Necrotizing fasciitis pathophysiology: Difference between revisions

	Necrotizing fasciitis Microchapters
Home
Patient Information
Overview
Historical Perspective
Classification
Pathophysiology
Causes
Differentiating Necrotizing fasciitis from other Diseases
Epidemiology and Demographics
Risk Factors
Screening
Natural History, Complications and Prognosis
Diagnosis
Diagnostic Criteria
History and Symptoms
Physical Examination
Laboratory Findings
Electrocardiogram
X Ray
CT
MRI
Ultrasound
Biopsy
Other Diagnostic Studies
Treatment
Medical Therapy
Surgery
Primary Prevention
Secondary Prevention
Future or Investigational Therapies
Case Studies
Case #1
Necrotizing fasciitis pathophysiology On the Web
Most recent articles
Most cited articles
Review articles
CME Programs
Powerpoint slides
Images
American Roentgen Ray Society Images of Necrotizing fasciitis pathophysiology All Images X-rays Echo & Ultrasound CT Images MRI
Ongoing Trials at Clinical Trials.gov
US National Guidelines Clearinghouse
NICE Guidance
FDA on Necrotizing fasciitis pathophysiology
CDC on Necrotizing fasciitis pathophysiology
Necrotizing fasciitis pathophysiology in the news
Blogs on Necrotizing fasciitis pathophysiology
Directions to Hospitals Treating Necrotizing fasciitis
Risk calculators and risk factors for Necrotizing fasciitis pathophysiology

VisualWikitext

Revision as of 23:28, 4 September 2016

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Yamuna Kondapally, M.B.B.S [2]

Overview

“Flesh-eating bacteria” is a misnomer, as the bacteria do not actually eat the tissue. They cause the destruction of skin and muscle by releasing toxins (virulence factors). These include streptococcal pyogenic exotoxins and other virulence factors. S. pyogenes produces an exotoxin known as a superantigen. This toxin is capable of activating T-cells non-specifically. This causes the over-production of cytokines that over-stimulate macrophages. The macrophages cause the actual tissue damage by releasing oxygen free radicals that are normally intended to destroy bacteria but are capable of damaging nearly any macromolecule they contact in the body.

Pathophysiology

The pathophysiology of necrotizing fasciitis is common to all types of NF but the speed of development and associated clinical features differs depending on the causative organisms.

The transmission of pathogens occurs through the following routes:

External trauma
Direct spread from a perforated viscus (particularly colon, rectum, or anus)
Urogenital organ

Following transmission, the bacteria uses the entry site to invade the fascial planes which causes the wide spread necrosis of superficial fascia, deep fascia, subcutaneous fat, nerves, arteries, and veins.
Superficial skin and deeper muscles are typically spared.
In late stages, lesions develop liquefaction necrosis at all tissue levels.

Pathogenesis

The pathogenesis of necrotizing fasciitis is the result of bacterial and host factors.

Type 1 NF

The exact pathogenesis of type 1 necrotizing fasciitis is not fully understood.
It is thought that type 1 NF is caused by polymicrobial species that work together to enhance the spread of infection (Synergistic).
Synergistic NF is comparatively slow process evolving over days.
It usually develops in the area where gut flora breaches the mucosa, entering the tissue planes.

Type 2 NF

Group A streptococcus is the most common causative agent of type 2 NF.^[1]
Type 2 NF is initially insidious in onset but progress more rapidly.
The disease may appear spontaneously with no obvious focus. Hematogenous infection from many foci such as skin, throat, ascending vaginitis, primary peritonitis reaches the fascial layer or seeds vimentin exposed by muscle damage.
Direct inoculation of GAS through wounds or associated surgery is less common.
The pathogenesis of type 2 NF is the result of the following process:

