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Infectious Disease

General aspects of infectious diseases

Infection is defined as the invasion of living tissue by m.o. or its products (commensals or pathogenic) followed by local reaction which may be associated with general reaction.
Following invasion, the m.o. may be eliminated without causing obvious disease ( Sub clinical infection ) or clinical disease of any grade of severity.
The outcome depends on the complex balance between the aggressive mechanisms of the m.o. & the defense mechanisms of the host.
** Numerous microorganisms can infect human body some are present normally & harmless called commensals, others cause diseases called pathogens
commensal microorganisms cause diseases and called at that time opportunistic infections.
Factors influencing the infection:
A- Micro organism factors
1. Access: entry of m.o to the body cells & tissues, most m.o. enter via inhalation, ingestion, sexual .Parentral.
2. Dose & virulence: number of m.o entering the body & their capacity to cause diseases 3. Invasiveness: ability of m.o to multiply & spread in the body through the use of endotoxin & exotoxin
4. Transmission: ability of m.o to pass to another suitable host.
B-Host Factors:
1. Mechanical barriers: Intact skin, keratin, mucous membrane & their secretary products
2. Physical Forces: movement of cilia, mucus, flow of urine & saliva. Diarrhea .
3. Chemical: Acidic ph in the stomach which are lethal for many GIT pathogens.
4. Phagocytosis: by macrophages & neutrophils.
5. Immune responce: by cell-mediated &humeral immunity.
6. Local factors: e.g. ischemia & foreign body promote infection.
7. Systemic factors: e.g., malnutrition, diabetes mellitus, chronic alcoholism & malignancy.
8. Age: both very young & very old have increasing risk of infection.
9. Drugs: appropriate antimicrobial drugs eradicate many susceptible microorganism.


Results of infection:
1. Eradication: most infections end by total eradication at the site of entry.
2. Persistence of infection: either in form of carrier state or mild chronic forms e.g. typhoid fever, hepatitis infection.
3. Spread: to other parts of the body.e.g. Direct spread as in cellulitis, lymphatic spread as in lymphangitis & lymphadenitis , blood spread as in bactermia, septicemia & pyaemia.
4. Host death: in severe infection e.g. tetanus & diphtheria.
How do infections spread inside the body?
1- Local spread: by the action of lytic enzyme.e.g Streptococci secrete hyaluronidase enzyme which degrades the extra cellular matrix between host cells.

2-Lymphatic spread: to the Lymph nodes.

3-Hematogenous spread: causing:
-Bacteremia: Presence of m.o in the blood.
-Septicemia: actively multiplying m.o in the blood.
4-Through body fluids: e.g., sexual transmitted disease (gonococcus).
5-Through excretions: e.g., from kidney to lower urinary tract.
6-Through nerves ; e.g. rabies virus, varicella zoster virus.
7-Through placental- fetal route.

The common signs of infection*Depending on the type of M.O and the tissue affected you may have:
Cardiovascular manifestations: tachycardia, hypotension, HF.
* Hematological manifestations: leukocytosis, Leukopenia, lymphocytosis, eosinophilia...
* Respiratory manifestations: cough ,hyperventilation, dyspnea, RF.
* Urinary manifestations: proteinuria, oliguria, dysuria, frequency, RF.
* Hepatic manifestations: abnormal liver function test , cholestatic jaundice, nausea, vomiting.
Tissue response ( microsopical ) responses to infections
There are 5 major histological patterns of tissue reaction in infections:
1-Suppurative ( polymorph nuclear ) inflammation characterized by production of pus .
2-Mononuclear & Granulomatous characterized by interstitial inflammation & formation of granuloma.
3-Cytopathic- Cytoproliferative inflammation. These reactions are usually produced by viruses.
4-Necrotizing inflammation caused by powerful toxins e.g. Cl. Perfringens lead to gangrene .
5-Chronic inflammation & scarring, is the final common pathway of many infections, e.g. HBV lead to cirrhosis,Schistosomal eggs lead to fibrosis of U.B.wall.
Bacterial infections
Classification of Bacteria.
Bacteria are classified on several criteria: Gram stain: bacteria are either gram (-) or gram(+)
Shape: bacteria are classified as cocci, bacilli (rods), vibrios, spirochetes.
Growth requirements: bacteria are classified as:
Aerobic
Anaerobic


