Exam 3 Flashcards
The nervous System
Brain
-Cerebrum, cerebellum, brainstem (pons, medulla)
-White matter: centrally = myelinated axons
-Grey matter: peripherally = neural bodies
Spinal cord
-Cervical
-Thoracic
-Lumbar
-Sacral sections with associated spinal nerves
-White matter: peripherally, funiculi, axons location
-Grey matter: centrally, “butterfly”, neurons located here
PNS
-Schawnn cells: myelinated (equivalent to oligodendrocytes in brain)
-Myelin = fat white
Players in the Game
- What are the intermingled myelinated axons, dendrites, glial cells?
- Which are the neurons parts? and substance?
- What cells contribute to homeostasis, healing and immune response? most significant contributor?
- Which glial cells participate in metabolism of toxins (ammonia, heavy metals) and neurotransmitters? which do you find in GM and WM?
- Neuropil = mixture of things
- Dendrites, cell body, axon
-Nissl substance: ER and polysomes (protein sysnthesis) - Glial cells: derived from neuroectoderm
-Astrocytes: support ionic/water balance, antioxidant concentrations, uptake, metabolism of neurotrasmitters, metabolism or sequestration of neurotoxins (ammonia, heavy metals).
PROTOPLASMIC astrocytes in GM
FIBROUS astrocytes in WM
-Ependymal cells (CSF)
-Oligodendrocytes
**Part of monocyte-macrophage system (phagocytic) MACROGLIAL cells in brains **
Cerebro Spinal Fluid
- Which cells line the ventricular system, aid in movement of CSF?
- Which are the epithelial cells (modified EC) that produce CSF?
- Explain the flow of CSF
- Ependymal cells (EC)
- Choroid plexus
- LV - 3rd - CA - 4th -CC spinal cord.
-Left ventricle - 3rd ventricle - Cerebral Aqueduct - 4th ventricle - Central cannal spinal cord
Meninges
- What are the layers from superficial to deep?
DM - A - PM - Lepto
- Dure matter, Arachnoid, Pia Matter, Leptomaninges: pia matter + arachnoid. Blood brain barrier
Understanding Injury in the CNS
- What are neurons most vulnerable cells, especially to? sensitive to what? hint: neurotransmitters
- do neurons regenerate?
- Which cells are most susceptible to ischemia in order of most to least?
- Free radicals. Completely dependent on glucose in blood (no stores in brain)
-Sensitive to excitatory neurotransmitters GLUTAMATE, ASPARTATE which are released in many injuries - No regeneration, death by apoptosis, necrosis
- Susceptibility of structures CNS to ischemia
Neurons - oligodendroglia - astrocytes - microglia - blood vessels
**Red neurons = dead neurons **
Astrocytes
- How do deep and superficial wounds heal in the CNS?
- Compare fibroblast to astrocytes processes
- Heal by proliferation of astrocytes (astrocytosis)
-superficial wounds by fibroblasts (fibrosis) and proliferation of astrocytic processes - Fibroblasts produce a thick capsule unlike astrocytes, the thin capsule breaks down easily
Space occupying lesions are problematic! tumors, edema, hemorrhages, abscesses
CNS Portals on Entry, Injury
Which port of entry does Cryptococcus in cats, FeLV, Blastomyces, and Listeria prefer?
- Direct extension
-Trauma
-Extension of middle ear infection. Pyogranulomatous eats away bone, ex: cryptococcus in cats
-Nasal cavity, sinus infection, neoplasia though cribiform plate
-Bacterial osteomyelitis, neoplasia of vertebral bodies with extension into vetebrae and vertebral canal
- Hematogenous
-Umbilical/ vascular infections
-Metastatic tumors
- Leukocytic trafficking
-Lymphocytes, macrophages, FeLV, BLastomyces
- Retrograde axonal transport
-Listeria
Malformations of the CNS
- Absence of brain, most common in what species? Characteristics
Procencephalic hypoplasia a.k.a? - Dorsal midline cranial defect where meningeal and brain tissue protrude? Characteristics
Which one is hereditary in pigs and cats and associated with griseofulvin toxin?
- Anencephaly (without a brain)
-Many times only rostral part absent, or very rudimentary (cerebral hemispheres). Varying degrees of the brainstem is preserved. Abnormality best designated PROSENCEPHALIC HYPOPLASIA
-Most common in calves and accompanied by other defects
Meningioceophalocele and Cranium Bifidum
- Cranium bifidum
-Protruded material form sac (cele), covered by skin, lined by meninges (meningocele) or meninges + part of brain.
-Apperent grossly but diagnosis of presence or absence of brain tissue requires histo examination
-Hereditary, pigs, cats
-Toxins: GRISEOFULVIN in pregnant cats during first week of gestation
- Abnormal dilation of central canal of spinal cord? Characteristics and causes
- Neuronal migration disorder? Characteristics, causes, species exceptions
Which one causes compression of spinal cord and WM, GM?
Which one affects Lhasa apso, kittens and lambs?
