Bacteriology 1

Question 1

Non-immunological defenses

Answer 1

Protective bones
Blood brain barrier
- carrier mediated, lipid soluble substances, astrocyte processes surround capillaries

Question 2

Factors that increase risk of infection

Answer 2

Age
Immunosuppression/FPT
Trauma concurrent infections

Question 3

Risk factors with specific infections of NS

Question 4

Routes of entry

Answer 4

Hematogenous
Retrograde
Extension of infection from site or direct penetration

Question 5

Hematogenous

Answer 5

Most common route of entry
Often involves infections in other organ systems

Question 6

Retrograde movement

Answer 6

Can be organism or toxin (rabies or tetanus)

Question 7

Direct penetration or extension

Answer 7

Infections of paranasal sinuses, middle ear infection
Extensions of discospondylitis into spinal cord
Trauma from bite wounds, blunt trauma, penetrating objects

Question 8

Mechanisms of damage

Answer 8

Vascular damage
Injury to parenchyma or meninges
Intoxication

Question 9

Vascular damage

Answer 9

Vasculitis - leads to endothelial damage & leakage with resultant hemorrhage & parechymal injury (rickettsia)
Septic emboli or thrombus (histophilus somni)

Question 10

Injury to parenchyma

Answer 10

Direct damage
Indirect damage through induction of inflammatory response
- suppurative
- Pyogranulomatous
- granulomatous

Question 11

Intoxication

Answer 11

Vasogenic cerebral edema through action of toxin
Inhibition of neurotransmitter function
- botulinum of toxin C. Botulinum
Tetanospasmin of C. Tetani

Question 12

Most common bacteria causing infection in EQ

Answer 12

Strep equi zooepidemicus

Question 13

Common causes for bacterial infection in EQ and rum?

Answer 13

FPT
Common in neonates

Question 14

Brain abscesses more common in EQ and rum than cats and dogs

Answer 14

S. Equi ss equi (horses)
Trueperella pyogenes (cattle)
Trauma
Spread from contigous site

Question 15

Brain and epidural spinal asbcesses in pigs

Answer 15

Trauma
Spread from contiguous site
Trueperella pyogenes

Question 16

Clostridia

Answer 16

Gram positive rods
STRICT anaerobes
Motile
Gas producing
Endospore forming

Question 17

Survival of clostridia

Answer 17

Can survive as spores (long time) or vegetative bacteria
- GIT of animals and humans (C. Tetani)
- soil and vegetation (C. Botulinum)
LOW OXYGEN

Question 18

C. Tetani transmission

Answer 18

Inoculation into wound (anaerobic with low redox potential) necrotic tissue

Question 19

C. Botulinum transmission

Answer 19

3 methods
- ingestion
In soil, silage, dead animals, aquatic environments
Spores germinate & veg bacteria produce inactive pro toxin = released upon bacterial cell lysis
- colonization of intestines (Young/foals)
- inoculation of wounds

Question 20

Mechanisms of c. Tetani

Answer 20

Inside the spinal cord/brain tetanospasmin inhibits release of the neurotransmitters (glycine and GABA) from the inhibitory interneurons of this site.

Lack of inhibition leads to over (continuous) excitation of motor neurons that manifests as á muscle tone, rigidity and spasm

= SPASTIC PARALYSIS

Question 21

How c. Tetani cause disease

Answer 21

Binding of toxin is irreversible
Once the toxin is within the nerves and axons antibodies /antitoxins can’t reach it

Question 22

Mechanisms of c. Botulinum

Answer 22

Botulinum toxin is one of the most powerful toxins known; tiny amounts can cause death Ø Inside the GIT (more rarely in a wound) toxin is absorbed and transported to neurones via the blood stream
Ø Toxin ONLY binds to cholinergic
junctions (1°neuro-muscular
junction of peripheral nerves,
also nerve-nerve junctions)
Ø Toxin binds to presynaptic cell
membrane via a receptor
Ø Then passes through cell
membrane by receptor-
mediated endocytosis

