Cellular Injury II PDF - Wasit University 2024

Summary

These lecture notes from Wasit University cover Cellular Injury II, focusing on cell necrosis and apoptosis. The document details morphological and microscopic features associated with various forms of cell damage and death.

Full Transcript

Ministry of Higher Education and
Stage: 2nd
Scientific Research Module: mechanism of
Wasit University disease
College of medicine

Cellular Injury II
Dr. Zainab abbas alquraishy
M.B.Ch.B C.A.B.H.S, DipRCPath
Department of pathology and forensic medicine
 :Cell necrosis
Morphological changes that follow cell death in a living tissue or.organ
Death of groups of contiguous cells in tissue or organ
Resulting from degrading action of enzymes on irreversibly.damaged cells with denaturation of cellular proteins

Morphological changes
cytoplasmic -
nuclear -
Cytoplasmic changes in necrosis
More eosinophilia
- Loss of cytoplasmic RNA
- Increased binding of eosin to the denatured proteins.
More homogeneous appearance
- loss of glycogen particles
The cytoplasm becomes vacuolated
when enzymes have digested the cytoplasmic organelles,
Nuclear changes in necrosis
chromatin clumping

Pyknosis karyorrhexis

karyolysis
Nuclear changes show one of three patterns, all due to nonspecific
breakdown of DNA
karyolysis : basophilia of the chromatin may fade -1
Pyknosis, (also seen in apoptotic cell death) is characterized by nuclear -2
shrinkage and increased basophilia. Here the DNA apparently condenses.into a solid, shrunken basophilic mass.Karyorrhexis: fragmentation of the nucleus -3

With the passage of time (a day or two), the nucleus in the necrotic cell
totally disappears
Liver cell necrosis: Nuclear changes

normal pyknosis

karyorrhexis karyolysis
Morphology of necrosis
By electron microscopy, necrotic cells are characterized
by :
overt discontinuities in plasma membrane,
marked dilation of mitochondria with the appearance of
large amorphous densities,
intracytoplasmic myelin figures,
amorphous osmiophilic debris, and
aggregates of fluffy material probably representing
denatured protein
:Types of necrosis
1. Coagulative necrosis.

2. Liquefactive necrosis.

3. Fat necrosis

4. Caseation (caseous) necrosis

5. Gangrenous necrosis
 Necrosis is a dynamic process
H&E stained section is just a snapshot in time: what
one sees depends on the following factors
Degree of enzyme release: (more favours liquefactive–
(necrosis
From lysosomes in dying cells (autolysis)
and/or Infiltrating inflammatory cells (heterolysis)
Versus
Degree of protein denaturation (more favours–
(coagulative necrosis
Versus
Extent to which necrotic debris have been cleared away–
enzymatic digestion (autolysis and heterolysis), fragmentation and
phagocytosis
Coagulative necrosis
Outlines of cells are still discernible, but

Fine structural details lost. The nuclei are lost. The cytoplasm stains

homogeneous deeply eosinophilic

Sudden severe ischemia in organs cause denaturation not only of structural

proteins but also of enzymes, which blocks proteolysis of the dead cells
 Coagulative necrosis
Alive Coagulative
< Protein denaturation necrosis

enzymatic digetsion
Cells dead but basic shape
and architecture of tissue
endures
Most common manifestation.of necrosis in tissues
Affected tissue maintains.solid consistency
 Coagulative necrosis-kidney

Normal

Infarct

The renal cortex has undergone anoxic injury at the left so that the cells appear pale and ghost-like.
There is a hemorrhagic zone in the middle where the cells are dying or have not quite died, and then
normal renal parenchyma at the far right. This is an example of coagulative necrosis Within the area of
necrosis (Lt) the outlines of tubules and glomeruli are still preserved but fine structural details are lost
(inset)
 Coagulative necrosis Kidney