Inhibition of phagocytosis of bacteria by hyaluronic acid capsule and M protein
Adherence of bacteria to host cell through adherence factors such as M protein, protein F and lipoteichoic acid
Release of exotoxins (streptococcal pyogenic exotoxins and superantigens) into blood produce massive proliferation of T cells and cascading release of cytokines activating inflammatory process
Activation of inflammatory process which begins to kill bacteria.
The streptococci release massive amounts of enzymes, hemolysins, DNAase, proteases and collagenases which destroy the normal skin and surrounding tissue with progressive coagulative necrosis.
The inflamed cells release more cytokines that stimulate more inflammatory cells
Streptokinase produces clotting abnormalities
The massive release of cytokines result in systemic inflammatory response syndrome resulting in shock, organ failure, depression of myocardial function and immune suppression

Nerves supplying the necrotizing areas of skin die, the central areas become anaesthetic and peripheral areas remain tender.
In later stages, infection from deeper layers ascends, producing oedema of epidermal and dermal layers (peau d'orange) and a woody firmness of the tissues
The fascial and nerve destruction results in sensory and motor deficits, which causes progression of hemorrhagic bullae to cutaneous gangrene.

Virulence Factors of Group A Streptococcus
Inhibition of phagocytosis
Adherance to host cell and release of exotoxins
Activation of host immune response

Gross pathology

On gross pathology the characteristic findings of necrotizing fasciitis include:^[2]

Subcutaneous emphysema
Edema
Erythema
Bulae
Skin sloughing
Dull grey discoloration

Beginning of necrotizing fasciitis^[2]
Necrotizing fasciitis of left leg^[2]

Microscopic histopathological analysis

On microscopic histopathological analysis, the characteristic findings of necrotizing fasciitis are^[2]

Early stages

Obliterative vasculitis with microangiopathic thrombosis
Acute inflammation of subcutaneous tissue
Superficial hyaline necrosis along with edema and inflammation of the dermis and subcutaneous fat
Dense neutrophil-predominant inflammatory infiltrate

Late stages

Noninflammatory intravascular coagulation and hemorrhage
Myonecrosis

References

↑ Leitch HA, Palepu A, Fernandes CM (2000). "Necrotizing fasciitis secondary to group A streptococcus. Morbidity and mortality still high". Can Fam Physician. 46: 1460–6. PMC 2144855. PMID 10925760.
↑ ^2.0 ^2.1 ^2.2 ^2.3 Librae pathology(2015) https://librepathology.org/wiki/Necrotizing_fasciitis Accessed on September 2,2016

[pmid10925760-1] Leitch HA, Palepu A, Fernandes CM (2000). "Necrotizing fasciitis secondary to group A streptococcus. Morbidity and mortality still high". Can Fam Physician. 46: 1460–6. PMC 2144855. PMID 10925760.

[NF-2] 2.0 ^2.1 ^2.2 ^2.3 Librae pathology(2015) https://librepathology.org/wiki/Necrotizing_fasciitis Accessed on September 2,2016

[1]

[2]

@@ Line 27: / Line 27: @@
 *[[Streptococcus|Group A streptococcus]] is the most common causative agent of type 2 NF.<ref name="pmid10925760">{{cite journal| author=Leitch HA, Palepu A, Fernandes CM| title=Necrotizing fasciitis secondary to group A streptococcus. Morbidity and mortality still high. | journal=Can Fam Physician | year= 2000 | volume= 46 | issue=  | pages= 1460-6 | pmid=10925760 | doi= | pmc=2144855 | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=10925760  }} </ref>
 *Type 2 NF is initially insidious in onset but progress more rapidly.
-*The disease may appear spontaneously with no obvious focus. Hematogenous infection from many foci such as ascending vaginitis, primary peritonitis reaches the fascial layer or seeds vimentin exposed by muscle damage.
+*The disease may appear spontaneously with no obvious focus. Hematogenous infection from many foci such as skin, throat, ascending vaginitis, primary peritonitis reaches the fascial layer or seeds vimentin exposed by muscle damage.
 *Direct inoculation of GAS through wounds or associated surgery is less common.
 *The pathogenesis of type 2 NF is the result of the following process: