Week 9: Renal

Question 1

What are the basic functions of the renal system? (4)

Answer 1

Water/ion homeostasis
Removes metabolic wastes: urea, uric acid, creatinine and toxins
Secretes hormones: EPO, renin, activates vitamin D3
Plays a role in gluconeogenesis

Question 2

What is the basic structure of kidneys?

Answer 2

paired and located in the upper dorsal region of abdominal cavity

Question 3

What are the different regions of the nephron?

Answer 3

renal corpuscle, proximal convoluted tubule, loop of henle, distal convoluted tubule, collecting tubules

Question 4

How much cardiac output goes through the renal artery?

Answer 4

20%

Question 5

Explain the renal tubular processes (4)

Answer 5

Filtration: removal of substances from blood into renal tubule at the glomerulus

Secretion: removal of substances from blood into renal tubule at peritubular capillaries

Reabsorption: return of substances from renal tubule into blood at peritubular capillaries

Excretion: removal of substances from renal tubule through urine

Question 6

What is the function of the renin-angiotensin system? What are the two major hormones in play?

Answer 6

regulates blood pressure and maintain blood volumes

Angiotensin II - potent vasoconstricting factor
Aldosterone from adrenal cortex - facilitates sodium reabsorption

Question 7

How is renin synthesized into angiotensin II?

Answer 7

Renin is synthesized by the liver into angiotensinogen, then converted to angiotensin I & II in the lungs by angiotensin converting enzyme

Question 8

Where is antidiuretic hormone (ADH) released from and what is it’s role?

Answer 8

Released from the posterior pituitary
Acts on the renal tubules to allow for water reabsorption that depends upon the formation of a salt gradient by the loop of henle

Question 9

Where is atrial natriuretic peptide (ANP) released from and what is it’s role? What hormone does it oppose?

Answer 9

Released from cells of the cardiac atria in response to increased stretch
Role: Counters fluid-conserving effects to reduce blood volume, relieves blood pressure
Works opposite aldosterone

Question 10

What are the major tests of renal function (4)?

Answer 10

• urinalysis
• blood chemistry: blood urea nitrogen measures urea, serum creatinine reflects GFR and functional capacity of kidneys
• creatinine clearance: clearance is the amt of some substance that is cleared from the blood by the kidneys per unit time, can be used to estimate GFR
• GFR: provides an assessment of renal function

Question 11

What is measured in a UA and what are the normal findings (6)?

Answer 11

1. color (yellow to amber)
2. consistency (clear to slightly hazy)
3. specific gravity (1.003-1.030)
4. pH (5-6.5)
5. glucose, ketones, nitrites, hemes and protein (negative)
6. microscopic exam for casts, crystals and cells (absence)

Question 12

Define diuretic

Answer 12

agents that increase water excretion

Question 13

Explain (generally) how osmotic, loop, thiazide, and potassium-sparing diuretics work

Answer 13

Osmotic diuretics: acts at proximal tubule to shift the osmotic balance
Loop diuretics: work by inhibiting symporters in the loop of Henle - destroys the salt gradient and prevents water reabsorption under the influence of ADH from the collecting tubules
Thiazide diuretics: block the Na+Cl- symporter in the distal convoluting tubule to block sodium reabsorption, thus water remains in the lumen of the renal tubule for excretion
Potassium-sparing diuretics: work in the collecting ducts and inhibits aldosterone, blocks Na+ reabsorption and increases K+ retention

Question 14

Define glomerulonephritis

Answer 14

several pathological states usually involves inflammation of glomerulus

Question 15

What are causes of glomerulonephritis (Primary 1 vs. Secondary 4)

Answer 15

Primary: intrinsic to kidney
Secondary: associated with infections (post-streptococcal GN, bacterial endocarditis), drugs, systemic disorders (lupus or vasculitis) or diabetes

Question 16

S/S of glomerulonephritis (5)

Answer 16

depends on the form of GN but may include hematuria, proteinuria, hypertension, edema and fatigue

Question 17

S/s of acute nephritis syndrome (5)

Answer 17

hematuria, proteinuria, azotemia (nitrogen in the blood), edema, hypertension

Question 18

Define rapidly progressive glomerulonephritis

Answer 18

progression of renal failure over days to weeks often in the context of nephritic syndrome

Question 19

What is the defining characteristic of rapidly progressive glomerulonephritis?

