Actinobacillus Spp Research Articles

Distribution and clinical characterization of pathogenic bacteria in combined periodontal and endodontic lesions of periodontal origin by digital technology

Abstract In this paper, the Logistic regression model and χ2 automatic interaction test were used to study the distribution, number, and correlation of common pathogenic bacteria of periodontal origin with combined periodontal and endodontic lesions by sample training, extracting variable characteristics, and then these variables were modeled as characteristic variables of the regression model to test whether the independent variables were significantly correlated with the dependent variables. It is also necessary to perform χ2 automatic interaction test to compare with the normal distribution, and the results are merged into one group if they are the same and not incorporated into one group if they are different. After the merging was completed, the splitting was done. The study group had a detection rate of pathogenic bacteria of 50.70%, while the control group had a detection rate of 12.24%, according to the results. Campylobacter spp. was the main bacteria that infected periodontal pockets in the study group. And Clostridium spp. The root canal specimens were mainly from Corynebacterium spp. and Actinobacillus spp. There was a significant difference between the pathogenic species and the control group P<0.05. Campylobacter spp. was also a risk factor for co-morbidities (P=0.031). Intra-root canal tissue with its subgingival plaque pathogenic bacteria Ef, Pe (Ρ<0.05), Pg, Td, Tf (Ρ<0.01) played a more important role in the development of pulpitis. Before and after clinical treatment, Pgi showed the most significant decrease in bacterial counts (t=2.759, P=0.022).

Characterization of the plasmids harbouring the florfenicol resistance gene floR in Glaesserella parasuis and Actinobacillus indolicus

The aim of this study was to characterize the floR-carrying plasmids originating from Glaesserella parasuis and Actinobacillus indolicus isolated from pigs with respiratory disease in China. A total of 125 G. parasuis and 28 A. indolicus strains collected between 2009 and 2022 were screened for florfenicol resistance. Characterization of floR-positive isolates and plasmids were determined by antimicrobial susceptibility testing, serotyping, multilocus sequence typing (MLST), conjugation and transformation assays, whole-genome sequencing (WGS), and phylogenetic analysis. One A. indolicus and six G. parasuis were identified as positive for floR. The six G. parasuis were assigned to four different serovars, including serovars 6, 7, 9, and unknown. In addition to strain XP11, six floR genes were located on plasmids. The six floR-bearing plasmids could be transformed into Pasteurella multocida and divided into two different types, including ∼5000 bp and ∼6000 bp plasmids. The ∼5000 bp plasmids consisting of rep, lysR, mobB, and floR genes, exhibited high similarity among Pasteurellaceae bacteria. Furthermore, the ∼6000 bp plasmids, consisting of rep, lysR, mobC, mobA/L, and floR genes, showed high similarity between G. parasuis and Actinobacillus Spp. Notably, WGS results showed that the floR modules of the two types of plasmids could be transferred and integrated into the diverse Pasteurellaceae- origined plasmids. This study firstly reported the characterization of floR-carrying plasmids from A. indolicus and a non-virulent serovar of G. parasuis in pigs in China and elucidated the transmission mechanism of the floR resistance gene among the Pasteurellaceae family.

PENENTUAN KONDISI OPTIMUM PRODUKSI ENZIM KERATINASE OLEH Actinobacillus spp. MENGGUNAKAN TEPUNG BULU AYAM SEBAGAI SUBSTRAT PADA FERMENTASI MEDIA CAIR

Keratinase enzyme is a monomeric enzyme, this enzyme can hydrolyze keratin protein found in chicken feathers. It is estimated that about 90% of the protein contained in chicken feathers is keratin protein, this protein is difficult to digest because of the strong disulfide cross-links and other bonds. Biological processing of chicken feather flour with enzyme treatment produced by microorganisms during the fermentation process under optimal conditions produces high quality feather flour. There are several factors that affect the activity of the keratinase enzyme, including: dose inoculum, temperature, pH, substrate concentration, enzyme deposition, and fermentation time. This study aims to obtain the best optimum conditions (pH, substrate concentration, inoculum dose and fermentation time) of Actinobacillus spp in producing keratinase enzymes using chicken feather flour as a substrate in liquid medium. The main ingredients used in this study are: chicken feather flour, NA (Nutrient Agar), Aquades and substances used for liquid media and bacteria Actinobacillus spp. The study used an experimental method with 4 treatments consisting of pH (9.0; 9.5; 10; 10.5 and pH 11), sedimentation substrate (0.5%; 1%; 1.5%; 2%; 2 ,5%), inoculum dose (1 ml, 1.5 ml, 2 ml, 2.5 ml, 3 ml) and fermentation time 1 to 7 days, each treatment was repeated 3 times. The results showed that the optimum fermentation conditions of Actinobacillus spp in producing keratinase enzyme with an optimum pH of 9, optimum substrate concentration of 1%, inoculum dose of 1.5 ml, and optimum fermentation time of 2 days. Keyword : Actinobacillus spp; chicken feather flour; keratinase enzyme activity; optimumcondition

