API_Exam 3

Question 1

what are the function of the kidneys

Answer 1

-excretion of waste: urea, cratinine
-excretion of foreign chemicals: drugs, toxins
-secretion/metabolism/excretion of hormones: erthryopoetic facotr
-regulation: acid base balance
-gluconeogensis: from amino acids
-controls arterial pressure
-regulation of water and electrolyte secretion

Question 2

what are some waste products the kidneys excrete

Answer 2

urea
creatinine
bilirubin
hydrogen

Question 3

what are some foreign chemicals the kidney excretes

Answer 3

drugs
toxins
pesticides
food additives

Question 4

what are some hormones the kidneys secrete/metabolize/excrete

Answer 4

renal erythropoietin factor
vitamin D3
renin

Question 5

what do kidneys perform gluconeogenesis with

Answer 5

amino acids

Question 6

what does excess BUN indicated

Answer 6

kidney disease

Question 7

what is a normal BUN level

Answer 7

20

Question 8

what is a byproduct of proteins being broken down

Answer 8

urea

Question 9

what is 100% excreted by the kidneys

Answer 9

creatinine

Question 10

what type of metabolism is creatinine metabolized from

Answer 10

muscle metabolism

Question 11

what type of metabolism is urea metabolized from

Answer 11

protein metabolism

Question 12

what type of metabolism is uric acid metabolized from

Answer 12

nucleic acid metabolism

Question 13

what type of metabolism is bilirubin metabolized from

Answer 13

hemoglobin metabolism

Question 14

what is the byproduct of ammonia

Answer 14

is all of urea excreted in urine

Question 15

what is byproduct of RBC breakdown

Answer 15

bilirubin

Question 16

how long does a RBC live for

Answer 16

120 days

Question 17

what is RBC broken down into

Answer 17

heme and globin

then into bilirubin

Question 18

is bilirubin conjugated or nonconjugated when it is first formed

Answer 18

non conjugated

Question 19

where is bilirubin conjugated

Answer 19

liver

Question 20

after bilirubin is conjugated where does it go

Answer 20

into bile which then goes into the bowel

Question 21

what makes urine yellow

Answer 21

bilirubin

Question 22

once liver detoxifies blood, where does part of the waste go

Answer 22

kidneys to be excreted

Question 23

what drug class is commonly excreted through kidney

Answer 23

antibiotics

Question 24

what is a common issue with halothane

Answer 24

nephrotoxic and HEPATOtoxic

Question 25

what hormones are produced in the kidney

Answer 25

vitamin D3
renal erythropoetic factor
renin

Question 26

what hormones are metabolized and excreted in the kidney

Answer 26

most peptide hormones such as insulin, angiotensin II

Question 27

what hormone stimulates RBC production from kidney

Answer 27

renal erythropoetic factor

Question 28

what causes pink puffer COPD

Answer 28

polycythemia from low O2 levels in blood which stimulates kidney to make more RBCs

Question 29

what allows absorption of Ca in digestive tract and puts calcium into bone

Answer 29

vitamin D3

Question 30

how does erythropoietin stimulate RBC production

Answer 30

stimulates erythrocyte production in the bone marrow

Question 31

what ion metabolism is vitamin D3 important in

Answer 31

phosphate and calcium

Question 32

what are the only means of excreting non-volatile acids

Answer 32

kidneys

Question 33

how does the kidney regulate the body fluid acidity

Answer 33

bicarbonate

Question 34

what is the carbonic acid formula

Answer 34

h2o + co2 <—> H2CO3 <—> HCO3 + H

Question 35

what is carbonic acid

Answer 35

H2CO3

Question 36

how is most CO2 carried in the blood to the lungs

Answer 36

bicarbonate

Question 37

what actually drives respiration

Answer 37

H+ ions around pons in CSF

Question 38

where does H+ have to be formed to be able to drive respiration

Answer 38

CSF from CO2

Question 39

what does low and high bicarb mean

Answer 39

low= metabolic acidosis (high H+)

high= metabolic alkalosis (low H+)

Question 40

why does high CO2 cause acidosis

Answer 40

creates H+ through carbonic acid equation thus a build up of excessive H+ ions

Question 41

how is CO2 breathed off if carried through body as bicarb

Answer 41

combines with H+ to make carbonic acid which gets broken down into CO2 and water

Question 42

what does the liver use for gluconeogenesis

Answer 42

glycogen

Question 43

what does the kidney use for gluconeogenesis

Answer 43

amino acids

Question 44

how does the kidney regulate arterial pressure

Answer 44

raas
prostaglandins (inflammatory)
bradykinin (inflammatory

controls extracellular fluid volume

Question 45

raas, bradykinin, and prostaglandins are the _________________ function of the kidney

Answer 45

endocrine

Question 46

what electrolytes balance the kidneys

Answer 46

Na
K
H+
Ca
Phos
Mg

Question 47

with increased intake of Na, how many days does it take the kidneys to balance the Na level

Answer 47

4-6 dyas

8 days on the graph

Question 48

what part of the kidney has no glomeruli

Answer 48

medulla

Question 49

what surrounds on the kidney and provide protection

Answer 49

capsule of the kidney

Question 50

where are nephrons found in the kidney

Answer 50

renal pyramids

Question 51

are nephrons located in the medulla and the cortex?

Answer 51

YES in both

Question 52

what is the flow of urine

Answer 52

nephron (renal pyramid)
papilla
minor calyx
major calyx
renal pelvis
ureter

Question 53

what is in between the renal pyramids

Answer 53

renal columns

Question 54

where is hydronephrosis found

Answer 54

underneath the renal capsule

Question 55

what surrounds the kidney

Answer 55

fat

Question 56

what is normal GFR per min and per day

Answer 56

125 ml/min

180L/day

Question 57

how many times per day is plasma volume filtered

Answer 57

60x

Question 58

does albumin or other proteins get filtered

Answer 58

NO

Question 59

what is the filtration fraction equation

Answer 59

GFR / renal plasma flow= 0.2 (.20 x plasma filtered)

Question 60

what is role of renal columns

Answer 60

extension of renal cortex that gives stability to kidney

Question 61

what drives renal filtration

Answer 61

renal blood supply

Question 62

what do renal arteries/veins branch out into

Answer 62

interlobar arteries and veins

Question 63

what do interlobar arteries/veins branch into

Answer 63

arcuate arteries/veins

Question 64

when does interlobar turn into arcuate

Answer 64

at turn of renal pyramid at the top

Question 65

what branches off arcuates

Answer 65

interlobular

Question 66

how many glomerulus does a nephron have

Answer 66

1

Question 67

what does glomerulus look like

Answer 67

bundle of vessels

Question 68

what encases the glomerulus

Answer 68

bowmans capsule

Question 69

what is the filtration apparatus of the kidney

Answer 69

glomerulus

Question 70

what brings blood to the glomerulus and what artery does it come from

Answer 70

afferent arteriole brings it in

branches off interlobular or arcuate artery

Question 71

what takes blood away from the glomerulus

Answer 71

efferent arteriole

Question 72

why does the glomerulus coil

Answer 72

increases surface area

Question 73

what attaches to bowman’s capsule carrying filtration content away

Answer 73

proximal tubule

Question 74

what does proximal tubule turn into

Answer 74

descending loop of henle

Question 75

finish the sequence–

proximal tubule-loop of henle–

Answer 75

distal tubule

Question 76

where does collecting duct terminate

Answer 76

renal papilla

Question 77

what does efferent arteries wrap around

Answer 77

loop of henle

Question 78

when does efferent arteriole attach to arcuate vein

Answer 78

after it wraps around loop of henle

Question 79

what is ascending loop of henle attached to

Answer 79

descending loop and distal tubule

Question 80

what is descending loop of henle between

Answer 80

proximal tubule and ascending loop

Question 81

what does the distal tubule feed into

Answer 81

juxtaglomerular apparatus

Question 82

what does juxtaglomerular apparatus dump into

Answer 82

connecting duct which dumps into collecting duct which dumps into papilla

Question 83

do nephrons replace themselves

Answer 83

no

1.2 million nephrons per kidney

lose 1% per year after 40

Question 84

what is glomerulus always in and what is loop of henle always in

Answer 84

g=cortex
LoH= medulla

Question 85

which loop of henle has important function with water

Answer 85

-juxtamedullary- concentrate urine (pull water into back system)