Mechanism of Bacterial injuryPathogenesis
Bacteria damage the tissue through several mechanisms,
1- Release toxins that kill cells.(exotoxin&Endotoxin)
2- Release lytic enzymes,
includes proteases,hyaluronidase,coagulase & fibrinolysins that destroy the tissue & facilitate the spread of bacteria
3- Elicit an inflammatory reaction that may destroy not only the bacteria but also the infected tissue.
4-Elicit an immune reaction that may damage the tissues carrying the same antigen as the bacterium (“cross reactivity”).
Bacterial infection is divided into:
1- Acute.
2- Chronic.
Acute Bacterial Infection
1-Catarrhal .affect mucus membrane,e,g viral infection.
2-Pseudomembranous. Characterized by formation of peudomembrane as in diphtheria.
3-Serous . Affect serous cavities and produce serous fluid
4-Pyogenic or suppurative .Pus producing . e.g. Abscess
Suppurative Infection
Characterised by production of pus.
Pus is a creamy fluid consist of neutrophil, pus cell (Dead neutrophil) necrotic tissue, bact, & fluid.
Collection of pus in tuissue is called abscess
M.O secreat IL 1 &TNF which stimulate complement ,This attract neutrophil which secreat lytic enzyme , distroy tissue & form abscess


1- Bacterial infection of the blood

* Classified into:

-Bacteraemia
-Septicaemia
-Pyaemia -Toxaemia : presence of toxin in blood e.g. Diphtheria.
Bacteraemia
* Presence of small numbers of bacteria in the blood without multiplication.
* Patients have sub clinical or minor symptoms & lesion.

* E.g., Strept. viridans in blood after vigorous brushing of teeth with dental sepsis.

In typhoid fever ,pneumococcal pneumonia, E. coli infection of urinary tract & brucellosis.

* These bacteria are destroyed rapidly in blood because of antibodies, complement, & circulating macrophages.

* It is important because it may settle in various parts of the body & cause localized lesion e.g., endocarditis by Strep. Viridans.
Septicemia
*Multiplication of bacteria in the blood of highly pathogenic bacteria e.g., pyogenic cocci, endotoxin secreting gram –ve bacilli.

* Serious infection with profound toxemia in which bacteria have overwhelmed the host defenses.


* It results in serious consequences which may end in death.
Multiple small hemorrhages due to capillary endothelial damage multiple minute metastatic foci of bacterial growth.
Tachycardia. Hypotension. Splenomegaly.shock

Pyaemia (pus in the blood)
* Bacteria invade & multiply in a thrombus which then becomes heavily infiltrated by neutrophils & broken down by their digestive enzymes

* Small fragments of the soften septic thrombus may then break away & be carried off in the blood

* Results in the developing of pyaemic abscesses in various organs:

1-In venous circulation as in deep vein thombosis of legs resulting in pyaemic abscesses in lung.
2-In arterial circulation as in infective endocarditis resulting in pyaemic abscesses in systemic arterial distribution.
3-In portal venous tributary as in acute appendicitis results in portal pyaemia with multiple liver abscess.
Pyaemic abscess consist of:
Central zone of necrosis with huge numbers of bacteria surrounded by zone of acutely inflamed hemorrhagic tissue.
Resulting in multiple & wide spread abscesses.

Gangrene
Digestion of dead tissue by saprophytic bacteria in living body ( necrosis with putrefaction ) .
Types of gangrene :
Primary
Secondary


The difference lies in the cause of the tissue necrosis of each type.
1) Primary Gangrene
It is brought about by infection with pathogenic bacteria which both kill the tissue by secreting potent exotoxins & then invade & digest the dead tissue.
Gas gangrene : the causative m.o. are
Cl. (perfringens ) welchii
Cl. oedematiens
Cl. Septicum
(all are anaerobic ).
These organisms are intestinal commensals in man and animals and because they are anaerobic they can’t multiply in oxygenated environment , so they need dead tissue in dirty wound or lacerated wounds in order to multiply and cause gas gangrene. .

Pathogenesis

Cl. produce different strong types of exotoxins like :
1- Lecithinase------causing cell wall damage by lyses of phospholipids .
2- Collagenase &hyaluronidase-----digest extracellular matrix protein and collagen .
Cl. welchii ferments sugar producing H2 & CO2 which collect as bubbles in the dead tissue and can easily be detected by palpation (crepitant ).
These lead to specific changes in the tissue affected by gangrene. On microscopic examination, there is severe myonecrosis, extensive hemolysis & marked vascular injury with thrombosis

Black discoloration and bad odor at the affected site like the skin and subcutaneous tissue , intestine ,appendix and uterus (puerperal period )

Clinical features

Patient looks toxic, there is high fever, acute hemolysis and features of septic shock, which may lead to death of patient if not treated quickly .
Gas gangrene of the uterus, note the gas within the necrotic tissue produced by clostridia species.
2) Secondary Gangrene
This type of gangrene is characterized by necrosis due to some other causes, usually loss of blood supply from vascular obstruction or tissue laceration &saprophytic bacteria then digest the dead tissue.
Types of secondary gangrene
1) Wet gangrene :
The infected tissues are edematous due to presence of large amount of fluid and large amount of subcutaneous fat . This type occurs rapidly . The line of demarcation between dead and living tissue is indistinct. The gangrene may extend proximally beyond the site of infective.
2) Dry gangrene :
This type occurs in leg due to gradual cut of blood supply either due to atherosclerosis or vasculitis in the lower limbs. The line of demarcation between dead and living tissue is clear .
The lesion remains localized .
Blackish discoloration of the finger- dry gangrene


Chronic Bacterial infection
Tuberculosis

* Caused by Mycobacterium tuberculosis & Mmycobacterium bovis.

They are acid fast bacilli .
* It infects about 1.7 billion individuals world wide & kills about 1.7 million patients each year & so is the single most important infectious cause of death on earth after HIV.

* Because mycobacterium grows 20-100 times slower than other bacteria it takes 4-6 weeks to obtain a colony of mycobacterium tuberculosis.
Transmission
Four possible entry sites exist: -
(1) Respiratory tract by inhalation ,from open TB lesion.
(2) Alimentary tract by ingestion of infected milk ,food.
(3) Skin by inoculation.
(4) Congenital infection followed by intrauterine through placenta (it is very rare).
Tissue Reaction to T.B. bacilli
T.B. at first cause minimal inflammatory response in the tissue at the site of infection
Specifically primed T-Lymphocytes appear at the site of infection within two weeks and secreat lymphokines
Lymphokines responsible for type IV hypersensitivity reaction.
-Arrival of macrophages by chemo taxis.
Arrest of macrophages by migratinn inhibition factor.-
-Transformation of the macrophages into epitheliod cells by macrophage activating factor.
Destruction of phagocytes contain T.B. bacilli by macrophages arming factor. -
-Gaseous necrosis by T- cell cytotoxic factors.
*So the final lesion of TB consist of central area of amorphous, a cellular caseous necrosis , surrounded by macrophages, referred to as epithelioid cells, some macrophages fuse to from multinucleated giant cells, the nuclei of which may be distributed peripherally ( Langhans giant cells) these are surrounded by rim of chronic inflammatory cells rich in lymphocytes & at the periphery there is fibrosis.
This lesion is called tubercle which is the characteristic lesion of TB.
It usually affects the lungs but may involve any organ or tissue in the body.


The caseous materials may be infiltrated by heavy neutrophilis result in cold abscess. It is called that because there are no signs of acute inflammation (hotness, redness, …..etc)

* Healing when present is by progressive fibrosis.

* Organisms may remain viable in apparently healed lesions only to be reactivated years later if host resistance decreases.

Spread

Organisms may spread from the site of entry in the usual ways:
Locally: into adjacent tissues
lymphatic to regional lymph nodes
Natural passages e.g. (respiratory, alimentary, urinary & genital tract.)
Blood veins & arteries) to produce either:
1- Miliary tuberculosis with multiple tubercles in numerous organs & tissues.
2- Isolated metastatic organ lesions e.g., in kidney, bone, vertebra, joint &epididymis.

Immunology

TB bacilli Produce no Exotoxin or Endotoxin .The Lesion of T.B is mainly due to the delayed hypersensitivity reaction type IV to an antigenic protein component of the organism (e.g cord factor, Sulfatides &LAM polysacharides).

This immunity provide the basis for skin test of T.B

Immunity to T.B. can be induced artificially by intra dermal injection of attenuated mycobacterial strains of bovine type (e.g. BCG vaccine).


Skin test in TB ( Mantoux test ) Tuberculin test
It is an intradermal injection of tuberculoprotein . The test become positive in about 2-4 weeks after infection by T.B.bacilli
A positive skin test appear within 12-24 hours & peaks in 48- 72 hours after intradermal injection of tuberculoprotein as a firm indurated nodule with surrounding redness.
A positive result indicate hypersensitivity to T.B. (i.e.recent or old infection)
Mantoux test

Primary tuberculosis

* It follows initial exposure to TB bacilli in non immunized individuals of any age.

* Macroscopical: it forms a small sub pleural parenchymal lesion in the mid zone of the lung (Ghon focus) and spread to the hilar lymph nodes. Both lesions are called Primary complex
* Microscopical: consist of epitheloid granuloma with central caseous necrosis.

*Most of the cases (95%) after treatment heal by fibrosis some may enter into dormant state &few may spread into the body forming progressive primary T.B.
Ghon focus of primary T.B.

Secondary T.B.

* Either occurs as a reinfection by mycobacterium tuberculous or reactivation of primary infection when there is impairment in the immunity of the patient.

* Macroscopically: usually occurs at the apex of the lung with minimal lymph node involvement. There is marked damage in the lung parenchyma with cavity formation

* Microscopically: epithelioed granuloma with central caseous necrosis & cavity.

* Healing by fibrosis or may spread forming progressive secondary T.B.


Progressive T.B.
* Either from primary or secondary T.B.
* T.B. bacilli can be coughed into the larynx forming laryngeal T.B.
* or swallowed into the G.I.T causing intestinal T.B.
* or enter through bronchial tree leading to tuberculous bronchopneumonia or spread into the pleural cavity leading to pleural effusion.
* or enter through the lymphatic channel or blood stream causing Miliary T.B. or isolated organ T.B.
The natural history of tuberculosis
Clinical Features
Fever
Weight loss
Night sweating
Cough
Heamoptysis
Diagnosis
I- History.
II- Clinical Examination.
III- Investigation include : X- ray, detection of the m.o in the specimen (sputum. urine, in biopsy) by the use of Ziehl-Neelsen staining ,culture or guinea pig inoculation.
Biopsy of the infected tissue.
PCR amplification of T.B. bacilli DNA allows for even more rapid diagnosis.
* Positive skin test (Mantoux) indicates hypersensitivity to tuberculoprotein but not an active disease.This is an acid fast stain of Mycobacterium tuberculosis (MTB). Note the red rods--hence the terminology for MTB in histological sections or smears: acid fast bacilli.Treatment
Adequate & appropriate antituberculous drugs used for months.


LEPROSY
(Hansen ,S Disease)
Eatiology and mode of infection
Leprosy is caused by mycobacterium leprae
Infection require long period of close contact with patients.
Mode of infection is not clear probably by inhalation.
Spread by blood stream localize in peripheral nerves
Pathogenesis of leprosy
Lepra bacilli produce no exotoxin or endotoxin the lesion is produced by :
By destructive granuloma
By interference with metabolism of schwann cells

Coarse of the disease

Most of the patients get rid of the bacilli by natural resistance
Lepromatous leprosy : the bacilli multiply in the dermal nerves produce hyposensitive macule
Tuberculoid leprosy : develop in pateint with high cell mediated immunity, The lesion consist of asymetrical anasthetic macule and palpable thickened nerve , deformity & ulceration
Borderline leprosy: In between lepromatous and tuberculoid leprosy