Antimicrobial resistance of gram-negative aerobic bacteria isolates from the faeces of diarrhoeic and non-diarrhoeic dogs in Abeokuta, Nigeria

The increasing incidence of antimicrobial resistance in pathogenic and commensal Gram-negative bacteria from dogs has continued to raise concerns in veterinary small animal practice and public health. In this study, antimicrobial resistance was investigated in Gram-negative aerobic bacteria isolated from the faeces of diarrhoeic and non-diarrhoeic dogs using the Kirby-Bauer disk diffusion method. Thirty-three isolates belonging to five bacteria genera including Escherichia coli (12), Citrobacter spp (3), Proteus spp (3), Klebsiella spp (9) and Morganella morganii (6) were recovered from diarrhoeic dogs (31). Ninety-four isolates belonging to 12 genera comprising of Escherichia coli (44), Citrobacter spp (5), Proteus spp (9), Klebsiella spp (14), Morganella morganii (1), Burkholderia spp (3), Actinobacillus spp (2), Aeromonas spp (2), Yersinia spp (2), Enterobacter spp (5), Haffinia spp (1) and Serratia spp (6) were obtained from non-diarrhoeic dogs (63). Isolates from diarrhoeic dogs were resistant to ampicillin (84.8%), amoxicillin (63.6%), chloramphenicol (51.5%), ciprofloxacin (18.2%), gentamycin (45.5%), kanamycin (57.6%), nalidixic acid (45.5%), neomycin (42.4%), norfloxacin (24.2%), pefloxacin (27.3%), sulphamethoxazole (72.7%), streptomycin (72.7%) and tetracycline (94.0%). The rate of resistance in isolates from non-diarrhoeic dogs was ampicillin (84.0%), amoxicillin (58.5%), chloramphenicol (51.1%), ciprofloxacin (18.1%), gentamycin (40.4%), kanamycin (67.0%), nalidixic acid (38.3%), neomycin (44.7%), norfloxacin (22.3%), pefloxacin (27.7%), sulphamethoxazole (55.3%), streptomycin (81.4%) and tetracycline (91.5%). All the isolates were resistant to three or more of the tested antimicrobials indicating high levels of multiple antibiotic resistance. Some of the identified organisms have been implicated in clinical infections in dogs. This study showed that dogs may serve as important reservoirs of antimicrobial resistant bacteria transmissible to humans through close contact that exist between man and dogs. Keywords: Antimicrobial resistance, Gram-negative aerobic bacteria, diarrhooeic faeces, non-diarrhoeic faeces, dogs.

The structure of the deacetylase domain ofEscherichia coliPgaB, an enzyme required for biofilm formation: a circularly permuted member of the carbohydrate esterase 4 family

Bacterial biofilm formation is an extremely widespread phenomenon involving the secretion of a protective exopolysaccharide matrix which helps the bacteria to attach to surfaces and to overcome a variety of stresses in different environments. This matrix may also include proteins, lipids, DNA and metal ions. Its composition depends on the bacterial species and growth conditions, but one of the most widely found components is polymeric β-1,6-N-acetyl-D-glucosamine (PGA). Several studies have suggested that PGA is an essential component of biofilm and it is produced by numerous bacteria, including Escherichia coli, Staphylococcus epidermis, Yersinia pestis, Bordetella spp. and Actinobacillus spp. In E. coli, PGA production and export are dependent on four genes that form a single operon, pgaABCD, which appears to have been transferred between various species. Biofilms themselves are recognized as environments in which such horizontal gene transfer may occur. The pga operon of E. coli, which is even found in innocuous laboratory strains, is highly homologous to that from the plague bacterium Yersinia pestis, and biofilm is believed to play an important role in the transmission of Yersinia. The crystal structure of the N-terminal domain of PgaB, which has deacetylase activity, is described and compared with models of other deacetylases.