Question 86

what are portions of ascending/descending loop of henle

Answer 86

thick and thin

Question 87

what are two types of nephrons

Answer 87

cortical and juxtamedullary

Question 88

where are all glomeruli vs all loop of henle

Answer 88

glomeruli= cortex
loop of henle= medulla

Question 89

which nephron has shorter loop of henle

Answer 89

cortical

Question 90

which nephron has longer loop of henle

Answer 90

juxtamedullary

Question 91

should there be protein or glucose in the urine

Answer 91

NO

Question 92

what are systems of peripheral nervous system

Answer 92

ANS
Somatic

Question 93

what is the receptor and neurotransmitter of somatic motor

Answer 93

Ach
nicotinic

Question 94

what is the receptor and neurotransmitter of sns

Answer 94

epi/norepi- ,
alpha 1,
alpha 2,
beta 1,
beta, 2,
beta 3,

Question 95

role of alpha and beta receptors

Answer 95

alpha 1= constrict
alpha 2= inhibit constriction
beta 1= increases HR
beta 2= dilationin lung smooth muscle, dilate muscle vessels
beta 3= neutralizer

Question 96

role of nicotinic vs muscarinic

Answer 96

N= muscular

M= organs/glands

Question 97

how many neurons does a response have to go through

Answer 97

2 neurons

Question 98

what is the receptor and neurotransmitter of pns

Answer 98

ach
nicotinic= n1, n2
muscarinic= m1, m2, m3

Question 99

does sns have long or short pre ganglionic

Answer 99

short

Question 100

does sns have long or short post ganglionic

Answer 100

long

Question 101

does pns have long or short pre ganglionic

Answer 101

long

Question 102

does pns have long or short post ganglionic

Answer 102

short

Question 103

what are muscarinic receptors usually on

Answer 103

glands and organs

Question 104

what is neurotransmitter for preganglionic in pns or sns

Answer 104

acetylecholine

Question 105

by default what are all receptors in 1st synapse in pns or sns

Answer 105

nicotinic

Question 106

what are neurotransmitters and receptors post ganglionic for pns (second synapse)

Answer 106

cholinergic (nicotinic/muscarinic)

Ach

Question 107

what are neurotransmitters and receptors post ganglionic for sns (second synapse)

Answer 107

adrenergic receptors (alpha/beta)

epi/norepi

Question 108

what nicotinic receptor is post ganglionic in somatic nerve

Answer 108

N1

Question 109

what is the bladder muscle

Answer 109

detrusor muscle

Question 110

what are receptor sites on bladder and nerves that synpase with them

Answer 110

M3- PNS- Pelvic nerve

Beta 3- SNS- hypogastric

Question 111

what is the external sphincter in

Answer 111

urogenital diaphragm

Question 112

what separates internal from external sphincter in male

Answer 112

prostate

Question 113

what receptor is on internal sphincter

Answer 113

alpha 1 -SNS- Hypogastric

Question 114

what receptor is on external sphincter

Answer 114

somatic- pudenal

Question 115

what muscle is voluntarily controlled in urethra

Answer 115

external sphincter

Question 116

do women have an internal sphincter

Answer 116

Yes, but does not have constricting ability like males do

just a thickening into neck of bladder

Question 117

is male internal sphincter voluntarily controlled

Answer 117

NO

Question 118

what is the sensory nerve attached to the bladder and how does it sense things

Answer 118

pelvic- baroreceptors- senses stretch

Question 119

what regions do nerves come out of that innervate bladder and urethral muscles

Answer 119

sacral and thoracic region

Question 120

how does empty bladder signaling work

Answer 120

baroreceptors signal slowly which causes beta 3 to neutralize contraction and alpha 1 to constrict internal sphincter for urine to collect- m3 is also inhibited in bladder to stop contraction and nicotinic signals external sphincter to constrict

Question 121

what receptor neutralizes contraction of the bladder

Answer 121

Beta 3

Question 122

full bladder signaling

Answer 122

stretched bladder activates baroreceptors on pelvic sensory nerve which goes to pons (micturition center) which signals m3 (detrusor muscle to constrict), beta 3 is inhibited to bladder can constrict, alpha 1 is inhibited so internal sphincter can relax, and pudendal signals external sphincter to relax and let urine out

Question 123

what nerve does sensation to urinate come from and where does it go to in the brain

Answer 123

pelvic sensory- pons

Question 124

when does voiding reflex happen

Answer 124

after initiation- to completely empty bladder

Question 125

how does voiding reflex work

Answer 125

baroreceptors keep signaling via pelvic nerve to have pelvic motor nerve to to keep detrusor muscle (m3) to constrict

Question 126

what are the 4 mechanisms of urine formation

Answer 126

filtration
reabsorption
secretion
excretion

Question 127

filtration, reabsorption, excretion of water

Answer 127

180
179
1

Question 128

filtration
reabsoprtion
excretion
of glucose

Answer 128

180
180
0

Question 129

filtration, reabsorption, excretion of creatinine

Answer 129

1.8
0
1.8

Question 130

is any creatinine reabsorbed

Answer 130

NO

Question 131

what is equation for excretion

Answer 131

excretion=filteration-reabsorption + secretion

Question 132

how much renal plasma is filtered

Answer 132

20%

Question 133

what is normal Renal blood flow, GFR and reabsorption

Answer 133

RBF= 625 ml/min

GFR= 125ml/min

reabsorption= 124ml/min

Question 134

what is gfr in ml/min and l/day

Answer 134

125 ml/min and 180/day

Question 135

should albumin/amino acids/rbc be in urine

Answer 135

No should be filtered

Question 136

who is more likely to develop proteinuria

Answer 136

diabetic patients

Question 137

what are tiny holes inside endothelium of glomerulus that filter

Answer 137

fenestrations

Question 138

what has negatively charged heparin sulfates that repels proteins and amino acids back into circulation

Answer 138

basement membrane

Question 139

what is found in epithelium that has smaller holes than fenestrations

Answer 139

split pores

Question 140

what is a split pore in

Answer 140

podocytes

Question 141

when basement membrane is damaged, what happens

Answer 141

proteinuria

Question 142

what is not a very accurate proteinuria test

Answer 142

dipstick

Question 143

what is the equation for net filtration pressure

Answer 143

net filtration pressure = glomerular hydrostatic pressure- bowman’s capsule pressure- glomerular oncotic pressure

Question 144

what is normal net filtration pressure

Answer 144

10
(60-32-18)

Question 145

what pressure push opposite of glomerular hydrostatic pressure

Answer 145

glomerular colloid osmotic and bowman’s capsule pressure

Question 146

how does glomerular colloid osmotic pressure cause pressure

Answer 146

draws water/proteins back into glomerulus against glomerular hydrostatic pressure

Question 147

how does bowman’s capsule cause pressure

Answer 147

funneled to pushes pressure upward

Question 148

does net filtration rate = GFR

Answer 148

NO

Question 149

what is normal GFR

Answer 149

125ml/min

Question 150

what is kf a measure of

Answer 150

measure of surface area and permeability
-more surface area= bigger glomerulus=more filtering

Question 151

what is kf

Answer 151

filtration coefficient

Question 152

what diseases cause reduced kf and GFR

Answer 152

HTN
DM
Obesity
glomerulonephritis

Question 153

what does cast noted mean in UA

Answer 153

tubular necrosis

Question 154

does bowman’s capsule pressure regulate gfr

Answer 154

no- changes because of ghp and gcop

Question 155

what has most significant/important effect on gfr

Answer 155

GHP

Question 156

what can influence bchp beside gcop and ghp

Answer 156

obstruction- stones, bph (urine backs all the up into bowman’s pressure which increases pressure)

