5/24/06

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Potter's syndrome

malformation of ureteric bud causes bilateral renal agenesis, oligohydraminos, limb & facial deformities, pulmonary hypoplasia; "babies with potter's can't pee in utero"

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Horseshoe kidney results when the inferior poles..., and get stuck under...

fuse; during their ascent, they get trapped under the inferior mesenteric artery

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Symptoms of UTI

dysuria, frequency, urgency, suprapubic pain; more common in females, babies w/ congenital defects and males w/BPH

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Symptoms of pyelonephritis

fever, chills, flank pain, CVA tenderness

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Community UTI infections (3)

E. coli > Staph saprophyticus > Klebsiella

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Hospital acquired UTIs (5)

E. coli, Proteus, Klebsiella, Serratia, Pseudomonas

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Complications of cystitis (3)

bacteremia, septic shock, ARDS

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Is diabetes a risk factor for UTIs?

yes

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How can you remember the UTI bugs? SSEEK PP

Serratia marcescens, Staphylococcus saprophyticus, Escherichia coli, Enterobacter cloacae, Klebsiella pneumoniae, Proteus mirabilis, Pseudomonas aeruginosa

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Serratia

red pigment, nosocomial, drug resistant

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Staph saprophyticus

2nd mc in sexually active women

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E. coli

#1mc, colonies look metallic on EMB agar

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Enterobacter cloacae

nosocomial, drug resistant

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Klebsiella pneumoniae

mucoid capsule, viscous colonies

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Proteus mirabilis: activity, byproduct, stone?

motility causes "swarming" on agar; produces urease; a/w struvite stones

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Pseudomonas aeruginosa

blue-green pigment and fruity odor; usu nosocomial and drug resistant

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Edema d/t increased capillary pressure is:

heart failure

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An edema d/t decreased plasma proteins is:

nephrotic syndrome or liver failure

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Edema d/t increased capillary permeability is:

d/t toxins, infections or burns

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Edema d/t increased interstitial fluid colloid osmotic pressure is:

lymphatic blockage

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Embryonic derivatives of the adult kidney include:

intermediate mesoderm that forms UROGENITAL RIDGES on each side of aorta and NEPHROGENIC CORD that gives rise to: PROnephros, MESOnephros, METAnephros

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What is the deal with the Pronephros?

it forms in the 4th wk and disappears by the 5th; it is NONFUNCTIONAL

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What is the significance of the mesonephros?

it is the functional kidney from the 4th week until the permanent one takes over; it forms the MESONEPHRIC DUCT and URETERIC BUD

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What arises out of the mesonephric duct?

ductus deferens, epididymis, ejaculatory duct, seminal vesicle in MALE ONLY

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What arises from the ureteric bud?

ureter, renal pelvis, calyces, collecting tubules in BOTH SEXES

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Where does the Adult kidney come from?

the METANEPHROS (uteric bud + metanephric mass) in the 5th wk; it is functional by the 9th week; mesoderm forms nephrons; it ascends; forms UROGENITAL SINUS and URETHRA

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Tell me something about the urogenital sinus?

it forms the bladder, which is continuous w/ALLANTOIS

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Which ligament does the allantois form in the adult?

MEDIAN umbilical ligament

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The urethra is formed from?

endoderm and urogenital sinus w/ distal portion from ECTODERM

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In the adult male/female, the ureter passes _ to the ductus deferens/uterine artery

posterior

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The entire collecting system arises from the:

ureteric bud; the remainder is from metanephric duct

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Fanconi's syndrome is a heretidary or acquired dysfunction of:

the proximal renal tubules; it manifests as Glycosuria, Hyperphosphaturia, Aminoaciduria and Acidosis d/t impaired glucose, AA, phosphate and bicarb reabsorption

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Accessory renal arteries arise from?

the aorta and feed a specific part of the kidney; if cut they will infarct that part of the kidney

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Congenital polycystic kidney disease

multiple small & large cysts that cause renal insufficiency; they are not continuous w/the collecting system; baby is death w/in days to wks

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Where are the kidneys located? how much do they weigh?

posterior to the peritoneum at level of L1 (R is lower than L d/t liver); 150g each (if paired)

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Left renal vein is posterior to the _ artery and anterior to the _?

superior mesenteric; abdominal aorta

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How much blood is filtered and urine produced each day?

