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DR ANITA SEWAG MVSc MEDICINE 1ST YEAR
MENINGITIS  Inflammation of the meninges.  Meningitis is usually associated with a bacterial infection and is manifested...
DO YOU KNOW ?  Compared with adults, bacterial meningitis is more common in neonates because their immune system is immat...
ETIOLOGY Cattle  Viral diseases including bovine malignant catarrh, sporadic bovine encephalomyelitis  Bacterial disease...
Sheep  Melioidosis, S. aureus (tick pyemia) in newborn lambs  Pasteurella multocida in lambs  Mannheimia (Pasteurella) ...
Horses  Strangles, Pasteurella haemolytica (also donkeys and mules), Streptococcus suis, S. equi, Actinomyces spp.  Kleb...
PATHOGENESIS
 Inflammation of the meninges causes local swelling and interference with blood supply to the brain and spinal cord.  Th...
 In spinal meningitis, there is muscular spasm with rigidity of the limbs and neck, arching of the back, and hyperesthesi...
CLINICAL FINDINGS  Acute meningitis usually develops suddenly and is accompanied by fever and toxemia in addition to nerv...
 Motor irritation signs include tonic spasms of the muscles of the neck causing retraction of the head, muscle tremor, an...
 Blindness is common in cerebral meningitis but not a constant clinical finding.  In young animals, ophthalmitis with hy...
 In uncomplicated meningitis the respiration is usually slow and deep, and often phasic in the form of Cheyne–Stokes brea...
CLINICAL PATHOLOGY  Cerebrospinal Fluid CSF collected from the lumbosacral space or cisterna magna.  In meningitis conta...
NECROPSY FINDINGS  Hyperemia, the presence of hemorrhages, and thickening and opacity of the meninges, especially over th...
Lesions  Gross lesions are extremely variable depending on cause and location and whether the disease is diffuse or multi...
 Listeriosis uniquely causes microabscesses deep within the CNS parenchyma, which consist of accumulations of neutrophils...
Diagnosis  The analysis of CSF is the most reliable and accurate means to identify an encephalitis, meningitis, or mening...
 Occasionally, bacteria are seen on cytologic examination of the CSF and identified with Gram stain.  Fungi and occasion...
DIFFERENTIAL DIAGNOSIS  Hyperesthesia, severe depression, muscle rigidity, and blindness are the common clinical findings...
TREATMENT  The most promising antimicrobial agents for the treatment of bacterial meningitis in farm animals are trimetho...
Excellent with or without inflammation  Sulfonamides  Third-generation  Cephalosporins  Cefoperazone,  cefotaxime
Good only with inflammation  Ampicillin  Carbenicillin  Cephalothin  Cephaloridine
THANK YOU
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Meningitis in animals