Question 157

what influences glomerular hydrostatic pressure

Answer 157

arterial pressure, afferent/efferent arteriole resistance

Question 158

what does increased afferent arteriole resistance do to ghp

Answer 158

decreased ghp thus decreasing gfr
decreased flow

Question 159

when efferent arteriole resistance is increased what happens

Answer 159

fluid backs up, increasing ghp and gfr

Question 160

where does angiotensin II constrict

Answer 160

efferent arteriole- backs up blood so ghp and gfr increase

Question 161

what does increased ghp cause

Answer 161

increased GFR

Question 162

what does kidney need a lot of oxygen/atp for

Answer 162

tubular reabsorption of sodium (active transport)

Question 163

can you decrease renal blood flow and increase gfr

Answer 163

yes- constriction of efferent arterioles by angiotensin II

Question 164

kidney consumes o2 at _____________ rate of brain but receives ______________ times the blood flow

Answer 164

twice

7

Question 165

how much cardiac output goes to kidney

Answer 165

22%

Question 166

what does sns do to gfr

Answer 166

vasoconstriction= increased resistance, decreased renal blood flow so decreased gfr

Question 167

what does angiotensin II do to arterioles

Answer 167

increases efferent arteriole resistance, which backs blood up in glomerulus

Question 168

overall what does angiotensin II to do gfr

Answer 168

holds at normal- since angiotensin II is indirectly released by renin (which is only released with low blood pressure) the gfr would already be low. So angiotensin II raises gfr but gfr was already low to begin with so it brings it to normal

Question 169

how do prostaglandins/nitric oxide affect gfr

Answer 169

decreases resistance= increased blood flow= increased gfr/renal blood flow

Question 170

how does ibuprofen affect kidneys

Answer 170

blocks prostaglandins- so afferent and efferent arterioles are not as dilate= decreased gfr

Question 171

what is auto-regulator to stop complete vasoconstriction

Answer 171

endothelial derived nitric oxide

Question 172

nitric oxide

Answer 172

vasodilator
makes o2 more soluble

Question 173

how does endothelin impact gfr

Answer 173

decreases it by vasoconstriction (increased resistance)

Question 174

what are autoregulation control of gfr/renal blood flow

Answer 174

myogenic mechanism- increase bp=increase calcium=increased contraction=increased increased resistance= decreased flow/gfr

macula densa feedback=

angiotensin II=

Question 175

myogenic autoregulation

Answer 175

increase bp=increase calcium=increased contraction=increased increased resistance= decreased flow/gfr

Question 176

where is macula densa

Answer 176

juxtaglomerular apparatus

Question 177

what makes renin

Answer 177

juxtaglomerular cells

Question 178

what cells line distal tubule

Answer 178

macula densa- come close to afferent and efferent arterioles

Question 179

what does macula densa measure

Answer 179

sodium and chloride in distal tubule (which is urine)

Question 180

when sodium chloride is decreased in macula densa, what happens

Answer 180

decreases afferent arterial resistance so more blood gets into glomerulus to filter more sodium/chloride out

Question 181

what does low gfr cause sodium to be in distal tubule, low or high

Answer 181

low

more gets absorbed

Question 182

how does angiotensis II affect GFR

Answer 182

decreased gfr= low macula densa nacl= increases renin= angiotensin II= increases efferent arteriole resistance= raises GFR

Question 183

where does angiotensin II have effect on kidney

Answer 183

efferent arterioles

Question 184

other factors that influence GFR

Answer 184

increase= fever, STEROIDS, hyperglycemia, high diet protein

decrease= age, low diet protein

Question 185

what are the four mechanisms of urine formation

Answer 185

filtration
reabsorption
secretion
excretion

Question 186

what kind of cells do aldosterone antagonists and sodium channel blockers work on

Answer 186

principal cells

Question 187

what location do aldosterone antagonists and sodium channel blockers work

Answer 187

collecting duct

Question 188

what is the equation for excretion

Answer 188

filtration - reabsorption + secretion

Question 189

what is the equation for resborption

Answer 189

filtration- excretion

Question 190

what is the equation for secretion

Answer 190

excretion - filtration

Question 191

what is excretion

Answer 191

removing wastes and drugs

Question 192

what is the process of filtered components going back into body

Answer 192

reabsorption

Question 193

what is the process of stuff coming from body going into lumen to get excreted

Answer 193

secretion

Question 194

is most of water reabsorbed or excreted from body

Answer 194

reabsorbed

Question 195

where does stuff that get filtered go to for excretion

Answer 195

lumen

Question 196

where does the lumen lead to

Answer 196

collecting duct

Question 197

what does the connecting tubule connect

Answer 197

glomerulus and collecting duct

Question 198

what is the filtered material in the lumen

Answer 198

urine

Question 199

what are the ways molecules get reabsorbed into the body

Answer 199

active transport,
passive transport (diffusion),
osmosis
paracellular/transcellular paths

Question 200

what is between the peritbular capillary and lumen

Answer 200

tubular cells

Question 201

what do molecules have to pass through to be reabsorbed in the kidney

Answer 201

tubular cells

Question 202

where do transporter mechanisms occur for reabsorption

Answer 202

tubular cells

Question 203

what ions travel in paracellular path

Answer 203

Ca
Mg

Question 204

what ions travel in the transcellular path

Answer 204

Na
K
Cl

Question 205

what drives diffusion

Answer 205

concentration or electrical gradient

Question 206

how can sodium move against concentration/electrical gradient

Answer 206

active transport

Question 207

what are the 3 methods of transport sodium is reabsorbed in the kidney

Answer 207

diffusion
active transport
osmotic pressure

Question 208

does secondary active transport use ATP

Answer 208

NO

gets energy from Na to move molecules

Question 209

how does secondary active transport work

Answer 209

It takes advantage of a gradient that has already provided energy.

Question 210

what happens to gfr with hyperglycemia and hyperproteinemia

Answer 210

increases

Question 211

how is glucose/amino acids reabsorbed in the kidney

Answer 211

secondary active transport

Question 212

what is it called when a substance reaches its maximum rate of tubular transport in ALL nephrons

Answer 212

transport maximum

Question 213

when the transport maximum is reached for all nephrons, what happens when more substance comes through

Answer 213

NOT reabsorbed- excreted

Question 214

what is it called when transport maximum is exceeded in SOME nephrons

Answer 214

threshold

Question 215

t or f- individual nephrons may have lower transport maximum’s than others

Answer 215

True

Question 216

what are some examples of substances that have a transport maximum

Answer 216

glucose
amino acids
phosphate
sulfate

Question 217

what happens to lumen potential when sodium is reabsorbed

Answer 217

negative potential increases (since sodium is positive)

Question 218

what happens to chloride and urea when sodium and water are reabsorbed in proximal tubule

Answer 218

increased concentration–>passive reabsorption due to concentration gradient

Question 219

how much of all sodium is reabsorbed in proximal tubule

Answer 219

65%

Question 220

what is reabsorbed in proximal tubule

Answer 220

sodium
chloride
potassium
bicarb
water
glucose
amino acids

Question 221

where is most of sodium reabsorbed in kidney

Answer 221

proximal tubule

Question 222

what is excreted out of proximal tubule

Answer 222

hydrogen
organic acids
bases

Question 223

what are the byproducts of metabolism and are most toxic

Answer 223

hydrogen
organic acids
bases

Question 224

what are kidneys key in balancing

Answer 224

balance fluid through sodium renetion
acid-base balance through h+ and bicarb

Question 225

what is the thin descending loop of henle very permeable to

Answer 225

water 20%

Question 226

which nephron is responsible for concentration of urine

Answer 226

juxtamedullary nephrons

Question 227

which nephron absorbs most of water

Answer 227

juxtamedullary nephrons

Question 228

where is 25% of sodium reabsorbed

Answer 228

thick ascending loop of henle

Question 229

what is reabsorbed in the thick ascending loop of henle

Answer 229

sodium
chloride
potassium
bicarb
calcium
magnesium

Question 230

what is the ratio of molecules for the transporter in the thick ascending loop of henle

