Renal

Question 1

Proximal convoluted Tubule

Answer 1

brush border reabsorbs ALL glucose and AA

reabsorbs most bicarb, sodium, chloride, potassium, water, uric acid, and PO4^3-

(PTH inhibits sodium/phosphorus cotransport)

Question 2

Thick Ascending Loop of Henle

Answer 2

reabsorb Na (20%), K, Cl, Mg/Ca
Na/K ATPase, Cl/K pump
impermeable to water
urine less concentrated

Question 3

Distal Convoluted tubule

Answer 3

reabsorb Na (5-10), Cl
can’t reabsorb water
Na/K ATPase
PTH: Na/Ca antiporter; inc ca reabsorption via Ca/Na exhange

makes urine fully dilute (hypotonic)

Question 4

Collecting Tubule

Answer 4

reabsorbs Na (3-5) in exchange for K/H
aldosterone regulates impacting exchanger of Na/H20

ADH increases aquaporin on apical side of membrane (urine side) > inc urea reabsorption

Question 5

Where is angiotensinogen made

Answer 5

liver

Question 6

Where is renin secreted from

Answer 6

Juxtaglomerular cells in kidney

Question 7

What stimulates renin

Answer 7

decrease in renal perfusion, b1 adrenergic effect

Question 8

Where is angiotensin converting enzyme (ACE) made

Answer 8

lung and kidney

located in multiple tissues; conversino occurs most in the lung, provided by vascular endothelial cells in lung

Question 9

What does angiotensin II do

Answer 9

increase sympathetic activity
increase aldosterone
tubular Na, Cl reabsorption and K excretion, H20 retention
arteriolar vasoconstriction, increase BP
increase ADH to increase H20 reabsorption
limit reflex bradycardia

Question 10

renin function

Answer 10

decrease NaCl reabsorption

Question 11

Inhibition of RAAS

Answer 11

normal renal profusion, ANP/BNP

Question 12

ANP/BNP (atrial/brain natriuretic peptide)
released from…
due to..
functions

Answer 12

released from atria and ventricles d/t inc volume to inhibit RAA system

inhibit RAAS; relaxes vascular smooth muscle via cGMP leading to increased GFR and decreased renin, dilates afferent arteriole

Question 13

ADH (vasopression)

functions

Answer 13

regulates serum osmolality
responds to low blood volume states
stimulates reabsorption of water and urea in collecting ducts

Question 14

Respiratory acidosis

Answer 14

low pH, high CO, high bicarb

hypoventilation (obstruction, lung dz, opiods, sedatives, weak respiratory muscles) > hypoxia

Question 15

respiratory acidosis clinical

Answer 15

rapid, shallow respirations, hypotension, dyspnea, headache, hyperkalemia, dysrhythmias, drowsiness, dizziness, disorientation, muscle weakness, hyperreflexia

Question 16

metabolic acidosis w/ high anion gap

Answer 16

low ph, low bicarb, elevated anion gap
GOLDMARK
glycols, oxoproline, l-lactate, methanol, aspirin, renal failure, ketones

Question 17

Anion gap

Answer 17

sodium- cl+bicarb

Question 18

metabolic acidosis w/ normal gap cause

Answer 18

HARDASS

hyperchloremia, Addison dz, renal tubular acidosis, diarrhea, acetazolamide, spironolactone, saline infusion

Question 19

Respiratory alkalosis

Answer 19

low CO2, high pH

Question 20

Respiratory alkalosis clinical/cause

Answer 20

hyperventilation (anxiety, hypoxemia, salicylates, tumor, PE, pregnancy)

tachycardia, hypo or N BP, hypokalemia, numbness and tingling of extremities, hyper reflexes & muscle cramping, seizures, irritability

Question 21

Saline-resistant metabolic alkalosis

Answer 21

high chloride
hyperaldosteronism
Bartter syndrome
Gitelman syndrome

Question 22

saline-responsive metabolic alkalosis

Answer 22

low chloride
vomiting
recent loop/thiazide diuretics
antacids

Question 23

respiratory acidosis causes

Answer 23

airway obstruction 
acute lung disease 
chronic lung disease 
opioids, sedatives 
weakening of respiratory  muscles

Question 24

metabolic acidosis w/ high anion gap causes

Answer 24

diabetic ketoacidosis
hypoxia
carbonic anhydrase inhibitor
renal tubular acidosis

Question 25

metabolic acidosis clinical

Answer 25

headache, hypotension, hyperkalemia, muscle twitching, warm flushed skin, N/V, dec muscle tone. dec reflexes, kussmaul respirations,

Question 26

respiratory alkalosis cause

Answer 26

anxiety, hypoxemia, salicylates, tumor, PE, pregnancy

Question 27

metabolic alkalosis clinical

Answer 27

restlessness followed by lethargy 
dysrhythmias 
compensatory hypoventilation 
confusion 
N/V 
diarrhea 
tremors
muscle cramps
hypokalemia 
paresthesia

Question 28

Nephritic syndrome path

Answer 28

glomerular inflammation leads to basement membrane damage > loss of RBC in urine > hematuria