- Congenital Hydromyelia
-Serous to clearish fluid in channel that carries CSF
-Damage to EPENDYMAL cells = disruption of CSF flow
-CSF accumulation - pressure on spinal cord, compression of white and grey matter
-Causes: infectious/genetic injury. Acquired hydromyelia: obstruction of central canal, infection, inflammation, neoplasia.
- Lissencephaly
-Neuronal migration disorder
-Lack of normal cerebral gyri and sulci.
-Affects Lhasa apso, kittens, lambs.
-Exception: birds, rabbits, rats, mice which normally lack both and has no functional significance.
- Small fluid filled cavities in brains - communicates with subarachnoid space or lateral ventricle
- Large cavities with lots of fluid. Usually occurs in utero during gestation
- Porencephaly
- Hydranencephaly
-Severe form of porencephaly
-Cavitation in WM of cerebrum (improper development of cerebrum)
- Gross lesions not usually seen but atrophy of cerebral gyri results in widening of sulci
-Fast or slow progression?
-Which are the valleys of the brain? - Parvovirus and Pestivirus can be causes. Mitotic cells are destroyed during late gestation, early neonatal periods. Clinical signs?
a. Kittens and puppies are affected by what virus?
b. Calves, piglets, and lambs are affected by what viruses?
- Brain atrophy
-Slow progressive disease
-Cerebral cortical atrophy of aging
-Ceroid lipofuscinosis
-Various manifestations of selective multisytemic neural degeneration
-Sulci = valleys of brain
- Cerebellar hypoplasia
-Viruses infect and destroy mitotic cells (external granule cell layer of cerebellum; still dividing during late gestational, early neonatal periods).
-Small cerebellum
-C/S: wide based stance, unable to stand. Vision problems, blindness, head tremors
a. Parvovirus: panleukopenia virus and canine parvovirus
b. Pestivirus: BVDV, classical swine fever virus (hog cholera), border disease.
Hydrocephalus and Cerebral Edema
- Causes
- Breeds primarily affected
- gross lesions.
Hydrocephalus
- In utero viral infection, developmental abnormalities in ependyma or ventricular system. Infection, blockage of ventricular system.
- Genetic predisposition: Toy dogs and brachycephalic
Chihuaha, Lhaso apso, toy poodle. - Doming cranium, open fontanelles, thinned cranium bones, dilated ventricles, white matter atrophy, CSF remains where it is supposed to be
Cerebral Edema
- Congenital brain swelling, enlargement of brain, increased diameter of vasculature, elevated intracranial pressure
- Congenital edema: increased pressure following accumulation of fluid in interstitium, intracellularly, extravascularly
**White matter: swollen, soft, damp, light yellow, loss of defined gyri and sulci. **
What are some types of cerebral edema? which is the most common? What are the causes for each?
- Cytotoxic edema: cell swelling
-Hydropic degeneration of brain cells, increased intracellular fluid, normal vascular permeability.
**Alter cellular metabolism (often due to injury and ischemia) ** - Vasogenic edema (tissue swelling) increased vascular permeability, increased extracellular fluid. Most common type in animals, WM affected most’
Vascular injury with breakdown of BBB - Hydrostatic interstitial edema: obstructive internal hydrocephalus, increased hydrostatic pressure of CSF.
**Elevated ventricular hydrostatic pressure (hydrocephalus) ** - Hypo-osmotic edema: abnormal osmotic gradient between blood and nervous tissue
Osmotic imbalance (blood plasma vs. extracellular and intracellular microenvironment of the CNS
multiple mechanisms contribute to CNS edema
What is the sequelae to brain swelling?
What is the sequelae of subdural hematomas?
Acute
-Localized or generalized compression against cranium
-Flattened gyri
-Shallow sulci
-Shift in position
Diffuse
-Herniation of brain
-Cerebellum herniation through foramen magnum = “coning” of vermis - protruding of cerebellum
Subdural hematomas
-Blood accumulates between dura matter and maninges, poorly circumscribed
-Pressure atrophy
Brain Abscesses
What bacteria are associated with them?
Which lead to yellow watery to cream color? White to grey? Green to bluish-green?
What procedures can lead to brain abscesses?
What surround the abscess?
Bacteria
-Streptococcus spp., Staphylococcus spp., Corynebacterium spp., YELLOW, WATERY, CREAMY.
-E. coli and Klebsiella spp., WHITE/GREY, WATERY to CREAMY
-Pseudomonas spp., GREEN to BLUISH-GREEN
Procedures
-Dehorning: infection extends from nasal sinuses
-Docking: vetebral osteomyelitis
-Otitis interna
-Bacteremia
-Septicemia
Meningitis
What do they all look like?
Leptomeningitis involves what layers of the meninges?
They all look like a fatty brain
- Dura matter
- Pie matter
- Arachnoid
Leptomeningitis: Arachnoid and pie matter
Pic: suppurative bacterial meningitis: pale yellow-white exudate
Bacteria often isolated: Trueperella pyogenes, Pasteurella multicocida.
Organism: facultative intracellular gram +
Species: Ruminants
Associated with: Spoiled silage and abrasions in the mouth of herbivores
What are the three forms?
What is the associated path of entry?
What are the gross lesions/signs?
Microabscesses or big pockets of purulent material?