Answer 19

Formation of crescents initiated by passage of fibrin into the Bowman’s capsule which stimulates proliferation of the endothelial cells

Question 20

What is Goodpasture syndrome?

Answer 20

autoimmune disease caused by formation of antibodies to the basement membrane

Question 21

Define nephrotic syndrome

Answer 21

constellation of findings resulting from glomerular permeability and protein loss to the urine

Question 22

Define chronic glomerulonephritis

Answer 22

persistent proteinuria with or without hematuria and slowly progresses to chronic renal failure

Question 23

Define tubulointerstitial disease

Answer 23

disorders that affect interstitial space surrounding renal tubules

Question 24

Distinguish between acute vs. chronic tubulointerstitial disease

Answer 24

Acute: rapid onset characterized by edema
Chronic: fibrosis and atrophy, may be characterized by absence of symptoms until late in course of disease

Question 25

What are two possible causes of chronic tubulointerstitial disease

Answer 25

Kidney infection (pyelonephritis), acute tubular necrosis

Question 26

Define pyelonephritis

Answer 26

infection of kidney tissue and pelvis

Question 27

What is acute pyelonephritis?
S/S (5)
Complications (3)

Answer 27

result of hematogenous spread of gram negative bacteria or infection via the urethra or instrumentation (placing catheters)
S/S: fever, chills, groin or flank pain, urinary frequency, dysuria
Complications: septic shock, chronic pyelonephritis, chronic renal insufficiency

Question 28

What is chronic pyelonephritis?

Answer 28

Progressive disease characterized by scarring and deformation of renal calyces (drain kidney of urine and pass it)

Question 29

Risk factors of chronic pyelonephritis (4)

Answer 29

Increased risk with obstructive uropathy, glomerulonephritis, polycystic kidney disease and renal calculi

Question 30

Complication of chronic pyelonephritis

Answer 30

Abscess formation around the kidney can occur

Question 31

Possible causes of chronic pyelonephritis (3)

Answer 31

May be due to kidney stones, neurogenic or congenital such as strictures

Question 32

What is acute tubular necrosis the common cause of (2)?

Answer 32

acute kidney injury, acute kidney failure

Question 33

What changes in acute tubular necrosis?

Answer 33

elevations in BUN and creatinine, decline in urine output

Question 34

Types of acute tubular necrosis

Answer 34

Ischemic: results from decreased perfusion or inadequate oxygenation to renal tubules
Nephrotoxic: results from number of agents that directly and specifically damage the renal tubules

Question 35

Risks for acute tubular necrosis (4)

Answer 35

Blood transfusion reactions
Injury or trauma to the muscles (rhabdomyolysis)
Hypotension or shock
Recent surgery or exposure to nephrotoxic substances

Question 36

Phases of acute tubular necrosis, include how long they last

Answer 36

Initiation phase: dominated by the initiating cause of ATN and azotemia - several hours
Maintenance phase: characterized by oliguria, profound systemic effects and significant morbidity and mortality due to retention of waste products, fluid retention and development of hypertension - lasts for a week
Recovery: characterized by profuse diuresis with recovery of renal function, may take years and some kidney damage may persist

Question 37

Which stage of acute tubular necrosis do fatalities commonly occur in

Answer 37

Maintenance phase

Question 38

What is the goal of treatment for acute tubular necrosis?

Answer 38

treatment is aggressive and usually requires dialysis to maintain kidney function, reduce damage and recover functional tissues

Question 39

Define polycystic kidney disease

Answer 39

cystic genetic disorder of the kidneys

Question 40

What are the affected genes that lead to polycystic kidney disease? Which gene accounts for the majority of cases and what does it normally do?