Lepromatous leprosy: Nodular type develop in patients with low immunity. The lesion consist of symetrical nodules of the skin , thickening of skin & nerves, (leonin face), deformity & ulceration
Involvment of eye, larynx , testis etc
Amyloidosis may complicate lepromatous leprosy
Microscopically:The skin and nerve infiltrated by macrophages full of lepra bacilli, Lymphocytes are few,No granuloma
Diagnosis of leprosy
History of contact with pateint
Examination: Anasthesia, deformity ulceration
Lepromin skin test: Intradermal injection of heat killed L-bacilli , gives in 4 Wks nodule
Finding lepra bacilli
Demonstration of Lepra bacilli
Nasal swab
Biopsy
Modefied Zeihl neelsen stain on these sample show lepra bacilli


Actinomycosis

* Caused by Actinomyces israellii

* Virtually anaerobic, gram-positive, long filamentous bacteria.

* Closely related to mycobacteria with some similarity to fungi.

It can be found as a commensal m.o. in the mouth , G.I.T., female genital tract. Only occasionally they invade the tissues it produce infection.

1- Cervicofacial lesion (70%).

2- Abdomial lesion (around iliocecal region or appendix) (15% ).
3- Pulmonary lesion (10%).
4- Subcutaneous lesion (5%).
5- Gynecological infection in female with IUCD.

Pathology:

Infection produces firm masses containing numerous abscesses ( honeycomb abscesses) bearing colonies as yellowish granules (sulfur granules) with sinuses & fistulae.
Histology:
Chronic granulomatous inflammation with suppuration, bacterial colonies, granulation tissue & thick walled capsule & septa.


Diagnosis:
Yellow granules, gram stain (+Ve), PAS (+Ve).
Treatment: -
Antibiotic +/- surgical.
Spirochetes

* Are activity motile, Gram negative, coiled, unicellular spiral shaped m.o.

* Produce usually interstitial chronic inflammation with perivascular plasma cell & lymphocytic aggregates.
Syphilis
* Caused by spirochete treponema pallidum. It is a chronic venereal disease with multiple clinical presentations.

Transmission:

It needs close physical sexual contact for transmission.
It penetrates the mucosa through a minor or microscopic abrasion.
There is transplacental transmission .
Stage of the disease
Primary syphilis: -
* Lesion (chancre) develops few days or approximately 3 weeks after infection on the glans penis or vulva (90%), anus, lips, fingers & breast in (10%).
* Chancre is a solitary, slowly enlarging, hard, painless nodule with superficial ulceration associated with enlarged regional lymph nodes.
* Healing occurs in 3-6 weeks either spontaneously or after treatment.


Secondary syphilis: -

Usually develops 1-3 months after infection. It is due to spread & proliferation of the spirochetes within the skin & mucocutaneous tissues.
Secondary syphilis occurs in approximately 75%of untreated patients.

* Lesions appear as flat or slightly elevated papules on external genitalia called condylomata lata , generalized macular skin rash, shallow buccal , lingual & pharyngeal ulceration , and generalized lymphadenophathy.

* Healing may occur spontaneously or after treatment.

* Some cases progress to tertiary syphilis.
Tertiary syphilis: -

* It appears several years after primary infection (5-30) years.

* Tertiary syphilis has 3 main manifestations:

1-CVS syphilis : ( aortic aneurysmal dilatation , aortic incompetence , aortic regurgitation & coronary ostial narrowing).
2-CNS neurosyphilis : (meningovascular disease, general paralysis , tabes dorsalis ,dementia & personality changes).
3-Gumma: formation (firm, rubbery, multiple, nodular masses) most commonly found in the liver (hepar lobatum) ,bones & testes.
Gumma are now very rare because of the use of the effective antibiotics.


* These may occur alone or in combinations.

Histology of gumma:

Granuloma with central coagulative necrosis surrounded by granulation tissue containing numerous chronic inflammatory cells rich in plasma cells with end arteritis obliterans & periarteritis.
The endarteritis , which is seen in all stages of syphilis, starts with endothelial hypertrophy & proliferation followed by intimal fibrosis.
The regional L.N. are usually enlarged & may show non specific acute or chronic lymphadenitis, plasma cells infiltration, or focal epithelioed granuloma.