Answer 230

1 sodium, 2 chloride, 1 potassium

Question 231

is the proximal tubule isosmotic or hyposmotic

Answer 231

isomotic

Question 232

is the thick ascending loop of henle isosomtic or hyposmotic

Answer 232

hyposmotic

Question 233

what does the thick ascending loop of henle secrete

Answer 233

Hydrogen

Question 234

what is the thick ascending loop of henle NOT premeable to

Answer 234

H2O

Question 235

where is h2o not permealbe to in the kidney

Answer 235

thick ascending loop of henle, early distal tubule

Question 236

when sodium-hydrogen exchanger in thick ascending loop of henle moves sodium into tubular cells, what does it initiate

Answer 236

triple transporter to move into tubular cell

Question 237

what is the pathway of sodium when reabsorbed in the kidney

Answer 237

tubular lumen- tubular cell- renal interstitial fluid

Question 238

where is 5% of sodium reabsorbed

Answer 238

distal convoluted tubule

Question 239

what pump is responsible for sodium being reabsorbed in early distal tubule

Answer 239

sodium chloride transporter

Question 240

in the sodium chloride pump on the early distal convoluted tubule, does chloride come into lumen or go into renal interstitial fluid

Answer 240

from tubular lumen into tubular cell then into renal interstitial fluid

Question 241

what are the two types of transporters/exchangers on the early distal tubule and where are they located

Answer 241

sodium potassium exchanger- between renal interstitial fluid and tubular cells

sodium/chloride transporter- between tubular cells and tubular lumen

Question 242

where do thiazide diuretics work

Answer 242

early distal tubule- on sodium chloride transporter

Question 243

what does thiazide diuretic inhibit

Answer 243

sodium chloride transporter- so sodium stays in lumen and draws water into lumen for excretion

Question 244

in early distal tubule, where does sodium and chloride travel from and to

Answer 244

from tubular lumen to tubular cell and then to renal interstitial fluid

Question 245

what structure has a similar functional to the thick ascending loop of henle

Answer 245

early distal tubule

Question 246

is the early distal tubule permeable to water

Answer 246

NO

Question 247

where are macula densa located

Answer 247

early distal tubule

Question 248

where does active reabsorption of sodium, chloride, calcium, and magnesium occur

Answer 248

early distal tubule

Question 249

what is actively reabsorbed in early distal tubule

Answer 249

sodium
chloride
potassium
magesium

Question 250

what is called the diluting segment

Answer 250

early distal tubule

Question 251

what is the macula densa responsible for

Answer 251

Na Cl balancing

Question 252

what part of tubule is not very permeable to urea

Answer 252

early and late distal tubule/collecting tubule

Question 253

what does permemability of water in late distal tubule/collecting tubule depend on

Answer 253

ADH

Question 254

where are principle cells located

Answer 254

late distal tubule/collecting tubule

Question 255

another name for ADH

Answer 255

vasopressin

Question 256

where are type a intercalated cells located

Answer 256

late distal tubule/collecting tubule

Question 257

what do intercalated cells play a role in

Answer 257

acid base balance

Question 258

in the principal cell, when sodium potassium exchanger puts sodium into renal interstitial fluid (blood), what does that cause

Answer 258

sodium leaky channel brings in sodium from tubular lumen

Question 259

what is renal interstitial fluid

Answer 259

blood

Question 260

in the principal cell, when sodium potassium exchanger puts potassium from renal interstitial fluid in the cell, what does that cause

Answer 260

potassium leaky channel to take potassium from inside cell and put into tubular lumen

Question 261

what does the principal cell work primarily off of

Answer 261

sodium potassium transporter
leaky channels- k and na

Question 262

what are some aldosterone antagonists

Answer 262

spironolactone, eplerenone

Question 263

what are some sodium channel blockers

Answer 263

amiloride, triamterene

Question 264

how do aldosterone antagonists work

Answer 264

bind sodium potassium transporter between renal interstitial fluid and tubular cell, so sodium isn’t pulled from cell into interstitial fluid, so then sodium leaky channel doesn’t bring sodium from tubular lumen into cell. Sodium stays in tubular lumen and draws water into tubular lumen

Question 265

what cell does aldosterone have greatest impact on

Answer 265

principal cell

Question 266

what does aldosterone stimulate

Answer 266

sodium potassium exchanger- so more sodium is reabsorbed

Question 267

what are the potassium sparing diuretic classes

Answer 267

aldosterone antagonists- sprinolactone
sodium channel blockers- amiloride

Question 268

where do sodium channel blockers work

Answer 268

blocks leaky channels on principal cells (which are in late distal tubule/collecting tubule)

Question 269

what do the type a intercalated cells help with

Answer 269

acidosis- help to decrease h and save bicarb

Question 270

what do the type b intercalated cells help with

Answer 270

alkalosis- increase h and decrease bicarb

Question 271

where are the intercalated cells a-b found

Answer 271

late distal tubule/collecting tubule

Question 272

where does adh act

Answer 272

medullar collecting duct

Question 273

what is reabsorbed in medullary collecting duct

Answer 273

sodium
chloride
water
urea
bicarb

Question 274

what is secreted into medullary collecting duct

Answer 274

hydrogen

Question 275

what is peritubular capillary reabsorption

Answer 275

pressure needed to move from interstitial fluid into capillary

Question 276

when is aldosterone produced

Answer 276

low bp, or low extracellular fluid

Question 277

how does aldosterone work

Answer 277

acts on sodium potassium exchanger to increase sodium moving from principal cell into interstitial fluid

Question 278

what cell does aldosterone work in

Answer 278

principal cell

Question 279

what are the factors that increase aldosterone secretion

Answer 279

angiotensin II
increased potassium
adrenocorticotrophic hormone (acth)

Question 280

where is aldosterone secreted from

Answer 280

adrenal cortex

Question 281

what are factors that decrease aldosterone secretion

Answer 281

atrial natriuretic factor
increased na concentration

Question 282

why does increased potassium increase aldosterone

Answer 282

too high potassium= sodium-potassium exchanger isn’t pumping enough potassium out- so it releases to pump more potassium out and more sodium in

Question 283

what is the permissive role of acth

Answer 283

release aldosterone

Question 284

what does high atrial natriuretic factor mean

Answer 284

too much fluid

Question 285

what is the opposite of renin

Answer 285

atrial natriuretic factor

Question 286

what does angiotensin II stimulate the release of

Answer 286

aldosterone

Question 287

where does angiontensin II directly increase sodium reabsorption

Answer 287

distal, and collecting tubules

Question 288

what does angiotensin II do to the efferent arterioles

Answer 288

constricts them

Question 289

what happens when angiotensin II constricts efferent arterioles

Answer 289

-decreased peritubular capillary hydrostatic pressure
-increases filtration fraction which increases peritubular colloid osmotic pressure

Question 290

what is the important thing to remember with angiotensin II

Answer 290

vasoconstriction

Question 291

what are the pumps that angiotensin II affects on tubular cells to increase sodium reabsorption

Answer 291

sodium-potassium-exchanger
sodium-hydrogen-exchanger
sodium-bicarb-transporter

Question 292

what do ace inhibitors, arbs and renin inhibitors decrease

Answer 292

decreases:
aldosterone
sodium reabsorption
efferent arteriolar resistance

Question 293

what is a renin inhibitor example

Answer 293

aliskirin

Question 294

where is ADH secreted from

Answer 294

posterior pituitary gland

Question 295

what does adh increase permeability to and where does it do this

Answer 295

water- distal and collecting tubules

Question 296

what is an important controller of extracellular fluid osmolarity

Answer 296

ADH

Question 297

what hormone allows for differential control of water and solute secretion

Answer 297

ADH

Question 298

what is the most important renal action of adh

Answer 298

increase water permeability in distal tubule/collecting tubule

Question 299

what does adh attach to on tubular cell

Answer 299

V2 receptor

Question 300

when adh binds to v2 receptor, what happens

Answer 300

increases formation of cAMP

Question 301

what does camp activate after creation by adh

Answer 301

protein kinase

Question 302

what does protein kinase stimulate prodction of

Answer 302

protein phosphorylation

Question 303

what does protein phosphorylation stimulate to move to lumen side

Answer 303

aquaporin 2

Question 304

where does aquaporin 2 attach to

Answer 304

wall of tubular cell on the tubular lumen side

Question 305

where are aquaporin 3 and 4 found

Answer 305

tubular cell wall on interstitial fluid side

Question 306

what is the gateway for water to flow from tubular lumen into interstitial fluid

Answer 306

aquaporins

Question 307

what does anp increase excretion of

Answer 307

Na

Question 308

what are the 3 things anp inhibits

Answer 308

sodium reabsorption
renin release
aldosterone formation

Question 309

what impact does anp have on gfr

Answer 309

increases

Question 310

how does diabetes cause diuresis

Answer 310

osmosis
water follows glucose

Question 311

does an increase or decrease of unreabsorbed solutes in tubules decrease water reabsorption

Answer 311

increase

Question 312

what tests measure plasma concentration of waste products

Answer 312

BUN
creatinine

Question 313

what measures urine concentrating ability

Answer 313

urine specific gravity (1-2)

Question 314

what measures albumin excretion

Answer 314

microalbuminuria

Question 315

what describes rate at which substances are removed from plasma

Answer 315

clearance

Question 316

what is the volume of plasma completely cleared of a substance per min by kidney

Answer 316

renal clearance

Question 317

clearances of different substances

Answer 317

glucose- 0
albumin- 0
sodium- 0.9
urea- 70
inulin- 125
creatinine- 140
pah-600

Question 318

what should renal clearance be equal to

Answer 318

GFR

Question 319

what does efferent arteriole turn into

Answer 319

vasa recta- which wraps around loop of henle

Question 320

what is between the bowman’s capsule and the descending loop of henle

Answer 320

proximal convoluted tubule

Question 321

what is the between the ascending loop of henle and the collecting duct

Answer 321

distal convoluted tubule

Question 322

what gets reabsorbed in proximal convoluted tubule

Answer 322

sodium
chloride
potassium
glucose
amino acids
urea
water
bicarb

Question 323

where do juxtaglomerular nephrons lie

Answer 323

bottom of cortex right near medulla

Question 324

which nephrons concentrate urine

Answer 324

juxtamedullary nephrons

Question 325

what is main thing loop of henle reabsorbs

Answer 325

water

Question 326

what is reabsorbed at thick ascending loop of henle

Answer 326

na, cl, k, bicarb, ca, mag

Question 327

where is the sodium potassium exchanger located in the nephron

Answer 327

collecting duct

Question 328

where is the sodium chloride transporter found in nephron

Answer 328

distal convoluted tubule

Question 329

how does sodium potassium exchanger work in dct

Answer 329

sodium is moved from dct to blood
potassium is moved from blood to dct

Question 330

what is reabsorbed from late distal convoluted tubule

Answer 330

sodium
chloride
potassium
bicarb
water (adh)

Question 331

what is reabsorbed from collecting duct

Answer 331

sodium
chloride
bicarb
urea
water (adh)

Question 332

what are parts of nephron where things are primarily secreted

Answer 332

proximal convoluted tubule

Question 333

how is creatine removed from body

Answer 333

urine

Question 334

what is the byproduct of breakdown of muscle and protein

Answer 334

creatinine

Question 335

what is secreted into proximal convoluted tubule (lumen)

Answer 335

hydrogen, organic acids, bases, creatinine, drugs

Question 336

what is secreted into distal convoluted tubule

Answer 336

hydrogen
potassium

Question 337

where is most (65%) of sodium reabsorbed from in kidney

Answer 337

proximal convoluted tubule

Question 338

where is a high concentration of sodium bicarb reabsorbed from

Answer 338

proximal convoluted tubule

Question 339

what does the triple transporter transport and where does it do so

Answer 339

thick ascending loop of henle
Sodium
2 chloride
potassium

Question 340

where is 25% of sodium reabsorbed from in kidney

Answer 340

thick ascending loop of henle

Question 341

what is reabsorbed in the early distal convoluted tubule

Answer 341

sodium
chloride
calcium
magesium

Question 342

where is 5% of sodium reabsorbed from

Answer 342

distal convoluted tubule

Question 343

in the sodium potassium exchanger in the collecting duct, what is also secreted into collect duct with potassium

Answer 343

hydrogen

Question 344

where is 1-2% of sodium reabsorbed from

Answer 344

collecting duct

Question 345

where does osmotic diuretics work

Answer 345

proximal convoluted tubule

Question 346

what transporter do loop diuretics work on

Answer 346

triple transporter

Question 347

what ions are transported paracellularly from lumen to blood

Answer 347

Ca
Mg

Question 348

what channel does sodium channel blocking diuretics block

Answer 348

sodium leaky channel- so sodium can’t get out of lumen and into cell

Question 349

where does aldosterone antagonist have effect and on what transporter

Answer 349

collecting duct- on sodium potassium exchanger

Question 350

what does aldosterone increase the number of

Answer 350

sodium potassium exchanger- so more sodium gets out of cell into blood

Question 351

how do lungs play a role in hydrogen regulation

Answer 351

increased hydrogen= increased ventilation to increase co2 exhalation

Question 352

how do kidneys regulate hydrogen ions

Answer 352

secrete H
reabsorb bicarb
generates new bicarb

Question 353

what is the most important extracellular fluid buffer

Answer 353

bicarb

Question 354

what kind of buffers are phsophate and ammonia

Answer 354

renal tubular buffers

Question 355

what is the intracellular buffer

Answer 355

proteins (Hgb)

Question 356

what does phosphate and hydrogen form

Answer 356

phosphuric acid

Question 357

what does ammonia and hydrogen form

Answer 357

ammonium

Question 358

what does proteins and hydrogen form

Answer 358

hydrogen-hemoglobin

Question 359

why does hydrogen have to be buffered instead of excreted

Answer 359

fixed amount of hydrogen that can be directly excreted from kidneys

Question 360

what is the most important kidney hydrogen buffer system

Answer 360

bicarb

Question 361

what is pk

Answer 361

concentration of hydrogen at a certain ph

Question 362

what is a normal pk level

Answer 362

6.1- this is when bicarb and co2 are balanced

Question 363

what enzyme is necessary for the carbonic acid equation

Answer 363

carbonic anhydrase

Question 364

what systems closely regulates the bicarbonate buffer system

Answer 364

lungs and kidneys

Question 365

what is the most important buffer in extracellular fluid

Answer 365

bicarbonate buffer system

Question 366

how much co2 is carried in the blood as bicarbonate

Answer 366

70%

Question 367

what happens to alveolar ventilation when there is an increase in hydrogen ions

Answer 367

increases ventilation

Question 368

does increased co2 lead to increased or decreased aciditiy

Answer 368

increased

Question 369

what can reabsorb, produce new, filter, or excrete bicarb

Answer 369

kidney

Question 370

what are some non volatile acid the kidneys eliminate

Answer 370

sulfuric acid, phosphoric acid

Question 371

what does the kidneys conserve or excrete depending on body needs

Answer 371

bicarb

Question 372

if the body is in an alkalotic state, what will the kidney excrete MORE of

Answer 372

bicarb

Question 373

if the body is an acidosis state, what will kidney excrete LESS of

Answer 373

bicarb

Question 374

where is most of bicarbonate reabsorbed in nephron (85%)

