethra is the sphincter urethra found within

Answer 99

-membranous

Question 100

ischiocavernosus

Answer 100

• cover:
• crus of penis
• crus of clitoris
• inferior to perineal membrane

Question 101

bulbospongiosus

Answer 101

• cover:
• blub of penis
• bulb of vestibule - bilateral
• inferior to perineal membrane
• production of lubrication

Question 102

male erectile tissues

Answer 102

• crus of penis- root (base) of the corpus cavernosum (left and right)
• bulb of penis- root of the corpus spongiosum

Question 103

muscles of perinuem: male

Answer 103

• bulbospongiosus
• ischiocavernosus
• transverse perineus
• levator ani
• external anal sphincter
• anococcygeal raphe- supports anus

Question 104

muscles of perineum: female

Answer 104

• ischiocavernosus
• bulbospongiosus
• transverse perineus
• levator ani
• external anal sphincter
• anococcygeal sphincter

Question 105

scrotum and contents

Answer 105

• outpocket of anterior abdominal wall
• contains testes, epididymis, and spermatic cord
• 6 layers of tissues cover testes and epididymis
• 4 derive from abdominal wall
• spermatogenesis and sperm storage is best at 3 degrees lower than body temp
• testes- where sperm is produced
• epididymis- where sperm is stored

Question 106

scrotum and descent of contents

Answer 106

• descend through abdominal wall lining during fetal development (2nd month) -> deep inguinal ring and gubernaculum
• gubernaculum is the ligament pulling it
• descent of the testes and developing of the epididymis
• pulls down peritoneum with it
• 7th month -> superficial inguinal ring and gubernaculum
• organs that first develop in abdomen and then descend pulling of the peritoneum with it
• pulls peritoneum (tunica vainalis(visceral), transversalis fascia, transversus abdomen, internal abdominal oblique (cremaster), external abdominal oblique, scarpas fascia, skin

Question 107

epididymis and testes

Answer 107

-organs and spermatogenesis

Question 108

tunica vaginalis

Answer 108

-invagination of periosteum

Question 109

spermatic fascia

Answer 109

• external spermatic fascia
• cremaster muscle
• internal spermatic fascia

Question 110

dartos muscle

Answer 110

• in collaboration with cremaster muscle

- regulates elevation of scrotum (contraction and relaxation)

Question 111

steves air conditioner is broken on a hot day in august. is his dartos muscle likely contracted or relaxed

Answer 111

-relaxed

Question 112

spermatic cord

Answer 112

• fascial and muscular layers- continuation of layers surrounding testis
• spermatic cord:
• *ductus deferens- duct for sperm during ejaculation
• *testicular artery- single major arterial vessel
• *pampiniform plexus of veins (anastomoses)- plexus of begins that transport deoxygenated blood and cools arriving arterial blood
• point of weakness in the abdominal wall

Question 113

deep ring

Answer 113

-point of weakness in the peritoneum

Question 114

descent of testes and inguinal hernia

Answer 114

• indirect- through deep ring -> origin- lateral to epigastric vessels (78% for males and 4% for females)
• abdominal organs pocking into the inguinal canal through the deep ring
• direct- through superficial ring -> origin- medial to epigastric vessels (6% for males and 4% for females)
• abdominal organs are fully through the inguinal canal through the deep ring (you can see superficially)
• femoral- through femoral ring (2% for males and 6% for females) -> different point of weakness

Question 115

testes

Answer 115

• site of meiosis and sperm formation
• gamete production
• duplication of chromosomes
• 2 diploid to 4 haploid
• continuous
• 16 day process

Question 116

epididymis

Answer 116

• location of sperm maturation
• horn like structure
• semicircular around the posterior edge of the testes
• store the sperm before ejaculation

Question 117

seminiferous tubules

Answer 117

• mitosis and meiosis
• in the seminiferous tubules into the epididymis (mature)
• proliferative cells
• mitosis
• connective tissue surround the tubules
• spermatogenic cells- produce sperm
• sustentacular cells- provide environment for sperm development
• interstitial cells- product androgens -> testosterone
• within testes

Question 118

ductus deferenes

Answer 118

• epididymis -> ductus deferenes -> superficial inguinal ring -> inguinal canal -> deep inguinal ring -> over bladder -> seminal vesicle -> seminal gland
• wraps around the ureter over the bladder
• meets and forms the ejaculatory duct

Question 119

seminal vesicle

Answer 119

• produces a lot of fluid in semen

- gland

Question 120

semen

Answer 120

• testes- 200-500m sperm per ejaculate
• seminal vesicles- whiteish yellow fluid with nutrients and bicarbonate (reduces acidity of vagina)
• prostate glands- milky fluid with nutrient, antibiotic and liquifying functions
• bulbourethral glands- clear mucin lubricates urethra
• uses a sugar to help it survive in the vagina

Question 121

male urethra and prostate

Answer 121

-seminal vesicle -> prostate gland -> ejaculatory duct -> meets the urethra within the prostatic portion -> sphincter urethrae -> corpus spongiosum

Question 122

ejaculatory duct is formed from the combination of which 2 structures

Answer 122

• ductus defernes
• seminal vesicle
• ejaculatory meets within the prostatic urethra
• cowper gland dump into the penile urethra

Question 123

corpus spongiosum

Answer 123

• central erectile glandular tissue within the penis
• urethra passes through
• makes up the head of the penis
• bulbospongiosus muscle is the root surrounded by the urogenital triangle
• bulb of root
• terminates in the glans

Question 124

what muscle is the root of the corpus spongiosum surrounded by in the urogenital triangle

Answer 124

-bulbospongiosus

Question 125

corpus cavernosum

Answer 125

• crus of penis
• ischiocavernosus muscle
• bilateral
• lesser of the erectile tissue