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Meningitis in animals

  1. 1. DR ANITA SEWAG MVSc MEDICINE 1ST YEAR
  2. 2. MENINGITIS  Inflammation of the meninges.  Meningitis is usually associated with a bacterial infection and is manifested clinically by fever, cutaneous hyperesthesia, and rigidity of muscles.  Although meningitis may affect the spinal cord or brain specifically, it commonly affects both.  Meningoencephalitis is common in neonatal farm animals.
  3. 3. DO YOU KNOW ?  Compared with adults, bacterial meningitis is more common in neonates because their immune system is immature, the blood-brain barrier is incomplete, and umbilical infections are common, providing a nidus of infection.
  4. 4. ETIOLOGY Cattle  Viral diseases including bovine malignant catarrh, sporadic bovine encephalomyelitis  Bacterial diseases including listeriosis, H. somni, chronic lesions elsewhere in the body possibly associated with meningitis in adult animals; rarely tuberculosis.
  5. 5. Sheep  Melioidosis, S. aureus (tick pyemia) in newborn lambs  Pasteurella multocida in lambs  Mannheimia (Pasteurella) haemolytica in lambs. Pigs  Glasser’s disease, erysipelas, salmonellosis;  S. suis type 2 in weaned and feeder pigs.
  6. 6. Horses  Strangles, Pasteurella haemolytica (also donkeys and mules), Streptococcus suis, S. equi, Actinomyces spp.  Klebsiella pneumonia, Staphylococcus aureus, coagulase-negative staphylococci.  Anaplasma phagocytophilum (equine granulocytic ehrlichiosis), Borrelia burgdorferi, Sphingobacterium multivorum, and  Cryptococcus neoformans.
  7. 7. PATHOGENESIS
  8. 8.  Inflammation of the meninges causes local swelling and interference with blood supply to the brain and spinal cord.  The signs produced by meningitis are thus a combination of those resulting from irritation of both central and peripheral nervous systems.  Defects of drainage of CSF occur in both acute and chronic inflammation of the meninges and produce signs of increased intracranial pressure.
  9. 9.  In spinal meningitis, there is muscular spasm with rigidity of the limbs and neck, arching of the back, and hyperesthesia with pain on light touching of the skin.  When the cerebral meninges are affected, irritation signs, including muscle tremor and convulsions, are the common manifestations.  Meningitis is usually bacterial in origin, fever and toxemia can be expected if the lesion is sufficiently extensive.
  10. 10. CLINICAL FINDINGS  Acute meningitis usually develops suddenly and is accompanied by fever and toxemia in addition to nervous signs.  There is trismus, opisthotonus, and rigidity of the neck and back.
  11. 11.  Motor irritation signs include tonic spasms of the muscles of the neck causing retraction of the head, muscle tremor, and paddling movements.  There may be disturbance of consciousness manifested by excitement or mania in the early stages, followed by drowsiness and eventual coma.
  12. 12.  Blindness is common in cerebral meningitis but not a constant clinical finding.  In young animals, ophthalmitis with hypopyon may occur, which supports the diagnosis of meningitis.  The pupillary light reflex is usually much slower than normal.  Examination of the fundus of the eyes may reveal evidence of optic disc edema, congestion of the retinal vessels, and exudation.
  13. 13.  In uncomplicated meningitis the respiration is usually slow and deep, and often phasic in the form of Cheyne–Stokes breathing (a breathing pattern characterized by a period of apnea followed by a gradual increase in the depth and rate of respiration) or Biot’s breathing (an irregular breathing pattern characterized by groups of quick, shallow inspirations followed by periods of apnea).  Terminally there is quadriplegia and clonic convulsions.
  14. 14. CLINICAL PATHOLOGY  Cerebrospinal Fluid CSF collected from the lumbosacral space or cisterna magna.  In meningitis contains elevated protein concentrations, has a high cell count, and usually contains bacteria.  Hematology - Hemogram usually reveals a marked leukocytosis, reflecting the severity of the systemic illness secondary to septicemia.
  15. 15. NECROPSY FINDINGS  Hyperemia, the presence of hemorrhages, and thickening and opacity of the meninges, especially over the base of the brain, are the usual macroscopic findings.  The CSF is often turbid and may contain fibrin. A local superficial encephalitis is often present.
  16. 16. Lesions  Gross lesions are extremely variable depending on cause and location and whether the disease is diffuse or multifocal. Pathologic changes characteristic of meningitis include diffuse infiltration of leukocytes into the leptomeninges.
  17. 17.  Listeriosis uniquely causes microabscesses deep within the CNS parenchyma, which consist of accumulations of neutrophils and microglial cell reaction with central liquefactive necrosis.
  18. 18. Diagnosis  The analysis of CSF is the most reliable and accurate means to identify an encephalitis, meningitis, or meningoencephalitis.  The protein content of the CSF is usually also significantly increased (>100 mg/dL), with an increase in the globulin component of CSF.
  19. 19.  Occasionally, bacteria are seen on cytologic examination of the CSF and identified with Gram stain.  Fungi and occasionally protozoa have been identified in CSF, but serology is usually necessary to confirm mycotic and protozoal infections in vivo.  Serologic testing is available for most viral encephalitides.
  20. 20. DIFFERENTIAL DIAGNOSIS  Hyperesthesia, severe depression, muscle rigidity, and blindness are the common clinical findings in cerebral meningitis, but it is often difficult to differentiate meningitis from encephalitis and acute cerebral edema.  Analysis of CSF is very useful in the differential diagnosis of diseases of the nervous system of ruminants.
  21. 21. TREATMENT  The most promising antimicrobial agents for the treatment of bacterial meningitis in farm animals are trimethoprim-sulfonamide combinations, the third- generation cephalosporins, and fluoroquinolones.
  22. 22. Excellent with or without inflammation  Sulfonamides  Third-generation  Cephalosporins  Cefoperazone,  cefotaxime
  23. 23. Good only with inflammation  Ampicillin  Carbenicillin  Cephalothin  Cephaloridine
  24. 24. THANK YOU

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