Question 23

How does c. Botulinum cause disease

Answer 23

Blocks release of acetylcholine = cannot contract
Flaccidity paralysis
Respiratory failure is usually cause of death

Question 24

C. Tetani clinically

Answer 24

Effect is the same no matter the species (muscle rigidity is always seen)
Extent of clinical signs vary
Resistance is related to inability of toxin to penetrate & bind in different species

Question 25

Highly susceptible species to tetanus

Answer 25

Horses, Guinea pigs, humans, mice, rabbits

Question 26

Less susceptible species to tetanus

Answer 26

Dogs, cattle, pigs, sheep, goats, cats

Question 27

Extremely resistant to tetanus

Answer 27

Most birds and cold blooded animals

Question 28

Horse presenting clinically

Answer 28

Convulsive contractions
Extensor rigidity - stiff gait, tail held erect, protrusion of 3rd eye lid
Death due to spams of respiration
^ temp, ^ HR, ^ RR, ^ salivation, ^ CK

Question 29

Clinical piglets & lambs with tetanus

Answer 29

Piglets & lambs - castration, shearing, docking, vaccinating, injections
Adult cattle, sheep, goats - genital tract post parturition, post castration
Neonatal tetanus - umbilical cord

Question 30

Types of botulism - cattle

Answer 30

Susceptible to types B, C, D

Question 31

Types of botulism - horses

Answer 31

Susceptible to types A, B, C, D

Question 32

Types of botulism - dogs

Answer 32

Susceptible to type C (D)

Question 33

Types of botulism - cats

Answer 33

Susceptible to only type C

Question 34

Botulism clinically

Answer 34

General weakness, muscle fasiculation, buckling
Dyphagia
Paralysis of tongue

Question 35

Botulism in birds

Answer 35

Common in water fowl
Known as “limber neck” = neck dragging or hanging

Question 36

Botulism in cattle

Answer 36

Associated with eating feed contaminated with dead animals or spoiled silage
Also with cattle grazing pastures that are deficient in phosphorous; cows eat bones (pica) to get phosphorus and ingest preformed toxin

Question 37

Signs in cattle with botulism

Answer 37

Signs include recumbency, drooling, dysphagia, rumenal atony, & laboured breathing

Question 38

Botulism in cats

Answer 38

CATS are resistant to the effects of botulinum toxin. Thus, botulism is VERY RARE in this species
Has been reported occasionally in lions!

Question 39

Can the host get rid of the infections?

Answer 39

Nope
Natural immunity or susceptibility vary
Acquired immunity
- passive: antitoxin to neutralize, horses/humans
- active: toxoid, essential for horses (sheep, cattle, pigs and people)

Question 40

Diagnosing C. Tetani

Answer 40

No good methods
Clinical signs, species, recent history !!!**
Can try for wound/fine needle aspirate
Serum tests - rarely used

Question 41

Diagnosing c. Botulinum

Answer 41

Rare clinical signs (post mortem lesions or histology)
Typical clinical signs, toxin specific PCR
- food, blood, tissue etc to test

Question 42

Treatment for c. Tetani

Question 43

Treatment for c. Botulinum

Answer 43

Antibiotics - no value
Antitoxins - maybe help in early stages
Toxoid - vaccine, more preventative
Supportive therapy - most common treatment

Question 44

Control effects

Answer 44

Clean wounds
Vaccinate with toxoid in foals + boosters
Pregnant mares often vaccinated with toxoid (4-6 weeks before foaling = pass on antibodies)

Question 45

C. Botulinum vaccine

Answer 45

Vaccination is a toxoid not routine for most species (sporadic disease) use correct type based of species susceptibility
- cattle, occasionally hoses
- mink

Question 46

Management of c. Botulinum

Answer 46

Prevent access to preformed toxin
Contaminated food or water with dead animals
Spoiled silage /food