Level 2 Semester 4 Pathology Glomerular Diseases PDF

Summary

These lecture notes cover glomerular diseases, including definitions, classifications, pathogenesis, pathology, and various types of glomerulonephritis. The notes are specifically for Level 2 Semester 4 students and detail the immunological and non-immunological mechanisms involved.

Full Transcript

Level 2
Semester 4

▪ Module respiratory &renal (RAR 414)
 Lecture Title

Glomerular diseases I
(glomerulonephritis )
 Instructor information

Dr/ Sarah Nabil Nasif
MD
Assistant professor of Pathology
email: [email protected]
ILOs
-Define glomerulonephritis
-list the principles and classifications of glomerulonephritis
according to (cause , clinical presentation , duration)
-describe the pathogenesis of glomerulonephritis
-describe the pathogenesis and morphology of diseases
causing nephrotic syndrome (minimal changes, membranous ,
focal segmental glomerulosclerosis
 Definition

Renal diseases in which the lesions are primarily
glomerular

Although it denotes inflammation , the typical
features of inflammation are absent
Classifications of glomerulonephritis

Primary or secondary ( according to cause)

Nephrotic , nephritic or mixed(according to clinical
presentation)

Acute or chronic (according to duration)
 According to the cause

Primary glomerulopathy Secondry glomerulopathy
Acute diffuse proliferative SLE
glomerulonephritis Diabetes
Cresentic GN Hypertension
Membranous GN Amyloidosis
Minimal changes GN Vasculitis
FSGN Drugs
IGA nephropathy
Chronic glomerulonephritis
 According to clinical presentation

Nephrotic syndrome

Nephritic syndrome

mixed
Nephritic syndrome Nephrotic syndrome
Diffuse proliferative GN Membranous GN
Rapidly progressive(crescentic) GN Minimal changes GN
Goodpasture syndrome FSGS
Focal glomerulonephritis Membranoproliferative GN
Primary Bergers disease (IgA nephritis) IgA nephropathy
Seconry IgA nephritis, Henoch Secondary to systemic disease
Scshonlein purpura, SBE
Nephritic syndrome Nephrotic syndrome
Hematuria Heavy proteinuria (over 3.5
Mild to moderate proteinuria gm/24h)
Hypertension Hypoalbuminemia(less than 3
Oliguria gm)
Uremia Sever generalized oedema
Chronic renal failure Hyperlipedimia
lipiduria
Nephritic syndrome Nephrotic syndrome
Proliferation Less glomerular inflammation
Inflammation Less glomerular proliferation
Predominant of sclerosing
glomerulopathy
Pathogenesis of glomerulonephritis
Pathogenesis of glomerular injury:
 Genetic eg, congenital nephrotic syndrome
 Aquired
- immunological (most forms of primary glomerulonephritis)
-non immunological
 Immune Mechanisms of Glomerular
Injury
ANTIBODY-MEDIATED INJURY
IN SITU IMMUNE COMPLEX DEPOSITION
-Fixed intrinsic tissue antigens
-planted antigens
CIRCULATING IMMUNE COMPLEX DEPOSITION
-exogenous
-endogenous
CYTOTOXIC ANTIBODIES
CELL-MEDIATED IMMUNE INJURY
ACTIVATION OF ALTERNATIVE COMPLEMENT PATHWAY
Antibody mediated injury
Cytotoxic antibodies (Antibodies to Glomerular Cells)
antibodies against glomerular cell antigens may
react with cellular components and cause injury by
type II hypersensitivity
 Antibodies to mesangial cell antigens,
mesangial cell proliferation
 antibodies to endothelial cell antigens
endothelial injury and intravascular thrombosis
 antibodies to certain visceral epithelial cell
proteinuria
Circulating immune complex
 caused by the trapping of circulating antigen-
antibody complexes within glomeruli (type III
hypersensitivity).
 It may be:
Endogenous: RNA antigen, tumor antigen, unkown
Exogenous: HBV, Streptococci, malaria, syphillis
Site of deposition :mesangium, subendothelium or subepithelial
depends on size and molecular charges
Small complex tend to cross the GBM, and the resultant
complexes eventually reside in a subepithelial localization

Large complex are excluded from the GBM and either are
trapped subendothel

neutral charge and immune complexes containing these
molecules tend to accumulate in the mesangium.
 Insitu immune complex

Immune complexes are not seen in the circulation but formed in
the glomeruli itself

Fixed intrinsic tissue antigen
capillary basement membrane (Goodpasture syndrome)
Planted antigen
Antibodies can react in situ with antigens that are not normally
present in the glomerulus but are “planted” there(eg.bacteria)
Histological alteration and descriptive
terms of glomerulonephritis
 All glomeruli
-diffuse :involving ≥50% of the glomeruli
-focal : involving ≤50% of the glomeruli

Individual glomerulus
-global :if all or almost of the glomeruli affected
-segmental: if only part of glomerulus affected
Proliferation (hypercellurality)
Increase number of cells in glomerular tuft
It may be due to inflammatory infiltration
It may be due to increase in glomerular
cells(mesangial proliferation, endothelial proliferation,
parietal epithelial proliferation or cresent)
Crescent formation (partial epithelial
proliferation)
 These are accumulations of cells composed of
proliferating parietal epithelial cells and
infiltrating leukocytes.

