Disorders of Renal Function PDF

Summary

This document is a lecture on disorders of renal function. It covers the components and functions of the renal system, the process of urine formation, and the pathophysiology of renal system disorders. The document also discusses urinary tract infections, acute and chronic renal failure, glomerulonephritis, and renal calculi.

Full Transcript

Disorders of Renal Function
 OBJECTIVES

By the end of the lecture , the students will
be able to :

1. List down the components of the renal
system
2. List down the functions of the renal
system
3. Explain the process of urine formation
4. Describe the pathophysiology of
Disorders of the renal system

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RENAL SYSTEM
Components of the renal system:
kidneys, ureters, bladder, and urethra.

1.The kidneys - located retroperitoneally in the lumbar area
Functions:
⮚ Produce and excrete urine to maintain homeostasis.
⮚ Regulate the volume, electrolyte concentration, and acid-base
balance of body fluids.
⮚ Detoxify the blood and eliminate wastes.
⮚ Regulate blood pressure.
⮚ Support red blood cell production (erythropoiesis).
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RENAL SYSTEM

2.The ureters - tubes that extend from the kidneys to the bladder
⮚ Function: transport urine to the bladder.

3.The bladder- a muscular bag
⮚ Function: serves as reservoir for urine until it leaves the body through

the urethra.
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NEPHRON
Nephron is the functional unit of kidney
Consists of: Renal Corpuscle, Renal Tubules

Renal Corpuscle contains:
Bowman’s capsule: Part of collecting system
Glomerulus: Afferent arteriole, Efferent arteriole

Renal/Nephron Tubules
1. Proximal convoluted tubule
2. Loop of Henle
3. Distal convoluted tubule
4. Collecting tubule
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FOUR SEGMENTS OF THE RENAL/NEPHRON TUBULE
Proximal Convoluted Tubule
A highly coiled segment; drains into the Bowman capsule
Loop of Henle
A thin looped structure
Distal Convoluted Tubule
A distal coiled portion
Collecting Tubule
Joins with several tubules to collect the filtrate
Functions of the Nephron:
1. Glomerular filtration - Three layers of filtration
2. Reabsorb water, electrolytes, and other substances
3. Secrete other unneeded materials into the tubular filtrate for
elimination
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URINE FORMATION
1. Glomerular Filtration
Occurs in renal corpuscle, All solutes in the glomerular capillaries, except for macromolecules
like proteins, pass through by passive diffusion.
Glomerular filtration rate (GFR) is the volume of glomerular filtrate formed per minute
(125ml/min) by the kidneys.
2. Reabsorption
Occurs in proximal convoluted tubule and distal convoluted tubule
Movement of substances from tubular fluid to blood.
3. Secretion
Occurs in distal convoluted tubule
Movement of substances from blood to tubular fluid.
4. Concentration
Occurs in collecting tubules
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FACTORS AFFECTING URINE PRODUCTION
Two key factors determine volume of urine produced.
1. Glomerular filtration rate (GFR) - Determined by the unique arrangement of blood vessels. 3
factors control this:
(1) Autoregulation -Local feedback from muscle tension in afferent arteriole
(2) Sympathetic nervous system
(3) Renin
2. Hormonal secretion - Hormones help control the volume of urine via fluid & electrolyte balance
1. Aldosterone: From adrenal cortex, Causes H2O & Na+ retention
2. Atrial natriuretic hormone(ANH):From atrial wall of heart, Causes H2O & Na+ loss
3. Antidiuretic hormone: From posterior pituitary, Causes reabsorption of H2O (Na+
goes with it)
 Urinary Tract Infections
Urinary tract infections (UTIs) are extremely common, it is estimated that 6 million Americans
are affected annually. Urine generally provides an excellent medium for growth of
microorganisms.

Cystitis and urethritis are considered infections of the lower urinary tract, whereas
pyelonephritis is an upper tract infection.

Most infections are ascending, arising from organisms in the perineal area and traveling along the
continuous mucosa in the urinary tract to the bladder and then along the ureters to the kidneys.