_____ ganglioneuritis
_____ Vasculitis
_____ paralysis
C/S:
Listeria monocytogenes
- Encephalic (meningoencephalitis)
- Reproductive (abortions, still birth)
- Septic form (young animals +/- in utero infections)
Retrograde axonal transport
Gross: malacia, hemorrhage, necrosis (brainstem), cloudy CSF
**Oral trauma, retrogade axonal transport (trigeminal nerve) migration to brainstem “star gazing” **
Microabscesses
Histological characteristics
-Necrosis, inflammation,
-Brainstem, grey and white matter microabscesses
-Neutrophils primarily
-Trigeminal ganglioneuritis
-/+ vasculitis
C/S: dullness, circling, unilateral facial paralysis, drooling (pharingeal paralysis)
Recumbency, paddling of limbs, death
C/S: ataxic, circling, head press, appear blind, progression to convulsions, comatose, death
Gross: random variably sized red foci (hemorrhage), necrosis
What is the disease?
What is the pathogen involved?
What is the suspected pathogenesis?
What type of necrosis is involved?
What is the primary path of entry and vascular injury?
What species are primarily affected?
FYI: Does Maenheimia cause systemic vasculitis?
FYI: No
-Thrombotic meningoencephalitis
-Histophilus Somni, gram (-) causes
-Fibronecrotising vasculitis
-Septicemia, pneumonia, polyarthritis, myocarditis, abortion, thrombosis induced meningoencephalitis.
-Pathogenesis: respiratory tract initial replication, hematogenous spread to CNS. endothelial cell injury, thrombosis, infarction, necrosis (all organs).
-Frequency: cerebrum (GM/WM interface - spinal cord)
No immunologic response or notable inflammation within CNS
No gross lesions of nervous system
What is the etiology?
What are the Ovine and bovine forms?
What is the path of entry?
Where does the PrpSc accumulate and how long does it take?
What is the ultimate sequelae?
What are the histological characteristics?
What do you see in cytoplasmic vacuolation?
In What cells does the prion amyloid first accumulates?
What animals are primarily affected and C/S?
What are diagnostic tests?
What portion of CNS is necessary for diagnosis in Scrapie?
Transmissible Spongioform Encephalopathies
Ovine spongioform encephalopathy (scrapie)
Bovine spongioform encephalopathy (BSE)
Etiology: proteninaceous infectious (prions)
PrPC: expressed throughout body - conformational change - alpha-helical portion PrCP diminises, Beta-sheet increases - formation of PrPSc (“sc” derived from scrapie prototype prion disease)
-Resist inactivation (heat, ultraviolet irradiation, enzymes)
Chronic Wasting Disease: saliva - blood, urine, prions ingested - replicate (Peyer’s patches, macrophages), WBC trafficking (LN - blood), CNS, neurons, neurons accumulate PrPsc (takes years) - neuro signs, death.
Histo
-Neuronal degeneration
-Increased basophilia
-Cytoplasmic vacuolation (white spots within the cell)
Astrocytes: abnormal protein first accumulates in astroglia cells in scrapie
-Spongioform change tends to affect gray matter **
Adult cattle (3-11 years old)
C/S: between 3-5 years
-Behavioral changes, abnormal posture, gait, incoordination, decreased milk production weight loss, despite appetite.
Sheep, goats
-C/S: limited to CNS. Scrapie Occurs naturally in domestic goats. Change in behavior, scratching, rubbing (puritus), loss of wool. Incoordination, weight loss despite appetite, trembling, recumbancy, death (1-6 months)
Medula oblangata for diagnosis
Tests
-IHC
-Western blot analysis
-ELISA to identify PrPSc in brain tissue
Equine Viral Neuropathies
EEE: equine Eastern encephalomyelitis
WEE: Western equine encephalomyelitis
VEE: Venezuelan Equine encephalomyelitis
What genus and family of virus are associated?
What is the Target cell and pathogenesis?
Do all three viruses affect the grey matter?
What are the gross lesions?
Where are lesions best appreciated?
Histologic characteristics
What does it have it common with Thrombotic meningoencephalitis?
What are the C/S?
Which equine viral neuropathy has veen reported in cattle, sheep, and camelids, and pigs?
FYI: what is white matter disease?
Arboviruses: family Togaviridae
Target cell: neurons, also vasculitis, thrombosis. Red lesion, multifocal
Pathogenesis: mosquito bite - hematogenous spread, endothelial replication - monocyte-macrophage system, muscle, connective tissue **Lymphoid tissue, bone marrow: dellular depletion, necrosis, second viremia, hematogenous - CNS ** (neurons lesser extent ganglia)
In CNS all three viruses induce polioencephalomyelitis = grey matter disease
Gross lesions: +/- present, best appreciated in spinal cord.
FYI: Leukoencephalities = white matter disease
Histological characteristics
-GM of brain, spinal cord, perivascular cuffing, neuronal degeneration, cerebrocortical necrosis, perivascular edema, hemorrhage, necrotizing vasculitis; thrombosis, choroiditis; lepto meningitis.
What do they all have it common with Thrombotic meningoencephalitis? thrombosis, necrosis, hemorrhage.
