Chapter 8 - Infectious Diseases

Question 1

Categories of infectious agents?

Answer 1

a. prions
b. viruses
c. bacteria
d. fungi
e. parasites

Question 2

Prions:

1. Pathology involves ____ encephalopathies ___ inflammation.
2. The normal prion protien is associated with?

Answer 2

GERD:

1. Pathology involves spongiform encephalopathies withoutinflammation.
2. The normal prion protein is associated with neuronal development and prevention of cell death.

Question 3

Prions:

When they undergo a conformational change they become ___ and form? What does this induce?

Answer 3

Prions:

When they undergo a conformational change they become insoluble and form amyloid plaques. These accumulate in the brain and induce neuronal degeneration leading to dimentia and death

Question 4

Prions:

Genetic prion disease?

Infectious?

Answer 4

Prions:

Genetic: Cruetzfeldt-Jakob

Infectious: iatrogenic CJD, Kuru, and new variant CJD

Question 5

Prions:

The human form of Bovine spongiform encephalopathy (BSE) is called?

Answer 5

Prions:

BSE human form = new variant CJD

Question 6

Viruses:

_____ intracellular parasites with what genome?

What is the genome enclosed in?

Envelope?

Answer 6

Viruses

Obligate intracellular parasites with DNA or RNA as genome

Enclosed in a capsid

The capsid may be enveloped or not

Question 7

Protection from infectious agents:

Skin:

What are two exceptions that can penetrate nondamaged skin?

Answer 7

Protection from infectious agents:

Skin:

a. Schistosoma can penetrate
b. Dermatophytes thrive on keratinized tissue

Question 8

Protection from infectious agents:

GI:

What provides protection?

When does infection occur?

Answer 8

Protection from infectious agents:

GI:

Protection: acid secretion, bile, normal flora, mucous, defensins, IgA, and digestive enzymes

Infection occurs when immunity is compromised or microbes adapt

Question 9

Protection from infectious agents:

Respiratory tract:

What provides protection?

When does infection occur?

Answer 9

Protection from infectious agents:

Respiratory tract:

Protection: ciliary activity, mucous, normal flora, IgA, and phagocytes

Infection occurs when immunity is compromised or microbes adapt

Question 10

Pathogen entry:

Skin:

How can they enter?

A few examples?

Answer 10

Pathogen entry:

Skin:

Enter though direct contact, bites, burns, wounds, etc.

Examples: Dermatophytes, HPV, staph, strep

Question 11

Pathogen entry:

Transplacental:

Examples of things that can infect the fetus?

Answer 11

Pathogen entry:

Transplacental:

Rubella, HIV, CMV, HBV, HCV, T. pallidum, L monocytogenes, S. agalactiae, Toxoplasma gondii

Question 12

Pathogen entry:

Common routes of transmission?

Answer 12

Pathogen entry:

a. transplacental or during birth
b. skin
c. respiratory tract (cough/sneeze –> aerosol droplets)
d. urine/feces
e. blood/tissue
f. skin/intimate contact

Question 13

STD:

The common sexually transmitted viruses?

Answer 13

STD:

HIV, HTLV1, HBV, HDV, HCV, HSV, and CMV (all with V, most with H)

Question 14

STD:

Sexually transmitted bacteria?

Answer 14

STD:

C. trachomatis, N. gonorrhoeae, H. ducreyi, mycoplasma, and ureaplasma

Question 15

STD:

C. trachomatis and N. Gonorrhoeae cause?

Answer 15

STD:

Cause urethritis, epidiymitis, cervicitis, and PID

Question 16

STD:

T. Pallidum causes?

H. Ducreyi causes?

Mycoplasma and Ureaplasma both cause?

Answer 16

STD:

T. Pallidum - syphilis

H. ducreyi - chancroid

Mycoplasma/ureaplasma - urethritis

Question 17

STD:

Klebsiella granulomatis:

Gram ____. Is a major cause of?

Begins as a ___ papule –> ____ (early disease) –> multiple lesions _____ (active) –> heals with ___.

Answer 17

STD:

Klebsiella granulomatis:

Gram negative. Is a major cause of genital ulceration

Begins as a painless papule –> ulcerates (early disease) –> multiple lesions coalesce (active) –> heals with scarring

Question 18

STD:

Sexually transmitted fungi? Causes?

Sexually transmitted parasite? Causes?

Answer 18

STD:

Fungus: C. Albicans - vaginitis

Parasite: Trichomonas vaginalis - urethritis and vaginitis

Question 19

Trophism:

What disseminates to the skin?

What disseminates to the brain?

Answer 19

Trophism:

Skin - chickenpox, yaws

Brain - poliomyelitis

Question 20

Trophism:

What infects the lungs?

What infects the kidneys?

Answer 20

Trophism:

Lungs - measles and rubella

Kidney - hematogenous pyelonephritis

Question 21

Trophism:

What affects the salivary gland?

What affects the liver?

Answer 21

Trophism:

Salivary gland - mumps and rabies

Liver - yellow fever and hepatitis B

Question 22

Virus-mediated tropism/cell injury:

Tropism is determined by:

Location of what 2 things?

As well as the local ____.

Answer 22

Virus-mediated tropism/cell injury:

Tropism is determined by:

Location of receptors for the firus and transcription factors required by the virus

As well as the local environment (temp, pH, etc)

Question 23

Virus-mediated tropism/cell injury:

Injury/death:

1. Virus replication resulting in cell ___
2. Inhibition of _____ synthesis
3. Insertion of viral proteins into the host ___. What does this cause?

Answer 23

Virus-mediated tropism/cell injury:

Injury/death:

1. Virus replication resulting in cell lysis
2. Inhibition of macromolecular synthesis
3. Insertion of viral proteins into the host membrane. This disrupts integrity, promotes cell fusion, and loss of cellf function.

Question 24

Bacteria-mediated tropism/cell injury:

What are some bacterial adhesins?

What is bacterial resistance mediated by?

Answer 24

Bacteria-mediated tropism/cell injury:

Adhesins - pili, fimbriae, LTA, capsule and receptors for host matrix proteins

Resistance may be mediated by - capsules, pili, M-proteins, proteases, antigenic mimicry, antigenic change, and intracellular growth**

Question 25

Bacteria-mediated tropism/cell injury:

Effective intracellular growth may involve inhibition of ____ ____ fusion, escaping from the ___, blocking the host ___ ____ pathways, and rearranging ___.

Answer 25

Bacteria-mediated tropism/cell injury:

Effective intracellular growth may involve inhibition of phagosome-lysosome fusion, escaping from the phagosome, blocking the host signal transduction pathways, and rearranging actin.

Question 26

Bacteria-mediated tropism/cell injury:

Intrinsic toxins?

All of these are ____ and can induce cellular ___.

Answer 26

Bacteria-mediated tropism/cell injury:

Intrinsic toxins - LPS, LTA, PG, TA, and LOS

All of these are proinflammatory and can induce cellular_ necrosis_

Question 27

Bacteria-mediated tropism/cell injury:

Examples of secreted exotoxins?

Some are superantigens: what do they do?

Answer 27

Bacteria-mediated tropism/cell injury:

Exotoxins - cholera, enterotoxin, Ef/LF from B. anthracis, tetanus, proteases, and hemolysins

Superantigens non-selectively activate T cells

Question 28

What is this bacterial infection that is associated with skeletal muscle necrosis?

Answer 28

V. vulnificus

Question 29

What is this bacteria associated with adrenal hemorrhage and necrosis? (also known as Waterhouse-Friedrickson syndrome)

Answer 29

N. meningitidis

Question 30

Fungal-mediated tropism/cell injury:

Tissue damage is associated with:

1. The host inflammatory response via ___ and ___.
2. Secreted ____
3. Metabolic ___ products and exotoxins
4. What is physical damage mediated by?

Answer 30

Fungal-mediated tropism/cell injury:

Tissue damage is associated with:

1. The host inflammatory response via granulomas and abscesses.
2. Secreted proteases
3. Metabolic end products and exotoxins
4. Physical damage mediated by filament penetration of cells and tissues

Question 31

This is c. albicans forming microabscess in the __.

Answer 31

lung

Question 32

Parasite mediated tissue tropism/cell injury:

Most infections are _____ and the most common modes of entry are?

What is tropism related to?

What causes tissue damage?

Answer 32

Parasite mediated tissue tropism/cell injury:

Most infections are exogenous and enter via ingestion or direct penetration

Tropism is related to the stages in the life cycle and host species infected

Damage - toxic end pdts, mechanical damage, or cell lysis

Question 33

This shows septate hyphae with acute angle branching: what is it?

Answer 33

This is aspergillus

Question 34

This is showing broad, aseptate hyphae with right angle branching as well as invasions of vasculature and the airways. What is this?

Answer 34

This is mucormycosis

Question 35

This is blastomyces dermatitidis: with thick walled ____ and neutrophilic infiltrate and broad based ___.

Answer 35

Thick walled yeast and neutrophilic infiltrate and broad based buds

Question 36

What is this?

What is in the spherule?

Answer 36

This is coccidioides immitis

There are endospores in the spherule

Question 37

Immune evasion by infectious agents:

There is replication in inaccessible sites to the host immune response: Where is this?

Agents change or shed ____.

Answer 37

Immune evasion by infectious agents:

Inaccessible - lumen of intestine and keratinized epithelium

Agents change or shed antigens

Question 38

Immune evasion by infectious agents:

There is rapid replication before an immune response can be established:

1. ___ sporozoite infection of hepatocytes
2. Trypanosoma cruzi infection of ___ ___
3. ___ infection of GI epithelium

Answer 38

Immune evasion by infectious agents:

Rapid replication

1. Plasmodium infection of hepatocytes
2. Trypanosoma cruzi infection of skeletal muscle
3. Shigella infection of the GI epithelium

Question 39

Immune evasion by infectious agents:

Form “shields” of?

Types of intracellular growth?

Answer 39

Immune evasion by infectious agents:

capsules, parasite cysts, granulomas, encapsulated abscesses, and coating themselves with host proteins

Growth: spread laterally, interfere with signal transduction, prevent MHC expression, and inhibit Ag presentation to T cells

Question 40

Immune evasion by infectious agents:

What inhibits protease activity?

What blocks MHC synthesis?

What blocks TAP transport?

Answer 40

Immune evasion by infectious agents:

Inhibits protease: EBV, CMV

Blocks MHC synthesis: Adenovirus, CMV

Blocks TAP transport: HSV

Question 41

Mechanisms of antigenic variation:

For given type give example:

1. High mutation rate?
2. Genetic reassortment?

Answer 41

Mechanisms of antigenic variation:

For given type give example:

1. High mutation rate - HIV, influenza
2. Reassortment - influenza, rotavirus

Question 42

Mechanisms of antigenic variation:

For given type give example:

1. Genetic rearrangement/recombination?
2. Diverse serotypes?

Answer 42

Mechanisms of antigenic variation:

For given type give example:

1. Recombination - Borrelia, Neisseria, Plasmodium
2. Serotypes - rhinoviruses, S. pneumoniae

Question 43

Infection in the immunosuppressed host:

Hypogammaglobulinemia:

1. Recurrent sinopulmonary infections and/or otitis due to?
2. Gastroenteritis caused by? (3)
3. 2 other infections?

Answer 43

Infection in the immunosuppressed host:

Hypogammaglobulinemia:

1. Sinopulmonary - S. pneumoniae and H. influenzae
2. GE - giardia, rotavirus, and cryptosporidium
3. Enterovirus and P. aeruginosa

Question 44

Infection in the immunosuppressed host:

T cell defects (SCID, DiGeorge):

Name some disease in which the host is suceptible to getting.

Answer 44

Infection in the immunosuppressed host:

T cell defects:

Candida, pneumocystis, viral pneumonia, aspergillosis, slamonellosis, and CMV

Question 45

Infection in the immunosuppressed host:

Complement deficiencies:

Infections by?

Answer 45

Infection in the immunosuppressed host:

Complement:

Infections by Nisseria, s. pneumoniae, and h. influenzae

Question 46

Infection in the immunosuppressed host:

Phagocyte or chemotactic deficiencies:

Susceptible to?

Answer 46

Infection in the immunosuppressed host:

Phagocyte:

Susceptible to s. aureus, Gram- bacilli, and aspergillus

Question 47

Infection in the immunosuppressed host:

Transplant:

Within one month, what is the greatest risk for with an allograft?

1-6 months after?

>6 months?

Answer 47

Infection in the immunosuppressed host:

Transplant:

1 month - CMV

1-6 months - CMV, HHV6, EBV, HBV, and HCV

>6 months - community acquired respiratory tract infection

Question 48

Inflammatory responses to infection:

Suppurative inflammation:

1. This is a reaction caused by?
2. Characterized by?
3. Difference between S. pneumoniae and S. aureus (and g-) pneumonia?

Answer 48

Inflammatory responses to infection:

Suppurative inflammation:

1. Reaction is caused by pyogenic microbes
2. Characterized by increased vas. perm. and PMN
3. S. pneumonia - spares alveolar walls so the lesions resolve completely. S. aureus leaves scars because it destroys the walls

Question 49

Mononuclear and granulomatous inflammation:

1. What do spirochetes provoke? (in terms of cell)
2. Granulomatous inflammation is usually induced by what kind of bugs? Examples? Characteristics?

Answer 49

Mononuclear and granulomatous inflammation:

1. Spirochetes provoke lymphocytes
2. Induced by hard to eradicate bugs such as mycobacterium, histoplasma, and coccidioides; characterized by giant cells and areas of necrosis

Question 50

Cytopathic-cytoproliferative inflammation:

1. This is usually virus mediated cell __ or ___.
2. Necrotizing inflammation: toxins that cause severe necrosis without? Examples
3. Chronic inflammation and scarring - examples?

Answer 50

Cytopathic-cytoproliferative inflammation:

1. Cell necrosis or proliferation
2. Necrotizing inflammation: minimal infiltrate: C perfringens, and E. histolytica
3. Scarring: HBV associated cirrhosis, Schistosoma eggs that calcifu, and calcified granulomas with Mycobacterium

Question 51

This is a bladder infection with numerous calcified eggs: what caused this?

Answer 51

Schistosoma haematobium

Question 52

Acute viral infections:

Examples?

Answer 52

Acute viral infections:

Measles, Mumps, Poliovirus, West Nile Virus, and Hemorrhagic fevers

Question 53

Acute viral infections:

Measles:

1. This is a paramyxovirus: genome? Includes what other diseases?
2. Mechanism of transmission?

Answer 53

Acute viral infections:

Measles:

1. ssRNA; mumps, RSV, HPIV, and metapneumovirus
2. Aerosols

Question 54

Acute viral infections:

Measles:

Measles replicates in the ___ ___ and then spreads to ____ ___. It binds to ___ (expressed on all nucleated cells) and signaling ____ ___ molecule (expressed on ___ cells). It is then shed into the ___.

Answer 54

Acute viral infections:

Measles:

Measles replicates in the respiratory tract and then spreads to reticuloendothelial tissue. It binds to CD46 (expressed on all nucleated cells) and signaling lymphocytic activation molecule (expressed on T cells). It is then shed into the blood.

Question 55

Acute viral infections:

Measles:

Histological characteristic feature? Where is this seen?

Answer 55

Acute viral infections:

Measles:

Multinucleated giant cells known as Warthin-Finkeldey cells. They are in reticuloendothelial tissue, lungs, and sputum

Question 56

Acute viral infections:

Measles:

1. What does the rash result from?
2. What is characteristically found in the mouth? This is a result from?

Answer 56

Acute viral infections:

Measles:

1. Rash results from vasculitis
2. Koplik spots in the mouth result from epithelial necrosis and a neutrophil exudate

Question 57

Acute viral infections:

Measles:

1. What does the reticuloendothelial tissue typically show?
2. What are other symptoms?

Answer 57

Acute viral infections:

Measles:

1. Reticuloendotheilal tissue shows follicular hyperplasia, large germinal centers, and multinucleated giant cells
2. Cough, coryza, conjunctivitis, and photophobia

Question 58

Acute viral infection:

Mumps:

1. Mode of transmission?
2. Where does it replicate?

Answer 58

Acute viral infection:

Mumps:

1. Aerosols
2. Replicates in T cells in draining lymph nodes

Question 59

Acute viral infection:

Mumps:

1. It sheds into the ____ and infects the ___ ___.
2. Incubation period?

Answer 59

Acute viral infection:

Mumps:

1. Shed into the blood and infects the salivary glands
2. 16-18 day incubation period

Question 60

Acute viral infection:

Mumps:

1. What are the symptoms?
2. Complications: 25% of postpubertal males? 50% of all?

Answer 60

Acute viral infection:

Mumps:

1. fever, HA, maliase, swelling of the parotids and submandibular glands
2. 25% of pospubertal males develop orchitis; 50% have transient meningitis

Question 61

This multinucleated cell is in what disease?

What is it also known as?

Answer 61

Measles

This cell is a Warthin-Finkeldy cell

Question 62

Acute viral infection:

Mumps:

Mumps can also affect the ____ with destructive lesions, parenchymal and ____ necrosis

Answer 62

Acute viral infection:

Mumps:

Mumps can also affect the pancreas with destructive lesions, paranchymal and fat necrosis (slide 633)

Question 63

Acute viral infection:

Poliovirus:

1. This belongs to what class of virus? Genome?
2. Definition of poliomyelitis?

Answer 63

Acute viral infection:

Poliovirus:

1. Enterovirus with ssRNA
2. Acute febrile disease with neuronal damage potentially yielding paralysis

Question 64

Acute viral infection:

Poliovirus:

1. Transmission? Disseminates to?
2. Asymptomatic percent of patients?

Answer 64

Acute viral infection:

Poliovirus:

1. Fecal/oral transmission; disseminates to the CNS
2. 90/95% of patients are asymptomatic

Question 65

Acute viral infection:

Poliovirus:

1. Minor illness: percent and symptoms?
2. Major illness: percent and symptoms?

Answer 65

Acute viral infection:

Poliovirus:

1. Minor: 4-8%; fever, HA, pharyngitis, nausea, vomitting, and abdominal pain. Lasts 1-4 days
2. Major: 1%; fever, HA, pharyngitis, nausea, vomitting, abdominal pain, nauchal rigidity, back pain, muscle pain, and spasms (with CSF pleocytosis)

Question 66

Acute viral infection:

Poliovirus:

Paralytic disease - percent and symptoms? Time of symptoms?

Answer 66

Acute viral infection:

Poliovirus:

.01% become paralyzed with continued CNS necrosis and inflammation. Symptoms appear 3-4 days after the resolution of the minor illness

(minor/major: fever, HA, pharyngitis, N/V, ab/back pain, nauchal rigidity, muscle pain and spasms)

Question 67

Acute viral infection:

Poliovirus:

1. Spinal form: replication is where? May involve?
2. Bulbar form: replication where? May involve? Why is this serious?

Answer 67

Acute viral infection:

Poliovirus:

1. Spinal - SC motor neurons; may involve paralysis of the limbs
2. Bulbar - replication in Brain stem; may involve paralysis of any muscles innervated by the cranial nerves; dangerous because it may involve respiration and involve death

Question 68

Acute viral infection:

West nile virus:

1. Class of virus? Transmission?
2. Incubation period?

Answer 68

Acute viral infection:

Poliovirus:

1. Flavivirus; arthropods but also transfusion/transplant/transplacentally
2. 2-14 day incubation period

Question 69

Acute viral infection:

West Nile Virus:

1. Percent of asymptomatic patients?
2. 20% have? and 50% of these also present with?

Answer 69

Acute viral infection:

West Nile Virus:

1. 80% asymptomatic
2. 20% have fever, HA, and fatigue for 3-6 days; 50% of these also have a rash on the trunk, lymphadenopathy, and arthralgia

Question 70

Acute viral infection:

West Nile Virus:

Less than one percent develop meningitis/encephalitis

1. 25-35% develop?
2. Encephalitis or meningioencephalitis: percent and symptoms?

Answer 70

Acute viral infection:

West Nile Virus:

1. Self-limiting aseptic meningitis
2. 60-75%; fever, HA, stiff neck, altered CNS function, seizures, and change in mental status

Question 71

Acute viral infection:

Hemorrhagic Fevers:

1. Mode of transmission?
2. Different classes of viruses?

Answer 71

Acute viral infection:

Hemorrhagic Fevers:

1. Arthropod bites
2. Arenavirus, Filovirus, Bunyaviruses, and Flaviviruses

Question 72

Acute viral infection:

Hemorrhagic Fevers:

1. Arenavirus example?
2. Filovirus examples?

Answer 72

Acute viral infection:

Hemorrhagic Fevers:

1. Arenavirus = lassa virus
2. Filovirus = marburg and ebola virus

Question 73

Acute viral infection:

Hemorrhagic Fevers:

1. Bunyavirus example?
2. Flavivirus examples?

Answer 73

Acute viral infection:

Hemorrhagic Fevers:

1. Bunyavirus = hantavirus
2. Flavivirus = yellow fever and dengue fever

Question 74

Acute viral infection:

Hemorrhagic Fevers:

1. Hemorrhage is associated with?
2. Shock is associated with?

Answer 74

Acute viral infection:

Hemorrhagic Fevers:

1. Hemorrhage is associated with thrombocytopenia and/or endotheilal cell lysis
2. Shock is associated with elevated cytokines and DIC

Question 75

Acute viral infection:

Dengue Fever Virus:

1. This disease is ___ ____
2. Mode of transmission? Replicates where?

Answer 75

Acute viral infection:

Dengue Fever Virus:

1. This disease is self limiting
2. Transmitted by arthropods; replicates in reticuloendothelial tissue

Question 76

Acute viral infection:

Dengue Fever Virus:

1. What are the initial symptoms?
2. What are the symptoms related to?

Answer 76

Acute viral infection:

Dengue Fever Virus:

1. fever, myalgia, joint/bone pain, N/V
2. Symptoms are related to high concentrations of proinflammatory cytokines (TNF)

Question 77

Acute viral infection:

Dengue Fever Virus:

1. What presents 3 days after the onset of fever?
2. There is also generalized lymphadenopathy and ____.

Answer 77

Acute viral infection:

Dengue Fever Virus:

1. Rash after 3 days
2. General leukopenia

Question 78

Acute viral infection:

Dengue Fever Virus:

1. What are the nonspecific immune responses?
2. What is generated later?

Answer 78

Acute viral infection:

Dengue Fever Virus:

1. IFN and NK cell activity
2. Later is the production of antibodies

Question 79

Acute viral infection:

Dengue Fever Virus:

DV produces a capillary leak syndrome:

1. What is the primary cellular target?
2. What ultimately causes the leak?

Answer 79

Acute viral infection:

Dengue Fever Virus:

1. Primary cell target is monocytes
2. Cytokines induce endothelial cells to induce plasma leakage

Question 80

Acute viral infection:

Dengue hemorrhagic fever/shock:

1. Initial presentation?
2. What occurs after 3-4 days of fever? What can this cause?

Answer 80

Acute viral infection:

Dengue hemorrhagic fever/shock:

1. Initial presentation: same as self limited disease - fever, myalgia, joint/bone pain, N/V
2. There is then increased vascular permeability, thrombocytopenia, DIC, and hemorrhage; this can cause hypovolumic shock, circulatory failure, or death

Question 81

Chronic/Latent viral infection:

Examples?

Answer 81

Chronic/Latent viral infection:

Herpes virus and CMV

Question 82

Chronic/Latent viral infection:

Alphaherpesvirinae:

1. Type of infection? Where?
2. What viruses?

Answer 82

Chronic/Latent viral infection:

Alphaherpesvirinae:

1. Latent virus in the neurons
2. HSV1, HSV2, and VZV

Question 83

Chronic/Latent viral infection:

Betaherpesvirinae:

1. Type of infection?
2. Type of viruses?

Answer 83

Chronic/Latent viral infection:

Betaherpesvirinae:

1. Latent
2. HHV6/7 (Roseolovirus) and CMV

Question 84

Chronic/Latent viral infection:

Gammaherpesvirinae:

1. Type of infection? Where?
2. Type of viruses?

Answer 84

Chronic/Latent viral infection:

Gammaherpesvirinae:

1. Latent in lymphoid cells
2. HHV8 (Rhadinovirus), and EBV

Question 85

Chronic/Latent viral infection:

HSV:

1. Mode of transmission?
2. Primary infection involves? What do the infected cells form?

Answer 85

Chronic/Latent viral infection:

HSV:

1. Intimate contact
2. Primary infection, may be asymptomatic, involves a vesicular lesion with dermal inflammation; Infected cells form multinucleated giant cells with intranuclear inclusions

Question 86

Chronic/Latent viral infection:

HSV:

1. Latent infection by HSV-1 occurs where?
2. Latent infection by HSV-2 occurs where?

Answer 86

Chronic/Latent viral infection:

HSV:

1. HSV-1: trigeminal ganglia
2. HSV-2: sacral ganglia

Question 87

Chronic/Latent viral infection:

HSV:

Examples of Primary HSV infections?

Examples of Latent HSV infections

Answer 87

Chronic/Latent viral infection:

HSV:

Primary = gingivostomatitis, genital herpes, meningioencephalitis, keratoconjunctivitis

Latent = Herpes labialis (cold sore) and genital infection

Question 88

Chronic/Latent viral infection:

Gingivostomatitis:

1. Virus? Incubation period?
2. Initial presentation?

Answer 88

Chronic/Latent viral infection:

Gingivostomatitis:

1. HSV; 4-6 day incubation
2. Fever, sore gums, and sore mouth are the initial presentations

Question 89

Chronic/Latent viral infection:

Gingivostomatitis:

1. What occurs within 3 days of oral pain?
2. How long can symptoms last?

Answer 89

Chronic/Latent viral infection:

Gingivostomatitis:

1. Gingivitis with ulcers and perioral lesions as well as cervical lymphadenopathy
2. 2 weeks

Question 90

Chronic/Latent viral infection:

Genital Herpes:

1. Most cases are caused by what? The rest are from?
2. Incubation period? Initial symptoms?

Answer 90

Chronic/Latent viral infection:

Genital Herpes:

1. Most = HSV-2; 10-20% are caused by HSV-1
2. 2-7 day incubation period; fever, malaise, dysuria, and eruption of painful, pruritic vesicles, as well as urethral discharge

Question 91

Chronic/Latent viral infection:

Genital Herpes:

1. In addition to normal symptoms, 5-30% also develop?
2. What occurs with the vesicles in men?

Answer 91

Chronic/Latent viral infection:

Genital Herpes:

1. 5-30% also develop inguinal adenopathy and aseptic meningitis
2. Men have vesicles that rupture and crust over

Question 92

Chronic/Latent viral infection:

Genital Herpes:

1. What happens to women?
2. How long does this last? What virus recurrs 80-90% of the time? 55% of the time?

Answer 92

Chronic/Latent viral infection:

Genital Herpes:

1. In women, the labia, vagina, urethra, and cervix are involved. The vesicles rupture, ulcerate, and have a watery discharge
2. Symptoms last around 2 weeks; 80/90% recurr when primary infection is HSV-2; 55% recurr when primary infection is HSV-1

Question 93

Chronic/Latent viral infection:

Meningioencephalitis:

1. HSV-1 causes?
2. HSV-2 causes?
3. In neonates, both HSV1 and HSV2 cause?

Answer 93

Chronic/Latent viral infection:

Meningioencephalitis:

1. HSV1 = encephalitis
2. HSV2 = meningitis
3. Neonates, both cause encephalitis

Question 94

Chronic/Latent viral infection:

Meningioencephalitis:

1. In viral encephalitis: there is a ____ infiltrate and ___ proliferation in the ___, cortex, and white matter
2. Herpes specific encephalitis: where are the focal areas of necrosis?

Answer 94

Chronic/Latent viral infection:

Meningioencephalitis:

1. In viral encephalitis: there is a lymphocytic infiltrate and proliferation in the meninges, cortex, and white matter
2. Herpes specific encephalitis: focal areas of necrosis in the orbitofrontal, temporal cortex and limbic system

Question 95

Chronic/Latent viral infection:

Meningioencephalitis:

1. General meningioencephalitis symptoms?
2. Herpes specific symptoms?

Answer 95

Chronic/Latent viral infection:

Meningioencephalitis:

1. General meningioencephalitis symptoms: fever, HA, N/V, stiff neck, cerebral edema, seizures, and confusion
2. Herpes specific: loss of smell and memory, speech deficits, behavior changes, and hallucinations

Question 96

Chronic/Latent viral infection:

Meningioencephalitis:

1. What occurs in 2/3 of those that recover?
2. Viral meningitis (nothing herpes specific) presents with?

Answer 96

Chronic/Latent viral infection:

Meningioencephalitis:

1. 2/3 that recover develop neurologic sequelae
2. Meningitis: HA, fever, photophobia, N/V, stiff neck, nauchal rigidity, and myalgias (slide 642)

Question 97

Chronic/Latent viral infection:

Keratoconjunctivitis:

Presentation?

Answer 97

Chronic/Latent viral infection:

Keratoconjunctivitis:

Often unilateral with acute onset of pain, conjunctivitis with a discharge, and blurred vision

Question 98

Chronic/Latent viral infection:

HSV stromal keratitis:

Has an extensive ____ infiltrate with _____, possibly resulting in scarring and ____

Answer 98

Chronic/Latent viral infection:

HSV stromal keratitis:

Has extensive mononuclear infiltrate with neovascularization resulting in scarring and blindness

Question 99

Examples of HSV recurrent infections?

Answer 99

Herpes labialis and genital infection

Question 100

Herpes labialis:

1. What is this?
2. Presentation?

Answer 100

Herpes labialis:

1. Cold sore
2. Pain, burning, and itching followed by a papule that develops into a vesicle that crusts

Question 101

Genital infection:

Recurrences are more common with?

Answer 101

Genital infection:

More common with HSV-2

Question 102

Chronic/Latent viral infection:

CMV:

1. Where do latent infections occur?
2. Most common routes of transmission?

Answer 102

Chronic/Latent viral infection:

CMV:

1. Latent infections: mononuclear cells, kidney, and heart
2. Transmission: congenital, perinatal, oral, sexual, from blood, and from transplanted tissue

Question 103

Chronic/Latent viral infection:

CMV:

1. CMV can prevent _____ expression
2. The congenital infection is known as?

Answer 103

Chronic/Latent viral infection:

CMV:

1. CMV can prevent MHC-1 expression
2. Congenital infection: cytomegalic inclusion disease

Question 104

Chronic/Latent viral infection:

Cytomegalic inclusion disease:

1. Most ___ disease and ___ organs are infected.
2. How does it present at birth?
3. Those that survive usually have?

Answer 104

Chronic/Latent viral infection:

Cytomegalic inclusion disease:

1. Most serious disease and several organs are infected
2. Presents: jaundice, hepatosplenomegaly, petechial rash, seizures, and respiratory distress
3. Those that survive have permanent CNS damage

Question 105

Chronic/Latent viral infection:

Perinatal infection:

1. 20% of pregnant women are colonized and 50% of neonates become _____.
2. Most always ____ or may have a self-limited ___ like syndrome. There also may be subtle developmental deficits in ___ and ___.

Answer 105

Chronic/Latent viral infection:

Perinatal infection:

1. 20% of pregnant women are colonized and 50% of neonates become carriers
2. Most always asymptomatic or may have a self limited sepsis like syndrome. There also may be subtle developmental deficits in hearing and intelligence

Question 106

Chronic/Latent viral infection:

Mononucleosis:

1. __ causes 20% of all mono.
2. What are heterophile antibodies?

Answer 106

Chronic/Latent viral infection:

Mononucleosis:

1. CMV causes 20%
2. Heterophile antibodies - recognize antigens on RBCs from other species

Question 107

Chronic/Latent viral infection:

Mononucleosis:

1. CMV mono is heterophile ___, while EBV mono is ___.
2. Presentation?

Answer 107

Chronic/Latent viral infection:

Mononucleosis:

1. CMV = heterophile negative; EBV = heterophile positive
2. Presents with lymphocytosis, fever, fatigue, mild hepatitis, and myocarditis. Sometimes presents with a rash

Question 108

Chronic/Latent viral infection:

CMV hepatitis:

1. Is associated with what?
2. Presentation?

Answer 108

Chronic/Latent viral infection:

CMV hepatitis:

1. Is associated with CMV mono
2. Presentation: self-limited jaundice, hepatomegaly, and elevated liver enzymes in the blood

Question 109

What is this multinucleated giant cell associated with?

(it has intranuclear inclusions)

Answer 109

HSV

Question 110

What disease is this? What virus?

Answer 110

This is gingivostomatitis; HSV

Question 111

CMV infection: what is the arrow pointing to - more specifically what is the major characteristic of CMV

Answer 111

Major characteristic: Owl’s eye inclusion

Question 112

CMV infection in immunocompromised host:

1. Most severe disease?
2. 3 others that are common?

Answer 112

CMV infection in immunocompromised host:

1. Most severe: pneumonia
2. Chorioretinitis, Colitis/esophagitis, and CNS infection

Question 113

CMV infection in immunocompromised host:

1. Pneumonia occurs in what kind of patients?
2. Colitis/esophagitis presentation?
3. CNS infection presentation?

Answer 113

CMV infection in immunocompromised host:

1. Pneumonia occurs in bone marrow transplant patients
2. C/E presentation: painful ulcerations, difficulty swallowing, and watery or bloody diarrhea
3. CNS presentation: polyradiculopathy (spinal nerve root) with ascending weakness, loss of deep tendon reflexes, and loss of bowel/bladder control

Question 114

Chronic/Latent viral infections:

VZV:

1. 5 childhood exanthems (rashes)?
2. Transmission?
3. Primary infection?

Answer 114

Chronic/Latent viral infections:

VZV:

1. Varicella, rubella, measles, roseola, and parvovirus B19
2. Transmitted by respiratory tract secretions or vesicle fluid
3. Primary infection is chickenpox: varicella

Question 115

Chronic/Latent viral infections:

VZV:

1. Primary infection is established in the ___ __ –> regional nodes –> blood –> infects?
2. Shed again –> incubation of ____ days –> acute onset of?

Answer 115

Chronic/Latent viral infections:

VZV:

1. Primary infection in the respiratory tract –> nodes and blood –> infects liver, spleen, and other reticuloendothelial tissue
2. Shed again –> 10/12 day incubation –> acute onset of fever, HA and sore throat

Question 116

Chronic/Latent viral infections:

VZV:

1. Where does the rash appear first? Progression?
2. Where is the latent infection established?

Answer 116

Chronic/Latent viral infections:

VZV:

1. Appears on head and scalp first then the trunk and extremities
2. Latent infection is established in neurons usually at the site of the most concentrated rash

Question 117

Chronic/Latent viral infections:

VZV:

Complications in children:

1. Secondary bacterial infection by?
2. What may happen in children treated with aspirin?

Answer 117

Chronic/Latent viral infections:

VZV:

Complications in children:

1. Secondary bacterial infection: S. pyogenes
2. Asprin - cause Reye’s syndrome

Question 118

Chronic/Latent viral infections:

VZV:

1. Complications in children: What are some rare symptoms?
2. Infection in immunocompromised patients may result in?

Answer 118

Chronic/Latent viral infections:

VZV:

1. Rare: ataxia, vomiting, altered speech, fever, vertigo, and tremors
2. Immunocompromised: hemorrhagic skin lesions and disseminated disease (high fatality rate)

Question 119

Chronic/Latent viral infections:

VZV:

1. Recurrent infection is?
2. Where do you see the rash? Presentation?

Answer 119

Chronic/Latent viral infections:

VZV:

1. Recurrent: Zoster or Shingles
2. The rash seldom crosses the midline and is usually confined to a specific dermatome; presents with pain and neuralgia at the eruption site

Question 120

Chronic productive viral infections:

What is unique about these infections?

Examples?

Answer 120

Chronic productive viral infections:

These are infections that the immune system may not be able to eliminate.

HIV, HBV, HCV, HDV

Question 121

Chronic productive viral infections:

HBV:

1. Envelope? Genome?
2. What are the 4 Antigens that can be detected?

Answer 121

Chronic productive viral infections:

HBV:

1. Enveloped; circular ss AND ds DNA
2. 4 Antigens: s (surface), c (core), e (core protein) and the dane particle (intact virus)

Question 122

Chronic productive viral infections:

HBV:

Transmission?

Answer 122

Chronic productive viral infections:

HBV:

Transmitted by blood, sex, and direct contact

Question 123

Chronic productive viral infections:

HBV Acute Hepatitis:

1. Incubation period?
2. Most of the damage is ___ mediated with extensive ___ necrosis.

Answer 123

Chronic productive viral infections:

HBV Acute Hepatitis:

1. Incubation: 4-26 weeks
2. Most of the damage is CMI mediated with extensive portal necrosis

Question 124

Chronic productive viral infections:

HBV Chronic Hepatitis:

1. Continuous inflammation leads to ____ and then ___ of the liver.
2. Continuous inflammation also predisposes to?

Answer 124

Chronic productive viral infections:

HBV Chronic Hepatitis:

1. Continuous inflammation leads to fibrosis and then cirrhosis of the liver.
2. Predisposes to hepatocellular carcinoma

Question 125

Chronic productive viral infections:

HBV Chronic persistant Hepatitis Presentation?

Chronic active Abs? Symptoms?

Answer 125

Chronic productive viral infections:

Chronic persistant: no jaundice or other symptoms

Chronic active: low or no anti-s and c Ab; relentless progression with persistant symptoms

Question 126

Transforming viral infections:

Examples?

Answer 126

Transforming viral infections:

EBV, HBV, HTLV-1, and HPV

Question 127

Transforming viral infections:

EBV:

1. Mode of transmission?
2. The virus can bind to ___ on B-cells, ___ and ___ epithelial cells
3. Immune evasion may be partly mediated by the production of an IL-___ like protein that ___ ___ activity

Answer 127

Transforming viral infections:

EBV:

1. Sexual contact
2. The virus can bind to CD21 on B cells, nasopharyngeal and cervical epithelial cells
3. Immune evasion: IL-_10_ like protein that inhibits Th1 activity

Question 128

Transforming viral infections:

EBV:

1. EBV infects B cells –> induces B cell ____ with the expression of ___ nuclear Ag, latent ___, and latent ____ proteins.
2. t8:14 translocation involving the ___ gene
3. ____ activates signaling pathways that ___ __ cell activation

Answer 128

Transforming viral infections:

EBV:

1. EBV infects B cells –> induces B cell proliferation with the expression of EB nuclear Ag, latent proteins, and latent membrane proteins
2. t8:14 translocation involving the c-myc gene
3. LMP-1 activates signaling pathways that mimic B cell activation

Question 129

Transforming viral infections:

EBV:

1. ___ stimulates transcription of the cyclin ___ gene
2. The ____ (__) pathway occurs in epithelial cells and/or __ cells with the expression of the ___ Ag, viral ___ Ag, and _____, resulting in infectious viral particles, T cell activation, and the appearance of ____ cells which are activated ___.

Answer 129

Transforming viral infections:

EBV:

1. EBNA-2 stimulates the transcription of the cyclin D gene
2. The productive (lytic) pathway occurs in epithelial cells and/or B cells with the expression of the early Ag, viral capsid Ag, and EBNA’s, resulting in infectious particles, T cell activation, and the appearance of Downey cells which are activated Tc

Question 130

Transforming viral infections:

EBV:

1. __ cell proliferation accounts for the characteristic _____ and splenomegaly
2. Incubation period?
3. Initial symptoms?

Answer 130

Transforming viral infections:

EBV:

1. T cell proliferation accounts for the characteristic lymphadenopathy and splenomegaly
2. Incubation: 1-8 weeks
3. Acute onset of fever, pharyngitis, lymphadenopathy, hepatosplenomegaly, and fatigue

Question 131

Transforming viral infections:

EBV:

1. Virtually all have ____ Abs and lymphocytosis
2. What symptoms may persist for months?
3. Complications: 80% have? 50% have?

Answer 131

Transforming viral infections:

EBV:

1. Virtually all have heterophile Abs and lymphocytosis
2. Long lasting symptoms: fatigue, lymphadenopathy, hepatosplenomegaly, and viral secretion
3. 80% have mild hepatitis with elevated liver enzymes; 50% have mild thrombocytopenia

Question 132

Transforming viral infections:

HPV:

1. Genome? Enveloped?
2. The productive infection forms?
3. The latent/transforming infection forms?

Answer 132

Transforming viral infections:

HPV:

1. Circular dsDNA genome; non-enveloped
2. Productive - warts
3. Latent - cervical cancer

Question 133

Transforming viral infections:

HPV:

1. In the latent infection, what happens with the genome? What does this lead to?
2. In the integrated state what genes are transcribed that inhibit p53?
3. Mode of transmission?

Answer 133

Transforming viral infections:

HPV:

1. In the latent infection the genome is integrated into the host genome and may activate oncogenes to inhibit apoptosis and promote cell proliferation
2. E6 and E7 inhibit p53
3. Direct contact or inanimate objects (skin must be compromised)

Question 134

Transforming viral infections:

HPV:

1. What is the virus very resistant to?
2. Where does skin hyperplasia initially occur?

Answer 134

Transforming viral infections:

HPV:

1. Resistant to environmental stress
2. Hyperplasia in the stratum spinosum

Question 135

Bacterial Infections - Gram Positive:

Name 3.

Answer 135

Bacterial Infections - Gram Positive:

a. Staphylococcus aureus
b. Staphylococcus epidermidis
c. Staphylococcus saprophyticus

Question 136

Bacterial Infections - Gram Positive:

Staph Aureus:

1. This is the only one that produces ____.
2. _____, __ acid, and lipotechioic acid induce ____ production
3. Role of Protein A?

Answer 136

Bacterial Infections - Gram Positive:

Staph Aureus:

1. This is the only one that produces coagulase!
2. Peptidoglycan, techoic acid, and lipotechioic acid induce cytokine production
3. Protein A: binds Fc of IgG preventing opsonization

Question 137

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Produces a number of adhesion molecules such as clumping factor that binds?
2. Some strains produce a capsule/biofilm: function?
3. Function of coagulase?

Answer 137

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Clumping factor binds fibrinogen, collagen BP, and fibronectin
2. Capsule: inhibits chemotaxis and phagocytosis and facilitates adherence to tissue and/or artificial joints
3. Coagulase: clots plasma

Question 138

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Beta lactamase function?
2. Staphylococcal compliment inhibitor blocks?
3. Chemotaxis inhibitory protein blocks the receptors for?

Answer 138

Bacterial Infections - Gram Positive:

Staph Aureus:

1. B-lactamase: provides beta-lactam resistance
2. SCI blocks formation of C3b on the bacterial surface
3. CIP blocks receptors for C5a and formyl-peptides, thus blocking the activation of phagocytes

Question 139

Bacterial Infections - Gram Positive:

Staph Aureus:

Cytolytic toxins:

1. Alpha toxin: causes? How?
2. Beta toxin is ____ that is cytolytic and causes ___
3. What is cytolytic for phagocytes?

Answer 139

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Alpha toxin: causes necrosis by forming a pore in PM

2 Beta toxin is sphingomyelinase that is cytolytic and causes necrosis

3. Leukocidin is cytolytic for phagocytes

Question 140

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Super antigens activate __ cells and induce ___ pdtn
2. Enterotoxins: resistant to? Associated with?
3. Pyrogenic exotoxin: C is also known as?

Answer 140

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Super antigens activate T cells and induce cytokine pdtn
2. Enterotoxins: resistant to acid and heat; associated with food poisoning
3. Pyrogenic exotoxin C is also known as Toxic Shock Symdrome Toxin-1 (TSST-1)

Question 141

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Exfoliatins are _____ exotoxins that cause? Associated with?
2. Regardless of the infection, it is pyogenic (except ____) and ____ inflammation is the pathologic finding

Answer 141

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Exfoliatins are epidermolytic exotoxins that cause the separation of the epidermis from the dermis; this is associated with scalded skin syndrome and impetigo
2. Regardless of the infection, it is pyogenic (except impetigo) and suppurative inflammation is the pathologic finding

Question 142

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Folliculitis: is an infection of ___ ___ involving the formation of a small abscess with ___ inflammation
2. Furuncle: this is a _____ infection involving a ___ ___, usually following folliculitis, the lesion is usually painful and ____ _____.

Answer 142

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Folliculitis: is an infection of hair follicles involving the formation of a small abscess with minor inflammation
2. Furuncle: this is a subcutaneous infection involving a hair follicle, usually following folliculitis, the lesion is usually painful and drains spontaneously

Question 143

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Carbuncle: fusion of multiple ____ that drain through? It is often accompanied by?
2. Cellulitis: this is a common ___, rapidly spreading ____ infection that may have originated from ___, a furuncle or a ____. Orbital cellulitis may originate from an infection of the ____ ___ with pain, ____, edema, and fever

Answer 143

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Carbuncle: fusion of multiple furuncles that drain through several openings; often accompanied by a fever
2. Cellulitis: this is a common acute, rapidly spreading subcutaneous infection that may have originated from trauma, a furuncle, or a carbuncle. Orbital cellulitis may originate from an infection of the paranasal sinuses with pain, erythema, edema, and fever

Question 144

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Necrotizing fasciitis: this usually develops from ____ and is a ___ infection involving ___ and fascia and causes ___.
2. impetigo: occurs in? Presentation?

Answer 144

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Necrotizing fasciitis: this usually develops from cellulitis and is a deep infection involving muscle and fascia and causes necrosis
2. Impetigo: occurs in neonates and young children with rigid or flaccid fluid filled bullae - older lesions break down and crust

Question 145

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Impetigo: represents the localized effect of the ___ (____) toxin causing granular cells of the epidermis to?
2. Scalded Skin Syndrome: occurs in? Mediated by _____ toxin. Symptoms?
3. Scalded Skin Syndrome: has a positive Nikolsky sign - what is this?

Answer 145

Bacterial Infections - Gram Positive:

Staph Aureus:

1. Impetigo represents the localized effect of the epidermolytic (exfoliative) toxin: epidermis separation
2. SSS: occurs in young children; Mediated by epidermolytic toxin; Symptoms: starts with a fever and diffuse rash followed by the development of flaccid bullae
3. • Nikolsky sign: epidermis easily separates with slight pressure

Question 146

Bacteremia/Septicemia:

1. Top 4 bacterial causes?
2. Presentation?

Answer 146

Bacteremia/Septicemia:

1. Top 4 causes: S. aureus, E. coli, S. Epidermidis, and Enterococcus
2. Presentation: fever, chills, rigors followed by tachycardia, tachypnea, shock and death

Question 147

Bacteremia/Septicemia:

1. Systemic inflammatory response syndrome (SIRS): presentation? No evidence of?
2. Sepsis = ?
3. Severe sepsis = ?
4. Septic shock = ?

Answer 147

Bacteremia/Septicemia:

1. SIRS: fever, elevated WBC, elevated HR/respiratory rate. NO evidence of infection
2. Sepsis = SIRS + infection
3. Severe sepsis = Sepsis + signs of organ dysfunction
4. Septic shock = severe sepsis + hypotensive shock and multiple organ dysfunction

Question 148

Bacteremia/Septicemia:

1. Pathology is associated with what kind of injury?
2. What occurs in the brain?
3. Heart?
4. Kidneys?
5. Lungs?

Answer 148

Bacteremia/Septicemia:

1. Hypoxic injury
2. Ischemic encephalopathy
3. Heart = coagulation necrosis and hemorrhage
4. Kidneys = acute tubular necrosis –> failure
5. Lungs = diffuse alveolar damage and edema

Question 149

Endocarditis:

1. Main cause of infective endocaditis?
2. Presentation?

Answer 149

Endocarditis:

1. Main cause = Staphylococcus
2. Presentation: ever, chills, bleeding, murmur, and embolism

Question 150

Pneumonia:

1. _____ causes <10% of CAP.
2. Often follows the ____
3. _____ necrosis with ___ formation or the formation of a _____ (thin walled cyst)
4. Presentation?

Answer 150

Pneumonia

1. S. aureus causes <10% of CAP
2. Often follows the flu
3. Hemorrhagic necrosis with abscess formation or the formation of a pneumatocele (cyst)
4. Presentation: acute onset of fever, dyspnea, tachypnea (increased resp. rate), and production of mucopurulent sputum

Question 151

Aute Osteomyelitis and acute septic arthritis:

1. Majority is caused by?
2. Osteomyelitis presentation?
3. Septic arthritis involves an infection of the ____ space with synovial _____, _____ degradation, effusion (with ____ necrosis), and bone _____.
4. Septic arthritis presentation?

Answer 151

Aute Osteomyelitis and acute septic arthritis:

1. Majority: S. aureus
2. Osteomyelitis: bone destruction, pain, swelling, and fever
3. Septic arthritis involves an infection of the synovial space with synovial hypertrophy, cartilage degradation, effusion (with pressure necrosis), and bone resorption
4. Septic arthritis: local inflammation, pain, and swelling usually of a SINGLE joint

Question 152

Food poisoning:

1. ______ (toxin) food poisoining is caused by the ingesion of preformed ____ _____. The toxin is __ and acid stable.
2. Mechanism: ___ induced inflammation, _____ cell degranulation, and the production of ___ and ___.
3. Symptoms?

Answer 152

Food poisoning:

1. S. aureus caused by ingestion of preformed staph enterotoxin that is heat and acid stable.
2. Mechanism: superantigen induced inflammation, mast cell degranulation, and the production of PGE2 and LTB4
3. Symptoms: N/V, cramps, and diarrhea

Question 153

Staphylococcal Toxic Shock:

1. Mediated by TSST-1 from what bacteria?
2. TSST-1: what does it induce?
3. Presentation?
4. There may be?

Answer 153

Staphylococcal Toxic Shock

1. TSST-1: from s. aureus
2. Induces T cell activation and cytokine release
3. Presentation: acute onset of fever, rash, myalgia, hyperemia, and GI symptoms
4. There may be shock, renal failure, and CNS disturbances

Question 154

Streptococcus:

1. Oxygen requirements?
2. Catalase?
3. Shape?

Answer 154

Streptococcus:

1. Faculative anaerobe
2. Catalase negative
3. Oval in pairs or chains

Question 155

Strep. Pyogenes:

Virulence factors:

1. Role of M-proteins?
2. Role of streptolysin S?
3. Role of streptolysin O?

Answer 155

Strep. Pyogenes:

Virulence:

1. M-proteins = antiphagocytic
2. Streptolysin S = O2 stable hemolysin
3. Streptolysin O = (SLO) O2 labile hemolysin that lyses RBCs, leukocytes, and mycardial cells by forming a transmembrane pore: also induces TNFalpha from mast cells

Question 156

Strep. Pyogenes:

1. Has pyrogenic ______ (these are ____ antigens; ____ is associated with scarlet fever and strep toxic shock)
2. Characterized by diffuse _____ _____ with ___ destruction to host tissue

Answer 156

Strep. Pyogenes:

1. Has pyrogenic exotoxins (these are super antigens; SPEA is associated with scarlet fever and strep TSS)
2. Characterized by diffuse interstitial infiltrates with minimal destruction to the host tissue

Question 157

Strep. Pyogenes:

Pharyngitis:

1. Most common bacterial infection of?
2. Most common transmission?
3. Incubation period?

Answer 157

Strep. Pyogenes:

Pharyngitis:

1. Most common bacterial infection of childhood
2. Aerosol transmission
3. Incubation = 2-4 days

Question 158

Strep. Pyogenes:

Pharyngitis:

1. Symptoms?
2. Which nodes are enlarged?
3. What else is enlarged? May be covered with?

Answer 158

Strep. Pyogenes:

Pharyngitis:

1. Fever, pharyngitis (no cough) and maliase along with erythema and edema of posterior pharynx
2. Cervical nodes at angles of mandible are enlarged
3. Tonsils are also enlarged and hyperemic; may be covered with an exudate

Question 159

Strep. Pyogenes:

Scarlet fever:

1. Pharyngitis caused by _____.
2. PResentation?

Answer 159

Strep. Pyogenes:

Scarlet fever:

1. Caused by SPEA
2. Presentation: pharyngitis and diffuse erythematous rash that begins on the chest and then the extremities (palms, soles, and area around the mouth is spared) –> desquamation follows the rash

Question 160

Strep. Pyogenes:

Cellulitis:

1. 2 Most common causes?
2. Involves diffuse infection of?
3. Presentation?

Answer 160

Strep. Pyogenes:

Cellulitis:

1. S. aureus and S. pyogenes
2. Involved diffuse infection of skin and subcutaneous tissue
3. Presentation: pain, fever, chills, leukocytosis, and inflammation at the site with swelling and erythema

Question 161

Strep. Pyogenes:

Erysipela:

1. Acute _____ infection.
2. Where is it commonly found?
3. Associated with?
4. Presentation?

Answer 161

Strep. Pyogenes:

Erysipela:

1. Acute skin infection
2. Commonly found on face and extremities
3. Associated with facial infection or pharyngitis
4. Presentation: pain, fever, chills, leukocytosis, inflammation: lesions form distinct raised borders and bullae may also develop

Question 162

Strep. Pyogenes:

Necrotizing fasciitis:

1. Associated with?
2. What does this affect? Often following?
3. Symptoms?

Answer 162

Strep. Pyogenes:

Necrotizing fasciitis:

1. Associated with TSS
2. Deep infection of muslce and fascia following cellulitis, surgery, or minor trauma
3. Skin becomes purplish with hemorrhagic bullae (skin begins to slough) most have bacteremia, high fever, and extreme pain at site of infection

Question 163

Strep. Pyogenes:

Strep impetigo:

1. Mode of transmission?
2. Starts as erythematus ___ that develops into a ____ and then a ____.

Answer 163

Strep Pyogenes:

Impetigo:

1. Transmission = direct contact
2. Starts as erythematous papule that develops into a vesicle and then a pustule that breaks down and crusts

Question 164

Nonsuppurative complications associated with S pyogenes:

Name 2.

Answer 164

Nonsuppurative complications associated with S pyogenes:

a. Nephritis
b. Rheumatic fever

Question 165

Nonsuppurative complications associated with S pyogenes:

1. Nephritis: post infectious _____ _____ GN that follows ____
2. RF: occurs after infection with any ___ associated with pharyngitis

Answer 165

Nonsuppurative complications associated with S pyogenes:

1. Nephritis: post infectious acute proliferative GN that follows pharyngitis
2. RF: occurs after infection with any M-type

Question 166

Strep Agalactiae:

1. Colonizes where?
2. Neonatal infection: 2 types?

Answer 166

Strep Agalactiae:

1. Colonizes in oral cavity, lower GI tract, and vagina
2. Neonatal: early onset infection and late onset

Question 167

Strep Agalactiae:

Early neonatal infection:

1. More common when?
2. Most common presentations?
3. Regardless of the focus of infection, most have _____ ____ presenting with?

Answer 167

Strep Agalactiae:

Early neonatal infection:

1. More common when there are complications or premature
2. 60% septicemia, 30% pneumonia, and 10% meningitis
3. Most have respiratory distress presenting with tachypnea, cyanosis, and grunting

Question 168

Strep Agalactiae:

Late neonatal infection:

1. When does it present?
2. Presentation?

Answer 168

Strep Agalactiae:

Late neonatal infection:

1. Presents more than 7 days after birth
2. 60% septicemia and/or meningitis (35%)

Question 169

Strep Agalactiae:

Adult infection:

Most common in who?

Answer 169

Strep Agalactiae:

Adult infection:

Most common in pregnant women, the elderly, or those with underlying disease (diabetes most common)

Question 170

Strep Agalactiae:

Adult infection:

1. Elderly and those with underlying disease: most common infections are?
2. Pregnant women: common infections?

Answer 170

Strep Agalactiae:

Adult infection:

1. Elderly/disease: bacteremia/septicemia, skin/soft tissue infection, and UTI
2. Pregnant: UTI, bacteremia/septicemia, and chorioamnionitis

Question 171

S. pneumoniae:

1. What are the 2 most important virulence factors and their actions?
2. This is the most common bacterial cause of what 3 things?

Answer 171

S. pneumoniae:

1. Virulence factors: capsule (antiphagocytic) and pneumolysin O (hemolysin that is cytotoxic and causes alveolar edema and hemorrhage)
2. Most common cause of community-acquired pneumonia (CAP), otitis media, and bacterial meningitis

Question 172

S. pneumoniae:

Pneumonia:

1. First colonization of ____ followed by aspiration where?
2. Invades what cells? Moves from alveolus to alveolus through?
3. Hallmark is inflammatory infiltrate composed of ____ followed later by _______.

Answer 172

S. pneumoniae:

Pneumonia:

1. First colonization of nasopharynx then lower RT
2. Invades type II pneumocytes. Moves from alveolus to alveolus through pores of Cohn
3. Hallmark is inflammatory infiltrate composed of neutrophils followed later by macrophages

Question 173

S. pneumoniae:

Pneumonia:

1. Pathologically there is ____ effusion, consolidation from ____, and eventually ____.
2. Presentation?

Answer 173

S. pneumoniae:

Pneumonia:

1. Pathologically there is alveolar effusion, consolidation from edema, and eventually hemorrhage
2. Presentation: fever, shaking chills, severe chest pain, and a cough productive of blood tinged sputum

Question 174

S. pneumoniae:

Invasive disease:

1. What predisposes to invasive disease?
2. Sustained bacteremia may result in?
3. Purulent meningitis presents with at least ___ of the 4 symptoms which are?

Answer 174

S. pneumoniae:

Invasive disease:

1. Predisposition: vaccination status, chronic disease, diabetes, alcohol abuse, asplenia, and immunosuppression
2. Sustained bacteremia –> meningitis
3. Purulent meningitis: 2/4 symptoms: fever, HA, stiff neck, and altered mental status

Question 175

S. pneumoniae:

Acute otitis media:

1. Definition?
2. Presentation?
3. Most common cause?
4. Other causes of S. pneumoniae?

Answer 175

S. pneumoniae:

Acute otitis media:

1. Definition: presence of fluid in the middle ear accompanied by acute signs/symptoms of ME inflammation
2. Presentation: pain (w/ or w/o fever), swollen and red tympanic membrane (w/ or w/o discharge), restless sleep, vertigo, and hearing loss
3. H. Influenzae causes 50%
4. Causes acute sinusitis and acute conjunctivitis

Question 176

Corynebacterium diphtheriae:

1. Gram?
2. Shape? Cell walls similar to _____, how?
3. Oxygen requirement?
4. Look on tellurite agar?

Answer 176

Corynebacterium diphtheriae:

1. Gram +
2. Rod with cell walls similar to Mycobacterium with arabinogalactan and short-chain mycolic acids
3. Strict aerobe
4. Forms black colonies on tellurite agar

Question 177

Corynebacterium diphtheriae:

Diphtheria:

1. Disease manifestations are mediated by? This toxin is produced when? MOA?
2. Transmission? Incubation?

Answer 177

Corynebacterium diphtheriae:

Diphtheria:

1. Manifestations mediated by A-B exotoxin on a lysogenic bacteriophage only produced when iron is limiting; B subunt binds to cellular receptors and the A is taken up, inactivates EF-2, and inhibits protein synthesis
2. Aerosole transmission to URT; 2-5 days incubation

Question 178

Corynebacterium diphtheriae:

Diphtheria:

1. Initial manifestation? Followed by?
2. Toxin disseminates to what 2 main organ systems?
3. 75% develop _______ symptoms with?
4. 66% develop _____ manifestations presenting as?

Answer 178

Corynebacterium diphtheriae:

Diphtheria:

1. Pharyngitis with an adherent pseudomembrane –> fever, lymphadenopathy, splenomegaly, and difficulty swallowing
2. Heart and CNS
3. 75% develop neurologic symptoms; paralysis of soft palate and peripheral neuritis
4. 66% = cardiac; myocarditis (w/ arrhythmias)

Question 179

Listeria monocytogenes:

1. Gram?
2. Faculative _____ and faulative ____ pathogen.
3. Mode of transmission?

Answer 179

Listeria monocytogenes:

1. Gram +
2. Faculative psychrophile (grows in extreme cold) and faculative intracellular pathogen
3. Contaminates food –> ingestion

Question 180

Listeria monocytogenes:

1. How does it escape immune detection and spread between cells?
2. Infections?

Answer 180

Listeria monocytogenes:

1. Forms actin tails and pushes against the host membrane to form projections that are then ingested by neighboring cells
2. Pregnancy: septicemia, neonatal infection, and adult meningitis

Question 181

Listeria monocytogenes:

1. Pregnancy: septicemia presenting with?
2. Neonatal early onset: How is it acquired? Associated with?
3. Neonatal late onset: when does it occur? Common presentation?
4. Adult meningitis: symptoms? What could occur thats rare with other bacteria?

Answer 181

Listeria monocytogenes:

1. Pregnancy: septicemia - fever, Ha, myalgia, arthralgiea
2. Neonatale early: from inhalation of infected amniotic fluid; associated with premature birth, stillborn, or miscarriage
3. Neonatal late: during birth or up to 2 weeks after; meningitis
4. Adult meningitis: fever, N/V, seizures, and movement disorders; RARE: infection of brain parenchyma

Question 182

Bacillus anthracis:

Virulence factors:

1. ____ factor taken up by cells and causes increased intracellular ____ (causes altered ion flux and ____ resulting in _____)
2. Protective Ag - ______ factor inhibits ___ kinase signaling pathways and induces apoptosis and necrosis

Answer 182

Bacillus anthracis:

Virulence factors:

1. Edema factor taken up by cells and causes increased intracellular cAMP ( causes altered ion flux and hypersecretion resulting in edema)
2. Protective Ag - Lethal factor inhibits MAP kinase signaling pathways

Question 183

Bacillus anthracis:

1. The major pathalogic consequences of the toxins are increased _____ _____ and _____ (DIC)
2. 3 different types of anthrax and route of transmission?

Answer 183

Bacillus anthracis:

1. The consequences are increased vascular permeability and thrombosis (DIC)
2. Intestinal (ingestion), inhalation (endospores inhaled), cutaneous (inoculation of skin)

Question 184

Bacillus anthracis:

Intestinal anthrax:

1. Incubation period?
2. Presentation?
3. Very high _____ rate.

Answer 184

Bacillus anthracis:

Intestinal:

1. 2-5 day incubation
2. Mesenteric lymphadenitis (ab pain), toxemia (fever, chills, shock), and N/V, with bloody diarrhea (GI necrosis)
3. Very high fatality rate

Question 185

Bacillus anthracis:

Inhalation anthrax:

1. Incubation period?
2. Initial symptoms?
3. Later stages involve?

Answer 185

Bacillus anthracis:

Inhalation:

1. 4-6 days incubation
2. Nonspecific and “flu-like” initial symptoms
3. Later stages involve toxemia (fever, chills, shosk) and worsening pulmonary involvement with effusion, necrossis, and hemorrhage resulting in dyspnea leading to respiratory failure and death

Question 186

Bacillus anthracis:

Cutaneous anthrax:

1. Incubation period?
2. Signs?

Answer 186

Bacillus anthracis:

Cutaneous:

1. 1-12 day incubation period
2. Papule with regional lymphadenopathy –> pustule with bluish-black fluid that then breaks down and forms a painless crustedeschar

Question 187

Nocardia:

1. These are partially ____-___
2. Oxygen requirements?
3. Infections are exogenous, _____, and do NOT produce _____
4. What is found in the lesions?

Answer 187

Nocardia:

1. These are partially acid-fast
2. Strict aerobes
3. Exogenous, suppurative, and do not produce granulomas
4. Sulfer granules

Question 188

Nocardia Asteroides:

1. Causes ____ ___ infections in the immunocompromised that disseminates where?
2. Lesions characterized how?
3. Most common CNS manifestation?

Answer 188

Nocardia Asteroides:

1. Causes respiratory tract infections in immunocompromised that disseminates to the CNS
2. Lesions characterized by necrosis and abscess formation with draining sinuses
3. Brain abscesses are the most common CNS manifestation

Question 189

Nocardia Brasiliensis:

1. Where does this occur (part of the world)?
2. Disease is known as?
3. Presentation?

Answer 189

Nocardia Brasiliensis:

1. This occurs in central and south america
2. Known as madura foot
3. Swelling, pain, acscesses, and draining sinuses

Question 190

Nisseria meningitidis and nisseria gonorrhoeae:

1. Gram?
2. These require specific nurition - thus they are ____.
3. Express OPA proteins to enhance?
4. What do they have in the outer membrane?

Answer 190

Nisseria meningitidis and nisseria gonorrhoeae:

1. Gram -
2. They are fastidious
3. OPA proteins enhance adherence and invasion
4. Have LOS in the outer membrane that is proinflammatory

Question 191

Nisseria Meningitidis:

1. Produce a capsule that is antiphagocytic how?
2. Capsule serotypes that are antiphagocytic?
3. ___ is released in the form of outer membrane blebs. What does this induce?

Answer 191

Nisseria Meningitidis:

1. Antiphagocytic by inhibiting complement activation
2. Serotypes A, B, C, X, Y, and W135
3. LOS is released in the form of outer membrane blebs that induce necrosis, DIC, and IL-1 and TNF release

Question 192

Nisseria Meningitidis:

1. Second most common overall cause of?
2. Most common cause of _____ ____ in older kids and young adults.
3. Mode of transmission?
4. What occurs in the absence of immunity?

Answer 192

Nisseria Meningitidis:

1. Second most common overall cause of bacterial meningitis
2. Most common cause of purulent meningitis in young adults and older kids
3. Inhaled
4. Absence of immunity - capsule synthesis stops, bugs are internalized by RT epithelial cells –> released into subepithelial tissue –> blood

Question 193

Nisseria Meningitidis:

Meningococcemia:

1. Pathology is associated with ___ and ___ that induce endotheilal necrosis, ____, DIC, and _____
2. Presentation?
3. Severe/acute onset form involves?

Answer 193

Nisseria Meningitidis:

Meningococcemia:

1. Path is associated with LOS and PG that induce necrosis, bleeding, DIC, and thrombocytopenia
2. fever, HA, N/V, leukocytosis, and petichiae/ecchymoses (unusual with other causes of sepsis_
3. Fulminant form: DIC, hemorrhage, shock, and myocardial dysfunction/CV collapse to cause death

Question 194

Nisseria Meningitidis:

Meningitis:

1. Presentation?
2. What is less common in N. meningitidis in comparison to other causes of purulent meningitis?

Answer 194

Nisseria Meningitidis:

Meningitis:

1. Sudden onset of fever, HA, N/V, inability to concentrate, and myalgias with rapid progression –> may cause cerebral edema and coma
2. Seizures are less common

Question 195

Nisseria Gonorrhoeae:

1. Pili bind to ____ and penetrate (mediated by ___ proteins) and grow intracellularly –> pass into the ____ tissue and induce ______.
2. Incubation period?

Answer 195

Nisseria Gonorrhoeae:

1. Pili bind to CD46 and penetrate (mediated by OPA proteins) and grow intracellularly –> pass into the subepithelial tissue and induce inflammation
2. 1-10 day incubation

Question 196

Nisseria Gonorrhoeae:

1. Genital infection in men presentation? Most common complication?
2. Genetial infection in women presentation? If left untreated how does it present?

Answer 196

Nisseria Gonorrhoeae:

1. Men: urethritis with dysuria and a copious purulent exudate; most common complication is epididymitis with unilateral testicular pain and swelling
2. Women: cervicitis with purulent vaginal discharge as well as urethritis with dysuria; Untreated, 10-40% develop pelvic inflammatory disease (PID) with salpingitis, endometritis, tuboovarian abscesses, and/or pelvic peritonitis

Question 197

Bordetella pertussis:

1. Also known as?
2. Gram?
3. Shape?
4. Oxygen requirement?

Answer 197

Bordetella pertussis:

1. Whooping cough
2. Gram -
3. Bacilli
4. Aerobe

Question 198

Bordetella pertussis:

Virulence factors:

1. Pertussis toxin - an ___ toxin that causes increased inctracellular ___ resulting in increased _____, ____ sensitization, lymphocytosis, ____, and necrosis.
2. LPS Lipid A role?
3. LPS Lipid X role?

Answer 198

Bordetella pertussis:

1. Pertussis toxin - an A/B toxin that causes increased intracellular cAMP resulting in increased secretions, histamine sensitization, lymphocytosis, edema, and necrosis
2. Lipid A: proinflammatory
3. Lipid X: proinflammatory and pyrogenic

Question 199

Bordetella pertussis:

1. Role of invasive adenylate cyclase?
2. Mode of transmission?
3. initial manifestation? Progresses with prominent ___ necrosis and inflammation, pathology now includes ____ and ____.

Answer 199

Bordetella pertussis:

1. IAC - increases cAMP in phagocytes that then inhibit phagocytic activity
2. Aerosol transmission
3. Peribronchitis and peribronchiolitis, progresses with subepithelial necrosis and inflammation, pathology now includes endobronchitis and endobronchiolitis

Question 200

Bordetella pertussis:

1. Presents with the ___ stage after 10 day incupation characterized by ___ and ___.
2. Late stage also has ___ with mostly lymphocytes

Answer 200

Bordetella pertussis:

1. Presents with the catarrhal stage characterized by rhinorrhea and fever
2. Late stage also has leukocytosis with mostly lymphocytes

Question 201

Bordetella pertussis:

1. The catarrhal stage is followed by the ____ ____ stage characterized by?
2. What is the last stage? What does it present with?

Answer 201

Bordetella pertussis:

1. Catarrhal followed by paroxysmal cough stage characterized by paroxysmal cough, inspiratory whoops, and vommiting lasting around 3 weeks
2. Convalescent stage with decreasing cough intensity that lasts a month or more

Question 202

Pseudomonas aeruginosa:

1. Gram?
2. Oxygen requirement?
3. Virulence factors?

Answer 202

Pseudomonas aeruginosa:

1. Gram -
2. Aerobe
3. LPS, capsule/glycocalyx/biofilm, heat-labile hemolysin, exotoxins A and S, and antibiotic resistance

Question 203

Pseudomonas aeruginosa:

Virulence factors:

1. Capsule/glycocalyx/Biofilm function?
2. Exotoxins A and S function?
3. Type ____ secretion. What is this?

Answer 203

Pseudomonas aeruginosa:

Virulence

1. These resist phagocytosis, opsonization, and antibiotics
2. Exotoxins A and S inhibit protein synthesis
3. Type III secretion - injection of toxins directly into host cells causing disruption of cellular processes

Question 204

Pseudomonas aeruginosa:

1. Major cause of what nosocomial infections?
2. Important cause of pneumonia in what patients?
3. Important cause of sepsis and symptoms are like other Gram - except for the necrotic lesions of _______ ________.

Answer 204

Pseudomonas aeruginosa:

1. Nosocomial RTI –> necrotizing pneumonia
2. Pneumonia in CF patients
3. Necrotic lesions of ecythema gangrenosum

Question 205

Pseudomonas aeruginosa:

1. What other things can it cause?

Answer 205

Pseudomonas aeruginosa:

1. External otitis, keratitis, nosocomial UTI, wound and burn infections, and generalized folliculitis (often associated with whirlpools, pools, and hottubs)

Question 206

Yersinia pestis:

1. Secretion?
2. What products mediate host cell adherance?
3. ____ gene products are cytotoxic
4. Function of V and W Ags?

Answer 206

Yersinia pestis:

1. Type III secretion
2. yadA gene products mediate cell adherance
3. Yop gene products are cytotoxic
4. V and W Ags are immunosuppressive and necessary for intracellular growth

Question 207

Yersinia pestis:

1. Mode of transmission?
2. 3 clinical syndromes?

Answer 207

Yersinia pestis:

1. Flea bite
2. Bubonic plague, pneumonic plague, and septicemic plague

Question 208

Yersinia pestis:

Bubonic plague:

1. Incubation?
2. Symptoms?

Answer 208

Yersinia pestis:

Bubonic plague:

1. 2-10 day incubation
2. High fever, chills, HA, weakness, and painful lymphadenopathy in the region of the flea bite

Question 209

Yersinia pestis:

1. Pneumonic plague involves a rapidly progressive?
2. Septicemic plague: what occurs?

Answer 209

Yersinia pestis:

1. Rapidly progressive hemorrhagic and necrotizing pneumonia
2. Septicemic plague: endotoxemis and shock, DIC, thrombi, and vascular collapse

Question 210

Haemophilus ducreyi:

1. The disease is _____ characterized by?
2. Mode of transmission?
3. Papule develops –> _____ (more painful in ___ than ____). Regional _____ occurs and the ___ often rupture forming a draining ___ tract

Answer 210

Haemophilus ducreyi:

1. The disease is chancroid characterized by genital ulcers and inguinal lyphadenitis
2. Sex
3. Papule develops –> ulcerates (more painful in men than women) Regional lymphadenitis occurs and the nodes often rupture forming a draining sinus tract

Question 211

Mycobacteria Tuberculosis:

1. Gram?
2. What are the cell wall components? Function?
3. Where does it grow?
4. What response is needed to eliminate the infection?

Answer 211

Mycobacteria Tuberculosis:

1. Gram -
2. Arabinogalactan, cord factor, and lipoarabinomannan - proinflammatory, toxic, inhibit chemotaxis, and inhibit the fusion of lysosomes with phagosomes in unactivated phagocytes
3. Grows in unactivated macrophages and T II pneumocytes
4. Need TH1 to eliminate the infection

Question 212

Mycobacteria Tuberculosis:

Primary pulmonary TB:

1. Transmission?
2. Pathology?
3. Most individuals are ___ or have mild ____ with ___ symptoms. The lesions heal with?

Answer 212

Mycobacteria Tuberculosis:

Primary pulmonary TB:

1. Aerosol
2. TH1 sensitization develops and inflammatory consolidation occurs via epithelioid granulomas that undergo central caseous necrosis
3. Most individuals are asymptomatic or have mild pneumonitis with flu-like symptoms. Heal with fibrosis and calcification

Question 213

Mycobacteria Tuberculosis:

Progressive primary TB:

1. When does this occur?
2. Presentation?
3. There are usually expanding areas of? with?

Answer 213

Mycobacteria Tuberculosis:

Progressive primary TB:

1. This occurs when the primary infection isnt contained
2. Fever, productive cough, and chest pain
3. Expanding areas of caseating necrosis with irregular cavity formation

Question 214

Mycobacteria Tuberculosis:

Progressive primary TB:

1. There is erosion of? Causes?
2. Healing?

Answer 214

Mycobacteria Tuberculosis:

Progressive primary TB:

1. Erosion of blood vessels resulting in hemoptysis
2. Heal with fibrosis

Question 215

Mycobacteria Tuberculosis:

Secondary TB:

1. Who gets secondary TB?
2. The lesions are localized where?
3. Symptoms?

Answer 215

Mycobacteria Tuberculosis:

Secondary TB:

1. Arises in a previously infected and sensitized person
2. Lesions localized to the apex of the upper lobes
3. Symptoms: remittent low grade fever, night sweats, wt. loss, hemoptysis, and cavity formation

Question 216

Mycobacteria Tuberculosis:

What is miliary TB?

Answer 216

Mycobacteria Tuberculosis:

Miliary TB is when it disseminates viea the blood to the rest of the body

Question 217

Mycobacterium avium-intracellulare:

1. Causes a ____ infection and disseminated disease in ____ patients, usually when ___ counts are very low.
2. Pathologic hallmark?

Answer 217

Mycobacterium avium-intracellulare:

1. Causes a pulmonary infection and disseminated disease in AIDS patients, usually when CD4 counts are very low
2. Pathologic hallmark = acid-fast bacilli in macrophages

Question 218

Mycobacterium Leprae:

1. Where does this grow?
2. What inhibits immunity and causes anergy?
3. Induces ____ expression on ___ cells that then bind to M. leprae lipopeptides which then induces ___ cell ___.

Answer 218

Mycobacterium Leprae:

1. Grows in macrophages and Schwann cells
2. Phenolic glycolipid capsule and lipoarabinomannan
3. Induces TLR expression on schwann cells that then induce schwann cell apoptosis

Question 219

Mycobacterium Leprae:

1. Invasion of schwann cells also causes?
2. What mediates tissue damage early in the infection?

Answer 219

Mycobacterium Leprae:

1. Rapid demyelination of peripheral nerves
2. CMI mediates early tissue damage

Question 220

Mycobacterium Leprae:

Leprosy:

1. Definition?
2. What are the 4 forms?

Answer 220

Mycobacterium Leprae:

Leprosy:

1. Definition: chronic disease of the skin, peripheral nerves, and mucosa of the upper respiratory tract
2. 4 forms: indeterminant, tuberculoid, borderline, lepromatous

Question 221

Mycobacterium Leprae:

Leprosy:

1. Indeterminant involves?
2. Tuberculoid involves?
3. Borderline involves?
4. Lepromatous involves?

Answer 221

Mycobacterium Leprae:

Leprosy:

1. Indeterminant = early lesions of hypopigmented macules
2. Tuberculoid = one or a few hypopigmented, anesthetic lesions and sin and muscle atrophy
3. Borderline = Skin lesions of both tuberculoid and lepromatous leprosy
4. Lepromatous = bilateral and symmetrical papules/nodules

Question 222

Mycobacterium Leprae:

Leprosy:

1. Mode of transmission? Incubation period?
2. Begins as ___ leprosy with invasion of peripheral ____. There is transition to ___ and then ____ associated with disseminated ____ ____ ( ___ activity is now suppressed and ___ is activated), hypergammaglobulenimia, and cutaneous papules and nodules

Answer 222

Mycobacterium Leprae:

Leprosy:

1. Contact; 2-5 year incubation
2. Begins as tuberculoid leprosy with invasion of peripheral nerves. There is transition to borderline and then lepromatous associated with disseminated peripheral neuropathy ( TH1 activity is now suppressed and TH2 activated)

Question 223

Mycobacterium Leprae:

Leprosy:

1. What else is usually heavily infected?
2. May also present with ___ ___ ___ from cutaneous deposition of immune complexes.

Answer 223

Mycobacterium Leprae:

Leprosy:

1. Respiratory tract is usually heavily infected
2. May also present with erythema nodosum leprosum from cutaneous deposition of IC

Question 224

Treponema Pallidum:

1. Also known as?
2. Gram?
3. Tissue damage is caused by?
4. Mode of transmission?

Answer 224

Treponema Pallidum:

1. Syphilis
2. Gram -
3. Tissue damage caused by the inflammatory response
4. Sexual contact, transplacental, kissing, or close contact with an active lesion

Question 225

Treponema Pallidum:

1. Incubation period is proportional to?
2. Syndromes? (5)

Answer 225

Treponema Pallidum:

1. Incubation period proportional to size of the inoculum
2. Syndromes: primary, secondary, latent, late, and congenital

Question 226

Treponema Pallidum:

Primary syphilis:

1. Characterized by?

Latent syphilis:

2. Manifestation?
3. Length of this stage?

Answer 226

Treponema Pallidum:

Primary syphilis:

1. Characterized by chancre (inflammatory lesion with plasma cells, macrophages, lymphocytes) at site of entry

Latent

2. No clinical manifestation
3. Can last 10 years

Question 227

Treponema Pallidum:

Secondary syphilis:

1. Characterized by?
2. When does it occur?
3. What occurs to skin?
4. What occurs to mucous membranes?

Answer 227

Treponema Pallidum:

Secondary syphilis:

1. Characterized by disseminated disease and extensive spirochetemia
2. 2-8 weeks after primary lesion
3. skin: macular, maculopapular, papular, and/or pustular lesions
4. Mucous membrane: ulcer/erosions

Question 228

Treponema Pallidum:

Secondary syphilis:

1. In warm, moist areas papules coalesce to form highly ____ plaques known as ____ ___.
2. It also disseminates to the _____.
3. Systemic manifestations?

Answer 228

Treponema Pallidum:

Secondary syphilis:

1. Form highly infectious plaques = condylomata lata
2. Disseminates to the CNS
3. Systemic: fever, HA, sore throat, arthralgias, lyphadenoapthy, anorexia, and weight loss

Question 229

Treponema Pallidum:

Late/Tertiary syphilis:

1. Meningiovascular neurosyphilis: involves ____ ____ (inflammation of the ___ of an artery resulting in ____) affecting small blood vessels of? Leads to?
2. Parenchymatous neurosyphilis: involves actual destruction of ___ cells. Where? Presentation?

Answer 229

Treponema Pallidum:

Late/Tertiary syphilis:

1. Meningiovascular neurosyhpilis: involves endarteritis obliterans (inflammation of the intima of an artery resulting in occlusion) affects small BV of meninges, brain, and SC leading to multiple areas of infarction
2. parenchymatous: destruction of nerve cells in the cortex and posterior columns/roots of the SC: paresis (change in personality, intellect etc) and tabes dorsalis (pain, ataxia)

Question 230

Treponema Pallidum:

Congenital syphilis:

1. Early Presentation?
2. Late presentation?

Answer 230

Treponema Pallidum:

Congenital syphilis:

1. Early: like secondary except rash is often vesicular or bullous and the liver (fibrosis), CNS, bone, and lung (fibrosis) are involved.
2. Late: CNS (deafness), interstitial keratitis, and bone development issues associated with periostitis and osteochondritis and hutchinson teeth (small, notched incisors)

Question 231

Relapsing fever:

1. ____ causes the form endemic in s. ameria where lice are the vectors.
2. What is responsible for the one in western us? vectors?

Answer 231

Relapsing fever

1. B. recurrentis in s. america with lice vector
2. Western us = B. hermsii with a tick vector

Question 232

Borrelia hermsii:

1. Incubation period?
2. Initial symptoms?
3. Initial symptoms are followed by? Then?

Answer 232

Borrelia hermsii:

1. 2-14 day incubation
2. Septicemia with fever, chills, HA, myalgia, and hepatosplenomegaly
3. Followed by a latent period and then a relapse of symptoms (bc bugs modify their outer membrane Ag): 3 relapses are common!

Question 233

Borrelia burgdorferi:

1. Also known as?
2. Vector? Time?

Answer 233

Borrelia burgdorferi:

1. AKA: lyme disease
2. Deer tick - must be attached for more than 24 hrs

Question 234

Borrelia burgdorferi (Lyme disease):

Early localized disease:

1. Incubation?
2. Symptoms?
3. Pathologically characterized by ___ and ____-____ infiltrate (the adaptive response is ___/____ cell)
4. Like borreila hermsii it modifies?

Answer 234

Borrelia burgdorferi (Lyme disease):

Early localized disease:

1. 3-30 days
2. Rash at the site of the bite, fever, chills, myalgias, lymphadenopathy and fatigue.
3. Edema and a lymphocytic-plasma cell infilatrate (adaptive response is TH2/B cell)
4. Modifies its surface antigens

Question 235

Borrelia burgdorferi (Lyme disease):

Early disseminated disease:

1. Occurs ____ ___ after the tick bite.
2. Presentation?

Late disease:

3. When does this occur?
4. Involves?

Answer 235

Borrelia burgdorferi (Lyme disease):

Early disseminated disease:

1. Occurs 3-5 weeks after the bite
2. Presntation: secondary skin lesions, facial nerve palsy, meningitis, and rarely carditis

Late:

3. weeks to months after infection
4. Arthritis of large joints and rarely CNS

Question 236

Anaerobes:

1. Most infections are ____ and they are characterized by ____ formation with a foul ____ _____.
2. Non spore forming gram + cocci?
3. Non-spore forming gram + rods?
4. Gram - rods?

Answer 236

Anaerobes:

1. Most infections are endogenous and they are characterized by abscess formation with a foul smelling exudate
2. G+ cocci: peptostreptococcus and streptococcus
3. G+ rods: Eubacterium, propionibacterium, bifidobacterium and lactobacillus
4. G- rods: bacteroides fragilis, prevotella, porphyromonas, fusobacterium

Question 237

Peptostreptococcus and Streptococcus:

1. These are non-___ forming gram ____ ___.
2. Oxygen requirements?
3. 4 main infections?

Answer 237

Peptostreptococcus and Streptococcus:

1. These are non_-spore_ forming gram + cocci
2. Anaerobes
3. brain abscess, aspiration pneumonia, intra-abdominal infections, and femal pelvic infections

Question 238

Bacteroides fragilis:

1. Gram ___ ___. Oxygen requirement?
2. Causes 60% of all _________ infections with ___ etiology and 70% of all _____ ____.
3. Certain strains also produce community acquired ____

Answer 238

Bacteroides fragilis:

1. Gram - rod. Anaerobe
2. Causes 60% of all intra-abdominal infections with anaerobic eitiology and 70% of all anaerobic bacteremias
3. Also produce community acquired gastroenteritis

Question 239

Clostridium Perfringens:

1. Oxygen? Gram? Shape? Spores?
2. 3 Exotoxins?
3. Major infections (2)?

Answer 239

Clostridium Perfringens:

1. Anaerobic; Gram +; Rod; Spore-forming
2. Alpha-toxin, beta-toxin, and theta-toxin
3. Cellulitis and myonecrosis (gas gangrene)

Question 240

Clostridium Perfringens:

1. Function of alpha toxin?
2. Function of beta toxin?
3. Function of theta toxin?
4. ___ toxin causing partial hemolysis and the __ toxin causing complete

Answer 240

Clostridium Perfringens:

1. Alpha toxin - lyses cells causing necrosis, hepatic toxicity, and myocardial dysfunction
2. Beta-toxin: necrosis and hypertension seen with enteritis necroticans
3. Theta toxin: pore forming hemolysin that also lyses endothelial cells
4. alpha = partial; theta = complete

Question 241

Clostridium Perfringens:

Cellulitis:

1. Characterized by?
2. Amount of necrosis is ____ to the amount of inflammatory ____ and ____ present

Answer 241

Clostridium Perfringens:

Cellulitis:

1. Characterized by a foul odor and rapid tissue destruction
2. Amount of necrosis is disproportionate to the amount of inflammatory infiltrat__e and bugs present

Question 242

Clostridium Perfringens:

Myonecrosis (gas gangrene)

1. Acute onset of?
2. Extensive ___ exudate with sparse ____ cells, extensive _____, vascular damage, and _____.
3. Color of skin?

Answer 242

Clostridium Perfringens:

Myonecrosis:

1. Acute onset of pain followed by rapid and extensive muscle necrosis involving tissue not damaged by the trauma
2. Extensive fluid exudate with sparse inflammatory cells, extensive hemolysis, vascular damage, and thrombosis
3. Changes from red –> brown –> green-black with visible gas

Question 243

Clostridium tetani:

Produces a ___ sensitive ____ that blocks the release of ____ neurotransmitters by degrading ____; this causes unregulated synaptic activity and ____ ____

Answer 243

Clostridium tetani:

Produces a heat sensitive neurotoxin that blocks the release of inhibitory neurotransmitters by degrading synaptobrevin; this causes unregulated synaptic activity and spastic paralysis

Question 244

Clostridium Botulinum:

1. Produces a ___ sensitive ___ that localizes at ____ synapses where it inhibits the release of ____ resulting in ___ or autonomic dysfunction.
2. Usually the first evidence is? Followed by?

Answer 244

Clostridium Botulinum:

1. Produces a heat sensitive neurotoxin that localizes at cholinergic synapses where it inhibits the release of ACh resultign in paralysis or autonomic dysfunction
2. First: bilateral cranial nerve dysfunction: dry mouth, blurred vision, diplopia, and difficulty swallowing and speaking followed by symmetric descending weakness and paralysis

Question 245

Clostridium Difficile:

1. Produces an enterotoxin (toxin __: induces cytokine release and fluid ___ and necrosis) and a cytotoxin (toxin ___: causes ____ depolymerization and cell death)
2. Syndromes include?
3. Presentation?

Answer 245

Clostridium Difficile:

1. Produces an enterotoxin ( toxin A: induces cytokine release and fluid secretion and necrosis) and a cytotoxin (toxin B: causes actin depolymerization and cell death)
2. Syndromes include self limited diarrhea and pseudomembranous entercolitis
3. Presentation: ever, abdominal pain, and profuse bloody diarrhea

Question 246

Obligate intracellular bacteria:

Examples?

Answer 246

Obligate intracellular bacteria:

a. Chlamydia
b. Chlamydophila

Question 247

Chlamydia trachomatis:

Causes what 3 infections?

Answer 247

Chlamydia trachomatis:

a. Lymphogranuloma venerum
b. Trachoma
c. Oculogenital

Question 248

Chlamydia trachomatis:

Lymphogranuloma venerum:

1. Serotypes:
2. Most characteristic?
3. Presentation?

Answer 248

Chlamydia trachomatis:

Lymphogranuloma venerum:

1. Serotypes L1, 2, and 3
2. Inguinal lymphadenopathy
3. Presentation: painful node that ruptures forming draining sinuses, healing by fibrosis

Question 249

Chlamydia trachomatis:

Trachoma:

1. Serotypes?
2. Beings as acute ____ ____ followed by _____ proliferation and as the infection resolves there is ___ and scarring of the ___ and ____. Eyelashes grow _____.
3. Follicules composed of aggregates of?

Answer 249

Chlamydia trachomatis:

Trachoma:

1. Serotypes A, B, Ba, and C
2. Begins as acute follicular conjunctivitis followed by epithelial proliferation and as the infection resolves there is fibrosis and scarring of the conjunctiva and cornea. Eyelashes grow inward.
3. Follicules composed of aggregates of lymphocytes and macrophages

Question 250

Chlamydia trachomatis:

Oculogenital:

1. Serotypes?
2. Men?
3. Women?

Answer 250

Chlamydia trachomatis:

Oculogenital:

1. Serotypes D-K
2. Men: conjunctivitis, urethritis with dysuria, and purulent discharge
3. Women: conjunctivitis, cervicitis with urethritis, dysuria, and purulent discharge

Question 251

Rickettsial infections:

Name 3.

Answer 251

Rickettsial infections:

a. Ehrlichia chaffeensis (human monocytis ehrlichiosis)
b. Anaplamsa phagocytophilum (human granulocytis anaplamosis)
c. Rickettsia rickettsii (rocky mountain spotted fever)

Question 252

Ehrlichia chaffeensis: human monocytic ehrlichiosis:

1. Cell cycles is associated with?
2. Mode of transmission?
3. Bugs enter blood and lymphatics and then ________ tissue where they infect ____ and ____

Answer 252

Ehrlichia chaffeensis: human monocytic ehrlichiosis:

1. Cell cycle is associated with infectious elementary bodies similar to Chlamydia
2. Lone star tick
3. Bugs enter blood and lymphatics and then reticuloendothelial tissue where they infect monocytes and macrophages

Question 253

Ehrlichia chaffeensis: human monocytic ehrlichiosis:

1. Presentation?
2. Some also have?

Answer 253

Ehrlichia chaffeensis: human monocytic ehrlichiosis:

1. Presentation: fever, HA, myalgia, chills, N/V, diarrhea, and abdominal pain
2. Some also have petechial rash or CSF lymphocytosis with neurological manifestations (confusion to coma)

Question 254

Anaplasma phagocytophilum: human granulocytic anaplasmosis:

1. Transmission?
2. Bugs enter the blood and disseminate where?

Answer 254

Anaplasma phagocytophilum: human granulocytic anaplasmosis:

1. Deer ticks
2. Enter blood and disseminate to bone marrow and the spleen

Question 255

Anaplasma phagocytophilum: human granulocytic anaplasmosis:

1. In bone marrow it infects? Results in?
2. Presentation?

Answer 255

Anaplasma phagocytophilum: human granulocytic anaplasmosis:

1. Bone marrow it infects myeloid and monocytic progenitor cells resulting in a reduced CMI
2. Presentation: fever, HA, myalgia. 50% present with N/V and CNS manifestations

Question 256

Rickettsia rickettsii: Rocky mountain spotted fever:

1. Transmission?
2. Results in ____ lesions (with necrosis and _____)

Answer 256

Rickettsia rickettsii: Rocky mountain spotted fever:

1. Wood or dog tick
2. Vascular lesions (necrosis and thrombosis)

Question 257

Rickettsia rickettsii: Rocky mountain spotted fever:

1. Major effect of endothelial injury?
2. Presentation?

Answer 257

Rickettsia rickettsii: Rocky mountain spotted fever:

1. Effect of endothelial injury is increased vascular permeability (edema) hypovolemia, hypotension, and shock
2. Presentation: fever, HA, myalgias, after 2-6 days a rash starts on wrists, palms, and ankles and then becomes generalized

Question 258

Fungal infections:

Name several.

Answer 258

Fungal infections:

a. Candida albicans
b. Cryptococcus neoformans
c. Aspergillus
d. Mucormycosis

Question 259

Candida albicans:

1. Can grow as ____ or ____.
2. Cutaneous/mucous membrane infections?

Answer 259

Candida albicans:

1. Can grow as yeast__s or filaments
2. Cutaneous/mucous membrane infections: oral candidiasis, genital candidiasis, and generalized intertriginous candiasis

Question 260

Candida albicans:

1. Oral candiasis: aka? Main presentation?
2. Genital candidiasis: presentation?
3. Generalized intertriginous candidiasis: lesions are?

Answer 260

Candida albicans:

1. Oral candidiasis: thrush; mucosal pseudomembrane
2. Genital candidiasis: mucosal pseudomembrane, purulent discharge and burning and itching
3. Generalized intertriginous candidiasis: lesions are erythematous, dry, and scaly (may be pruritic)

Question 261

Candida albicans:

Systemic candida infections? (8)

Answer 261

Candida albicans:

Systemic infections: esophagitis, GI candidiasis, Fungemia, bronchopulmonary candidiasis, urinary tract, endocarditis, hepatosplenic candidiasis, and CNS candidiasis

Question 262

Candida albicans:

Esophagitis:

a. Common in who?
b. Presentation?

Answer 262

Candida albicans:

Esophagitis:

1. Common in AIDS and hematologic malignancies
2. Pseudomembranes, ulcerations, and pain on swallowing

Question 263

Candida albicans:

GI candidiasis:

1. Common in?
2. Presentation?

Answer 263

Candida albicans:

GI:

1. Common in hematologic malignancies
2. Numerous gastic lesions and GI bleeding

Question 264

Candida albicans:

1. Fungemia: presentation?
2. Bronchopulmonary: presentation?
3. Urinary tract: presentation?

Answer 264

Candida albicans:

1. Fungemia: fever, shock, DIC, renal failure, and skin lesions
2. Bronchopulmonary: fever, and productive bloody cough
3. Urinary tract: cystitis from catheterization or pyelonephritis from fungemia

Question 265

Candida albicans:

1. Endocarditis: from? Presentation?
2. Hepatosplenic candidiasis: presentation?
3. CNS candidiasis: occurs in who? Presentation?

Answer 265

Candida albicans:

1. Endocarditis: from fungemia with fever, emboli, and large vegetations
2. Hepatosplenic candidiasis: fever, elevated liver enzymes, and hepatosplenomegaly
3. CNS: Occurs in low birth weight neonates and hematologic malignanciesl presents with meningioencephalitis

Question 266

Cryptococcus neoformans:

1. Capsule serotype A =?
2. Capsule serotype D = ?
3. Capsule serotypes B and C = ?

Answer 266

Cryptococcus neoformans:

1. Serotype A = C. neoformans var grubii
2. Serotype D = C. neoformans var neoformans
3. Serotypes B and C = C. neoformans var gattii

Question 267

Cryptococcus neoformans:

1. This is the only pathogenic fungus that has what virulence factor? Function?
2. Role of melanin?
3. Pathogenesis: mode of transmission? disseminates where?

Answer 267

Cryptococcus neoformans:

1. Only fungus with a capsule = immunosuppressive by blocking T cell activation and inhibiting phagocytosis
2. Melanin: protects the yeast from oxidative damage
3. Inhalation and dissemination to skin and CNS

Question 268

Cryptococcus neoformans:

3 infections?

Answer 268

Cryptococcus neoformans:

a. Acute pulmonary cryptococcosis
b. Skin lesions
c. CNS infection

Question 269

Cryptococcus neoformans:

1. Acute pulmonary cryptococcosis - presentation?
2. Skin lesions: presentation?
3. CNS infection: who? Results in?

Answer 269

Cryptococcus neoformans:

1. Acute pulmonary cryptococcosis: often asymptomatic but may have fever, cough, chest pain, and dyspnea
2. Skin lesions: vary from pustules to ulcerations
3. CNS: in immunocompromised; results in incurable meningioencephalitis

Question 270

Aspergillus:

1. What causes 90% of infections? 10%?
2. Mode of transmission?
3. Induction of ____ response may limit infection
4. Infections?

Answer 270

Aspergillus:

1. 90% = aspergillus fumigatus 10% = aspergillus flavus
2. Inhalation of conidia
3. Induction of Th1 response may limit infection
4. Allergic bronchopulmonary aspergillosis, aspergilloma, invasive sinusitis, and invasive pulmonary aspergillosis

Question 271

Aspergillus:

1. Allergic bronchopulmonary aspergillosis: this is ____ exacerbated by type ___ and ____ reactions to aspergillus fumagatus. Presentation?
2. Aspergilloma: this is a fungus ____ in the ___ with no mucosal invasion. Presentation?

Answer 271

Aspergillus:

1. Allergic bronchopulmonary aspergillosis: this is asthma exacerbated by type I and III reactions. Episodic wheezing, cough, and dyspnea
2. Aspergilloma this is a fungus ball in the sinuses with no mucosal invasion. Presents with sinus congestion, pain, cough, hemoptysis, wheezing, and dyspnea

Question 272

Aspergillus:

1. Invasive sinusitis: occurs in who? And involves a very aggressive infection that ______________
2. Invasive pulmonary aspergillosis: underlying conditions that predispose? Characterization?

Answer 272

Aspergillus:

1. Invasive sinusitis: occurs in immunocompromised with infection that disseminates
2. Invasive pulmonary aspergillosis: underlying conditions: neutropenia, chemo, corticosteroid therapy, transplants, and immunodeficiency; characterized by rapidly progressing infection with necrosis and vascular invasion by the hyphae

Question 273

Mucormycosis:

1. Disease is limited to?
2. Major genera? (4)

Answer 273

Mucormycosis:

1. Disease is limited to immunocompromised, diabetics, and those with severe trauma
2. Genera: Rhizopus, Rhizomucor, Absidia, and Mucor

Question 274

Mucormycosis:

1. Mode of transmission? Hyphae invade ___ and ___ causing _____ and necrosis.
2. Major syndromes?

Answer 274

Mucormycosis:

1. Inhalation; hyphae invade tissue and blood causing thrombosis and necrosis
2. Syndromes: rhinocerebral mucormycosis, pulmonary mucormycosis, and cutaneous mucormycosis

Question 275

Mucormycosis:

1. Rhinocerebral: occurs in who? Presentation?
2. Pulmonary: occurs in who? Causes a highly ____ ____ presenting with?
3. Cutaneous:how does one get it

Answer 275

Mucormycosis:

1. Rhinocerebral: occurs in diabetics; facial pain, edema, HA, fever, and orbital cellulitis
2. Pulmonary: in immunocompromised (esp those with neutropenia); causes a highly necrotic pneumonia presenting with fever, dyspnea, cough, and hemoptysis
3. Cutaneous: with traumatic inoculation of spores