Occasionally pyelonephritis results from a blood-borne infection.
The common causative organism is Escherichia coli, which is one of the resident flora of the
intestine (approximately 85%). 9
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 Urinary Tract Infections
Etiology
Women are anatomically more vulnerable to infection than men because of the shortness and width
of the urethra, its proximity to the anus
The frequent irritation to the tissues caused by sexual activity, bubble bath, and deodorants.
Improper hygiene practices during defecation or menstruation also increased risk.
Older men with prostatic hypertrophy and retention of urine frequently develop infection.
Congenital abnormalities are a common cause of infection in children, particularly where
obstructions to flow or reflux are present
Incontinence with incomplete emptying of the bladder, retention of urine in the bladder, and any
obstruction to urine flow, which tends to result in growth of organisms
Pregnancy, scar tissue, and renal calculi (kidney stones)
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 Pathophysiology Cystitis
With cystitis, the bladder wall and urethra are inflamed, red, and swollen, and in some cases,
ulcerated.
The bladder wall is irritated and hyperreactive and bladder capacity is usually reduced.
Signs and symptoms
In some cases, the manifestations are very mild and may be unnoticed.
Pain is common in the lower abdomen.
Dysuria (painful urination), urgency (need to void immediately), frequency (short intervals
between voiding), and nocturia (need for urination during sleep period) occur as the inflamed
bladder wall is irritated by urine.
Systemic signs of infection may be present (fever, malaise, nausea, and leukocytosis).
The urine often appears cloudy and has an unusual odor. Urinalysis indicates bacteriuria (more
than 100,000 organisms per milliliter of urine), pyuria, and microscopic hematuria
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 Incontinence and Retention
Incontinence, or the loss of voluntary control of the bladder, has many causes. Young children must learn
voluntary control as the nervous system matures.

Enuresis defines involuntary urination by a child after age 4to 5, when bladder control can be expected. Most
children have nocturnal enuresis only.

Most cases appear to be related to factors such as a developmental delay, sleep pattern, or psychosocial
aspects rather than to a physical defect.
Types of incontinence:
1) Stress incontinence occurs when increased intra-abdominal pressure forces urine through the sphincter. This
can occur with coughing, lifting, or laughing, but occurs more frequently in women after the urogenital
diaphragm has become weakened by multiple pregnancies or age.
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 Incontinence and Retention
2) Overflow incontinence results from an incompetent bladder sphincter. In the elderly, a weakened
detrusor muscle may prevent complete emptying of the bladder, leading to frequency and
incontinence.
Spinal cord injuries or brain damage frequently cause a neurogenic bladder, which may be spastic or
flaccid, due to interference with central nervous system (CNS) and autonomic nervous system
control of the bladder emptying.

3) Retention: is an inability to empty the bladder. It may be accompanied by overflow incontinence.
Note that a spinal cord injury at the sacral level blocks the micturition reflex, resulting in retention of
urine or failure to void.
Retention also may occur after anesthesia, either general or spinal. Inability to control urine flow
may be managed by wearing pads or briefs that contain the urine.

Catheters prevent kidney damage due to backup of urine, collect urine, and prevent skin breakdown
in the incontinent client. 14
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ACUTE PYELONEPHRITIS
Also known as acute infective tubulointerstitial nephritis is A sudden inflammation caused by
bacteria that primarily affects the interstitial area and renal pelvis or, less commonly, the renal
tubules.
More common in females, probably because of:

⮚ A shorter urethra

⮚ The proximity of the urinary meatus to the vagina

⮚ A lack of the antibacterial prostatic secretions produced in males
CAUSES
Bacterial infection of the kidneys, including normal intestinal and fecal flora that grow readily in
urine
⮚ Escherichia coli (E. Coli) is the most common causative organism
⮚ Other causative organisms : Enterococcus faecalis, Klebsiella, Staphylococcus aureus
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ACUTE PYELONEPHRITIS
Pathophysiology:
Typically, the infection spreads from the bladder to the ureters, and then to the kidneys, such as in
vesicoureteral reflux.
Causes :
❖ congenital weakness at the junction of the ureter and bladder
❖ instrumentation, such as catheterization
❖ from a hematogenic infection, such as in septicemia
❖ inability to empty the bladder
❖ urinary obstruction due to tumors.
Bacteria refluxed to intrarenal tissues may create colonies of infection within 24 to 48 hours.
Recurrent episodes of acute pyelonephritis can eventually result in chronic pyelonephritis.
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CHRONIC PYELONEPHRITIS
Persistent kidney inflammation that can scar the kidneys and may
lead to chronic renal failure.