A laboratory survey of viral diseases occurred in horses in Argentina from 2007 to 2012

staphylococcal species is unclear. Non-aureus staphylococcal species, including Staphylococcus pseudintermedius and Staphylococcus delphini, are important pathogens in some species, can be multidrug resistant and could be a concern in horses. Methicillin-resistant or unusual staphylococci isolated at the Ontario Veterinary College routinely undergo further characterization. During 2011, six staphylococci isolates from horses that were not methicillin-resistant S. aureus (MRSA) were tested. Isolates were identified through MALDI-TOF, staphylococcal species-specific PCR and/or sodA sequence analysis. Isolates were further characterized, as indicated, by dru typing, PFGE, mecA PCR, penicillin-binding protein 2a (PBP2a) latex agglutination test (LAT), and broth microdilution or disc diffusion. Six isolates were evaluated. Two were identified as methicillin-resistant S. pseudintermedius (MRSP). These isolates, from the frontal sinus (1-yr filly with sinusitis) and urine (16-yr mare with urolith) were dt11a, a predominant MRSP clone in dogs. In addition to beta-lactams, both isolates were resistant to chloramphenicol, ciprofloxacin, clindamycin, erythromycin, gentamicin, levofloxacin, moxifloxacin, tetracycline and trimethoprim/sulfamethoxazole. Four isolates were initially identified biochemically as S. pseudintermedius, but ultimately determined to be S. delphini by sodA sequence analysis and S. delphini PCR. Three were classified as S. delphini group B and one Group A. The group B isolates were from a 7-yr mare (chronic otitis externa) and 4-yr and 5-yr mares (incidental findings from Streptococcus equi nasopharyngeal wash surveillance cultures). The Group A isolate was from a 5-yr mare (S. equi surveillance culture). All were methicillin-susceptible. One Group B isolate was resistant to erythromycin; the remaining isolates were susceptible to all tested antimicrobials. Two of the Group B isolates were closely related by PFGE (3 band difference) while the other two were unrelated to each other and the two related isolates. MRSP is an important emerging pathogen in dogs and cats, yet has been rarely identified in horses, with few cases reported worldwide. In one patient, Streptococcus zooepidemicus and Actinobacillus spp were also isolated so the clinical relevance of MRSP is unclear. However, the authors are aware of anecdotal reports of MRSP infection in horses in the province, so MRSP may be a mis-identified (mistaken for MRSA or MR-coagulase negative staphylococci) or emerging equine pathogen. Given the rapid expansion of this pathogen in dogs and its highly resistant nature, ongoing surveillance is needed. S. delphini has rarely (if ever) been identified in horses, but it may be misidentified with conventional methods. Although in these cases colonization/contamination appeared most likely, these findings suggest this opportunist can be found in horses and might be pathogenic in certain situations. Ongoing surveillance for the emergence of S. delphini and S. pseudintermedius in horses is indicated to determine whether they are of clinical relevance. A laboratory survey of viral diseases occurred in horses in Argentina from 2007 to 2012

Recurrent Actinobacillus peritonitis in an otherwise healthy Thoroughbred horse

A Thoroughbred gelding in North America was evaluated for Actinobacillus peritonitis on three different occasions over a 4-year period. At each presentation, peritoneal fluid had an elevated nucleated cell count (220,000-550,000 cells/µL) characterised by non-degenerate neutrophils, no visible bacteria, an elevated total protein (4.6-5.5 g/dL) and bacterial culture yielding Actinobacillus spp. Actinobacillus peritonitis appears to be a regional disease occurring in Australia and less commonly in New Zealand and North America. Recurrence, other than incomplete resolution, has not been previously reported. This case highlights the classical presentation, response to therapy and excellent prognosis despite the alarmingly abnormal peritoneal fluid characteristic of Actinobacillus peritonitis and questions the role of parasite migration in the pathogenesis. Finally, this case is remarkable because Actinobacillus peritonitis was recurrent over several years in an otherwise normal horse.

