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Pasteurella and Mannheimia Pneumonias |  |
| Bronchopneumonia caused by
Pasteurella
multocida
or
Mannheimia
haemolytica
has a cranioventral lung distribution and affects sheep and goats of all ages worldwide. It can be particularly devastating in young animals. It is a common cause of morbidity and mortality in lambs and kids, especially in those that have not received adequate colostrum or in which passive colostral immunity is waning. The disease appears to occur most often in animals that have undergone recent stress such as transportation, weaning, or commingling with animals from
unrelated farms. (See also
pasteurellosis of sheep and goats,
Pasteurellosis of Sheep and Goats: Introduction.) |
| Etiology: |
|
P
multocida
and
M
haemolytica
are gram-negative rods that can cause pneumonia either alone or in conjunction with other organisms. Primary infections with respiratory viruses such as parainfluenza-type 3, adenovirus, and respiratory syncytial virus, or
Mycoplasma
spp
appear to predispose to secondary infection with
Pasteurella
and
Mannheimia
. Both organisms are normal inhabitants of the upper respiratory tract of sheep and goats.
M
haemolytica
causes most respiratory tract infections. In adult sheep, biotype A, which causes pneumonia, and biotype T, which causes acute septicemia, have been identified. Also, at least 12 serotypes of
M
haemolytica
are recognized in sheep. |
|  |
| Pathogenesis: |
| Stress appears to be an important factor in the breakdown of respiratory tract defense mechanisms, allowing
Pasteurella
,
Mannheimia
,
Mycoplasma
spp
, other bacteria, and viruses to invade lung tissue and cause pneumonia. In some laboratory animal species and calves, alveolar macrophage function is impaired after viral pneumonia. This results in decreased clearance of inhaled bacterial pathogens, allowing them to become established. Pathogen-host interactions result in tissue damage, especially because of massive influx of neutrophils. As these neutrophils are lysed, enzymes are released that cause more lung tissue
damage. This mechanism may be similar to that of
Pasteurella
and
Mannheimia
pneumonias in sheep and goats. |
| |
| Clinical Findings: |
| Outbreaks in groups of sheep and goats usually occur 10-14 days after a stress. In a feedlot situation, outbreaks are expected ~2 wk after arrival in the feedlot. Early clinical signs may be observation of sudden death in a few animals or a decline in feed consumption within a group. Fever of 104-106°F (40-41.1°C), serous (early) to mucopurulent (later) ocular and nasal discharges, anorexia, coughing, dyspnea, and lethargy are common. Harsh lung sounds, especially in the
cranioventral portions of the lung field, may be auscultated. Morbidity and mortality rates are variable. |
Lesions:
| Lesions are usually confined to the cranioventral lung lobes on both sides. These areas may appear red to purple and feel firm from consolidation. The pleural cavity may contain variable amounts of straw-colored fluid, and yellow fibrin may cover the pleural surface of affected lung lobes from pleuritis. Chronic cases may have extensive pleural adhesions and multiple abscesses of variable size. |
| |
| Diagnosis: |
| In acute cases, cultures obtained from tracheal swabs or washes or from lung lesions will be diagnostic. Histopathologic examination is useful, especially if other types of pneumonia (eg, retrovirus interstitial pneumonia in adult sheep and goats) are also suspected. In chronic cases, bacterial cultures may be less rewarding;
Pasteurella
or
Mannheimia
may have been the initial problem, but results of cultures taken later may reveal
Arcanobacterium
pyogenes
, a common causative agent of lung abscesses. |
| |
| Treatment and Control: |
| Whenever possible, treatment should be based on bacterial culture and sensitivity, especially in herd or flock outbreaks, when valuable animals are involved, or in acute or chronic cases when initial therapeutic attempts have failed. Commonly recommended antibiotics include ceftiofur (1.1-2.2 mg/kg), oxytetracycline (10 mg/kg, sid, of non-long-acting product, or 20 mg/kg once of the long-acting product), ampicillin (20 mg/kg, bid), and tylosin
(10-20 mg/kg, sid or bid). Therapy should continue for at least 24-48 hr after body temperature has returned to normal. Duration of treatment usually is 4-5 days. Acute cases may also benefit from the use of NSAID (eg, aspirin, flunixin meglumine, or ketoprofen) in conjunction with antibiotic therapy. Treatment with NSAID should be of short duration because prolonged use may result in gastric ulceration or renal complications. Use of some of the
above antibiotics and NSAID is extralabel, and appropriate withdrawal times to slaughter should be followed. |
| Inadequate ventilation, crowding, commingling of animals from various farms (feedlot or salebarn situations), poor nutrition, failure of passive transfer of antibodies, transportation, and other stresses have all been associated with pneumonia outbreaks. Control and prevention lies with correction of the predisposing factors whenever practical. At present, there are no bacterins that have proved effective for control of these pneumonias. |
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