C/S:
-Fever
-Rapid heart rate
-Anorexia
-Muscle weakness
-Aggression
-Head pressing
-Blindness
-Paralysis of facial muscles
EEE
-Also been reported in cattle, sheep, camelids, and pigs.
West Nile Viral Encephalomyelitis or encephalomyelopathy?
What family of virus?
What animals are the primarily participants of the cycle?
Is the pathogenesis similar to equine encephamyelopathies viruses?
Target cells ____
Horses are ____ end species
____ matter specially
Gross lesions: gray matter
WNV hemorrhage more or less than EEE, WEE, VEE.
Histologic
____ cuffing
Lesions outside of nervous system ____
C/S: fever, ataxia, weakness-paralysis of hind limbs, tetraplegia, convulsions, coma, death.
West Nile Virus family Flavivirus
-Bird-mosquito cycle: wild songbirds, crows, American robins (propagation, dissemination)
-Birds: fulminate viremia - systemic spread.
-Neuron, microglial cells targets
-Similar pathogenesis to equine encephalomyelitis
-Horses: dead-end species, only infections of CNS
-Grey matter specially
-Gross: grey matter, hyperemia, hemorrhage especially lower brainstem, ventral horns of thoracolumbar spinal cord.
Gross: WNV hemorrhage
-Gross: WVN hemorrhage greater than encephalomyelopathies, also PERIVACULAR CUFFING
Histologic
-Birds, horses, acute polioencephalomyelitis, hemorrhage
-Mononuclear +/- neutrophils
-Lesions outside of nervous system in affected horses do not occur
Herpesvirus
What type of virus is encephalitic herpesvirus?
____ infections
Which cells with inflammation/ necrosis?
Is hemorrhage and necrosis present?
____ vasculatis principal lesion = red, multifocal to coalescing variable sized lesions.
-Alpha herpesvirus
-LATENT infections
-Neurons, glial cells, endothelial cells
Yes, Hemorrhage, thombosis, -NECROTIC vasculitis.
Alphaherpisvirus
Abortion, death, rhinopneumonitis
What does it cause primarily in adults?
Is it neurotropic or endotheliotropic of CNS?
INIB in neurons, but not observed in ____ lesions
Pathogenesis?
Latency: trigeminal ganglion
Gross and histo lesions related to ____ of ____
Equine Herpesvirus 1 (EHV-1)
-Adults: myeloencephalitis
-Unlike IBR, and pseudorabies in pigs, EHV-1 is NOT neurotropic
-Pathogenesis: viral inhalation, epithelial cells (nasopharynx) Lymphatic tissue, WBC trafficking, endotheliotropic of CNS, vasculitis, thrombosis, infarction.
-VASCULITIS of SMALL VESSELS
-INIB not observed in CNS lesions
-Hemorrhage, thrombosis, axonal, myelin swelling, neuron egeneration, mononuclear cell cuffing.
-Neuro disease may accompany or follow outbreaks of respiratory disease or abortion
Suis herpesvirus 1
Zoonotic?
“Mad itch”
Young pigs: death
Mature pigs: persistently infected
Route of transmission: direct contact, aerosolizations.
Where does it replicate? and Pathogenesis?
Fetal maceration, mummification in ____
How do dogs become infected?
Common sequela ____
Suppurative or nonsuppurative meningeoncephalomyetis?
Neutrophils nor macrophages predominate
Respiratory, lymphoid system necrosis, GI, repro tract
Is it fatal in domestic/ wild animals?
What other species are affected?
Are INIB detected in pigs?
What are the typical lesions?
Intraneuronal inclusion bodies present?
Alphaherpesvirus
AKA: Aujesky’s disease
Not zoonotic
-Replication in upper respiratory epithelium, tonsil, local lymph nodes, sensory nerve endings TRIGEMINAL GANGLION - olfatory bulb - brain (also hematogenous route).
-PREGNANT SOWS
-Dogs/Cats infection via ingestion of infected meant
-FACIAL PRURITUS
-Suppurative meningoencephalomyelitis, trigeminal ganglioneuritis, neuronal degeneration and necrosis. Macrophages not predominant, NO neutrophils.
-Fatal in a variety of animals
-Cattle, sheep, dogs, cats
-INIB not commonly detected in pigs but can be present in neurons and astrocytes
-Nonsuppurative encephalomyelitis, ganglioneuritis, Yes, INTRANEURONAL INCLUSION BODIES
Bovine Malignant Catarrhal Fever
Not an Alpha virus
Mucous and vasculitis (catarrhal)
Is it present worldwide?
Highly fatal, sporadic
What is the primary target tissue?
What are the two associated types?
Which is the most transmitted vector?
Gross lesions
WM most often involved
Histologic characteristics
C/S
-Gammaherpesvirus
-Cattle, other ruminants, present worldwide.
-Vasculature, lymphoid organs, epithelium (respiratory and GI), others
- Sheep-associated form Ovine herpesvirus-2
- Wildebeest-derived form Ovine herpesvirus-2. Africa herpesvirus-1 from wildebeest
-Sheep: most transmitted vector
-T-lymphocytes trafficking endothelial cells
-Gross lesions: nonsuppurative meningoencephalomyelitis, necrotizing vasculitis.
