Gram Negative Bacteria PDF

Summary

This document provides information about Gram-negative bacteria, including cocci, bacilli, and their associated diseases and clinical significance. It covers topics such as infections of the urinary and respiratory tracts, and various types of bacterial diseases. This includes information on Neisseria gonorrhoeae, Neisseria meningitidis, and the different species of bacteria.

Full Transcript

Gram Negative Bacteria
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Asst. Prof. Dr. Ayha Mehmetoğlu
[email protected]
 Gram Negative Bacteria

Cocci/coccobacilli Bacilli

Neisseria
Facultative Anaerobic
Moraxella
Bacteroides
Haemophilus Prevotella
Bordatella straight curved
Brucella Enteric bacteria Campylobacter
Legionella Helicobacter
Yersinia Vibrio
Francisella
Pasteurella
Pseudomonas
Acinetobacter
 a. Gram-negative
Cocci

Neisseria

Gonorrhea Meningitidis

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 b. Gram-negative
Rods (bacilli)
Gram-negative
Rods

Straight Curved Aerobic Anaerobic

Respiratory
organisms

Zoonotic
organisms

Enteric and
related
organisms 4
Neisseria

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 The genus Neisseria consists of gram-negative,
aerobic cocci.
Two Neisseria species are pathogenic for humans
”Neisseria gonorrhoeae (commonly called
Overview gonococcus), the causal agent of gonorrhea; and
Neisseria meningitidis (commonly called
meningococcus), a frequent cause of meningitis.
Gonococci and meningococci are nonmotile
diplococci that cannot be distinguished from each
other under the microscope.

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 Gonorrhea is one of the most frequently
reported infectious diseases.
The causal agent, N. gonorrhoeae, a gram-
negative diplococcus, is frequently observed
inside polymorphonuclear leukocytes of
clinical samples obtained from infected
patients.

I. Neisseria N. gonorrhoeae is usually transmitted during
sexual contact or, more rarely, during the
Gonorrhoeae passage of a baby through an infected birth
canal.
It does not survive long outside the human
body because it is highly sensitive to
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dehydration.
 Pili
Pili enhance
attachment of the
organism to host
epithelial and
mucosal

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 Genitourinary tract infections:

Symptoms of gonococcal infection are more acute and easier to diagnose in males.
The patient typically presents with a yellow, purulent urethral discharge and painful
urination.
In females, infection occurs in the endocervix and extends to the urethra and vagina.
A greenish-yellow cervical discharge is most common, often accompanied by
intermenstrual bleeding.
The disease may progress to the uterus, causing salpingitis (inflammation of the
fallopian tubes), pelvic inflammatory disease (PID), and fibrosis. Infertility occurs in
approximately twenty percent of women with gonococcal salpingitis, as a result of tubal
scarring.
Rectal infections and Pharyngitis 9
 Ophthalmia neonatorum

Ophthalmia neonatorum is an infection of the conjunctival sac
that is acquired by a newborn during passage through the birth
canal of a mother infected with gonococcus.
If untreated, acute conjunctivitis may lead to blindness.
Treatment is with erythromycin because the antibiotic also
eradicates Chlamydia trachomatis, if present. [Note: Gonococcal
conjunctivitis can also occur in adults.]

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 N. meningitidis is one of the most frequent
causes of meningitis. Infection with N.
meningitidis can also take the form of a
fulminant meningococcemia, with
intravascular coagulation, circulatory collapse,
and potentially fatal shock, but without
meningitis.
In each case, symptoms can occur with
extremely rapid onset and great intensity.
Outbreaks of meningitis, most common in
winter and early spring, are favored by close
contact between individuals; for example, in
schools, institutions, and military barracks.
II. N. Severe epidemics also occur periodically in
meningitidis developing nations, for example, in sub-
Saharan Africa and Latin America.
N. meningitidis tends to strike young, previously
well individuals and can progress over a 11
matter of hours to death.
Polysaccharide capsule

When meningococcus is isolated
from blood or spinal fluid, it is
invariably encapsulated.
The meningococcal polysaccharide
capsule is antiphagocytic and,
therefore, the most important
virulence factor.

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 Clinical significance

N. meningitidis initially colonizes the nasopharynx, resulting in a
largely asymptomatic meningococcal pharyngitis.
In young children and other susceptible individuals, the organism
can cause disseminated disease by spreading through the blood,
leading to meningitis and/or fulminating septicemia.
N. meningitidis is currently a leading cause of meningitis.
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 Meningitis

Meningococci enter the bloodstream where they rapidly multiply
(meningococcemia).
It can infect the meninges.
Joint symptoms and a petechial rash are also commonly observed in
meningococcal infections.
Within several hours the initial fever and malaise can evolve into severe
headache, a rigid neck, vomiting, and sensitivity to bright lights symptoms
characteristic of meningitis.
Coma can occur within a few hours.
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 Septicemia:
Meningococci can cause a life-threatening
septicemia in an apparently healthy individual
in less than twelve hours.
Acute, fulminating meningococcal septicemia
seen mainly in very young children.