Question 29

Nephritic syndrome clinical

Answer 29

hematuria, RBC cats, oliguria, azotemia, HTN, proteinuria (mild), increased renin release

Question 30

thin descending loop of henle

Answer 30

passive reabsorption of water
impermeable to sodium
makes urine hyeprtonic (concentrated)

Question 31

ACE function

Answer 31

catalyzes conversion of angiotensin I to II

Question 32

aldosterone function and mechanism

Answer 32

regulates extracellular volume and sodium content by targeting kidneys in response to hypovolemic and hyperkalemic (inc potassium excretion) states

Question 33

low bicarb =

Answer 33

metabolic acidosis

Question 34

high bicarb =

Answer 34

metabolic alkalosis (check urine chloride)

Question 35

with low bicarb you suspect ___ and should check ___

Answer 35

metabolic acidosis, anion gap

Question 36

with high bicarb you suspect ___ and should check ___

Answer 36

metabolic alkalosis, urine chloride

Question 37

nephritic syndrome ex

Answer 37

infxn-associated glomerulonephritis
goodpasture syndrome
igA nephropathy (berger dz)
alport syndrome
membranoproliferative glomeulonephritis

Question 38

infxn associated glomerulonephritis etiology

Answer 38

type II hypersensitivity rxn
kids: group A strep
Adults: straph or strep

Question 39

IgA nephropathy (berger disease)

Answer 39

episodic hematuria occuring concurrently with respi or GI infxn

igA secreted by mucosal linings

Question 40

alport syndrome

Answer 40

mutation of type IV collagen
irregular thinning and thickening and splitting of glomerular basement membrane
x-linked dominant condition
cant see, cant pee, cant hear a bee

Question 41

nephrotic syndrome etiology

Answer 41

podocyte damage > impaired charge barrier > MASSIVE proteinuria

associated with hypercoagulable state d/t antithrombin III loss in urine

Question 42

nephrotic syndrome clinical characteristics

Answer 42

edema, hypoalbuminemia, HLD, frothy urine with fatty casts

Question 43

nephrotic syndrome ex

Answer 43

primary
secondary - amyloidosis, diabetic glomerulonephropathy, lupus nephritis, fabry dz

both - focal segmental glomerulosclerosis, minimal change dz, membranous glomerulopathy, membranoproliferatie glomerulonephritis

Question 44

glomerulosclerosis etiology

Answer 44

idiopathic, or due to other conditions:

HIV, sickle cell, heroin use, obesity, congenital malformations, drug induced

Question 45

glomerulosclerosis complication

Answer 45

CKD

Question 46

erythryopoietin:

released from where
in response to what
function

Answer 46

released from interstitial cells in peritubular capillary bed in response to hypoxia

stimulate RBC proliferation in BM

Question 47

calciferol (VitD) conversion process, and stimulation

Answer 47

PCT converts OH > OH calcitrol active form via 1a hydroxylase
^ by PTH

Question 48

prostaglandins are secreted from where to do what

Answer 48

secreted by paracrine to vasodilate afferent arterioles to increase RBF

Question 49

dopamine is secreted by what cells to do what

Answer 49

secreted by PCT cells to promote natriuresis

low doses: dilate interlobar arterise, aff arterioles, and eff arterioles to inc RBF
with little to no change in GFR

high doses: acts as a vasoconstrictor

Question 50

PTH:
secreted from where
in response to what
function

Answer 50

secreted by hypothalamus/pituitary in response to dec Ca, inc phosphate or dec vit D

causes increase of Ca RA in DCT, dec phos RA in PCT, inc active D production

increases both Ca and phos absorption from gut

Question 51

what is the primary fuel source for the kidneys

Answer 51

glutamine

nitrogen is used to help with acid-base balance, but not a fuel source

Question 52

clinical characteristics of low Na

Answer 52

N, malaise, stupor, coma, serizures

Question 53

clinical characteristics of high Na

Answer 53

irritability, stupor, coma

Question 54

causes of hyponatremia

Answer 54

hypovolemic: renal loss/GI loss
euvolemic: SIADH, hypothyroid, adrenal insufficiency, primary polydipsia
hypervolemic: HF, cirrhosis, nephrotic syndrome

Question 55

clinical characteristics of low K

Answer 55

U waves and flat T waves on ECG, arrhythmias, cramps, spasm, weakness

Question 56

clinical characteristics of high K

Answer 56

wide QRS, peaked T wave, arrthmyias, muscle weakness

Question 57

clinical characteristics of low Ca2+

Answer 57

tetany, seizures, QT prolongation, twitching chovsteks and spasm trousseau

Question 58

clinical characteristics of high Ca2+

Answer 58

stones, bones, groans, thrones, psychiatric overtones

Question 59

clinical characteristics of low Mg

Answer 59

tetany torsades de pointes, hypokalemia, hypocalcmia

Question 60

clinical characteristics of high Mg

Answer 60

hyporeflexia, lethargy, bradycardia, hypotension, cardiac arrest, hypoCa

Question 61

what electrolyte is used to treat vasospasm

Answer 61

Mg

Question 62

clinical characteristics of low phosphate

Answer 62

bone loss, osteomalacia, rickets

Question 63

clinical characteristics of high phosphate

Answer 63

renal stones, metastatic calcification, hypoCA

Question 64

defining/differentiating clinical characteristics for acute cystitis

Answer 64

pyuria, no casts

Question 65

defining/differentiating clinical characteristics for bladder CA and kidney stones