Answer 374

proximal convoluted tubule

Question 375

for each bicarbonate reabsorbed, there must be a _________ secreted

Answer 375

hydrogen

Question 376

where is 10% of bicarbonate reabsorbed in

Answer 376

ascending thick portion of loop of henle

Question 377

where is 5% of bicarbonate reabsorbed

Answer 377

late-distal-tubule

Question 378

when pco2 is increased, such as in respiratory acidosis, what happens to hydrogen secretion

Answer 378

increases

Question 379

when extracellular hydrogen increases, what happens to h+ secretion

Answer 379

increases

Question 380

when tubular fluid buffers and increased, what happens to H+ secretion

Answer 380

increases

Question 381

what factors increase h+ secretion and hco3 reabsorption

Answer 381

increased: pco2, hydrogen, aldosterone, agiotensin II

decreased: bicarb, extracellular fluid volume, potassium

Question 382

when the body is increasing h+ secretion and hco3 reabsorption, what state is the body in

Answer 382

acidosis

Question 383

how do aldosterone and angiotensin II increase h+ secretion and bicarb rebsorption

Answer 383

increase sodium uptake which increases h+ secretion via sodium-hydrogen exchanger

Question 384

what conditions in body drive angiotensin II and aldosterone release

Answer 384

low bp,
low extracellular fluid

Question 385

how does hypokalemia lead to increase hydrogen secretion

Answer 385

on intercalated cell, there is a hydrogen potassium exchanger, so when there is low potassium, body tries to reabsorb more potassium, so then more hydrogen gets secreted out

Question 386

what happens to hydrogen secretion, bicarb reabsorption, and bicarb production during acidosis

Answer 386

H= increased secretion
bicarb= increased reabsorption
bicarb= increase production

Question 387

what happens to hydrogen secretion, bicarb reabsorption, and bicarb in urine during alkalosis

Answer 387

h= decreased secretion
bicarb= decreased reabsorption
bicarb= increased in urine

Question 388

can enough free hydrogen be removed by only secretion/excretion

Answer 388

no- needs buffers

Question 389

what is the minimum urine ph

Answer 389

4.5,

any more acidic will damage tissues

Question 390

t or f- kidney is not limited to amount of free hydrogen that can be excreted

Answer 390

false

Question 391

what is NH3

Answer 391

ammonia

Question 392

what is NH4

Answer 392

ammonium

Question 393

what is made from metabolism of amino acids in the liver

Answer 393

glutamine

Question 394

is ammonium or phosphate buffer system more important

Answer 394

ammoinum

makes more bicarb

Question 395

is NH3 or NH4 more permeable

Answer 395

NH3

Question 396

what is the goal ratio of hco3 to co2

Answer 396

20 : 1

Question 397

normal bicarb range

Answer 397

22-26

Question 398

normal PaCO2

Answer 398

35-45

Question 399

what is majority of cations

Answer 399

Na

Question 400

what are anions

Answer 400

Cl
bicarb

Question 401

t or f- cations and anions are usually equal in the body

Answer 401

true

Question 402

what are unmeasured anions

Answer 402

proteins
phosphates
sulfate
lactate

Question 403

what are unmeasured cations

Answer 403

K
Mg
Ca

Question 404

normal anion gap

Answer 404

8-16 mEq/L

Question 405

what causes abnormal anion gap

Answer 405

dka
ethylene glycol poisoning

Question 406

what are normal cation and anion levels

Answer 406

142 Cation
132 Anion

Question 407

when there is an increase in anion gap, what is being thrown off

Answer 407

the unmeasurable anions or cation

Question 408

what are preventions of blood loss

Answer 408

-vascular constriction
-Formation of a platelet plug
-Formation of a blood clot
-Healing of vascular damage (clot remodeling/repair)
-fibrinolysis

Question 409

what are the key events in hemostasis

Answer 409

1. severed vessel
2. platelets agglutinate
3. fibrin appears
4. fibrin clot forms
5. clot retraction occurs

Question 410

what causes vascular constriction

Answer 410

Myogenic spasm

Local autocoid factors from damaged tissues and platelets

Nervous reflexes

Smaller vessels: thromboxane A2 released by platelets

Question 411

characteristics of platelets

Answer 411

Released by fragmentation of megakaryocytes

normal level: 150–300,000 per µL

Half-life in blood of 8–12 days

Question 412

what are platelet funtions

Answer 412

Contractile capabilities
-Actin, myosin, thrombosthenin (contractile protein)

Residual ER and Golgi
-Synthesize enzymes, prostaglandins, fibrin-stabilizing factor, PDGF, store Ca++

Mitochondria/enzymes
-Produce ATP, ADP

Question 413

what are the platelet membranes

Answer 413

surface glycoprotein
membrane phospholipids

Question 414

what is the function of surface glycoproteins

Answer 414

Repels intact endothelium

Adheres to injured endothelium and exposed collagen

Question 415

what is the function of membrane phospholipids on platelets

Answer 415

activate blood clotting

Question 416

what is the process of formation of the platelet plug

Answer 416

-contact with damaged endothelium

-adhere to collagen and vWF

-other platelets accumulate, adhere, and contract, form plug, initiate clotting

Question 417

what does contact with damaged endothelium result in

Answer 417

-assume irregular forms

-endothelium contracts and release granules (ADP and thromboxane A2)

Question 418

what can very low platelets present like

Answer 418

petechiae
bleeding gums

Question 419

in severe vascular trauma, how long for clot formation

Answer 419

15-20 seconds

Question 420

how quickly can an occlusive clot form

Answer 420

within 3-6 min unless very large vascular defect

Question 421

how long does it take for clot retraction

Answer 421

20-60 min

Question 422

what happens within 1-2 weeks of clot formation

Answer 422

-invasion by fibroblasts
-organization into fibrous tissue

Question 423

what are the effector proteins for clotting

Answer 423

prothrombin
fibrinogen

Question 424

characteristics of prothrombin

Answer 424

-α2 globulin,
-15 mg/dL in plasma
-Vitamin K-dependent synthesis in liver
-Cleaved by PT activator to thrombin

Question 425

characteristics of fibrinogen

Answer 425

-100–700 mg/dL in plasma

-Synthesized in the liver (acute phase reactant)

-Usually intravascular; can extravasate with increased vascular permeability

Question 426

what cleaves 4 small peptides from fibrinogen

Answer 426

thrombin

fibrin monomer-> spontaneous polymerization

Question 427

what helps to form clot reticulum

Answer 427

long fibrin fibers

Question 428

characteristics of fibrin stabilizing factor

Answer 428

In plasma and released from platelets

Activated by thrombin

Covalent cross-linking of fibrin monomers and adjacent fibrin fibers

Question 429

what is bound to platelets and trapped in the clot

Answer 429

thrombin

Question 430

what system does thrombin and clot formation work on

Answer 430

positive feedback

Question 431

___ produces more prothrombin activator by acting on other clotting factors

Answer 431

thrombin

Question 432

what is generated at the periphery of the clot

Answer 432

additional fibrin monomers and polymers

Question 433

when does clot retraction begin

Answer 433

within 20-60 min

Question 434

what binds to the damaged vessel wall

Answer 434

fibrin

Question 435

what causes clot contraction

Answer 435

actin, myosin and thrombosthenin

Question 436

describe clot retraction

Answer 436

clot tightens expressing serum and closes the vascular defect

Question 437

what are the two clotting pathways

Answer 437

Extrinsic pathway—Trauma to vessel wall and adjacent tissues

Intrinsic pathway—Trauma to the blood or exposure of the blood to collagen

Question 438

what factor activates the extrinsic pathway

Answer 438

tissue factor

Question 439

what factor activates the intrinsic factor

Answer 439

exposure to factor XII
exposure of platelets to collagen

Question 440

what is the time to clot for extrinsic pathway

Answer 440

<15 sec

Question 441

how long for clotting in intrinsic pathway

Answer 441

1-6min

Question 442

what prevents clotting

Answer 442

-smoothness of endothelial surface

mucopolysaccharide coating (glycocalyx) repels platelets and clotting factors

thrombomodulin

protein C

Question 443

how does mucopolysaccharide coating (glycocalyx) prevent clotting

Answer 443

it repels platelets and clotting factors

Question 444

how does thrombomodulin prevent clotting

Answer 444

Thrombomodulin bound to endothelium binds (competes for) thrombin

Question 445

how does activated protein C prevent clots

Answer 445

Thrombin-thrombomodulin activates Protein C→ inactivates factors V and VIII

Question 446

how does thrombin become localized to the clot

Answer 446

Fibrin fibers bind 85–90% of thrombin and localize it to the clot

Question 447

how does antithrombin III work in the negative feedback system

Answer 447

Antithrombin III combines with the remainder and inactivates it over 12–20 minutes.