 The epithelial cell proliferation that characterizes
crescent formation occurs following an
immune/inflammatory injury
Normal Cresent
 Basment membrane thickening

Normal Basment membrane thickning
 Sclerosis : extracellular material of similar composition of GBM
and mesangial matrix

Fibrosis: deposition of collagen type I and III
 Nephrotic syndrome

Membranous GN
Minimal changes GN
FSGS (80%)
Membranoproliferative GN
 Membranous glomerulonephritis(MGN)

Incidence :
major cause of nephrotic syndrome in adult
Common in middle and old age, male> female
Pathogenesis :
Insitu immune complex(IgG) along wall of the glomeruli
Types :
Primary:85%, unknown antigen
Secondary :malignant tumor, drugs, infection
Pathology

L/M
The glomeruli are more or less normal in size in early stage
with no cellular infiltration or proliferations
As disease progress, hyaline thickening in glomerular BM
Silver stain: thickening of BM with spikes
E/M
Subepithelial irregular deposit of dense material in BM
Thickening of BM
Spikes in BM
Effacement of podocytes
In chronic stages :narrowing of capillary lumen →occlusion→
hyalinization →atrophy of tubules and interstitial fibrosis
Course :
70-90% gradual progress to ESRD 5-10years
10-30% reversible
No role of corticosteroids
Minimal changes glomerulonephritis(lipoid
nephrosis)
Incidence :
major cause of nephrotic syndrome in children
Common in 2-6years
Pathogenesis :

No immune deposit in the glomeruli BUT immunological
basis is suggested
Pathology

L/M
The glomeruli are more or less normal
E/M
Effacement of foot process of podocytes which replaced by
rim of cytoplasm with vaculaization
Proximal convoluted tubules are lipid laden due to absorption
of lipoproteins
 Clinical Course :
Massive proteinuria >3.5 gm highly selective to albumin
Renal function is normal
No hypertension or hematuria
Dramatic response to corticosteroids
Excellent prognosis
 Focal segmental glomerulosclerosis (FSGS)

80% presented by nephrotic syndrome
Focal =sclerosis of some glomeruli not all
Segmental =portion of capillary tuft is affected
 FSGS

L/M:
Sclerotic segment : collapsed BM,
increases mesangial matrix,
hyalinosis

Non sclerotic segment: more or
less normal
 FSGS

-E/M:
Diffuse effacement of foot process
Focal detachment of epithelial cells
Denudation of BM
-Fate :
-total sclerosis of glomeruli
-tubular atrophy
-interstitial fibrosis
-CRF
A clinical study is performed with pediatric subjects
who had a diagnosis of minimal change disease. These
patients were observed to have prominent periorbital
edema at diagnosis. Laboratory test findings from
serum and urine tests were analyzed. Which of the
following urinalysis test findings is most likely to have
been consistently present in these subjects?.
A Nitrite positive
B Proteinuria >3.5 gm/24 hours
C Hematuria with >10 RBC/hpf
D Calcium oxalate crystsls
E Renal tubular epithelial cells and casts
A 5-year-old boy is noted to have increased puffiness
around his eyes for the past week, and he has been
less active than normal. On physical examination he
has periorbital edema, 4+ protein, no blood, no casts,
and no ketones. He improves following a course of
corticosteroid therapy. Which of the following renal
lesions is most likely to have been present in this boy?
A Glomerular crescent formation
B Podocyte foot process effacement
C Patchy acute tubular necrosis
D Hyperplastic arteriolosclerosis
E Mesangial immune complex deposition
A 60-year-old man has had increasing malaise. On
physical examination he has pitting edema to his knees
and presacral edema. A urinalysis reveals 4+
proteinuria, and his 24 hour urine protein is 5 gm. A
renal biopsy is performed, and there thickening of
glomerular. Which of the following forms of glomerular
disease is he most likely to have?
A Membranous nephropathy
B Rapidly progressive glomerulonephritis
C minimal changes glomerulopathy
D Chronic glomerulonephritis
E focal segmental glomerulosclerosis
 Recommended references

https://www.clinicalkey.com/student/content/book/3-s2.0-
B9780323531139000200#hl0001821
https://www.clinicalkey.com/student/content/book/3-s2.0-
B9780323531139000200#hl0001896
https://www.clinicalkey.com/student/content/book/3-s2.0-
B9780323531139000200#hl0002217