Microscopic view of the edge of the infarct, with normal kidney (N) and necrotic cells in the
infarct (I). The necrotic cells show preserved outlines with loss of nuclei, and an
inflammatory infiltrate is present
 Coagulative necrosis myocardium

The necrotic myocytes are intensely eosinophilic with loss of both cross
striations & nuclei. The outlines of individual fibres are still maintained. There are
inflammatory cells infiltration & RBCs in-between the necrotic fibers.
Liquefaction
(liquefactive) necrosis

Is characteristic of focal bacterial or, occasionally, fungal
infections.
It is also seen in hypoxic death of cells within the central
nervous system.
Liquefaction completely digests the dead cells.
The end result is transformation of the tissue into a liquid
viscous mass..
If the process was initiated by acute inflammation, the
material is frequently creamy yellow because of the presence
of dead white cells and is called pus
Lung abscess
This is an example of
liquefactive necrosis. There
is confluent broncho-
pneumonia (scattered pale
areas) complicated by
abscess formation, which is
seen here as a cystic cavity
(arrow). The contained pus
poured off during the
sectioning of the lung tissue.
Brain infarction: This is an example of liquefactive necrosis;
the affected area is wedge-shaped, pale, soft & cystic.
Gangrene
Gangrenous necrosis
:A term used in surgical practice
lower limb, intestine
= Gangrene
coagulative necrosis (ischemia) + liquefactive
necrosis (bacterial infection)
Two subtypes
Dry gangrene 2- Wet gangrene -1
 Ganagrene of lower limb

Dry
gangrene

Wet
gangrene
Caseous necrosis
Is a type of coagulative necrosis, seen in tuberculous infection.
The term caseous is derived from the cheesy white gross
appearance of the area of necrosis.
On microscopic examination, the necrotic area appears as
amorphous pink granular debris surrounded by granuloma.
 CASEOUS NECROSIS B
A

A- A tuberculous lung with a large area
of caseous necrosis containing
yellow-white and cheesy debris.

B- Caseous necrosis in a hilar lymph node infected with tuberculosis. The node
has a cheesy yellow to white appearance.
Caseating TB granuloma

Caseous necrosis is
characterized by amorphous
(acellular), granular pink
areas of necrosis, surrounded
by a granulomatous
inflammatory process.
 Fat necrosis
Involves adipose tissue-
Mediated through lipases-
Seen in
acute pancreatitis.1
breast trauma (traumatic fat necrosis).2
Grossly : chalky white-
:Microscopically
shadowy outlines of necrotic cells -
surrounding inflammatory cells -
calcium soaps: bluish deposits -
Acute pancreatitis
A, The microscopic field
shows a region of fat
necrosis (right), and focal
pancreatic parenchymal.necrosis (center)
B, The pancreas has been
sectioned longitudinally to
reveal dark areas of
hemorrhage in the
pancreatic substance and
a focal area of pale fat
necrosis in the
peripancreatic fat.(arrow)
 Fat necrosis in acute pancreatitis.

The areas of white chalky deposits represent foci of fat necrosis with
calcium soap formation (saponification) at sites of lipid breakdown in the
mesentery.
 Acute pancreatitis

The fat necrosis consists of fat cells that have lost their nuclei and whose cytoplasm
has a granular pink appearance. Some hemorrhage is seen at the left in this case..Fibrinoid necrosis of an artery in polyarteritis nodosa

The wall of the artery shows a circumferential bright pink area of
necrosis with protein deposition and inflammation (dark nuclei of
 Infarction
Like gangrene, also not a specific pattern of necrosis

Term refers to the CAUSE: when necrosis is due
ischaemia
i.e. infarct = ischaemic necrosis
 Infarction
Infarction (ischaemic necrosis) can be
coagulative e.g. myocardial infarct–
liquefactive e.g. brain infarct–
Two further ways of describing infarcts

White ;Occlusion of end artery –the usual arrangement–
in an organ and therefore commonest pattern

Red/haemorrhagic: may occur in the following situations–
;Venous occlusion; Dual blood supply; Loose tissues
Previously congested tissues
White infarct
Red infarct
 :Apoptosis
This form of cell death is a regulated suicide program in which the relevant cells
activate enzymes (CASPASES) capable of degrading the cells' own nuclear DNA and.other nuclear and cytoplasmic proteins

Apoptotic cells may appear as round or oval masses with intensely eosinophilic
cytoplasm. Nuclei show chromatin condensation and aggregation and, ultimately
fragmentation (karyorrhexis). The cells rapidly shrink, form cytoplasmic buds, and
fragment into apoptotic bodies composed of membrane-bound vesicles of
cytoplasm and organelles. Fragments of the apoptotic cells then break off.(apoptosis = "falling off")

These fragments are quickly extruded and phagocytosed without eliciting an.inflammatory response

Even substantial apoptosis may be histologically undetectable.Apoptosis is programmed cell death
It is a pathway of cell death that is induced by a tightly regulated-
intracellular program in which cells destined to die activate their
own enzymes to degrade their own nuclear DNA, nuclear proteins.and cytoplasmic proteins
The cell's plasma membrane remains intact, but its structure is-
altered in such a way that the apoptotic cell sends signal to.macrophages to phagocytose it
The dead cell is rapidly phagocytosed and cleared, before its contents have
leaked out, and therefore cell death by this pathway does not elicit an.inflammatory reaction in the host

Thus, apoptosis is fundamentally different from necrosis, which is
characterized by loss of membrane integrity, enzymatic digestion of cells,.and frequently a host reaction.Apoptosis and necrosis sometimes coexist
CAUSES OF APOPTOSIS
".Apoptosis means "falling off-
It occurs normally in many situations, and serves to eliminate-
unwanted or potentially harmful cells and cells that have outlived.their usefulness
It is also a pathologic event when cells are damaged beyond-
repair, especially when the damage affects the cell's DNA; in these.situations, the irreparably damaged cell is eliminated.Apoptosis can be physiologic, adaptive, and pathologic-
 Apoptosis in Physiologic Situations.The programmed destruction of cells during embryogenesis-

Hormone-dependent involution in the adult, such as endometrial cell-
breakdown during the menstrual cycle, the regression of the lactating breast.after weaning, and prostatic atrophy after castration.Cell deletion in proliferating cell populations,eg. intestinal epithelia-
Apoptosis in Physiologic Situations
Death of host cells that have served their useful purpose, such as-
neutrophils in an acute inflammatory response, and lymphocytes at the end.of an immune response..Elimination of potentially harmful self-reactive lymphocytes-
Cell death induced by cytotoxic T cells, a defense mechanism against viruses-
and tumors that serves to eliminate virus-infected and neoplastic cells
 Apoptosis in Pathologic Conditions

Cell death produced by a variety of injurious stimuli eg. radiation and-.cytotoxic anticancer drugs damage DNA.Cell injury in certain viral diseases, such as viral hepatitis-
Pathologic atrophy in parenchymal organs after duct obstruction, such as-.occurs in the pancreas, parotid gland, and kidney.Cell death in tumors-
 APOPTOSIS vsNECROSIS
HISTOLOGICAL FEATURES
Apoptosis Necrosis

Patterns of death Single cells Groups cells
;Shrinkage
Cell size Fragmentation Swelling

Plasma membrane Preserved continuity Early lysis
Increased membrane
permeabilityCytochr
Mitochondria ;omec release Swelling; Disordered structure
;Contracted
Organelle shape "Apoptotic bodies" Swelling; Disruption
Chromatin: Clumped ;Pyknosis; karryhexis
Nuclei Fragmented & karyolysis
Internucleosomal
DNA degradation ;cleavage Diffuse & Random
Phagocytosis; No Inflammation; Macrophage
Cell degradation inflammation invasion
 Apoptosis -triggers