Answer 65

hematuria, no casts

Question 66

what do urine casts indicate when present with hematuria or pyuria

Answer 66

hematuria and pyuria is from glomerulus or renal tubules

Question 67

what dx do RBC casts suggest

Answer 67

GN, malignant HTN

Question 68

what dx do WBC casts suggest

Answer 68

acute PN, tubulointerstitial inflammation, transplant rejection

Question 69

what dx do fatty casts suggest

Answer 69

nephrotic syndrome

Question 70

what dx do granular casts suggest

Answer 70

ATN

Question 71

what dx do waxy casts suggest

Answer 71

ESRD, CRF

Question 72

what dx do hyaline casts suggest

Answer 72

nonspecific, often seen in concentrated urine

Question 73

membranous glomerulopathy etiology

Answer 73

damage due to immune complexes activating complement which causes damage to podocytes and mesangial cells

primary (idiopathic) 75%

secondary: hodgkins, lupus, drugs (NSAIDs, gold, mercury, captopril, penicillamine), infxn (hep B/C, syphilis), solid tumors (colorectal carcinoma)

Question 74

what cells are damaged in membranous glomerulopathy

Answer 74

podocytes an mesangial cells

Question 75

RF membranous glomerulopathy

Answer 75

white

Question 76

membranous glomerulopathy complications

Answer 76

RVT (renal vein thrombosis)

Question 77

membranous glomerulopathy clinical characteristics

Answer 77

HTN

nephrotic sx

Question 78

what are general sx of all nephrotic syndromes

Answer 78

HIGH proteinuria
edema (pitting, periorbital)
hypoalbuminemia
hyperlipidemia
lipiduria
proteinuria
frothy urine

Question 79

focal segmental glomerulosclerosis etiology

Answer 79

primary: idiotpathic, podocyte foot processes damaged
secondary: heroin drug use, HIV, sickle cell, interferon tx, congenital malformations

Question 80

focal segmental glomerulosclerosis RF

Answer 80

african american pts

young adults

Question 81

what nephrotic syndrome makes up 1/6 of all

Answer 81

focal segmental glomerulosclerosis

Question 82

focal segmental glomerulosclerosis prognosis

Answer 82

poor

Question 83

minimal change disease etiology

Answer 83

primary: unclear; can occur afer URI or immunization
secondary: drugs (NSAIDS, antibiotics, lithium), hodgkins, syphilis, TB, allergy

Question 84

minimal change disease clinical characteristics

Answer 84

none to mild
nephrotic sx

LM: mild mesangial prolif and few deposits
EM: epithelial foot process flattened

Question 85

membranoproliferative glomerulonephritis (MPGN) etiology

Answer 85

immune complexes and complement

primary: idiopathic
secondary: RA, HCV, HBC
variant: C3 GN-C3 deposits: hematuria after URI

Question 86

membranoproliferative glomerulonephritis (MPGN) complication

Answer 86

RPGN

Question 87

membranoproliferative glomerulonephritis (MPGN) clinical characteristics

Answer 87

nephrotic sx
insidious

histology: difuse thickening (hypercellularity) of glomerular capillary wall with Ig deposits

Question 88

diabetic glomerulonephropathy etiology

Answer 88

occurs several years after onset of DM (I and II)

excess glucose causes BSM of efferent arteriole to thicken, creating obstruction and inc pressure > expansion of mesangial cells

Question 89

diabetic glomerulonephropathy complication

Answer 89

renal failure

Question 90

diabetic glomerulonephropathy clinical

Answer 90

no overt sx

histology:
glomerulosclerosis - nodular (kimmelsteil wilson disease), diffuse, or nodular diffuse

microalbuminuria
macroalbuminuria
dec GFR

Question 91

lupus nephritis etiology

Answer 91

anti DNA and anti dsDNA immune complexes deposit on glomerular mesangium

Question 92

lupus nephritis RF

Answer 92

african amerians (APO1 gene variants common)

Question 93

lupus nephritis clincal

Answer 93

renal involvement + skin, joint sx, anemia, photosensitivty, pericardial or pleural effusion

hematuria
proteinuria
casts

low C3, C4

wire loop lesions on biopsy

Question 94

fabry disease etiology

Answer 94

x linked deficiency of alpha galactosidase A leading to an accumulation of glycolipids

Question 95

fabry disease clinical characteristics

Answer 95

proteinuria, renal failure

lipids in:
joints
skin
eyes
heart
GI

Question 96

pre-renal acute renal failure pathophys

Answer 96

dec renal flow inc Na + H2O retention, baroceeptors activate > inc sympathetioc > afferert vasoconstriction > dec GFR renin/aldosterone > inc Na + H2O water resroption

Question 97

pre-renal acute renal failure causes

Answer 97

dec intravascular volume (hemorrhage, dehydration, pancreatitis, burns, trauma)

changes in vascualr resistance (sepsis, anaphylaxis, drugs [ACEi, NSAIDs], renal artery stenosis)

low CO (CHF, PE, pericardial tamponade)