Management of human and animal bite wound infection: An overview

Animal and human bite wounds can lead to serious infections. The organisms recovered generally originate from the biter's oral cavity and the victim's skin flora. Anaerobes were isolated from more than two thirds of human and animal bite infections. Streptococcus pyogenes is often recovered in human bites, Pasteurella multocida in animal bites, Eikenella corrodens in animal and human, Capnocytophaga spp, Neisseria weaveri, Weeksella zoohelcum, Neisseria canis, Staphylococcus intermedius, nonoxidizer-1, and eugonic oxidizer-2 in dog, Flavobacterium group in pig, and Actinobacillus spp in horse and sheep bites. Vibrio spp, Plesiomonas shigelloides, Aeromonas hydrophila, and Pseudomonas spp can cause infections in bites associated with marine settings. In addition to local wound infection, complications include lymphangitis, local abscess, septic arthritis, tenosynovitis, and osteomyelitis. Uncommon complications include endocarditis, meningitis, brain abscess, and sepsis with disseminated intravascular coagulation especially in immunocompromised individuals. Wound management includes administering local care and using proper antimicrobial therapy when needed.

Classification of Actinobacillus spp isolates from horses involved in mare reproductive loss syndrome

To identify Actinobacillus spp isolates recovered from fetuses and pericardial fluid from horses affected with mare reproductive loss syndrome (MRLS) and determine whether these bacterial species are the same as those isolated from clinically normal horses. Isolates of actinobacilli recovered from 18 horses with pericarditis and 109 fetuses aborted by mares affected by MRLS. Procedures-Actinobacillus spp isolates were identified to the level of species or subspecies by use of conventional phenotypic tests and biochemical and enzyme test kits. The 16S rRNA gene from selected isolates was amplified, purified, and sequenced. Sequence data were compared with sequence data for actinobacilli in GenBank. Of the 109 isolates obtained from fetuses, 14 were Actinobacillus equuli subsp equuli, 65 were A equuli subsp haemolyticus, 28 were Bisgaard taxon 10-like bacterium, and 2 were Actinobacillus genomospecies 1. Of the 18 isolates from horses with pericarditis, 4 were A equuli subsp equuli, 13 were A equuli subsp haemolyticus, and 1 was Bisgaard taxon 10-like bacterium. Comparisons with published data and GenBank data revealed that the isolates recovered from horses with MRLS were the same as those isolated from the oral cavity or alimentary tract of healthy horses. Actinobacillus spp isolates recovered from fetuses and pericardial fluid samples of horses affected by MRLS in 2001 to 2003 were identical to Actinobacillus spp found in the oral cavity and alimentary tracts of healthy horses.

Postoperative infection with Actinobacillus spp in horses: 10 cases (1995-2000).

To determine features of postoperative wound infection caused by Actinobacillus spp in horses undergoing clean, elective surgery and to evaluate bacterial susceptibility profiles of bacteria isolated. Retrospective study. 10 horses. Data were retrieved from medical records and the microbiology laboratory database. 1,604 horses underwent clean, elective surgical procedures during the study period. Of these, 23 (1.43%) had postoperative wound infections, and Actinobacillus spp was isolated from 10 of these 23 (43%). Surgical procedures in these 10 horses included laryngoplasty with ventriculocordectomy (n = 3), arthroscopy (3), desmotomy of the accessory ligament of the superficial digital flexor tendon (2), removal of laryngoplasty prostheses (1), and hygroma resection (1). Seven horses survived, and 3 were euthanatized. All 10 Actinobacillus isolates were resistant to penicillin, and 6 were resistant to trimethoprim-sulfamethoxazole. All isolates were susceptible to ceftiofur and gentamicin. During the 5-year period of the study, Actinobacillus organisms were isolated from 35 of 513 (6.8%) samples from the general hospital population submitted for bacterial culture and antimicrobial susceptibility testing. During the study period, Actinobacillus spp was isolated from a higher than expected percentage of horses that developed postoperative wound infections after clean, elective surgery. Susceptibility profiles for these isolates were different from typical susceptibility profiles for Actinobacillus isolates, suggesting that a pattern of resistance may be emerging.

Saprotrophic fungi and bacteria and commensal bacteria that infect frost-damaged pastures may be contributing to gut microbial overgrowth and lesions associated with the mare reproductive loss syndrome