Intrinsic
Withdrawal of growth stimuli, e.g. growth–
factors
DNA damage, e.g. p53-induced apoptosis–
Extrinsic
Death signals, e.g. TRAIL and Fas ligand–
Apoptosis -mechanisms

Intrinsic Extrinsic
(Viral Hepatitis) The cell is reduced in size and contains
brightly eosinophilic cytoplasm and a condensed nucleus.
The cytoplasm is intensely
eosinophilic (pinkish) and the nucleus
condensed (pyknotic)
Intracellular Accumulations.Intracellular accumulation of abnormal amounts of various substances
a normal cellular constituent accumulated in excess, such as water, (1)
lipids, proteins, and carbohydrates

an abnormal substance, either exogenous, such as a mineral or products (2)
of infectious agents, or endogenous, such as a product of abnormal
synthesis or metabolism.a pigment (3).The substance may be either the cytoplasm or the nucleus-

In some instances, the cell may be producing the abnormal
substance, and
In others it may be merely storing products of pathologic processes
occurring elsewhere in the body
 COMMON CAUSES OF INTRACELLULAR ACCUMULATION

A normal endogenous substance is produced at a normal or increased rate, -1
but the rate of metabolism is inadequate to remove it. Eg.fatty change in.the liver

A normal or abnormal endogenous substance accumulates because of -2
genetic or acquired defects in the metabolism, packaging, transport, or.secretion of these substances. Eg. lysosomal storage diseases
An abnormal exogenous substance is deposited and accumulates -3
because the cell has neither the enzymatic machinery to degrade
the substance nor the ability to transport it to other sites..Eg.accumulations of carbon particles
 LIPID LAW
ALL Lipids are YELLOW
grossly and WASHED out
(CLEAR) microscopically
FATTY LIVER
FATTY LIVER
 PIGMENTS

Pigments are colored substances, some of which are normal constituents of
cells (e.g., melanin), whereas others are abnormal and collect in cells only.under special circumstances

Pigments can be exogenous, coming from outside the body, or endogenous,
synthesized within the body itself
 Exogenous Pigments
The most common exogenous pigment is carbon or coal dust, which is..an air pollutant
When inhaled, it is picked up by macrophages within the alveoli and.
is then transported through lymphatic channels to the regional.lymph nodes
Accumulations of this pigment blacken the tissues of the lungs..(anthracosis) and the involved lymph nodes
In coal miners, the aggregates of carbon dust may induce a.
fibroblastic reaction or even emphysema and thus cause a serious. lung disease known as coal worker's pneumoconiosis
ANTHRACOSIS
Exogenous Pigments
Tattooing is a form of localized, exogenous pigmentation of the skin..The pigments inoculated are phagocytosed by dermal macrophages
 Endogenous Pigments
they all look the same, (e.g., hemosiderin, melanin, lipofucsin, bile), in that
hey are all golden yellowish brown on “routine” Hematoxylin & Eosin (H&E)
stains.Lipofuscin is an insoluble pigment, also known as wear-and-tear or aging pigment-.Lipofuscin is not injurious to the cell or its functions
Its importance lies in its being the telltale sign of free radical injury and lipid.peroxidation
In tissue sections, it appears as a yellow-brown, finely granular intracytoplasmic, often
perinuclear pigment It is prominent in the liver and heart of aging patients or patients.with severe malnutrition and cancer cachexia.Hemosiderin/Melanin/etc
 Pathologic Calcification.Pathologic calcification is the abnormal tissue deposition of calcium salts

There are two forms of pathologic calcification. When the deposition
occurs locally in dying tissues, it is known as dystrophic calcification; it
occurs despite normal serum levels of calcium and in the absence of.derangements in calcium metabolism
In contrast, the deposition of calcium salts in otherwise normal
tissues is known as metastatic calcification, and it almost always
results from hypercalcemia secondary to some disturbance in.calcium metabolism
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