Question 98

pre-renal acute renal failure RF

Answer 98

DM, hypertensives, geriatrics

Question 99

pre-renal acute renal failure complications

Answer 99

death

fluid accumulation

Question 100

acute renal failure general sx for all types

Answer 100

N/V
malaise
ecchymosis
pallor
arrhythmias 
edema
fasiculation
seizure
blood volume abnormalities 
dehydration

Question 101

3 types of acute renal failure differentiating clinical characteristics

Answer 101

pre-renal:
osmol >500, FeNa <1, BUN/Cr >20
dehydration sx, orthostatic hypo, tachycardic

intrinsic:
osmol <350, FeNa >1, BUN/Cr N (10-15:1)
WBC casts (PN, AIN), RBC casts (PSGN)
hearing loss, ischemic toe, uveitis, scleroderma, bruit

post-renal:
osmol >500, BUN/Cr 10-20:1
renal pain, lower ab pain, post surgery urine leak, overhydration, abd disten
Na <20 early, >40 late

Question 102

intrinsic acute renal failure etiology

Answer 102

damage to tubules, interstitium, vasculature, glomeruli > loss of function

ATN: cannot resorb Na, water, electrolytes, urea

AIN: loss of concentation ability

Question 103

intrinsic acute renal failure causes

Answer 103

ATN, AIN

PSGN, RPGN, acute pyelonephritis, vasculitis, nephrotic syndromes

Question 104

intrinsic acute renal failure RF

Answer 104

DM, hypertensives, geriatrics, IV drugs, URI

Question 105

post-renal acute renal failure etiology

Answer 105

abrupt obstruction of urine from both kidneys > inc nephron intraluminal back pressure > inc bowmans capsule hydrostatic pressure > dec GFR

Question 106

post-renal acute renal failure causes

Answer 106

prostatic enlargement, tumors, urolithiasis, renal vein stenosis, neurogenic bladder, meds, trauma, post-surgical

Question 107

post-renal acute renal failure RF

Answer 107

DM, hypertensives, geriatrics

Question 108

chronic renal failure etiology

Answer 108

loss of functioning nephron leads to buildup of urea, cant regulate fluids and electrolytes

Question 109

chronic renal failure causes

Answer 109

diabetes, HTN, PCKD, focal segmental glomerulosclerosis, membranous nephropathy, membranoproliferatie GN, IgA nephropathy, PIGN, RPGN, nephrolithiasis, tumor, prostate conditions, drugs/toxins, sickle cell, amyloidosis, SLE, renal artery stenosis

Question 110

chronic renal failure sx

Answer 110

HTN
edema
fatigue
weakness
SOB
N/V
numbness
low SG
low osmol
broad waxy casts
dec GFR
anemia
azotemia
low Bun:Cr
microalbuminemia
hyperkalemia, hyperphosphatemia
hypocalcemia

Question 111

what is the most common cause of ARF

Answer 111

acute tubular necrosis (ATN)

Question 112

acute tubular necrosis (ATN) etiology/pathophys

Answer 112

patchy focal nerosis of tubule, lumens fill with casts, cellular debris; due to drugs, contrast, lithium

Question 113

ATN - contrast induced nephropathy etiology

Answer 113

iodinated radiocontrast agent

48 hrs causing renal hypoxia and tubular obstruction

Question 114

ATN - contrast induced nephropathy RF

Answer 114

elderly, DM, CHF, liver dz

Question 115

ATN general sx

Answer 115

Bun:Cr <15
dec GFR
brown granular casts, hyaline casts
dilute urnie
inc K
FeNa >2
RTE + RTE casts
osmol <400
inc creatinine
hematuria
mild proteinuria

Question 116

ATN - cisplatin induced nephropathy etiology

Answer 116

chemotherapeutic agent causes both vascular damage and tubular inflammation

Question 117

ATN - lithium induced nephropathy etiology

Answer 117

one month onset of lithium

Question 118

ATN - lithium induced nephropathy differentiating sx

Answer 118

cardiotoxicity
polydipsa
obtundation
polyuria
ortho hypo

Question 119

ischemia/hypotension ATN causes

Answer 119

shock, trauma, surgery, DIC, vasoconstrictive drugs (ACE, ARBs)

Question 120

ischemic ATN etiology

Answer 120

partchy PCT and DCT due to hypovolemia, shock, renal artery stenosis, embolism in renal artery, etc. causes skin lesions through tubules

Question 121

ischemia/hypotension ATN clinical characteristics

Answer 121

pericardial friction rub
uremic pruritis
HTN
edema
oliguria

Question 122

hydronephrosis etiology

Answer 122

congenital or acquired

dilation of renal pelvis and calyces from obstruction/retained urine

back pressure causes renal atrophy, compresses renal vasculature > dec ability to conc urine, damage to gloomeruli

retained urine diffuses into interstitium and perineal spaces, returns to lympathic and venous system

leads to scarring and atrophy of papillae > inability to conc urine, salt wasting, HTN

if complete: anuria (>death)

Question 123

hydronephrosis clinical characteristics

Answer 123

flank, lower abd, testes/labia pain
pain in flank during urination
abdominal mass
N/V
urgency, frequency
polyuria/nocturia
HTN
anuria

BUN/Cr inc
hypernatremia, hyperkalemia

Question 124

what are two main inflammatory urinary tract diseases?