Causes: bacterial, metastatic, or urogenous.
Most common in patients who are predisposed to recurrent acute
pyelonephritis such as those with urinary obstructions or
vesicoureteral reflux.

Signs/symptoms: childhood history of unexplained fevers or bed-
wetting, flank pain, anemia, low urine specific gravity, proteinuria,
leukocytes in urine and, especially in late stages, hypertension.
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GLOMERULONEPHRITIS

Bilateral inflammation of the glomeruli, typically following a streptococcal infection
Acute glomerulonephritis is most common in boys ages 3 to 7, but it can occur at any age
Chronic glomerulonephritis is a slowly progressive disease characterized by inflammation,
sclerosis, scarring and, eventually, renal failure
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GLOMERULONEPHRITIS
PATHOPHYSIOLOGY
The epithelial layer of the glomerular membrane is disturbed.

Results from the entrapment and collection of antigen-antibody complexes in the glomerular

capillary membranes

Glomerular injury occurs and increase membrane permeability which causes a loss of negative

charge across the glomerular membrane as well as enhanced protein filtration.

The inflammatory response decreases the GFR, which causes fluid retention and decreased urine

output
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GLOMERULONEPHRITIS
Signs/symptoms:
Decreased urination or oliguria due to a decreased
GFR
Smoky or coffee-colored urine due to hematuria
Dyspnea and orthopnea due to pulmonary edema
secondary to hypervolemia
Periorbital edema due to hypervolemia
Mild to severe hypertension due to a decreased
GFR, sodium or water retention
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RENAL FAILURE
A condition in which the kidneys fail to remove metabolic end products from the blood and
regulate the fluid, electrolyte, and pH balance of the extracellular fluids
Causes:
Renal disease
Systemic disease
Urologic defects of non-renal origin
Types:
Acute Renal Failure
Abrupt in onset
Often is reversible if recognized early and treated appropriately
Chronic Renal Failure
The result of irreparable damage to the kidneys
It develops slowly, usually over the course of a number of years
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ACUTE RENAL FAILURE
Abrupt decrease in renal function
Prerenal Causes :
Hypovolemia
Heart failure and cardiogenic shock
Decreased renal perfusion
Intrarenal Causes :
Prolonged renal ischemia
Exposure to nephrotoxic drugs, metals, organic solvents
Acute renal disease
Postrenal Causes :
Bilateral ureteral obstruction
Bladder outlet obstruction
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CHRONIC RENAL FAILURE
Slow progressive loss of neurons, Usually irreversible
Causes:

Hypertension
Diabetes Mellitus
Polycystic kidney disease
Obstructions of the urinary tract
Glomerulonephritis
Cancers
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CHRONIC RENAL FAILURE
The pathophysiology of prerenal, intrarenal, and postrenal failure differs
A. Prerenal failure:
Occurs when a condition that decreases blood flow to the kidneys (hypo perfusion).
Azotemia (excess nitrogenous waste products in the blood) develops in 40% to 80% of acute
renal failure cases.
When renal blood flow is interrupted, so is oxygen delivery.
The ensuing hypoxemia and ischemia can rapidly and irreversibly damage the kidney tubules.
The impaired blood flow results in decreased glomerular filtration rate (GFR) and increased
tubular reabsorption of sodium and water.
A decrease in the GFR causes electrolyte imbalance and metabolic acidosis.
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CHRONIC RENAL FAILURE
B. Intrarenal failure: results from damage to the filtering structures of the kidneys.
Causes are classified as nephrotoxic, inflammatory, or ischemic.
When the damage is caused by nephrotoxicity or inflammation, the delicate layer under the
epithelium becomes irreparably damaged, typically leading to necrosis and chronic renal failure.
Severe or prolonged lack of blood flow caused by ischemia may lead to renal damage (ischemic
parenchymal injury) and excess nitrogen in the blood (intrinsic renal azotemia).
The ischemic tissue generates toxic oxygen-free radicals, which cause swelling, injury, and necrosis.

Postrenal failure:
Bilateral obstruction of urine outflow leads to damage of renal parenchyma.
The cause may be in the bladder, ureters, or urethra.
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CHRONIC RENAL FAILURE
Phases:
The three types of acute renal failure (prerenal, intrarenal, or postrenal) usually pass through three
distinct phases: oliguric, diuretic, and recovery.
1. Oliguric phase :
⮚ Necrosis of the tubules can cause sloughing of cells and ischemic edema and a decrease in the
GFR.
⮚ Urine output may remain at less than 30 ml/hour or 400 ml/day for a few days to weeks.
2. Diuretic phase:
⮚ Kidneys become unable to conserve sodium and water.
⮚ Increased urine secretion of more than 400 ml/24 hours, may last days or weeks..
3. Recovery phase:
⮚ If the cause of diuresis is corrected, azotemia gradually disappears, and recovery occurs.
⮚ The recovery phase is a gradual return to normal or near normal renal function over 3 to 12
months.
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CHRONIC RENAL FAILURE
Clinical manifestations

Early signs include oliguria , azotemia, electrolyte imbalance and metabolic acidosis
GI—anorexia, nausea, vomiting, diarrhea or constipation
Central nervous system (CNS)— headache, drowsiness, irritability, confusion, seizures, coma
Cutaneous—dryness, pruritus
Cardiovascular—early in the disease, hypotension; later, hypertension, arrhythmias, fluid overload,
heart failure, systemic edema, anemia, altered clotting mechanisms
Respiratory—pulmonary edema,.
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NEPHROTIC SYNDROME
Results from a defect in the permeability of glomerular vessels.
About 75% of all cases result from primary glomerulonephritis.

Marked proteinuria, hypoalbuminemia, hyperlipidemia, and edema characterize nephrotic syndrome.
CAUSES
Allergic reactions

Circulatory diseases, such as heart failure
Sickle cell anemia
Collagen-vascular disorders, such as systemic lupus erythematosus

Hereditary nephritis
Infections, such as tuberculosis
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NEPHROTIC SYNDROME
The pathophysiology
The injured glomerular filtration membrane allows the loss of plasma proteins, especially albumin
and immunoglobulin.
In addition, metabolic, biochemical, or physiochemical disturbances in the glomerular basement
membrane result in the loss of negative charge as well as increased permeability to protein.
Hypoalbuminemia stimulates the liver to synthesize lipoprotein, with consequent hyperlipidemia.
CLINICAL MANIFESTATIONS
⮚ Periorbital edema due to fluid overload

⮚ Mild to severe dependent edema of the ankles or sacrum
⮚ Orthostatic hypotension due to fluid imbalance
⮚ Ascites due to fluid imbalance & Respiratory difficulty due to pleural effusion
 30

RENAL CALCULI
Renal calculi, or stones (nephrolithiasis), can form anywhere in the urinary tract, although they most
commonly develop on the renal pelves or calyces.
They may vary in size and may be solitary or multiple.
CAUSES
Changes In Urine pH
Dehydration
Dietary Factors
Gout
Immobilization
Obstruction To Urine Flow Leading To Stasis In The Urinary Tract
Renal disease
 31

RENAL CALCULI
Pathophysiology:
Calculi form when substances that are normally dissolved in urine, such as calcium oxalate and
calcium phosphate, precipitate.
Dehydration may lead to renal calculi as calculus-forming substances concentrate in urine.
Calculi may either enter the ureter or remain in the renal pelvis, where they damage or destroy renal
parenchyma and may cause pressure necrosis.
In ureters, calculi cause obstruction with resulting hydronephrosis and tend to recur.
CLINICAL FINDINGS
Mild to severe flank pain resulting from obstruction
Nausea with or without vomiting
Fever and chills from infection
 Hydronephrosis
This occurs as a secondary problem, a complication of calculi, but also of tumors, scar tissue in
the kidney or ureter, and untreated prostatic enlargement. Developmental defects are common in
the urinary tract and may cause obstruction by kinking or stenosis of a ureter.

