Interactions between Bordetella bronchiseptica and toxigenic Pasteurella multocida in atrophic rhinitis of pigs

Three strains of Bordetella bronchiseptica were compared for their ability to assist colonisation of the nasal cavity of gnotobiotic pigs by toxigenic Pasteurella multocida. Toxigenic P multocida (counted in nasal washings) colonised the cavity in large numbers in pigs previously infected with a cytotoxic phase I strain of B bronchiseptica (B58), whereas it colonised only in small numbers in those previously infected with B65, a phenotypic phase III variant of B58. Toxigenic P multocida colonised pigs infected with a non-cytotoxic phase I strain of B bronchiseptica (PV6) in fewer numbers than were seen in pigs infected with the cytotoxic phase I strain but in greater numbers than in pigs infected with the phase III strain. The turbinates of pigs infected with the cytotoxic phase I strain of B bronchiseptica and toxigenic P multocida were most severely affected and those in pigs infected with the non-cytotoxic phase I strain and toxigenic P multocida were moderately reduced in size. The turbinates of pigs infected with the phase III strain and toxigenic P multocida were slightly reduced in size except for one piglet whose turbinates were severely affected. Pigs infected with the non-cytotoxic phase I strain of B bronchiseptica alone showed no signs of atrophy and their turbinates were used to calculate reductions (per cent) in those infected with P multocida. The reduction (per cent) in size of turbinates and total numbers of P multocida isolated from the nasal washings of each pig were linearly related.(ABSTRACT TRUNCATED AT 250 WORDS)     

Prevention of atrophic rhinitis in piglets by means of intranasal administration of a live non-AR-pathogenic Bordetella bronchiseptica vaccine

The effect of intranasal vaccination of piglets with live non-AR-pathogenic Bordetella bronchiseptica (BB-) against Atrophic Rhinitis (AR) was investigated in a preliminary investigation and in a field trial. In the preliminary investigation 2-day-old SPF piglets (n = 13) were vaccinated. Three weeks after vaccination, challenges were carried out by means of a spray with an AR-pathogenic B (BB+) or an AR-pathogenic Pasteurella multocida (PM+) broth-culture. Four weeks later the piglets were necropsied and examined for atrophy of the ventral conchae (AVC). In contrast with the non-vaccinated SPF piglets, the vaccinated piglets showed a strong and significant reduction of AVC, after both BB+ and PM+ challenge. In the field trial three groups were formed by drawing lots: ten litters (82 piglets) were vaccinated; ten litters (92 piglets) formed the control group and 11 litters (104 piglets) were treated with a placebo. The litters were spread over two units. In unit 1 AR and PM+ were demonstrated incidentally, in unit 2, however, persistently. BB+ was isolated equally frequently in both units. Clinical and bacteriological examinations were done in piglets of 3, 6 and 8 weeks of age. Necropsy examinations was carried out in 41 piglets of 8 weeks of age, chosen randomly by drawing lots. In spite of a second vaccination at the age of 3 weeks, BB- was not well established; this was possibly caused by maternal BB antibodies. In the control and placebo groups PM+ was isolated earlier and more frequently than BB+. It appeared that AVC was correlated more strongly with PM+ than with BB+ infection in the field trial. The percentage of piglets with Brachygnathia superior (BS) at the age of 8 weeks indicated the AR situation in the herd. Although a significant reduction of AVC was determined in unit 2, it was not sufficient to indicate that this method of intranasal vaccination is useful in the prevention of AR in practice.     

Effects of intranasal inoculation of porcine reproductive and respiratory syndrome virus, Bordetella bronchiseptica, or a combination of both organisms in pigs

OBJECTIVE: To examine effects of co-infection with porcine reproductive and respiratory syndrome virus (PRRSV) and Bordetella bronchiseptica in pigs. ANIMALS: Forty 3-week-old pigs. Procedure-30 pigs (10 pigs/group) were inoculated with PRRSV, B bronchiseptica, or both. Ten noninoculated pigs were control animals. RESULTS: Clinical signs, febrile response, and decreased weight gain were most severe in the group inoculated with both organisms. The PRRSV was isolated from all pigs in both groups inoculated with virus. All pigs in both groups that received PRRSV had gross and microscopic lesions consistent with interstitial pneumonia. Bordetella bronchiseptica was cultured from all pigs in both groups inoculated with that bacterium. Colonization of anatomic sites by B bronchiseptica was comparable between both groups. Pigs in the group that received only B bronchiseptica lacked gross or microscopic lung lesions, and B bronchiseptica was not isolated from lung tissue. In the group inoculated with B bronchiseptica and PRRSV, 3 of 5 pigs 10 days after inoculation and 5 of 5 pigs 21 days after inoculation had gross and microscopic lesions consistent with bacterial bronchopneumonia, and B bronchiseptica was isolated from the lungs of 7 of those 10 pigs. CONCLUSIONS AND CLINICAL RELEVANCE: Clinical disease was exacerbated in co-infected pigs, including an increased febrile response, decreased weight gain, and B bronchiseptica-induced pneumonia. Bordetella bronchiseptica and PRRSV may circulate in a herd and cause subclinical infections. Therefore, co-infection with these organisms may cause clinical respiratory tract disease and leave pigs more susceptible to subsequent infection with opportunistic bacteria.     

Bordetella bronchiseptica isolations from the nasal cavity of pigs in relation to atrophic rhinitis.

The occurrence of Bordetella bronchiseptica and atrophic rhinitis was studied during a one-year period in four Danish sow herds. In three of the heards, the epidemiological studies revealed a relation between the occurrence of B. bronchiseptica in 3--10-week-old pigs and the presence and severity of atrophic rhinitis at slaughter. In the fourth herd no such relation was found.     

The pathogenesis of turbinate atrophy in pigs caused by Bordetella bronchiseptica

The pathogenicity of 3 strains of Bordetella bronchiseptica designated B58, PV6 and B65 was compared by intranasal infection of gnotobiotic piglets. Strain B58 was a phase 1 isolate that produced haemolysin, an adhesin for calf erythrocytes, adenylate cyclase, mouse lethal factor, dermonecrotic factor and cytotoxin. B65 was a variant of B58 that produced no detectable haemolysin, adhesin or adenylate cyclase and 10-fold smaller amounts than B58 of mouse lethal factor, dermonecrotic factor and cytotoxin. Strain PV6 was a phase 1 isolate that produced only haemolysin, adhesin and adenylate cyclase. After nasal infection of gnotobiotic pigs, 10(3.2)-10(6.2) colony forming units ml-1 (cfu ml-1) of strains B58 and PV6 were cultured from nasal washings during the next 25 days. In contrast, only 10(1.0)-10(2.8) cfu ml-1 of strain B65 were recovered during the same period. Only pigs infected with strain B58 had turbinate atrophy when they were slaughtered 25 days after infection and neutralising antibody to cytotoxin was detected only in these pigs. These results suggested that the cytotoxin, which may be the same as the mouse lethal and dermonecrotic factors, was the cause of turbinate atrophy. They also support the view that the adhesin for calf erythrocytes is required for colonisation of the nasal cavity in vivo.     

Investigation into the pathogenesis of atrophic rhinitis in pigs. I. Atrophic rhinitis caused by Bordetella bronchiseptica and Pasteurella multocida and the meaning of a thermolabile toxin of P. multocida