Answer 124

AIN, chronic pyelonephritis

Question 125

acute interstitial nephritis (AIN)

Answer 125

inflammation of renal interstitium from cell mediated immune response binding to interstitial proteins, leading to dec in renal function

1-2 weeks after taking NSAIDS/ibuprofen, acetaminophen, penicillins, thiazides, sulfa, PDE5 in, acyclovir

infxn: strep, s aureus, corynebacterium, brucella, pneumococcus, TB, HIV, EBV, lepto

SLE, sarcoidosis, sjogrens

Question 126

AIN sx

Answer 126

fever
wt loss
flank pain
fatigue
hadache
polyuria
rash
hematuria 
oliguria
N/V 
malaise

inc eosinnophils, WBC, neutrophils
WBC casts
proteinuria, hematuria, no bacteria
inc BUn and cr
FeNa >1
dec urine conc, dec GFR

Question 127

chronic pyelonephritis etiology/path

Answer 127

often bilateral pyogenic kidney infxn or congenital reflux nephropathy > renal parenchymal scarring and atrophy of calyces

Question 128

chronic pyelonephritis RF

Answer 128

elderly, DM, chronic urolithiasis, low water intake, infrequent urination, urine reflux, sedentary lifestyle, BPH with obstruction, chornic analgesic use, recurrent bacterial UTI

Question 129

chronic pyelonephritis sx

Answer 129

asx
HTN
olioguria late stage

bactururia, pyuria if active infxn
dec SG and osmol
late: granular, waxy, broad casts
small atophic kidney, irregular outline, poor exception of contrast

Question 130

what are some common congenital urinary diseases?

Answer 130

alport syndrome
ADPKD
renal agenesis
vesicouretal reflux (VUR)

Question 131

alport syndrome etiology

Answer 131

hereditary or familial nephritis

inherited collagen synthesis defect leading to GBM thinness and dysfunction

Question 132

alport syndrome RF

Answer 132

males

Question 133

alport syndrome complication

Answer 133

progression > ESKD

Question 134

alport syndrome sx

Answer 134

sensorineural hearing loss
ocular lesions
HTN
edema
hematuria aftre URI
proteinuria
oliguria

Question 135

autosomal dominant polycystic kidney disease (ADPKD) etiology

Answer 135

mutation in PKD 1 or PKD 2
mutation in renal tubule cell causes cellular divison until cysts develop

major cause of CKD

Question 136

autosomal dominant polycystic kidney disease (ADPKD) complications

Answer 136

CKD, ESRD, rupture, UTI, nephrolithiasis, HTN, ESRF, cerebral aneurysm, MVP, aortic aneurysm, colonic diverticula, cyst in liver, pancreas, spleen, CNS

Question 137

autosomal dominant polycystic kidney disease (ADPKD) sx

Answer 137

hematuria
flank pain
HTN
kidney stones
pain over both kidneys
nocturia
HA
N/V
wt loss
progressive uremia
bacteruria
pyuria
proteinuria
anemia

Question 138

autosomal dominant polycystic kidney disease (ADPKD) diagnostic criteria

Answer 138

15-39 - 3 cysts in both k
40-59 - 2 cysts in both k
pos fam hx

CT diagnostic

Question 139

vesicouretal reflux (VUR) etiology

Answer 139

malposition or incompetent closure of UVJ allows for urine to reflux from bladder

congenital or acquired (scarring, obstruction)

Question 140

vesicouretal reflux (VUR) sx

Answer 140

asym
present as recurrent UTI (esp pyelonephritis)

HTN

Question 141

common urinary vascular diseases

Answer 141

hemolytic uremic syndrome (HUS)
hyperensive nephrosclerosis
renal artery stenosis
renal infarction
sickle cell nephropathy

Question 142

hypertensive nephrosclerosis etiology

Answer 142

chronic HTN (>10 yrs) damages microvascualture, glomeruli, tubules, interstitial tissues > nephrosclerosis

may progress to ESRD

injuries include ischemic glomerular tuft collapse, glomerulosclerosis, interstitial fibrosis and tubular atophy

Question 143

hypertensive nephrosclerosis RF

Answer 143

aging, poorly controlled HTN, DM, black individuals, genetics (APOL1)

Question 144

hypertensive nephrosclerosis complications

Answer 144

second most common cause of ESRD

Question 145

hypertensive nephrosclerosis clinical

Answer 145

inc BUN, cr
hyperuricemia
kidneys may look small from scarring
no sediments/proteinuria

Question 146

renal artery stenosis etiology

Answer 146

from atherosclerotic plaque or fibromuscular dysplasia (intractable HTN from renin release)

Question 147

renal artery stenosis causes

Answer 147

HTN

Question 148

renal artery stenosis RF

Answer 148

older males, atherosclerotic plaques, HTN

in younger pts, from fibromuscular dysplasia of renal arteries (more in F)