1700L of blood; 1L of urine

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The left gonadal (testicular/ovarian) vein drains into the _ vein?

left renal

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The right gonadal vein drains directly into the _?

inferior vena cava

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The Intracellular fluid volume equals...?

the Total body water MINUS the Extracellular fluid (measured by INULIN)

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The Interstitial Volume is equal to the Extracellular fluid MINUS the...

Plasma volume (measured by radiolabeled ALBUMIN)

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Total body water makes up what percentage of the body's weight?

60%

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Another way to consider total body water is in fractions:

1/3 ECF+ 2/3 ICF = TBW

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Extracellular fluid is composed of:

14 plasma and 3/4 interstitium

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Renal blood flow is 25% of Cardiac output and is measured as:

Renal Plasma Flow divided by (1 - hematocrit); it is autoregulated and kept fairly constant even w/arterial fluxes of 100-200mmHg

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Renal plasma flow is measured by clearance of:

para-aminohippuric acid (PAH), which is filtered and secreted by proximal tubule

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PAH is competitively inhibited by _ and normally mediated by _

probenacid; a carrier system for organic acids

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Glomerular filtration rate is normally 120ml/min; it is measured by:

inulin clearance (filtered, not absorbed or secreted)

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Decreases in GFR cause a rise in:

BUN and creatinine levels; it decreases with age

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Glomerular Filtration Rate = Clearance of Inulin = Urinary [inulin] x Volume of urine per minute divided by:

Plasma [inulin]

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Factors that determine clearance are:

Filtration, Secretion, Reabsorption

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Highly cleared substances =

those that are filtered and secreted (ex: PAH)

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Poorly cleared substances =

those that are either not filtered (ex: protein) or are reabsorbed (ex: glucose)

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Reabsorption is limited by

number of transporters, saturation of maximum transporters (Tm); Therefore, any concentration above the Tm is excreted as excess

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Tm for glucose is:

300mg/dL; concentrations above this cause osmotic diuresis seen in hyperglycemic diabetics

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Filtration fraction is normally 20%; it is calculated by dividing the following values:

Glomerular filtration rate (~Cinulin) divided by Renal Plasma Flow (~C of PAH)

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What do prostaglandins do to the afferent arteriole?

they dilate the vessel; this increases RPF and GFR, so FF stays constant

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What does Antiotensin II do to the efferent arteriole?

It constricts the vessel, which decreases RPF, increases GFR and increases FF

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The Juxtaglomerular Apparatus (afferent arteriole) produces _? Is stimulated by _ & _?

renin and erythropoietin; macula densa (baroreceptors) and b-sympathetic adrenergics

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What exactly is the macula densa?

it is the Na+ sensor in the distal convoluted tubule

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What does renin do?

it is secreted by JG cells to cleave angiotensinogen to AT-I which is cleaved by ACE in lungs to AT-II which increses Aldosterone levels in response to low renal BP, low Na+ delivery to distal tubule and increased sympathetic tone

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What are the functions of Angiotensin II? (6)

1. stimulate Aldosterone release from zona glomerulosa, 2. stimulate ADH & ACTH secretion, 3. Vasoconstrict renal arterioles w/ low plasma, 4. Vasoconstric systemically w/hi plasma levels, 5. Stimulate thirst, 6. Release E/NE from adrenal medulla

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How is angiotensin II inactivated?

by antiotensin III, a potent stimulator of aldosterone secretion, but not a good vasoconstrictor

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ACE-Inhibitors (captopril, enalapril) reduce hypertension by:

preventing actions of Angiotensin II on adrenal gland, thereby preventing release of aldosterone

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Angiotensin II receptor blockers (losartan) lowers blood pressure by:

preventing angiotensin II from constricting the efferent arteriole

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NSAIDs can cause acute renal failure in high vasoconstrictive states by:

inhibiting the renal production of prostaglandins, which keep the afferent arterioles vasodilated to maintain GFR

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Endocrine functions of kidney: (4)

1. Peritubular capillaries secrete erythropoietin in response to hypoxia; 2. Converts 25-OH Vit D to 1,25(OH)2 by 1a-hydroxylase d/t PTH; 3. JG cells secrete renin d/t dec renal pressure, inc symp discharge (B1); 4. Prostaglandins vasodilate to inc GFR

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Glomerular Filtration Barrier is composed of 3 things:

1. Fenestrated capillary (size), 2. Fused basement membrane with heparan sulfate (Negative charge barrier), 3. Epithelial layer with podocyte foot processes

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What happens when the charge barrier is lost in the glomerulus (4)? How does it happen?

Pt exhibits albuminuria, hypoproteinemia, generalized edema, hyperlipidemia; d/t Nephrotic Syndrome

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When the afferent arteriole is constricted, which 2 properties decrease?

RPF and GFR

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What 2 properties increase and what decreases in response to efferent arteriole constriction?

GFR and FF (GFR/RPF); and RPF

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If plasma protein concentration increases what will go down?

GFR and FF; nothing will happen to the RPF

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What will happen if the plasma protein concentration goes up?

GFR and FF (GFR/RPF) will both go up

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If the ureter is constricted, what happens to GFR and FF?

they both go down

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AAs have 3 carrier systems with competitive inhibition w/in each group; where does this secondary transport occur?

proximal tubule; it is saturable

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Early proximal convoluted tubule is the "workhorse of the nephron." Why?

it reabsorbs all the glucose, AAs, and most bicarb, Na and water; it secretes ammonia to buffer the secreted H+

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Thick ascending loop of Henle may be impermeable to water, but it reabsorbs...

Na, K and Cl (actively), Mg and Ca (indirectly)

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Early Distal Convoluted Tubule is under hormonal control for what? and actively reabsorbs what?

Ca (via PTH) AND Na, Cl

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Collecting Tubules is under hormonal control. 1. Aldosterone, 2. ADH (vasopresin)

1. reabsorbs Na in exchange for secreting K or H; and 2. Reabsorbs H2O

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How high can the osmolarity go in the medulla of the kidney?

1200mOsm

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What will the atria secrete to keep the RAAS in check in case of heart failure/inc atrial pressure?

ANP (atrial natriuretic peptide); it increases GFR and increases Na to lower blood volume

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When is aldosterone secreted?

in response to low blood volume (via AT II) and increased plasma K

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What does aldosterone do?

reabsorbes Na, secretes K and H in the distal convoluted tubule

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When is PTH secreted?

when there is low plasma [Ca]

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What does PTH do in the kidney?

it increases Ca reabsorption in DCT, decreases PO4 reabsorption in PCT and converts Vit D to active form

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When is angiotensin II secreted?

when renin detects a low blood volume

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What does angiotensin II do?

causes efferent arteriole constriction to increase GFR and inc Na and HCO3 reabsorption

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When is Vasopressin/ADH secreted?

when plasma osmolarity increases and blood volume drops

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What does vasopressin/ADH do?

it binds receptors on principal cells in collecting duct to increase aquaporins and increase H2O reabsorption

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NephrItic Syndrome d/t Inflammation (6)

1. Acute poststrep GN, 2. Rapidly progressing/Cresenteric GN, 3. Goodpasture's Syndrome, 4. Membranoproliferative GN, 5. IgA Nephropathy/Berger's, 6. Alport's Syndrome; All have: hematuria, hypertension, oliguria, azotemia

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Acute poststreptococcal Glomerulonephritis

kids; peripheral/periorbital edema; self-limiting; "lumpy-bumpy" subepithelial humps on LM, EM

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Rapidly progressing (cresenteric) Glomerulonephritis

cresent-moon shape on LM and IF; rapid course to renal failure

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Goodpasture's Syndrome

type II hypersensitivity; "linear" on IF; anti-GBM antibodies; hemoptysis (affects lungs too), hematuria

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Membranoproliferative Glomerulonephritis

"tram tracks" subendothelial humps on EM; slowly progressive to renal failure

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IgA Nephropathy/Berger's Disease

Mesangial deposits of IgA on IF and EM; mild disease, often post-infectious

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Alport's Syndrome

split basement membrane d/t Collagen IV mutation; also has nerve deafness and ocular disorders

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NephrOtic Syndrome d/t prOteinuria (5)

1. Membranous GN, 2. Minimal Change Disease, 3. Focal Segmental Glomerular Sclerosis, 4. Diabetic Nephropathy, 6. SLE Nephropathy; all have massive proteinuria, hypoalbuminemia, peripheral/periorbital edema, hyperlipidemia

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Membranous glomerulonephritis

common in ADULTS; "spike and dome" on EM; diffulse capillary/BM thickening on LM

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Minimal Change Disease (lipoid nephrosis)

mc CHILDHOOD nephrotic syndrome; responds to STEROIDS; Foot process effacement on EM; normal glomeruli on LM

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Focal Segmental Glomerular Sclerosis

more severe in HIV pts; segmental sclerosis and hyalinosis seen on LM; nephrotic syndrome

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Diabetic Nephropathy

Kimmelstiel-Wilson lesions and BM thickening on LM; nephrotic syndrome

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SLE Nephropathy

5 patterns of renal involvement; "Wire loop" appearance w/granular subendothelial BM deposits in membranous glomerulonephritis pattern

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What complications could arise from kidney stones?

hydronephrosis and pyelonephritis

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Calcium kidney stones

the most common type; combine w/oxalate (envelopes) or phosphate (sticks); radiopaque; w/ cancer, inc PTH, inc Vit D, milk-alkali syndrome; these RECUR

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Ammonium magnesium phosphate (struvite) stones

2nd mc type of stone; radiopaque "caskets"; form d/t urease positive bugs (Staph or Proteus); Can form STAGHORN calculi nidus for UTIs

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Uric Acid Stones

highly a/w hyperuricemia (gout); commonly a result of leukemia or myeloproliferative disorders, chemotherapy and cell lysis; radiolucent w/negative birefringence

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Cystine Stones

usu 2* to cystinuria; radiolucent or radiopaque w/sulfur (rhomboid)

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Renal Cell Carcinoma

mc renal malignancy; men 50-70yo; smokers; a/w von Hippel-Lindau; Polygonal cells in renal tubule; Hematuria, palpable mass, 2* polycythemia, flank pain, fever; hematogenous via IVC invasion; ectopic hormones; risk w/dialysis

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What kind of hormones are secreted from an ectopic gland d/t renal cell carcinoma

EPO, ACTH, PTHrP, prolactin

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Wilms' tumor (nephroblastoma)

mc renal malignancy in KIDS (2-4yo); huge palpable flank mass; d/t deletion of WT1 gene on Chromosome 11; can be a/w WAGR Complex

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What is the WAGR complex?

Wilms' tumor, Aniridia, Genitourinary malformation, mental-motor Retardation

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Transitional Cell Carcinoma; a/w problems in your Pee SAC

mc tumor of urinary tract (calyces, renal pelvis, ureters, or bladder); RECURS after removal; Hematuria and local metastasis; caused by: Phenacetin, Smoking, Aniline dyes, Cyclophosphamide

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COX is inhibited by aspirin and other NSAIDs, but not by:

acetaminophen

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Acute renal failure and acute tubular necrosis often occur simultaneously, but...

acute renal failure can exist without acute tubular necrosis

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Sheehan's syndrome (pituitary necrosis) causes:

loss of gonadotropins, TSH, ACTH d/t postpartum hemorrhage; it manifests as fatigue, wt loss and amenorrhea

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Flea-bitten kidneys can be caused by:

SLE, HUS and TTP

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The most common cause of acute renal failure is:

therapeutic drugs (b-lactams, sulfonamides, TMP, rifampin, COX inhibitors, diuretics, captopril)

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Renal transplant rejection rates can be decreased by giving:

cyclosporine and muromonab-CD3

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Finesteride, a 5-a-reductase inhibitor is used to treat

Benign prostatic hypertrophy

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Cold medicines and a-agonists exacerbate:

Benign prostatic hypertrophy

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Adult polycystic kidney disease

AD; occurs in midlife; bilateral, parenchyma replaced by cysts; hematuria, HTN, palpable kidneys; progresses to renal failure; a/w BERRY aneurysms of Circle of Willis and cystic dz of other organs (especially liver)

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Acute renal failure is d/t an abrupt decline in renal function over several days, it is indicated by:

elevated CCr and elevated BUN; 1. Prerenal azotemia, 2. Intrinsic renal failure, 3. Postrenal failure