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 Vaccines:

A conjugate meningococcal vaccine (MCV4) was approved in the United States in
2005 for use in adolescents and adults 11 to 55 years of age and has replaced the
quadrivalent polysaccharide vaccine.
MCV4 is a tetravalent vaccine that contains capsular polysaccharides from
serogroups A, C, W-135, and Y.

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 Updated data from CDC
Vaccines can help prevent meningococcal
disease, which is any type of illness caused
by Neisseria meningitidis bacteria. There are 2
types of meningococcal vaccines available in
the United States:
Meningococcal conjugate or MenACWY
vaccines (Menactra®, Menveo®, and
MenQuadfi®)
Serogroup B meningococcal or MenB
vaccines (Bexsero®and Trumenba®)

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 Members of the genus Moraxella are
Coccobacilli nonmotile, gram-negative coccobacilli
that are generally found in pairs.
This organism can cause infections of
the respiratory system, middle ear, eye,
CNS, and joints.

I. Moraxella

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Coccobacilli Members of the genus Acinetobacter are
nonmotile coccobacilli.
They are important nosocomial (hospital-
acquired) pathogens.

II.
Acinetobacter
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Gastrointestinal Gram-negative Rods
 All of the organisms are routinely found in
the gastrointestinal (GI) tract of humans or
other animals.
All grow well in the presence of oxygen,
being true facultative anaerobes.
I. They contain lipopolysaccharide (LPS)
(endotoxin).
Overview They constitute only a fraction of the total
microbiota of the GI tract (most bowel
organisms are either gram-positive or gram-
negative anaerobes).

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 Diseases
Different enteric gram-negative rods cause diseases in the GI tract, outside the GI
tract, or in both locations.
For example, diseases caused by members of the genera Escherichia,
Salmonella, Yersinia, and Campylobacter can be both gastrointestinal and
extraintestinal, those caused by members of the genera Shigella, Helicobacter,
and Vibrio are primarily gastrointestinal, and those caused by members of the
genera Enterobacter, Klebsiella, Serratia, and Proteus are primarily
extraintestinal.
Fecal contamination is frequently important in the transmission of those organisms
that cause GI diseases.
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 Escherichia
Salmonella
Shigella

Entero Yersinia
Klebsiella
Proteus
bacter Enterobacter
Providencia

iaceae Morganella hafnia
Citrobacter
Edwardsiella
Serratia
Pathogen:

Salmonella
Shigella
Yersinia

Oportunistic pathogen:

E.coli
Klebsiella
Serratia
Proteus
Enterobacter

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 E. coli is part of the microbiota of the
colon in humans and other animals but
can be pathogenic both within and
outside of the GI tract.
E. coli has fimbriae or pili that are
frequently important for adherence to
II. host mucosal surfaces.
E. coli produces both acid and gas
Escherichia during fermentation of carbohydrates.
Coli
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 Clinical significance/intestinal disease

Transmission of intestinal disease is commonly by the fecal/oral route, with
contaminated food and water serving as vehicles for transmission.

At least five types of intestinal infections that differ in pathogenic mechanisms
have been identified.
Enterotoxigenic (ETEC)
Enteropathogenic (EPEC)
Enterohemorrhagic (EHEC)
Enteroinvasive (EIEC)
Enteroaggregative (EAEC)
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 Enterotoxigenic E. coli (ETEC):

ETEC are a common cause of traveler's diarrhea.
Transmission occurs through food and water contaminated with human
waste, or by person-to-person contact.

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 Enteropathogenic E. coli (EPEC):

EPEC are an important cause of diarrhea in infants, especially in locations
with poor sanitation.

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 Enterohemorrhagic E. coli
(EHEC):

EHEC bind to cells in the large intestine, where they produce an exotoxin
(verotoxin, or Shiga-like toxin), causing a severe form of copious, bloody
diarrhea (hemorrhagic colitis) in the absence of mucosal invasion or
inflammation.
Serotype O157:H7 is the most common strain of E. coli that produces
verotoxin.
This strain is also associated with outbreaks of a potentially life-threatening,
acute renal failure (hemolytic uremic syndrome, HUS).

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 The bacteria will
be much more
deadly if they have
the features of both
E. coli strain
EAEC and EHEC O104:H4
which is the case of
the current strain
of E. coli (Walsh
2011).
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 Other E. coli infections:

Enteroinvasive E. coli (EIEC) cause a dysentery-like syndrome
with fever and bloody stools.
Enteroadherent E. coli (EAEC) also cause traveler's diarrhea and
persistent diarrhea of young children.

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Clinical significance/ extraintestinal disease

The source of infection for extraintestinal disease is frequently the
patient's own flora, in which the individual's own E. coli is
nonpathogenic in the intestine.
However, it causes disease in that individual when the organism is
found, for example, in the bladder or bloodstream (normally
sterile sites).