Question 149

renal artery stenosis clinical

Answer 149

bruit
inc BP
hypokalemia

stenotic kidney inc renin
contralateral kidney responds to HTN by dec renin

Question 150

renal infarction etiology/causes

Answer 150

reduction of blood flow to one or both kidneys

caused by thromboemboli (from heart or aorta) and in situ thrombosis

Question 151

renal cell carcinoma (RCC) etiology

Answer 151

malignant

originates from PCT cells, polygonal clear cells filled with accumulated lipids and carbs

most common primary renal malignancy

Question 152

renal cell carcinoma (RCC) RF

Answer 152

smoking, analgesics, toxin exposure, high coffee consumption, chemo, hysterectomy, obesity, cystic kidney dz, contrast, HTN, dialysis, von hippel landau dz

males 50-70

Question 153

renal cell carcinoma (RCC) complications

Answer 153

invades the renal vein and may develop a variocele if L sided

can go into IVC and spread hematogeously, mets to bone and lung

Question 154

renal cell carcinoma (RCC) sx

Answer 154

hematuria
palpable mass
polycythemia
flank pain
fever
wt loss

Question 155

nephroblastoma (wilms tumor) etiology

Answer 155

malignant

most from defects on chromosome 11

most comnmon primary renal tumor of childhood

Question 156

nephroblastoma (wilms tumor) RF

Answer 156

black pts
fhx
children 2-5

Question 157

nephroblastoma (wilms tumor) complications

Answer 157

mets to lungs

Question 158

nephroblastoma (wilms tumor) sx

Answer 158

abdominal enlargment
flank mass
abd pain
N/V
constipation
loss of appetite
SOB
hematuria
HTN
anemia

Question 159

acute pyelonephritis etiology

Answer 159

common

inflammation affecting the tubules, interstitium, and renal pelvis

ascending infxn most common

85-90% from gram neg bacilli (usually e coli)

Question 160

acute pyelonephritis causes

Answer 160

urinary tract obstruction/stasis (organisms multiply)
vesicouretal reflux
intrarenal reflux

Question 161

acute pyelonephritis complications

Answer 161

renal abcess
recurrent infxns
papillary necrosis (worse prognosis)

Question 162

acute pyelonephritis sx

Answer 162

fever
N/V
chills
unilateral flank pain
abd pain
myalgia
fatigue
weakness
CVA tenderness

WBC in urine
WBC cats
leukocytosis
pyuria
bacteruria
hematuria

Question 163

bacterial cystitis etiology

Answer 163

e coli, proteus, klebsiella, enterbacteria

Question 164

cystitis RF

Answer 164

females

Question 165

cystitis sx

Answer 165

urgency, frequency, dysuria, nocturia
hematuria
pain with filling/emptying
suprapubic pain
burning
pressure
chronic pelvic pain

Question 166

interstitial cystisis sx

Answer 166

cystitis sx
pain with bladder fullness
severe frequency
hunners ulcers
bladder distention

sx > 6 weeks, absences of other sx

Question 167

gonoccocal urethritis etiology

Answer 167

STI
common
men
neisseria gonorrhoeae

Question 168

gonoccocal urethritis complications

Answer 168

epididymitis, prostatic involvement, infertility, prostatitis, recurrent infxns

Question 169

gonoccocal urethritis sx

Answer 169

copious, purulent urethral discharge (yellow, brown)

dysuria
urethral itching
meatal edema
urethral tenderness
pyuria
bacteriuria
hematuria

gram neg diplococci

Question 170

non-gonoccocal urethritis etiology

Answer 170

chlamydia

incubation 2-35 days (less acute onset)

Question 171

non-gonoccocal urethritis complications

Answer 171

epididymitis, prostatitis, proctitis, reactive arthritis, lymphogranuloma venereum

Question 172

non-gonoccocal urethritis sx

Answer 172

scant, white to clear watery urethral discharge

dysuria
urethral itching
meatal edema and erythema

cant culture chlamydia

Question 173

acute urethritis in women etiology

Answer 173

gonorrheal or chlamydial

Question 174

acute urethritis in women sx

Answer 174

asx
frequency
urgnecy
lower abdominal pain
cervicitis

Question 175

maple syrup urine disease (AR) etiology

Answer 175

blocked degradation of branch chain amino acids (isoleucine, leucine, valine)

dec branched chain a ketoacid dehydrogenase

inc a keto acids in blood

Question 176

maple syrup urine disease (AR) sx

Answer 176

vomiting
poor feeding
urine smells like syrup
severe CNS defects
intellectual disability
death

Question 177

embryologic origin of bladder

Answer 177

endoderm: epithelial lining

Question 178

embryologic origin of kidneys

Answer 178

mesoderm

Question 179

bladder circulatory supply

Answer 179

internal iliac arteries

Question 180

ureters plug into bladder at the

Answer 180

bottom

Question 181

Ureters pass where in relation to the uterine artery or vas deferens

Answer 181

under (retroperitoneal)

Question 182

renal artery and vein enter and exit at the

Answer 182

hilium

Question 183

the glomerulus is surrounded by the

Answer 183

bowmans capsule

Question 184

the nephron includes

Answer 184

afferent + efferent arterioles
glomerulus/bowmans capsule
PCT
loop of henle
DCT
collecting duct

Question 185

two types of nephrons

Answer 185

cortical (only have asc and desc loops)

juxtamedullary (thin loop of henle)

Question 186

afferent arteriole brings blood

Answer 186

into glomerulus

Question 187

efferent arteriole brings blood

Answer 187

out of glomerulus

Question 188

where does the peritubular capillary system/vasa recta come off of?

afferent or efferent

Answer 188

efferent arteriole

peritubular capillary sys keeps you from reabsorping bad stuff, keeps good stuff going back into blood.