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Describe prerenal azotemia and how it causes acute renal failure:

a decreased RBF (ex: hypotension) lowers GFR and Na/H2) is retained by kidneys; kidney function is normal; this is usu d/t NSAIDs (not acetaminophen) or ACE-inhibitors

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How does an intrinsic renal problem cause acute renal failure?

usu d/t acute tubular necrosis or ischemia/toxins; patchy necrosis = debris obstructing flow and decreasing GFR; urine has CASTS which are granular/epithelial mix; this is a malfunction of the kidney (DIC, GN, HUS, TTP, SLE)

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What sort of postrenal problems will result in acute renal failure?

bilateral outflow obstruction d/t stones, BPH, neoplasia, phemosis, stricture, or neurogenic bladder

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How can you distinguish between prerenal and renal causes of ARF when given Urine Na values?

prerenal will be <10 and renal will be >20

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Prerenal failure may have

hyaline casts, very high ADH, urea, Na and H2O reabsorption

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What are some consequences of renal failure and the inability to make urine and eliminate nitrogenous wastes? (8)

1. Anemia, 2. Renal osteodystrophy, 3. Hyperkalemia, 4. Metabolic acidosis, 5. Uremic encephalopathy, 6. Na and H20 excess, 7. Chronic pyelonephritis, 8. Hypertension

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What are the most common causes for chronic renal failure? (2)

Hypertension and Diabetes

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What is the most common cause of acute renal failure?

Hypoxia

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Why is there anemia in renal failure?

the kidney endothelium does not make erythropoietin

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Why is there osteodystrophy in renal failure?

vitamin D is no longer converted to its active form by 1-a-hydroxylase

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Renal failure causes arrhythmias, metabolic acidosis, CHF and pulmonary edema d/t

electrolyte imbalances: hyperK, inc H, low HCO3, excess H20/Na

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What does low [Na+] do?

causes disorientation, stupor, coma

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What does hi [Na+] do?

causes neurologic irritability, delirium, coma

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What does low [Cl-] do?

it occurs 2* to metabolic alkalosis

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What does hi [Cl-] correspond with?

it is 2* to non-anion gap acidosis

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What does low [K+] do?

causes U waves, flattens T waves, causes arrhythmias and paralysis

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What does hi [K+] do?

it Peaks T waves and causes arrhythmias

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What does low [Ca++] do?

causes tetany, neuromuscular irritability

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Waht does hi [Ca++] do?

causes delirium, renal stones and abdmonial pain/constipation

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What does low [Mg++] do?

causes neuromuscular irritability and arrhythmias

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What does hi [Mg++] do?

causes delirium, dec DTRs, and cardiopulmonary arrest

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What does low [PO4--] do?

causes bone loss d/t low mineral ion product

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What does hi [PO4--] do?

causes renal stones, and metastatic calcification d/t high-mineral ion product

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Alcoholism

physiologic dependence and tolerance w/ symtoms of withdrawal (tremor, tachycardia, HTN, malaise, nausea, delirium tremens) when intake is interrupted; affects life; Tx = Disulfiram

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Complications of Alcoholism

hepatitis, cirrhosis, pancreatitis, dilated cardiomyopathy, peripheral neuropathy, cerebellar degeneration, Wernicke-Korsakoff, testicular atrophy, hyperestrinism, Mallory-Weiss syndrome

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Respiratory Acidosis (w/ inc HCO3 reabsorption)

low pH, PCO2 > 40; hypoventilation (lung diseases, opioids, narcotics, sedatives, weak respiratory muscles)

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Normal Anion Gap Metabolic Acidosis with Hyperventilation as Compensation

low pH, PCO2 <40; d/t diarrhea, glue sniffing, renal tubular acidosis, hyperchloremia; Kussmaul respirations

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Increased Anion Gap (Na - (Cl + HCO3) Metabolic Acidosis with Compensation

MUD PILES: methanol, uremia, DKA, paraldehyde or phenformin, iron tablets or INH, lactic acidosis, ethylene glycol, salicylates;

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Respiratory alkalosis (w/ inc HCO3 secretion)

high pH, PCO2 <40; hyperventilation, aspirin ingestion (early)

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Metabolic Alkalosis with Hypoventilation as Compensation

low pH, PCO2 >40; Vomiting, diuretic use, antacid use, hyperaldosteronism

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Created by: bscaryp