Answer 40

Affected genes: 3 mutations in PKD-1, 2 or 3 genes

PKD-1 gene accounts for 85% of all ADPKD - involved in cell cycle regulation and calcium transport in epithelial cells

Question 41

Characteristics of polycystic kidney disease (3)

Answer 41

Multiple cysts in kidneys - may be one affected kidney and typically progresses to bilateral

Cysts are numerous and fluid filled which enlarges the kidney, compresses and replaces functional renal tissue

Renal deterioration which progresses to fatal anemia

Question 42

What are s/s of polycystic kidney disease (5)?

Answer 42

HTN, increased abdominal size, hematuria, flank pain, renal calculi

Question 43

How does adult autosomal dominant polycystic kidney disease (ADPKD) progress? What is the prevalence in end stage renal disease patients?

Answer 43

Insidious onset - does not usually present until 30-50 years, renal deterioration is gradual
10% of ESRD patients are affected by ADPKD

Question 44

What is the mortality rate of autosomal recessive polycystic kidney disease (ARPKD), and what population does it affect?

Answer 44

Mortality rates: 30% of neonates

Infants

Question 45

Secondary effects of polycystic kidney disease

Answer 45

Damage to and possible formation of cysts in the liver and pancreas, rarely the heart and brain

Question 46

Define obstructive uropathy

Answer 46

obstruction of urine flow as it exits from the kidney toward the bladder

Question 47

What are causes of obstructive uropathy? (3)

Answer 47

Renal calculi
Congenital disorders of ureters - strictures or tumors
infection

Question 48

What are renal calculi?

Answer 48

form when substances that normally dissolve in urine precipitate, most common in renal pelvis, calyces of the kidney

Question 49

Which population are renal calculi most common in, and which population are they the most rare in?

Answer 49

Common: Men
Rare: Children

Question 50

What are the factors that can lead to renal calculi? (7)

Answer 50

change in pH, dehydration, gout, immobilization, infection, obstruction, family history

Question 51

What causes calcium stones, prevalence and treatment

Answer 51

Cause: excess calcium
Prevalence: 80% of renal calculi
Tx: dietary restriction of foods containing oxalate

Question 52

What causes struvite stones, prevalence and treatment

Answer 52

Cause: urea-splitting UTI
Prevalence: 10-15% of renal calculi
Tx: treat underlying UTI

Question 53

What causes uric acid stones, prevalence and treatment

Answer 53

Cause: gout
Prevalence: 5-10% of renal calculi
Tx: dietary restriction of foods containing purine

Question 54

What causes cystine stones?

Answer 54

rare inherited disorder of cystine metabolism

Question 55

What is ADH’s normal role and what is it’s feedback loop?

Answer 55

normal role: increases water reabsorption from renal tubules that increases BP by increasing BV
Feedback loop: Released from posterior pituitary in response to low BP or increased blood osmolarity

Question 56

Define SIADH

Answer 56

characterized by high than normal levels of ADH, results in fluid overload or dilutional hyponatremia

Question 57

Causes of SIADH (5)

Answer 57

Excess ADH released from posterior pituitary
Ectopic source releases ADH (lung cancer cells)
Infections
Head injury
Drugs

Question 58

Consequences of SIADH (4)

Answer 58

water retention occurs, BV increases, extracellular fluid volume increases; fluid overload/dilutional hyponatremia

Question 59

Sx (6) and Tx (3) of SIADH

Answer 59

Sx: headaches, nausea, vomiting, confusion, convulsions, coma
Treatment: water restriction, demeclocycline, management of underlying cause

Question 60

Define diabetes insipidus

Answer 60

lower than normal levels of ADH

Question 61

Define prerenal disease, causes, reversibility, s/s (2)

Answer 61

underlying cause d/t blood supply to kidney
Causes: systemic hypotension, shock, substances that promote vasoconstriction
Reversible if detected before damage has occurred
s/s: oliguria, disproportionate elevation of BUN relative to creatinine (20:1, normal 10:1)

Question 62

Define intrarenal disease, causes (4), treatment

Answer 62

underlying cause within the kidney itself
Causes: disease that injures or damages structures within kidney, associated with ischemia or toxicity - ATN, glomerulonephritis, pyelonephritis, rhabdomyolysis
Tx: identify and correct underlying cause