Question 189

glomerulus is made up of

Answer 189

type 2 capillaries; mildly leaky, can filter

Question 190

afferent arterioles are sensitive to

Answer 190

epinephrine (constriction/dec GFR)

Question 191

efferent arterioles are sensitive to

Answer 191

angiotensin-2 (constriction/inc GFR)

Question 192

epinephrine effect on GFR

Answer 192

decreases

Question 193

angiotensin 2 effect on GFR

Answer 193

increases

Question 194

glomerulus filtration type + components

Answer 194

pure filtration;
pressure, fluid, pore size

> urinary filtrate

Question 195

peritubular capillaries function

Answer 195

resorb good stuff

secrete bad stuff

Question 196

macula dense function and location

Answer 196

sensory apparatus at end of tubular system and wound up near afferent/efferent arterioles

Question 197

renal blood flow (RBF) values compared to renal plasma flow (RPF) values

Answer 197

RBF is about double RPF

Question 198

why is normal filtration fraction high?

Answer 198

FF = GFR / RPF

type II glomerular capillaries ONLY filter plasma, and RPF is half of RBF

Question 199

interpretation of clearance > GFR

Answer 199

filtration + net secretion

Question 200

interpretation of clearance = GFR

Answer 200

filtration only (or secretion = resorption)

Question 201

interpretation of clearance < GFR

Answer 201

filtration and net resorption

Question 202

most common cause of hyperosmolality

Answer 202

dehydration

Question 203

hyperosmolality results in:

Answer 203

thirst
ADH release

trying to thin blood out

Question 204

where are receptors for osmoregulation located

Answer 204

hypothalamus

Question 205

what are the receptors for volume regulation

Answer 205

baroreceptors

macula densa

Question 206

blood volume loss results in:

Answer 206

sympathetic activation

renin release from JGA

Question 207

proximal tubule reabsorption/activity

Answer 207

67% Na reabsorption via Cotransporter + countertransporter in Na/H exhange

67% K reabsorption along with Na + H2O

all glucose, PCO3, and amino acids

Question 208

thick asc loop of henle reabsorption/activity

Answer 208

25% Na resorption

20% K resorption

Na-K-2Cl transporter

Question 209

distal tubule/collecting duct reabsorption/activity

Answer 209

8% Na resorption via Na-Cl cotransporter

site of thiazide diuretic action

either reabsorbs (low blood potassium) or secretes K+ into urine (high blood potassium) based on dietary intake

Question 210

carbonic anhydrase inhibitiors site of action

Answer 210

proximal tubule

Question 211

loop diuretic site of action

Answer 211

henle loop

Question 212

thiazide diuretics site of action

Answer 212

distal tubule

Question 213

where is H+ secreted and as what

Answer 213

proximal and distal tubule

NH4, phosphate, uric acid, H+

Question 214

recovery of bicarbonate takes place mostly where

Answer 214

proximal tubule

Question 215

juxtoglomerular apparatus function

Answer 215

low Na/Cl at macula densa > low GFR > JGA releases renin in response to low GFR > forms ANG-II > constricts EFF art > inc GFR

Question 216

low GFR =

ion levels

Answer 216

= inc Na/Cl reabsorption in loop of henle

= low Na/Cl at macula densa

Question 217

angiotensinogen produced by the

Answer 217

liver

Question 218

activation of aldosterone-renin-angiotensin system

Answer 218

dec GFR (low blood vol/high blodo osmolarity) > juxtoglomerular cells release renin which converts angiotensin to angiotensin I

Question 219

conversion of angiotensin I-angiontensin II

Answer 219

conversion by ACE enzyme from lungs

Question 220

activities of angiotensin II

Answer 220

1. GFR inc by efferent arteriole constriction

2. zona glomerulosa (adrenal cortex) activation of aldosterone

Question 221

aldosterone action

Answer 221

> distal tubule, causes Na reabsorption, K excretion

inc H2O resorption, inc blood vol, dec osmolarity

Question 222

renin produced by the

Answer 222

kidney (JGA)

Question 223

ANP produced by the

Answer 223

heart

Question 224

aldosterone-renin-angiotensin system function

Answer 224

regulation of blood volume

activated by dec in renal blood flow

Question 225

less ADH effect on osmolarity and urine volume

Answer 225

inc urine vol
dec urine osmolarity
inc plasma osmolarity

Question 226

more ADH effect on osmolarity and urine volume

Answer 226

dec urine volume
inc urine osmolarity
dec plasma osmolarity

Question 227

ADH response to dehydration

Answer 227

increases

Question 228

transamination and amine transfer occur in the

Answer 228

liver (most)

kidneys

Question 229

oxidative deamination

Answer 229

taking amine off of amino acid > alpha keto acid

Question 230

reductive amination

Answer 230

taking alpha keto acid > amino acid

Question 231

transamination rxns consist of

Answer 231

oxidative deamination

reductive amination

Question 232

transamination rxns purpose

Answer 232

removing nitrogen

Question 233

transaminases require

Answer 233

vit B6

Question 234

where does urea cycle occur

Answer 234

liver cell

Question 235

main purpose of urea cycle

Answer 235

the way the liver takes two very dangerous metabolites (CO2 + NH4/ammonia) > combines them > converts them to urea > excrete into blood > filtered out via tubular system

Question 236

why is urea safer to excrete than CO2 and ammonia?