-Histo: brain, spinal cord, WM most often involved
-C/S: trembling, shivering, ataxia, nystagmus (involuntary rapid movement of the eye)
Corneal Edema
Morbillivirus (family Paramyxoviridae)
What type of pneumonia?
Dog, wolf, hyena, ferret, bear, raccoon, lions, tigers, leopards affected
Is it pantropic?
Affinity for lymphoid, epithelium
CNS demyelination with or without much inflammation?
Does it affect the optic nerve?
Dogs: aerosol, nasal mucosa, macrophages (WBC trafficking), regional LN replication, primary, secondary viremia, CNS = encephalomyelitis, repiratory, bladder, GI, WBC trafficking, grey matter, white matter of CNS, epithelial cells, macrophages, disseminated through ventricular system, ependymal cells, astrocytes, microglia, periventricular WM lesions, especially 4th ventricle (myelin degeneration, swollen astrocytes)
Characteristic intracellular injury?
What is different about the effect on Oligodendrocytes?
INIB present?
-Canine Distemper
-Bronchointerstitial pneumonia
-Pantropic (affecting several tissues): Lung, GI, Urinary tract, skin, CNS (including optic nerve).
-CNS demyelination without much inflammation
-Affects the optic nerve
-White matter vacuolation (intramyelinin edema)
-All CNS susceptible but OLIGODENDROCYTES infection is usually defective (incomplete)
-INIB are present in astrocytes, distinct acidophilic also seen in the cytoplasm of epithelial cells throughout the body. Eosinophilic inclusions
Canine Distemper
C/S
Histo
What are the target cells where INIB and ICIB can be found?
-Immunosuppression: secondary bacterial infections (conjunctivitis, rhinitis, bronchopneumonia)
-Neurologic signs: myoclonus, tremor, circling, hyperesthesia, paralysis, blindness
-Histo: demyelination, nonsuppurative encephalitis, leptomeningitis, preivascular cuffing, microgliosis, astrogliosis, neuronal degeneration, INIB, ICIB (neurons, astrocytes = target cells), cerebral cortex, thalamus, brainstem
Old-dog Encephalitis
Long or short term?
Results in proliferation of nonsuppurative inflammatory cells
Lesions?
C/S
-Long-term persistent infection of CNS with a defective form of CDV (in experimental infections)
-Lesions: primarily cerebral hemispheres, brainstem
-Old-dog encephalitis mature dogs affected
-C/S: depression, circling, head pressing, visual deficits, seizures, muscle fasciculations
FIP
What two virus?
Where do they replicate?
What other animal has a similar virus and CNS lesions?
Pathogenesis
C/S
Does it replicate in macrophages?
What type of lesion distorts and obscures the blood vessels? Where and what type of fluid?
-Two coronaviruses: antigenically/morphologically indistinguishable
-Avirulent (FECV): enteric, ingestion, infects replicates in enterocytes
-Virulent (FIPV): mutated coronavirus
-Ferrets, domestic cats, wild felids.
-Saliva, feces, direct contact (bites, wounds), in utero, replicates in macrophages, liver, serosal surfaces, uvea, meninges, ependyma, spinal cord.
-FIP all ages, between 3 months and 3 years most critical, death.
-Clinical signs by involvement of blood vessels. Seizures, behavioral changes, ataxia, paralysis.
-Pyogranulomatous inflammation distorts and obscures blood vessels in cerebral vasculature of circle of Willis.
-Exudate accumulation of serous fluid and fibrin mixed with neutrophils and histiocytes to pyogranulomatous, commonly
FIP
What does the disease development depend on?
How can the virus be resisted/contained?
What type of effusion form is the no cell mediated immunity? and what are the two proposed mechanisms?
What form causes serositis, fluid in abdomen/thoracic cavities, inflammation?
Which for is a type III hypersensitivity and which is a type IV?
Both forms lesions: preferential small + medium sized veins, pyogranulomatous vasculitis, vascular necrosis, infarction.
Dry form lesions?
-Depends on the type/degree of immunity.
-Strong cell-mediated immunity: virus containment, resistance
-Wet effusion form (humoral not protective) Th1 response
- Ag/Ab complement complexes: type III hypersensitivity - effusion, inflammation of small blood vessels
- Antibody dependent enhancement: Ag/Ab complement complex infected macrophages - cytokines - increased vascular permeability, edema.
-Effusive form (wet)
-Dry (non-effusive form) partial cell-mediated immunity Type IV hypersensitivity.
-Dry form lesions: leptomeningitis, chorioependymitis, encephalomeyelitis, opththalmitis. CNS non-suppurative pyogranumolatous vasculitis. Perivascular WM: especially 4th ventricle, uvea, retina, optic nerve sheath.
What virus causes Rabies?
Where does it replicate?
What type of path of entry?
Spreads to salivary glands
Histo: L/P/ macrophages, microgliosis (macs of brain)
What is the type and name of inclusion bodies?
Pathogenesis: preripheral nerves in skeletal muscles entered, ascends to dorsal root ganglion, enters spinal cord, ascends to the brain via ascending and descending nerve fiber tracts, infects brain cells, spreads to salivary glands, eye, and excreted saliva.