Obstructive uropathy can be diagnosed by ultrasonography in the fetus, allowing for immediate or
neonatal corrective surgery, thus preventing major kidney damage.

Urine is continually forming. Any prolonged interference with urine outflow through the system
results in back pressure and a dilated area filled with urine in the ureter or kidney In the kidney,
continued buildup of urine, particularly over a prolonged period of time, causes necrosis of the
tissue
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 Hydronephrosis
Because of direct pressure and compression of
the blood vessels. Hydronephrosis is
frequently asymptomatic unless mild flank
pain occurs as the renal capsule is distended,
or unless infection develops. It can be
diagnosed with ultrasonography,
radionucleotide imaging,

CT scan or IVP. If the cause is not removed,
bilateral hydronephrosis could lead to chronic
renal failure.
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 TUMORS
Benign tumors are rare in the urinary tract. Malignant tumors occur primarily after age 50 years,
in males by a ratio of 3 : 2. Smoking is a major predisposing factor.
Renal Cell Carcinoma
✓ Renal cell carcinoma (adenocarcinoma of the kidney) is a primary tumor arising from the tubule epithelium,
more often in the renal cortex.
✓ It tends to be asymptomatic in the early stage and often has metastasized to liver, lungs, bone, or CNS at the
time of diagnosis. This cancer occurs more frequently in men and smokers.
✓ The initial sign is usually painless hematuria, either gross or microscopic.
✓ Other manifestations include dull, aching flank pain; a palpable mass; unexplained weight loss; and anemia
or erythrocytosis. Paraneoplastic syndromes such as hypercalcemia (increased parathyroid hormone) or
Cushing’s syndrome (increased adrenocorticotropic hormone) are common.
✓ This tumor tends to be silent; therefore, diagnosis is made in one third of cases after metastasis to lungs, liver,
or bone has occurred.
✓ Removal of the kidney (nephrectomy) is the treatment because the tumor is usually unresponsive to
radiation or chemotherapy.

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 Bladder Cancer
Malignant tumors of the bladder commonly arise from the transitional epithelium lining the bladder
in the trigone area.
This cancer often develops as multiple tumors and tends to recur. It is diagnosed by urine cytology
(malignant cells in the urine) and biopsy.
The tumor is invasive through the wall to adjacent structures, and it metastasizes through the blood
to pelvic lymph nodes, liver, and bone.
The early sign is hematuria, gross or microscopic. Dysuria or frequency may develop and infection
is common.
Bladder cancer has a high incidence in individuals working with chemicals in laboratories or
industry, particularly with dyes, rubber, and aluminum.
More than 50% of patients are cigarette smokers. Other predisposing factors are recurrent infection
and heavy intake of analgesics.
Treatment includes surgical resection of the tumor in 90% of cases, chemotherapy, and radiation.
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 References:
▪ NORRIS, T. (2019). Porth’s Pathophysiology
Concepts of Altered Health States. 10th ed.
Wolters Kluwer
▪ Ian Peate, (2021) Fundamentals of applied
pathophysiology: an essential guide for nursing &
healthcare students. 4th ed.
▪ Hoboken, NJ : Wiley-Blackwell Dignle, M.,
Mulvihill, M., Zelman, M. & Tompary, E. (2011).
Introductory pathophysiology for nursing &
healthcare professionals. |Pearson
▪ Nair, M., & Peate, I. (2015). Pathophysiology for
nurses at a glance (nursing and healthcare).
Publisher: West Sussex, England: John Wiley &
Sons, Inc

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