Answer 236

because CO2 and NH4 (ammonia( are directly toxic to every cell, urea is mildly inert unless it builds up a LOT

Question 237

what part of the urea cycle happens in the mitochondria?

Answer 237

CO2 + NH4 > carbamyl phosphate (CP) via CP synthase

CP + ornithine > citrulline via ornithine transcarbamoylase

Question 238

what part of the urea cycle happens in the cytosol?

Answer 238

citrulline > arginosuccinate > arginine

argninase cleaves urea molecule off of arginine to leave to liver + kidney

residue ortnithine goes back into mitochondria

Question 239

backup for N excretion

Answer 239

glutamate shuttle (glutamate is multi-N carrier)

Question 240

glutamate shuttle

Answer 240

glutamate > deaminated > NH3 to urine

NH3 meet H+ > NH4 > excreted into urine

NH4 excreted DIRECTLY into urine

Question 241

acute post-strep glomerulonephritis clinical characteristics

Answer 241

RBC casts, 1-2 wks after sore throat

kids 6-10, mod proteinuria

Question 242

IgA nephropathy/bergers dz patho

Answer 242

inc IgA in response to viruses, bacteria, food proteins

antibodies injure glomerulus

Question 243

IgA nephropathy/Bergers dz clinical characteristics

Answer 243

hematuria comes and goes, chronic GN

Question 244

goodpastures syndrome patho/etiology

Answer 244

rapid GN with type II autoantibodies to basement membrane

Question 245

goodpastures RF

Answer 245

young men who smoke

Question 246

goodpastures complications

Answer 246

death due to renal failure or lung hemorrhage

Question 247

henoch schonlein purpura patho/etiology

Answer 247

purpuric skin lesions on extensor surface of extremities and buttock

igA precipitation after respiratory infxn, kids 3-8

hematuria recurres for years

Question 248

pyelo- indicates

Answer 248

renal pelvis

Question 249

most common cause of nephrotic syndrome in kids

Answer 249

primary kidney dz

Question 250

most common causes of nephrotic syndrome in adults

Answer 250

membranous GN, SLE, DM, amyloidosis

Question 251

pyelonephritis affects which locations

Answer 251

tubules and interstitium

Question 252

common causes of pyelonephritis

Answer 252

ascending fecal flora, females, pregnancy, BPH (secondary to stasis of urine)

Question 253

what is hydronephrosis

Answer 253

dialtion of renal pelvis and calyces asso. with progressive atophy of kidney due to obstruction of urine outflow

Question 254

ways pyelonephritis can kill you

Answer 254

kidney failure

bacteria > blood > sepsis

Question 255

most common kidney stone substance

Answer 255

Ca Oxalate

Question 256

intrinsic causes of obstruction

Answer 256

renal calculi, strictures, blood clots, tumors

Question 257

extrinsic causes of obstruction

Answer 257

pregnancy, periureteral inflammation/salpingitis/peritonitis, tumors of rectum/bladder/prostate/ovaries

Question 258

uric acid calculi are secondary to

Answer 258

gout

Question 259

causes of obstruction of bladder neck

Answer 259

prostate enlargement
chronic cystitis
tumors, foreign body, calculi

Question 260

what is the number one RF for renal cancer

Answer 260

smoking

Question 261

what is a common sx of renal cancer

Answer 261

painless hematuria

Question 262

most common bladder tumor

Answer 262

transitional cell carcinoma

Question 263

wilms tumor (nephroblastoma) occurs in what age group

Answer 263

2-5

Question 264

what would you suspect in a child 2-5 with abdominal mass

Answer 264

nephroblastoma (renal)

neuroblastoma (adrenal medulla)

Question 265

kidneys role in maintaning acid-base balance of the blood

Answer 265

reabsorb bicarbonate HCO3- from urine > blood

secrete H+ ions > urine

Question 266

which kidney has a longer renal vein

Answer 266

left

Question 267

describe renal blood flow

Answer 267

renal a > segmental a > interlobar a > arcuate a > interlobular a > afferent art > glomerulus > efferent art > vasa recta/peritubular cap > venous outflow

Question 268

what part of the kidney is more susceptible to ischemia and hypoxia? why?

Answer 268

renal medulla (less blood flow than cortex)

Question 269

the visceral layer of bowmans capsule is made up of

Answer 269

podocytes

Question 270

3 common points of uretal obstruction

Answer 270

uretopelvic junction
pelvic inlet
ureterovesical junction