Necropsy Protocols
What parts of the CNS need to be collected? hint: HCMS
-Rhabdoviruses
-Replication at inoculation site (skeletal muscles)
-Retrogade movement along axons to spinal cord and brain. 12-100 mm per day, gives some time before reaching brain
-Intracytoplasmic inclusion bodies called Negri bodies
Necropsy
-Additional protection
-Collection of CNS tissues: hippocampus, cerebellum, medulla and optional spinal cord.
-Remainder of brain fixed in 10% neutral buffered formalin for histopath (10:1 ratio)
Nervous system Fungal and parasitic infections
What systemic fungi Does it include?
Which fungi is not typically included unless it is a German shepherd affected?
Which fungi has particular affinity for CNS?
What are the lesions?
Does it include multinucleated giant cells in lesions?
Which fungi produces microabscesses seen under microscope?
-Coccidiodes immitis
-Blastomyces dermatiditis
-Histoplasma capsulatum
-Cryptococcus neoformans (has particular affinity for CNS)
-Does not include Aspergillus unless German shepherd
-Lesions: Granulomatous to pyogranulomatous inflammation. Neutrophils, macrophages (epithelioid type), Multinucleated giant cells also. Nodular granulomas
-Cryptococcus neoformans
What fungi is
-Extraecllular/intracellular
-200-300 um in diameter spherules
-Endospores (<5um in diameter)
-Replicates via endosporulation
Coccidiodes immitis
Largest of the systemic fungi
10 times size of neutrophils, can use that as reference for size
-Replicates via narrow-based budding
-Often intrahistiocitic
-Spherical
-Approximately 2-4 um in diameter and contain a 1-2 um basophilic nuclei surrounded by a clear zone (on histo)
Histoplasma capsulatum
-Can be confused with Sporothrix, but that one has cigar shape.
Cryptococcus neoformans
What species are most commonly affected?
What is the approximate size and shape?
What makes the capsule distinguishable?
-Cats, dogs, horses
-Replicare via narrow based budding
-15-25 um and spherical to crescent shaped.
-15-20 um thick mucicarmine staining capsule
-Approximately 15-25 um in size
-Replicate via broad based budding
-Have double contoured wall
Blastomyces dermatiditis
Opportunistic fungi examples
Are they systemic?
What does the zygomycetes group target and what is an example of disease caused by it?
Not systemic
Zygomycetes group
Targets blood vessels, Hyphae form, ex: guttural pouch mycoses*
-Absidia corymbifera
-Mucor spp.
-Rhizomucor pusillus
-Rhizopus arrhizus
Aspergillus spp.
-Hyphae that are septae with parallel walls at an angle of less than 90 degrees
Angioinvasive: vascular thrombosis and infarcts in CNS
CNS Parasites
Where do they cause the lesion?
- Neospora Caninum: affinity for what? random or orgonized pattern?
- N. hughesi: What species is affected? What does it resemble? what is the lesion?
- Toxoplasma gondii: is the only one with parasitophorus vacuole (extracellular, intracytoplasmic). Affects, felids, old world monkeys, rats, cattle, horses seem highly resistant. Where does the parasite replicate?
- Tissue cysts phases. Affinity for brain (cerebellum in dogs). Multifocal necrotizing lesions with glial nodules, mixed inflammatory infiltrate, also abortions
White and grey matter of spinal cord but also pons and medulla - Horses, resembles Sarcocystis neurona causing EPM. Lesion is meningoencephalomyelitis
- Intraintestinal life cycle and extraintestinal. Encephalomyelitis
What organism causes Equine Protozoal Encephalomyelitis?
What is the definitive and intermediate host?
Pathogenesis: ingestion sporocysts multiply in visceral tissue, CNS inflammation, edema, tissue destruction, affecting both WM and GM
Gross lesions
Is the distribution random or not? What does it affect?
Animal age most vulnerable
C/S
-Etioloic agent: Sarcocystis neurona
-DH: opossum
-IH: avian
-Gross: brainstem, spinal cord (cervical, lumbar intumesces). Necrosis, random hemorrhages of white/grey matter.
-S. neurona: crescent-round, well-defined nucleus, schizonts with merozoites in aggregates or rosettes
-Young adult horses
-C/S: depression, behavioral changes, seizures, gait abnormalities, ataxia, unilateral facial nerve paralysis, head tilt, tongue paralysis, urinary incontinence, dysphagia, atrophy of masseter and or temporal muscles, atrophy of quadriceps and or gluteals.
What protozoal organism causes atrophy of messeter muscle, temporal muscle, quadriceps and or gluteals?
Sarcocystis neurona
Equine Protozoal Encephalomyelitis
What disease is associated with aberrant migration of Cuterebra fly larvae?
What species is affected?
What cerebral artery if affected?
What age?
Unilateral or bilateral
Necrosis and hemorrhages in what part of CNS?
Histo:
C/S:
-Feline Ischemic Encephalopathy
-Cuterebra fly larvae migrates from nasal cavity to brain.