Question 448

what is the charge of heparin

Answer 448

highly negative

Question 449

MOA of heparin

Answer 449

Binds anti-thrombin III and increases its effectiveness 100–1000-fold

Heparin-antithrombin III removes free thrombin from the blood almost instantly.

Also removes XIIa, XIa, Xa, and IXa

Question 450

where can heparin be found in the body

Answer 450

Mast cells,

basophils particularly abundant in pericapillary regions of liver and lung

Question 451

what causes clot lysis

Answer 451

Plasminogen is trapped in the clot.

Over several days, injured tissues release tissue plasminogen activator (tPA).

Plasminogen is activated to plasmin, a protease resembling trypsin.

Plasmin digests fibrin fibers and several other clotting factors.

Often results in reopening repaired small blood vessels

Question 452

what are some causes of excessive bleeding

Answer 452

Hepatocellular disease

Vitamin K deficiency

Hemophilia

Low platelet count (thrombocytopenia)

Question 453

what is essential to carboxylate glutamic acid and 5 clotting factors

Answer 453

vitamin K

Question 454

what clotting factors are affected by Vit K deficiency

Answer 454

prothrombin
factor VII
factor IX
factor X
protein C

Question 455

what happens in vitamin K deficiency

Answer 455

In this process vitamin K is oxidized and inactivated.

Vitamin K epoxide reductase complex 1 (VKOR c1) reduces vitamin K and reactivates it.

Question 456

where is vitamin K produced

Answer 456

intestines by gut bacteria

Question 457

what can cause fat malabsorption and vitamin K deficiency

Answer 457

lack of bile production
lack of bile delivery

Question 458

what can be done for patients with liver or biliary disease before surgery

Answer 458

In patients with liver or biliary disease, vitamin K can be injected 4–8 hours before surgery.

Question 459

what can also lead to vit K deficiency

Answer 459

malabsorption of fats

vitamin K is fat soluble

Question 460

hemophilia A

Answer 460

Deficiency of factor VIII

85% of hemophilia cases

1/10,000 males

Both genes are on the X chromosome (males only get one copy).

Question 461

hemophilia B

Answer 461

Deficiency of factor IX

15% of cases

Question 462

how does hemophilia effect bleeding

Answer 462

both A and B impair the intrinsic pathway

clinically present: bleeding after minor trauma

Question 463

what factor deficiency cause hemophilia A

Answer 463

factor VIII

Deficiency of the small component causes hemophilia A.
→ Treat bleeding with factor VIII replacement.

Question 464

what factor deficiency causes vWF disease

Answer 464

factor VIII large component

Deficiency of the large component causes von Willebrand disease (resembles decreased platelet function).

Question 465

what are the two components of factor VIII deficiency

Answer 465

Large: MW >106

Small: MW ~230,000

Question 466

characteristics of thrombocytopenia

Answer 466

Low numbers of platelets

Bleeding from small venules or capillaries

Petechaiae, thrombocytopenic purpura

Often idiopathic
< 50,000 platelets/µL—usually modest bleeding
< 10,000 platelets/µL—life-threatening

Question 467

how do you treat thrombocytopenia

Answer 467

platelet infusion

infusion is effective for 1-4 days each time

Question 468

what is a thrombus

Answer 468

an abnormal clot

Question 469

what is an embolus

Answer 469

a thrombus that floats/gets dislodged

Question 470

what can cause emboli/thrombi

Answer 470

Endothelial roughening (e.g., atherosclerosis)

Slow flow (e.g., prolonged air travel)

Question 471

what is the treatment for thrombus/embolus

Answer 471

tPA
embolectomy

Question 472

where does pulmonary embolus usually originate from

Answer 472

deep leg veins

Question 473

what is DIC

Answer 473

disseminated intravascular coagulation

Occurs in the setting of massive tissue damage or sepsis

Wide-spread coagulation in small vessels

Manifested as bleeding from multiple sites because of depletion of clotting factors

Question 474

what are some anticoagulants

Answer 474

heparin
coumarins

Question 475

how does heparin work

Answer 475

Binds, potentiates antithrombin III

Works rapidly, generally used acutely

Question 476

how do coumarins work

Answer 476

Inhibit VKOR c1

Deplete active vitamin K → deplete active prothrombin, factors VII, IX, X

Slower acting (days); used chronically

Question 477

how do you treat over anticoagulation of coumarins

Answer 477

treat with FFP and vitamin K

Question 478

what are calcium chelators and what are they used in

Answer 478

citrate, EDTA

used in blood collection and blood storage

Question 479

bleeding time coag test

Answer 479

normal 1-6 min

reflects platelet function

Question 480

clotting time coag test

Answer 480

-invert tube every 30 sec

normal 6-10 min

not reproducible, not generally used

Question 481

Prothrombin time coag test

Answer 481

normal 12 sec

assess extrinsic and common pathways

Add excess calcium and tissue factor to oxylated blood, measure time to clot

tissue factor batches have to be standardized (activity expressed as “international sensitivity index” (ISI)

Question 482

INR coag test

Answer 482

“international normalized ratio”

Normal: 0.9 - 1.3

therapeutic range 2.0-3.0

INR= PT test / PT normal

Question 483

how do you test for other clotting factors

Answer 483

Mix the patient’s plasma with a large excess of all needed components except the factor being tested.

Compare time to coagulation with that for pooled plasma of healthy volunteers.

Question 484

how is hemostasis acheived

Answer 484

(1) vascular constriction,
(2) formation of a platelet plug,
(3) formation of a blood clot as a result of blood coagulation,
(4) eventual growth of fibrous tissue into the blood clot to close the hole in the vessel permanently.

Question 485

what does trauma to vessel cause

Answer 485

smooth muscle contract in vessel
results from
(1) local myogenic spasm,
(2) local autacoid factors from the traumatized tissues
and blood platelets,
(3) nervous reflexes

Question 486

how is the nervous reflex initiated in the vessel contraction

Answer 486

initiated by pain nerve impulses or other sensory impulses that originate from the traumatized vessel or nearby tissues

Question 487

myogenic contraction of the vessel

Answer 487

initiated by direct damage to the vascular wall.

the smaller vessels, the platelets are responsible for much of the vasoconstriction
by releasing a vasoconstrictor substance, thromboxane A2.