Question 126

erection

Answer 126

• parasympathetic
• press against veins in the external tissue -> closes veins
• limits venous blood flow
• maintains erection

Question 127

ejaculation

Answer 127

• sympathetic
• emission- semen moved into urethra
• expulsion- semen expelled from urethra

Question 128

muscles of perineum: females

Answer 128

• ischiocavernosus- covers crus of clitoris
• bulbospongiosus- covers bulb of vestibule (bilateral separated)
• transverse perineus
• levator ani
• external anal sphincter

Question 129

bulbospongiosus

Answer 129

• bulb of vestibule

- greater vestibular (bartholins) gland- lubrication

Question 130

suspensory ligament

Answer 130

-suspends the clitoris

Question 131

vagina

Answer 131

• posterior to urethra
• labium minora- smooth skin
• labium majora- fatty adipose tissue more lateral
• mons pubis- anterior, fatty tissue, hairy
• rugae- folds in membranous layer

Question 132

vaginal fornix

Answer 132

-cervix and vagina meet

Question 133

mucosa layer of vagina

Answer 133

• stratified squamous epithelium

- acidic environment

Question 134

ligaments

Answer 134

• round ligament of uterus- anteriorly coming off uterus
• broad ligament- flat fold of the perineum
• deep inguinal ligament-
• suspensory ligament- suspends the ovary -> keeps superior to uterus
• suspensory passes major blood vessels

Question 135

as with many abdominal organs, the uterus’s outer tissue layer is covered with peritoneum. Based on your knowledge of abdominal organs what is the outer tissue layer of the uterus called

Answer 135

• serosa- connective tissue and epithelial cellular layer
• intraperitoneal and below diaphragm
• interior lining would be mucosal

Question 136

perimetrium

Answer 136

• serous

- continuous with broad ligament

Question 137

layers of uterus

Answer 137

• perimetrium
• myometrium
• endometrium

Question 138

myometrium

Answer 138

• three muscular layers
• go in different directions
• thickest layer
• induce uterine contractions

Question 139

endometrium

Answer 139

• mucosa of columnar epithelium
• site of embryo implantation
• thickens and is lost during menstrual cycle

Question 140

uterus

Answer 140

• body- layers of the uterus and uterine tubes
• fundus- round head (top)
• cervix- between the internal os and external os

Question 141

uterine tube

Answer 141

• widening of this tube -> infundibulum
• fingers at the end of the infundibulum -> fimbriae
• when the egg is pushed out of the ovary during ovulation -> it will pass through the peritoneal space through the infundibulum into the uterine tube
• fallopian tube

Question 142

ovary

Answer 142

• meiosis of female gametes
• connected to the uterus by the ovarian ligament
• suspended by the broad ligament
• suspended from the abdominal wall by

Question 143

uterine ligaments

Answer 143

• broad ligament- extension of peritoneum, a peritoneal drape, supports uterus, ovaries
• suspensory- provides vasculature, nerves, and supports ovary
• ovarian- attached ovary to uterus
• round- attaches uterus to anterior abdominal wall
• uterosacral- attaches uterus to the sacrum
• uterosacral and round ligament help prevent pelvic prolapse (uterus prolapse through the vagina)
• round and the ovarian ligament are remnants of the gubernaculum (in males)

Question 144

broad ligament

Answer 144

• separated into 3 separate structures
• mesosalpinx- posterior side- superior to ovarian ligament
• mesometrium- portion is inferior to ovarian ligament
• mesovarium- connects the ovary to the rest of the broad ligament

Question 145

vesicouterine pouch

Answer 145

-space in between the uterus and bladder

Question 146

rectouterine pouch

Answer 146

• between rectum and uterus

- abdominal organs go through here during prolapse

Question 147

pelvic prolapse

Answer 147

• when weak or loose pelvic support structure allow one or more pelvic organs to drop or press into or out of the vagina
• enterocele- posterior to vagina - intestine
• cystocele- bladder impinging
• rectocele- rectum

Question 148

in women, an enterocele typically occurs as GI organs push against the posterior side of the uterus and vagina. With this in mind, what peritoneal pouch in normally extended during an enterocele in women

Answer 148

-rectouterine

Question 149

uterus and endometrium

Answer 149

• functional layer of endometrium changes in thickness across menstrual cycle
• follicle around the maturing gamete
• follicle produces
• in the beginning there is an increase in follicle stimulating hormone
• ovulation- spike in luteinizing hormone
• follicle is left behind and continues to produce hormones -> estrogen and progesterone
• menstruation- loss of endometrium layers

Question 150

menstruation cycled

Answer 150

• primary follicle -> primary oocyte -> granulosa cells (produce estrogen) -> antrum -> corona radiata (ovulation) -> corpus luteum (follicle) -> corpus albicans
• fertilization within the tube
• embryo implants within the endometrium
• increase in human chorionic gonadotropin (hCG)
• corpus luteum stays around to produce hormones -> prevents menstruations

Question 151

sex determination and differentiation

Answer 151

• Y chromosome is typically sex determining (SRY) gene
• female is default
• paramesonephric duct (lateral)
• mesonephric duct (medial)
• no SYR genes -> less testosterone -> ovaries -> mesonephric ducts degenerate -> paramesonephric ducts develop (uterine tube)
• SYR gene is present -> high testosterone -> testes form -> mesonephric ducts develop -> paramesonephric ducts degenerate (ductus deferenes)
• testosterone converted to DHT -> leads to differentiation of external genitalia
• urogenital fold becomes the body of penis

Question 152

disorders of sexual differentiation

Answer 152

• congenital adrenal hyperplasia (21-hydroxylase) -> XX and adrenal glands produce testosterone
• 5-alpha reductase deficiency -> XY and cannot convert testosterone into DHT (dihydrotestosterone)