Question 63

Define postrenal disease, causes (4)

Answer 63

underlying cause in the urinary tract or issue with outflow from the kidney, depends on cause and severity of obstruction, back pressure can damage the kidneys
Causes: calculi or strictures in the ureter, bladder tumor, neurogenic bladder, prostatic hyperplasia

Question 64

Characteristics of chronic kidney disease (4)

Answer 64

○ Slow, insidious, irreversible impairment of renal function
○ Destruction of renal tissue with irreversible sclerosis and loss of nephron function
○ Results from chronic illness or rapidly progressing disease
○ Symptoms generally nonspecific and might include reduced appetite or generally feeling unwell

Question 65

S/S of CKD (8)

Answer 65

Azotemia, acidosis, hyperkalemia, hypertension, anemia, hypocalcemia, fluid overload, elevated phosphate

Question 66

Progression/staging of CKD (5)

Answer 66

1. Kidney damage with normal or increased GFR
2. Kidney damage with mild decrease in GFR
3. Moderate decrease in GFR
4. Severe decrease in GFR
5. Kidney failure

Question 67

Causes of CKD (3)

Answer 67

DM, hypertension, glomerulonephritis

Question 68

Treatment of CKD

Answer 68

causes of manifestations, slow/halt disease progression, dialysis, transplant

Question 69

Define azotemia

Answer 69

general condition of elevated serum levels of nitrogen-containing substances including urea, creatinine and uric acid, causes may not all be renal, treat underlying condition; does not affect other systems

Question 70

Define uremia

Answer 70

clinical syndrome of renal failure with azotemia

Question 71

Define uremic syndrome

Answer 71

accumulation of urea that causes symptoms related to renal failure

Question 72

S/S of uremic syndrome (10)

Answer 72

Altered CNS function, neuropathy of lower extremities, ulceration of GI tract, N/V, hypertension, pruritis/altered skin coloration, acid-base/fluid and electrolyte imbalances, poor blood clotting, immunosuppression, pericarditis

Question 73

Treatment of uremic syndrome

Answer 73

dialysis, possible restricted protein intake

Question 74

Define neurogenic bladder

Answer 74

lack of bladder control d/t neurologic condition

Question 75

Distinguish between spastic vs. flaccid neurogenic bladder

Answer 75

Spastic: failure to store urine and results from neural lesions above the level of the sacral cord, neurons in the micturition center function reflexively

Flaccid: failure to empty the bladder results from neural disorders affecting the motor neurons in the sacral cord or peripheral nerves

Question 76

Define urinary incontinence

Answer 76

uncontrollable and involuntary expulsion of urine that may result from both physiological and psychological factors

Question 77

3 types of urinary incontinence

Answer 77

Stress
Urge
Overflow

Question 78

Define Wilms’ Tumor and identify the population at risk

Answer 78

Wilms’ tumor: kidney cancer found in children usually between 3 and 5

Question 79

Underlying genetic mutation of Wilm’s tumor, s/s (2), prognosis

Answer 79

Genetic mutations: WT1 gene associated with mutations in the CTNNB1 gene encoding a proto-oncogene
S/S: large abdominal mass, hypertension
Prognosis: 90% of patients survive for 5 years

Question 80

Define renal cell carcinoma, risk factors, treatment

Answer 80

Originates in the lining of the proximal convoluted tubule, tumor mass may cause ischemia, necrosis or hemorrhage, metastasis may occur at any stage often to: lungs, liver, lymph nodes, bones

Risk factors: heavy smoking, obesity, occupational exposure to substances like asbestos

Treatment: depends on stage - surgery or chemo

Question 81

Cells that may give rise to bladder cancer

Answer 81

transitional cell carcinoma (mostly), may include squamous cell carcinoma or adenocarcinoma

Question 82

S/S of bladder cancer (3), risk factors (3), prognosis

Answer 82

S/S: hematuria, frequent/painful urination, back/pelvic pain

Risk factors: smoking, radiation, chemical exposure

Prognosis: high survival rate - usually diagnosed early, but has high risk of recurrence