Treatment:

By adequate antibiotic ( penicillin).

Congenital syphilis

* It is due to transplacental spread, which occurs most frequently during primary & secondary syphilis, when the spirochetes are most numerous.
* May cause:
1- Stillbirth, neonatal death or disease present in infancy, childhood or even adult life.
2- Desquamating skin rash, particularly of the hands , feet , around the mouth & anus
3- Osteochondritis (saddle deformity of the nose)
4- Epiphysitis (irregular ossification & bone deformities).
5- Diffuse hepatic fibrosis &interstitial pulmonary fibrosis.
6- Characteristic deformity of the incisor teeth, which is peg-shaped with notched edges (Hutchinson’s teeth) with pitting of the first permanent molars.
7- Later interstitial keratitis produce corneal opacity & blindness.
Diagnosis of syphilis:-
I- History. II- Clinical examination
III- Investigations include two types of serologcal tests:


1) VDRL (venereal disease research laboratory) test.
2) FTA-ABS (Fluorescent treponemal antibody absorption)Test.

Smear from the ulcer or discharge

To demonstrate the spirochetes by:
1- Silver stains e.g. Warthin- Starry stain.
2-Dark- Field Examination.
3-Immunofluorecence technique.

PCR test for syphilis.

Long, spiraling spirochetes are seen with a Warthin-Starry silver stain.

Viral Infections

Viral infection
Viruses are relatively simple, small, obligatory intracellular parasite which replicates within cells by synthesis and assembly of separate components.

Viruses are classified by their nucleic acid genomes into

DNA viruses
RNA viruses .


Routs of infection
Inhalation ;e.g influenza viruses
Ingestion : polio viruses
Parentral : AIDs,

Mechanisms of viral injury

1- Inhibits host cell DNA, RNA or protein synthesis e.g. Poliovirus.
2- Direct cell killing by damaging host cell membrane or DNA e.g. Rhinoviruses.
3- Induce Immune reaction e.g type III &IV hypersensitivity reaction .
4- Damage host defense mechanism .
5-Induce cell proliferation & transformation result in neoplasia e.g. HBV, EBV.
Microscopical picture of viral infection
Mononuclear infiltration
Tissue necrosis
Giant cell formation
Inclusion body formation.(intranuclear or intracytoplasmic)

Viral inclusion bodies

viral particles aggregate within the cells they infect & form characteristic ( Inclusion bodies) . nuclear inclusion surrounded by a clear halo as in Herpes virus
cytoplasmic inclusions as in small pox and rabies virus


Many V. may not give rise to inclusions e.g. EBV.
This is cytomegalovirus (CMV) infection in the lung. Note the very large cells that have large violet intranuclear inclusions with a small clear halo. Basophilic stippling can be seen in the cytoplasm.

Body response to viral infection

1-Lymphocytosis
2-Production of interferon
3-Production of neutralizing antibody
4-Cell mediated immunity plays a role in controlling viral infection

Rickettsial infections

Rickettsiae are similar to bacteria but are smaller . They are an obligate intracellular m.o.and can infect human and animals .
The m.o. enter the endothelial cells of small blood vessels and capillaries causing thrombosis , bleeding and necrosis of involved tissue.
Example of rickettsial disease : epidemic typhus, spotted fever & trench fever .
Spotted fever with thrombosed vessel & vasculitis

Chlamydial Infections

Group of spherical microorganisms intermediate in size between large viruses & bacteria
They are obligatory intracellular microorganisms , proliferate only within host cells, although some may survive extracellularly. They are unable to synthesize ATP at all.
Infection spread by a small compact spore-like form (elementary body) which can survive, but not divide extracellularly.


Chlamydial Infections:
1-In man they are responsible for the sexual transmitted disease lymphogranuloma venerium, which is a small ulcerating primary lesion in the genitalia but with satellite abscess in the inguinal lymph node with extensive scarring & strictures in the anogenital tract .
In active lesions, the diagnosis of lymphogranuloma veneruim is by demostrationof the organism in biopsy sections or smears of exudate.
In more chronic cases the diagnosis rest with demonstration of a.b. to the chlamydial serotypes in patients serum.