In two groups of swine herds, herds with and without clinical AR the presence of Atrophic Rhinitis (AR) correlated with the presence of toxinogenic Pasteurella multocida (PM) and not with the Bordetella bronchiseptica (BB) infection. Six BB- and eighteen PM-strains have been investigated for AR pathogenicity. Broth cultures were injected intradermally in guinea-pigs (GPST) or intranasally in 3-week-old colostrum deprived specific pathogen free (SPF) piglets. The average atrophy of the ventral conchae (AVC) correlated with the GPST in 4 BB-and 7 PM-strains. One BB- and 2 PM-strains were qualified as doubtful, the others as non-AR pathogenic. With AR pathogenic BB-and PM-strains clinical AR could be induced in 3-and 6-week-old piglets. AVC lesions (gradation greater than 1) could be induced with BB in piglets of 6 and with pathogenic PM in 16-week-old piglets. Six of seven AR pathogenic PM-strains resembled Carter-type D and one resembled type A. No significance was found between AR pathogenicity and somatic serotypes. Intranasal instillations of cell-free broth culture filtrates of AR pathogenic PM-strains also caused AR in piglets. These filtrates also caused lethality in piglets and in mice lethalitytest (MLT) and induced a positive GPST. After heating the pathogenic effects of the filtrates disappeared. The name AR toxin has been introduced for this thermolabile, haemorrhagic dermonecrotic (HDNT) fraction of the AR inducing filtrates. The severity of the AR lesions depended on the amount of the AR toxin intranasally instilled in pigs. Cross protecting antibodies obtained in rabbits against the AR toxins of two PM strains could be demonstrated by a toxin neutralisation test in the MLT and the GPST. Broth cultures were injected intradermally in guinea-pigs (GPST) or intranasally in 3-week-old colostrum deprived specific pathogen free (SPF) piglets.     

Serologic survey for Bordetella bronchiseptica in Nebraska specific-pathogen-free pigs

The frequency of Bordetella bronchiseptica infection in Nebraska specific-pathogen-free (SPF) pigs was determined by serologic and bacteriologic cultural analysis. Serum samples from non-SPF herds were tested for comparison. A total of 1,282 of 1,397 (92%) of the SPF pigs tested had antibody to B bronchiseptica; 37 of 220 (17%) were culture-positive, and 67 of 4125 (1.6%) were considered suspicious for atrophic rhinitis during slaughter inspection. A higher percentage of the non-SPF pigs had titers to B bronchiseptica (642 of 659 pigs or 97% of the pigs tested). There was no relationship between the B bronchiseptica antibody titer, the isolation of B bronchiseptica, or the frequency of gross lesions of atrophic rhinitis from pigs within the herd. The serum agglutination test may be a more reliable procedure for determining the herd prevalence of B bronchiseptica than isolation of the organism by cultural methods.     

Effects of intranasal inoculation with Bordetella bronchiseptica, porcine reproductive and respiratory syndrome virus, or a combination of both organisms on subsequent infection with Pasteurella multocida in pigs

OBJECTIVE: To determine effects of intranasal inoculation with porcine reproductive and respiratory syndrome virus (PRRSV) or Bordetella bronchiseptica on challenge with nontoxigenic Pasteurella multocida in pigs. ANIMALS: Seventy 3-week-old pigs. PROCEDURE: In experiment 1, pigs were not inoculated (n= 10) or were inoculated with PRRSV (10), P. multocida (10), or PRRSV followed by challenge with P. multocida (10). In experiment 2, pigs were not inoculated (n = 10) or were inoculated with B. bronchiseptica (10) or PRRSV and B. bronchiseptica (10); all pigs were challenged with P. multocida. Five pigs from each group were necropsied 14 and 21 days after initial inoculations. RESULTS: Pasteurella multocida was not isolated from tissue specimens of pigs challenged with P. multocida alone or after inoculation with PRRSV. However, in pigs challenged after inoculation with B. bronchiseptica, P. multocida was isolated from specimens of the nasal cavity and tonsil of the soft palate. Number of bacteria isolated increased in pigs challenged after coinoculation with PRRSV and B. bronchiseptica, and all 3 agents were isolated from pneumonic lesions in these pigs. CONCLUSIONS AND CLINICAL RELEVANCE: Infection of pigs with B. bronchiseptica but not PRRSV prior to challenge with P. multocida resulted in colonization of the upper respiratory tract and tonsil of the soft palate with P. multocida. Coinfection with PRRSV and B. bronchiseptica predisposed pigs to infection of the upper respiratory tract and lung with P. multocida. Porcine reproductive and respiratory syndrome virus and B. bronchiseptica may interact to adversely affect respiratory tract defense mechanisms, leaving pigs especially vulnerable to infection with secondary agents such as P. multocida.