-Middle cerebral artery preferred and affected
-Any age
-Unilateral, WM and GM of cerebrum
-Necrosis, hemorrhages: CNS leptomeninges
-Histo: vasculitis, thrombosis, ischemia, infarction, cerebral cortical atrophy.
-C/S: summer months, unilateral, depression, mild ataxia, seizures, behavioral changes, blindness.
Cerebral hemisphere undergoes necrosis, followed by cyst formation and collapse after phagocytic removal of the necrotic debris
Hydrocephalus ex vacuo
Nervous system: Nutritional, Toxicologic diseases
Hepatic encephalopathy
What is the cause?
What is the neurotoxin? how does it form?
What is typically found in the urine?
Ammonia and other toxic metabolites also cause increased permeability of BBB, leading to vasogenic edema.
C/S: Alter osmoregulation, ataxia, depressed mentation, walking aimlessly, head pressing.
-Hyperammonemmia: acute/chronic liver failure, hepatic atrophy (vascular shunts)
-Ammonia formed in the GI by bacterial degradation of amines, amino acids, purines, urea from proteins in diet.
-Liver detoxifies it to less toxic urea normally, then excreted in urine.
-Amonia butyrate in urine
What are the primary CNS cells affected in Hepatic Encephalopathy?
What other condition where inadequate clearance of ammonia can be similar?
What species are affected?
Lesions
- Reversible bilateral, symmetrical spongy (vacuolation) change (intramyelinin edema) in areas of intermingling of gray and white matter
- Formation of Alsheimer’s type II astrocytes: gray matter, large vesicular nuclei, peripheral chromatin, glycogen deposits, nucleoli or nuclear-type bodies. Occurs in diads, triplets or clusters.
In clumps not much chromatin in nucleus
-Astrocytes primary lesion (Alzeimer’s type II astrocytes)
-Similar renal encephalopathy, renal injury leads to inadequate clearance.
-Dogs, ruminants, horses
What can vitamin B1 (Thiamine) deficiency lead to? RUMINANTS
Encephalopathy, encephalomyelitis, encephalomyelopathy, or polioencephalomalacia?
-Not a disease entity in itself
What species is most affected?
What plants can cause ulceration and hemorrhage due to being high in Thiaminase-containing enzyme?
Salt, lead, sulfur toxicosis: sulfite cleaves thiamine = polioencephalomalacia
What does polio means here?
Pathogenesis
Causes
Why are young ruminants more susceptible?
Lesions
Cattle 6-18 months and sheep younger age (2-7 months) affected
C/S
Histo: Acute vs, chronic stage
What cerebral portion is preferentially affected?
Histo lesion ____
-Polioencephalomalacia
-Cattle > sheep > goats
-Bracken fern
-Polio = gray matter necrosis
-Pathogenesis: decreased in ruminal thiamine, inactive thiamine analogues OR overgrowth of thiaminase producing microbes
-Causes: carb rich diet in cattle, little roughage > acidosis > rumen microflora changes.
- Young ruminants have not fully populated thimaine-producing microbes in rumen yet. Microbes synthesize thiamine.
-Gross lesions: if present are limited to cerebral cortex
-Swollen (cerebral edema) +/- brain displacement, herniation.
-Autofluorescence under UV light 365 -nm, autofluorescent bands of necrotic cerebral cortex.
**Difficult to pick up lesions, look for interface between gray matter and white matter. **
Bilateral symmetric laminar pattern of apple-green autofluorescence (from mitochondrial derivatives) involving full thickness of cortex indicates GM necrosis
-C/S: small ruminants depression, stupor, ataxia, head presssing, cortical blindness, opisthotonos, convulsions, recumbency, paddling, death.
-Histo: acute stage = zone of edema and acute neuronal necrosis affecting lamina of cerebral cortex. Chronic stage = areas of microcavitation in deep cortical laminae next to subcortical white matter are poorly stained compared to those in normal cortex.
Laminar cortical necrosis, edema, astrocyte swelling, bilateral symmetric focal lesions in carnivores: thalamus, midbrain or colliculi
Vitamin B1 deficiency (thiamine) in CARNIVORES
Which monogastric carnivores have an absolute requirement for B1?
Fish diets (especially during heating) containing thiaminase = B1 deficient diets (enzyme cleaves B1)
Gross lesions
Histo
C/S
-Dogs, cats, mink, fox.
-Gross: necrosis, bilateral symmetric focal lesions, thalamus, midbrain or colliculi
-Histo: neuronal vacuolation, degenerations, necrosis, hemorrhage, astrogliosis, gitter cells.
-C/S: vomiting, wide-based stance, ataxia, spastic paresis, circling, seizures, recumbency, opisthotonus, coma, or death.
Copper Deficiency
Cu deficiency involved, pathogenesis complex, interplay with other metals (Zn, Fe, Molybdenum)
What are the two forms?
What are the lesions?
Both forms affect GM and WM, wool, hair growth, pigmentation, musculoskeletal development, integrity of connective tissue.
Gross
Histo
- Swayback congenital form: affects lambs newborn (ewes with inadequate dietary Cu). Lambs born dead, weak or unable to stand
-Lesions: cerebrum, brainstem - Enzootic ataxia: onset is delayed for up to 6 months after birth.