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 Urinary tract infections (UTI):

E. coli is the most common cause of UTI, including cystitis and
pyelonephritis.
Women are particularly at risk for infection.

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 Others

Neonatal meningitis: E. coli is a major cause of this disease occurring within
the first month of life.
Nosocomial (hospital-acquired) infections: These include sepsis/bacteremia,
endotoxic shock, and pneumonia.

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 Members of the genus Salmonella
can cause a variety of diseases,
Salmonella including gastroenteritis and
enteric (typhoid) fever.

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 Clinical significance/ Gastroenteritis

Salmonella infection can cause both intestinal and extraintestinal diseases (for
example, typhoidal salmonella).
It is characterized by nausea, vomiting, and diarrhea.
Fever and abdominal cramping are common.

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Clinical significance/ Enteric (typhoid) fever

This is a severe, life-threatening systemic illness, characterized by fever and,
frequently, abdominal symptoms. It is caused primarily by serotype typhi
(typhoidal salmonella).
Nonspecific symptoms may include chills, sweats, headache, anorexia,
weakness, sore throat, cough, myalgia, and either diarrhea or constipation.
About thirty percent of patients have a faint maculopapular rash on the
trunk (rose spots).
Mortality is approximately fifteen percent
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 Members of the genus Campylobacter are
curved, spiral, or S-shaped organisms that
microscopically resemble vibrios.
Campylobacter infect the intestine, and can
cause ulcerative, inflammatory lesions in the
Campylobacter jejunum, ileum, or colon.
C. jejuni typically causes an acute enteritis in
otherwise healthy.
Bacteremia may occur.

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 Shigella species cause shigellosis (bacillary
dysentery) a human intestinal disease that
occurs most commonly among young
Shigella children.

species

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 Pathogenesis and clinical significance

An exotoxin (Shiga toxin) with enterotoxic and cytotoxic properties.
Shigellae cause classic bacillary dysentery, characterized by diarrhea with
blood, mucus, and painful abdominal cramping.

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 Members of the genus Vibrio are
Vibrio short, curved, rod-shaped organisms.

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 Clinical significance

Full-blown cholera is characterized by massive loss of fluid and electrolytes
from the body.
After an incubation period ranging from hours to a few days, profuse watery
diarrhea (rice-water stools) begins.
Untreated, death from severe dehydration.

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 The genus includes three species of medical
importance:
Y. enterocolitica and Y. pseudotuberculosis, both
potential pathogens of the GI tract

Yersinia Y. pestis, the etiologic agent of bubonic plague

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 The genus Yersinia is a member of the
family Enterobacteriaceae.
The most clinically notorious member of
this genus is Yersinia pestis, which causes
Yersinia plague, rather than enteric disease.

Pestis

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 Clinical significance

Plague may present several clinically different pictures.
Most common is the bubonic/septicemic form.
Pneumonic plague may develop during epidemics.

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 Members of the genus Helicobacter are
curved or spiral organisms.
They have a rapid, corkscrew motility
Helicobacter resulting from multiple polar flagella.
It causes acute gastritis and duodenal and
gastric ulcers.

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 Respiratory organisms
Haemophilus : Meningitis

Bordetella : Whooping cough

Legionella: Pneumonia

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 Clinical significance
H. influenzae has been a leading cause of bacterial meningitis, primarily in
infants and very young children, frequently in conjunction with an episode
of otitis media.
A vaccine against H. influenzae type b, administered to infants, has
dramatically decreased the frequency of such infections.
Clinically, H. influenzae meningitis is indistinguishable from other purulent
meningitides, and may be gradual in onset or fulminant (sudden onset with
great severity).

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 Bordetella
Bordetella pertussis and B. parapertussis are the
human pathogens of this genus. The former
causes the disease pertussis (also known as
whooping cough), and the latter causes a mild
pertussis-like illness.

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 IV. Legionella

Dr. Ayham Abulaila 67
 Legionella
Legionellaceae are facultative intracellular parasites that cause primarily
respiratory tract infections.

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 Pseudomonas
Pseudomonas aeruginosa, the primary human pathogen in the genus
Pseudomonas, is widely distributed in nature
A significant opportunistic pathogen and a major cause of nosocomial
(hospital-acquired) infections.

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 Brucella
Members of the genus Brucella are primarily pathogens of animals
(domestic and feral).
Thus, brucellosis (undulant fever) is a zoonosis (a disease of animals that
may be transmitted to humans under natural conditions). Different species
of Brucella are each associated with particular animal species; for example,
B. abortus (cattle), B. melitensis (goats and sheep), B. suis (swine), B.
canis (dogs), and B. ovis (sheep). All but B. ovis are known to cause disease
in humans.
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 Francisella Tularensis
Francisella tularensis is primarily a pathogen of animals.
Thus, tularemia (also known as rabbit fever and deerfly fever) is a
zoonosis.

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 Anaerobic Gram-negative Rods (bacilli)
Bacteroides : Peritonitis

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 For any question
[email protected]

Dr. Ayham Abulaila 81