2- They cause eye infections, most important is trachoma, which is one of the 10 commonest causes of blindness.

3- Inhalation of microorganism from parrots cause pulmonary infection called psittacosis, results in granuloma formation.
This is a conjunctival scraping from the eye, with Giemsa stain, reveals an intracytoplasmic elementary body of Chlamydia trachomatis in the cell.

4-Inhalation of microorganism (other than that from parrots) results in mild interstitial pneumonia called chlamydial pneumoniea.
5-It causes Chlamydial urethritis & pelvic inflammatory disease.
Unlike N. gonorrhoae urethritis ,C. urethritis in men may be asymptomatic, so infected men might not seek treatment.

Mycoplasmal infection

They are very small filamentous or coccobacillary microorganisms which lack cell wall, but classified as a bacteria.
They are distributed widely & are pathogenic to many animals & plants.
In man only one species, Mycoplasma pneumoniae, has been shown conclusively to be pathogenic.


Mycoplasma pneumonia
It is the cause of one form of non –bacterial (atypical or interstitial) pneumonia which is endemic in most parts of the world esp. in children.
May result in meningo-encephalitis if disseminated in the body with low immunity.
The immune response includes the production of a.b. which cross reacts at low temp. with a human RBC a.g. &in some cases is responsible for acute Haemolysis.
Fungi
Thy are classified into 3 groups:

1-Yeasts: round or oval unicellular organism that replicates by budding or binary fission, some yeasts can form chains so called pseudohyphae.
2-Moulds: Multicellular organisms that grow in form of branching tubules called hyphae, which may be septate or non-septate.
3-Dimorphic fungi: can grow as yeasts or moulds.
Budding cells with pseudohyphae seen here are characteristic for Candida infection.
With a PAS stain, the budding cells and pseudohyphae (short filaments that are not true hyphae) of Candida stain bright red.

Candida albicans:-

Most common fungal infection.

It form yeasts & pseudohyphae.

Normal commensal of moist skin, mouth & intestine.
Disease occurs usually after the use of antibiotic because commensal bacteria inhibits candidal proliferation.
System dissemination results in multiple abscesses occur in immunosuppressed patient.


Body diseases caused by Candida
It may involve vagina particularly during pregnancy, mouth particularly in infants, oral thrush & in-patients with oral antibiotic therapy.

In patients with T-cell deficiency it causes muco-cutaneous candidiasis (chronic disfiguring condition) affecting principally face, scalp & mouth.

Systemic candidiasis is rare seen in immunosuppressed or debilitated patients as multiple small abscesses esp. in kidneys.
Oral candidiasis is common in immunocompromised hosts, such as those with HIV infection. There is a hairy coating of the tongue seen here mixed with a pale tan exudate.

Protozoa

Toxoplasmosis:
Caused by Toxoplasma gondii.

It can be either acquired or congenital.

1-Acquired toxoplasmosis:

Results from food contaminated by faeces of pets especially cats, or eating of undercooked meat contaminated by the parasite.

Most are asymptomatic.

In symptomatic cases, there is lymphadenitis, esp. of cervical L.N & fever.
In immune suppressed patient it can cause encephilitis and hepatitis.
1-Acquired toxoplasmosis:
Pathology:


The lymph node affected shows:

1- Lymphoid follicle hyperplasia.

2- Microgranuloma.

3- Monocytoid B-cell hyperplasia.
Toxoplasma gondii infection can result in the formation of pseudocysts, which have the infected cell forming the cyst wall, and the cysts contain bradyzoites. Pseudocysts are seen here in cerebrum in a microglial nodule

Toxoplasma gondii infection can also occur in the heart. Here a pseudocyst appears in myocardium.

Congenital toxoplasmosis

Following transplacentral spread from infected but often asymptomic mother.

It can cause abortion, stillbirth, cerebral necrosis , hydrocephalus or blindness.