-Lesions: postnatal onset, brainstem, spinal cord.
-Gross: 50% of affected lambs have bilateral cerebrocortical rarefration in white matter
-Histo: asatrogliosis associated degeneration of white matter, neuronal necrosis.
PNS nutritional deficiencies
What disease in horses is a sequale of very low vitamin E concentrations?
What is the primary factor involved?
What parts of the cell are affected?
Gross lesions
Histo
C/S
-Equine motor neuron disease
-Dietary factors, long-term (>1 year) of Vit E deficient feeds, other andtioxidant deficiencies
-Cell bodies, axons of lower motor neurons (ventral horn cells, cranial nerves)
-Histo: cell bodies are lost, replaced by astrogliosis, LMN axons, WALLERIAN DEGENERATION. Abundant lipofuscin in neurons, endothelial cells.
-Lesion: atrophy of type 1 myofibers secondary to loss of type 1 lower motor neurons
-C/S: progressive degeneration, loss of lower motor neurons, muscle atrophy, weight loss, difficulty standing, muscle fasciculation.
Progressive disease, chronic damage may be too far
What toxicity leads to bilateral symmetrical poliomyelomalacia and Acute paralytic syndrome in feeder pigs?
Is the pathogenesis known?
Gross lesion
Histo
C/S
- Selenium Toxicity
-Unknown, possible niacin deficiency
-Bilateral (symmetric) softening, ventral spinal gray matter
-Histo: neural, glial necrosis and loss, microcavitation, astrogliosis, gitter cells
WALLERIAN DEGENERATION (injury to axonal body)
-C/S: alert, sternal recumbency, quadraplegia with flaccid paralysis of rear limbs. Cutaneous rough hair coats, partial alopecia, separation/sloughing hoofs.
Quadripplegia with flaccid paralysis of rear limbs is a C/S of what disease?
It also includes sloughing of hoofs
Selenium toxicosis
Progressive degeneration, loss of lower motor neurons, muscle atrophy, weight loss, difficulty standing, muscle fasciculation are c/s of what disease?
Equine lower montor neuron disease
What commonly leads to Sodium Chlorida Toxicity?
What species are primarily affected?
Pathogenesis
Gross lesions
Histo
C/S
-Water deprivation syndrome, or salt poisoning
-Pigs, poultry, occasionally ruminants
-Overconsumption of sodium chloride complicated by limited drinking water = severe dehydration or water restriction of sufficient duration
-Hyperosmolarity (hypernatremia from excessive Na+ or severe dehydration) followed by rehydration and a “rapid” hypernatremic to normonatremic or hyponatremic shift
-When given free access to fresh water, acute hypernatremic to hyponatremic shift occurs within minutes the brain offsets osmotis imbalance by eliminating Na+, K+, Cl- ions by actively transporting ions into vasculature, early response cannot offset osmotic stress caused by increased organic osmolytes in brain - water enters the brain - brain swelling
Drink slowly!!
Gross: cerebral, leptomeningeal congestion, edema
Histo: cerebrocortical laminar neuronal necrosis (PEM)
Pigs perivascular eosinophils with laminar cortical necrosis is indicative of salt toxicosis
What is perivascular eosinophils with laminar cortical necrosis indicative of?
Accompanied by c/s: inappetence, dehydration, head pressing, incoordination, blindness, circling, paddling, convulsions, often found dead?
Eosinophils, polioencephalomyelomalacia (PEM)
Salt toxicosis primarily in pigs
What are the Group 1 Organophospahtes?
What does SLUD stand for?
How do they affect Ach receptors uptake?
Which is affected Parasympathetic nervous system or Sympathetic?
are the clinical signs common in cattle?
-OP esters, pesticides, fungicides, herbicides, or rodenticides, inhibiting cholinesterase
-Ach accumulates at synaptic or myoneuronal junctions = persistent depolarization
-Acute OP toxicosis = SLUD excessive Salivation, Lacrimation, Urination, Defecation.
-Parasympathetic: bradycardia, pupillary constriction. Skeletal muscle fsciculations, weakness, paralysis (death by respiratory failure)
-C/S: restlessness, generalized seizures (dogs, cats, uncommon in cattle)
-Gross: nervous system absent, nonspecific in other tissues
Group 2 Organophosphates usually found in what?
What types of toxicosis can occur?
When does axonal injury occur?
C/S
Age most affected, less affected
Are proprioceptive deficits usually present?
-Cresyl (triorthocresyl phosphate) in hydraulic fluids, lubricants, flame retardants
-Chronic toxicosis: most common cause of chemical induced distal axonopathy in Vet Med
-Chronic/delayed toxicosis: unrelated to cholinesterase inhibition as seen in acute OP toxicosis
-Axonal injury occurs approximately 10-14 days post exposure
-OPs delayed neurotoxicity inhibit activity of enzyme neuropathy target esterase (function of enzyme not fully understood)
C/S: delayed 1-2 wks post exposure, sensory/motor neuropathy and spinal cord (proprioceptive deficits)
-Young animals: less seriously affected
-Adults recover slow and incomplete
Primary tumors of the nervous system