Question 488

The more severely a vessel is traumatized, the greater the ______

Answer 488

the degree of vascular spasm

Question 489

where are platelets formed

Answer 489

bone marrow from megakaryocytes

Question 490

factor I

Answer 490

fibrinogen

Question 491

factor II

Answer 491

prothrombin

Question 492

factor 3

Answer 492

tissue factor

Question 493

factor 4

Answer 493

calcium

Question 494

factor 5

Answer 494

proaccelerin

“labile factor”

Question 495

factor VII

Answer 495

serum prothrombin conversion accelerator (SPCA)

proconvertin

stable factor

Question 496

factor VIII

Answer 496

antihemophilic factor (AHF)

antihemophilic globulin (AHG)

antihemophilic factor A

Question 497

Factor IX

Answer 497

plasma thromboplastin component (PTC)

Christmas factor

antihemolitic factor B

Question 498

Factor X

Answer 498

stuart prower factor

Question 499

factor XI

Answer 499

plasma thromboplastin antecedent (PTA)

antihemolitic factor C

Question 500

Factor XII

Answer 500

Hageman Factor

Question 501

Factor XIII

Answer 501

fibrin stabilizing factor

Question 502

prekallikrein

Answer 502

fletcher factor

Question 503

High molecular weight kininogen

Answer 503

Fitzgerald factor
HMWK

Question 504

What is required by the liver for normal activation of prothrombin and many other clotting factors

Answer 504

Vitamin K

Question 505

Where is fibrinogen formed

Answer 505

In the liver

Question 506

What is the reticulum of the clot

Answer 506

Many fibrin monomer molecules that polymerize within seconds into long fibrin fibers make up the reticulum of the blood clor

Question 507

What does plasmin digest

Answer 507

Fibrin fibers
Fibrinogen
Factor V
Factor VIII
Factor XII

Question 508

Vitamin K adds a ___ to _____ on which 5 clotting factors

Answer 508

Carboxylic group to glutamic acid

Prothrombin
Factor VII
Factor 9
Factor X
Protein C

Question 509

name the surface glycoproteins on platelets

Answer 509

glycoprotein Ia
glycoprotein IIb/ IIIa

Question 510

what in in the granules released when platelets come into contact with damaged endothelium

Answer 510

ADP
Serotonin
thromboxane A2

Question 511

where is vWF produced

Answer 511

endothelium

Question 512

ADP + thromboxane A2 does what

Answer 512

activates glycoproteins so that platelets stick together

Question 513

what is PDGF

Answer 513

platelet derived growth factor

aids in the repair of muscle and connective tissue during clot retraction

Question 514

what is VEGF

Answer 514

vascular endothelial growth factor

aids in repair of vessels and endothelium during clot retraction

Question 515

what initiates/activates factor 12

Answer 515

negative charge on the platelet plug

Question 516

what does protein C do

Answer 516

binds to and inactivates factor 5 and 8

Question 517

what does Nitric oxide do

Answer 517

nitric oxide binds with PGI2 to inactivate glycoproteins on platelets

Question 518

what factors are affected by heparin

Answer 518

XIIa,
XIa
Xa
IXa
IIa

Question 519

what does tpa do

Answer 519

converts plasminogen to plasmin which “eats” up fibrin

Question 520

what is byproduct of plasmin destroying fibrin

Answer 520

fibrinogen
d dimer

Question 521

What substances are the kidneys the only means of excretion

Answer 521

Sulfuric acid and phosphoric acid generated by metabolism of proteins

Question 522

Micturition reflex steps

Answer 522

1. Progressive and rapid increase of pressure
2. Period of sustained pressure
3. Return of the pressure to the basal tone of the bladder

Question 523

What is GFR determined by

Answer 523

Balance of hydrostatic and colloid osmotic forces

Capillary filtration coefficient

Question 524

Filtration fraction=

Answer 524

GFR / renal plasma flow

Question 525

What are the three layers of the glomerular capillary membrane

Answer 525

Endothelium
Basement membrane
Epithelial cells (podocytes)

Question 526

What factors influence the glomerular capillary colloid osmotic

Answer 526

Arterial plasma colloid pressure

Filtration fraction

Question 527

What is filtration fraction

Answer 527

The fraction of plasma filtered by the glomerular capillaries

Question 528

What does increase in filtration fraction result in

Answer 528

Raised glomerular colloid osmotic pressure

Question 529

Glomerular hydrostatic pressure is determined by what

Answer 529

Arterial pressure
Afferent arteriolar resistance
Efferent arteriolar resistance

Question 530

The greater the concentration of Na in the proximal tubules, the

Answer 530

Greater it’s reabsorption rate

Question 531

The slower the flow rate of tubular fluid the

Answer 531

Greater the percentage of Na that can be reabsorbed from the proximal tubules

Question 532

What is the macula densa

Answer 532

A group of closely packed epithelial cells that is part of the juxtaglomerular complex and provides feedback control of GFR and blood flow in the nephron

Question 533

Aldosterone site of action

Answer 533

Collecting tubule and duct

major site of action is in the principal cells of cortical collecting tubule

Question 534

Aldosterone effect on tubular reabsorption

Answer 534

Increase NaCl and H2O reabsorption
Increase K secretion
Increase hydrogen ion secretion

Question 535

Angiotensin II site of action

Answer 535

Proximal tubule
Thick ascending LOH
Collecting tubule

Question 536

AngiotensinII effects on tubular reabsorption

Answer 536

Increase NaCl and H2O reabsorption
Increase hydrogen secretion

Question 537

ADH site of action

Answer 537

Distal tubule
Collecting tubule/duct

Question 538

ADH effect on tubule reabsorption

Answer 538

Increases water reabsorption

Question 539

Atrial natriuretic peptide site of action

Answer 539

Distal tubule
Collecting tubule/duct

Question 540

Atrial natriuretic peptide effect on tubule reabsorption

Answer 540

Decrease NaCl reabsorption

Question 541

Parathyroid hormone site of action

Answer 541

Proximal tubule
Thick ascending LOH
Distal tubule

Question 542

Parathyroid hormone effects on tubular reabsorption

Answer 542

Decreases PO4 reabsorption
Increases Ca reabsorption

Question 543

What are hormones that regulate tubular reabsorption

Answer 543

Aldosterone
Angiotensin II
ADH
ANP
Parathyroid hormone

Question 544

What the most important stimuli for aldosterone

Answer 544

Increased K concentration

Increased angiotensin II levels

Question 545

What’s the body’s most powerful sodium retaining hormone

Answer 545

Angiotensin II

Question 546

What are the two variables that influence sodium and water excretion

Answer 546

Rate of glomerular filtration

Tubular reabsorption

Question 547

Where does angiotensin II constrict

Answer 547

Efferent arterioles and increases GFR

Question 548

Filtration, reabsorption and excretion of sodium

Answer 548

25,560
25,410
150

Question 549

What activates protein C

Answer 549

Thrombin-thrombomodulin

Question 550

how does parathyroid hormone increase Ca reabsorption

Answer 550

-increases Ca reabsorption in kidneys
-increases Ca reabsorption in gut
-decreases phosphate reabsorption
-increases intracellular Ca

Question 551

MOH of ADH in distal and collecting tubules

Answer 551

Question 552

what pumps does angiotensin II work on

Answer 552

ATPase pump
Na Bicarb pump
Na hydrogen ion pump

Question 553

Na Channel blockers work on what

Answer 553

leaky Na channels in late distal/collecting tubules

Question 554

what do aldosterone antagonists work on

Answer 554

Na K atpase pump in late distal and cortical collecting tubules

Question 555

what are the three steps to Na Reabsorption?

Answer 555

1. diffuses because on concentration and electrical from lumen into tubular cells
2. Na transported against electrical gradient by ATP
3. Na and H2O move from ICF to capillaries by osmotic pressure

Question 556

what symporter does loop diuretics work on

Answer 556

tri sympoter in thick ascending loop of henle
1 Na, 2 Cl, 1 K

Question 557

what symporter does thiazide work on

Answer 557

Na Cl symporter in early distal tubule

Question 558

important points on early distal tubule

Answer 558

-not permeable to water
-active reabsorption of Na, Cl, K, Mg
-contains macula densa
-5% of filtered load NaCl reabsorbed

Question 559

trace starting from thick ascending LOH

Answer 559

early distal tubule
late distal tubule
connecting tubule
collecting tubule
collecting duct

Question 560

where does ADH work

Answer 560

late/distal tubule and collecting tubule