The mare reproductive loss syndrome (MRLS) that occurred in 2001 was first recognized as a syndrome of unknown origin responsible for earlyand late-term abortions in 1980 and 1981.1,2 In each of these years, spikes in abortions seemed to be associated with nutritious, high-protein diets, especially lush spring pastures. In each year that MRLS occurred, there were unusual weather conditions. The winter months were drier than normal, followed by periods of extremely warm and cool wet conditions in the spring with late frosts and/or freezes to rapidly growing lush pastures.3 Frosts will induce acute changes in plant electrolytes and minerals4 and will cause sugars to increase in plants.5 The increase in potassium, nitrates, and sugars that occurs in frost-damaged plants may make these plants ideal substrates for fungi. Saprotrophic fungi, like Aspergillus spp, are excellent producers of multiple enzymes that may even further promote the digestion of proteins and carbohydrates, making them more readily available to the gut microflora. These saprotrophic fungi and bacteria are naturally found in decaying soils and pasture plants.6 In the spring, especially after frost damage to lush grass, horses and foals seem to develop episodes of loose feces and diarrhea in more severe cases. This is suggestive of a digestive upset induced by excessive dietary nutrients and/or toxic byproducts of gut microbial overgrowth. Also, sequelae to these digestive upsets may be pericarditis and cardiac effusion, which are commonly seen in fast-growing foals and young horses and are associated with MRLS. Coincidentally, in 2001, cattle herds were also experiencing episodes of very loose feces and severe diarrhea. I investigated 3 of these cattle herds with severe diarrhea that were loosing calves because of pericarditis and cardiac tamponade with no lesions in other organs. In one herd of 55 Angus cows and 55 suckling calves, 18 of the largest and fasting growing calves, weighing approximately 450 to 500 pounds, died. This herd of cattle was grazing lush grass and clover pastures and was being fed a premix feed supplement-free choice. This feed supplement contained 17% sodium chloride and was fortified with essential macroand microminerals, potassium chloride, molasses, and microbial byproducts containing enzymes to enhance plant digestion. According to the owner, cows and calves seemed to be overconsuming the supplement, and all cows and calves had diarrhea. After 18 calves died within a 5-day period, the owner removed the feed supplement from the pasture and replaced it with loose unfortified salt (sodium chloride). No other changes or treatments were made in the herd. Within 24 to 48 hours, the diarrhea in all cows and calves stopped, and there were no more deaths in the herd. Likewise, in other cattle herds with the pericarditis syndrome, all deaths stopped after the addition of readily available loose salt (sodium chloride) to the herd. Recently, in 2002, I investigated another cattle herd of 37 calves on a growing feed and forage ration that was fed in a dry lot. The calves were not exposed to pasture grazing. Calves were given a concentrated enzyme supplement containing enzymes produced by Aspergillus niger, A oryzae, Bacillus spp, and other enzyme-producing saprotrophic organisms. The only change in the diet for several weeks was the addition of this enzyme supplement. Within 2 to 3 days after adding the enzyme supplement to the ration, all calves developed diarrhea, and 1 calf was found dead. Several other calves required extensive supportive therapy but survived. The enzyme supplement was suspected as the cause of the acute digestive upset and was immediately removed from the ration. The diarrhea in all calves stopped within a few days without further treatment. The acute readily available nutrients induced by the enzymes likely caused the gut flora to overgrow and to produce opportunistic pathogens and toxic byproducts. Microaerophilic Streptococcus spp, Actinobacillus spp, Clostridium spp, and other gut opportunistic pathogens are commonly found in fetuses and foals affected with MRLS. In humans, pericarditis with cardiac tamponade is associated with uremia7 and secondary infections with bacteria, like Streptococcus spp and Clostridium spp.8 Similarly all calves that were necropsied in each of the 3 herds with pericarditis and cardiac tamponade were infected with the anaerobic bacterium Clostridium chauvoei, with no other lesions elsewhere in the body. In addition, numerous streptococcal-like bacteria could also be seen in histopathologic lesions in the heart and pericardium. This same type of gut microaerophilic Streptococcus spp is commonly found in equine fetuses and foals affected with MRLS and was first associated with early fetal abortions in 19801 and again in 1981.2 Overgrowth of gut microaerophilic From the Department, College of Agriculture, University of Kentucky, Lexington, KY. Address reprint requests to T. W. Swerczek, DVM, PhD, Copyright 2002, Elsevier Science (USA). All rights reserved. 0737-0806/02/2206-0002$35.00/0 doi:10.1053/jevs.2002.35827

Specific Immune Response of Mares and their Newborn Foals to Actinobacillus spp. Present in the Oral Cavity

Oral swab samples, serum and colostrum was taken from 15 mares and 14 of their foals, within 24 h of birth. The presence of antibody against Actinobacillus spp. isolated from the oral cavity was investigated using agar gel immunodiffusion. Antibodies against 48 out of the 77 Actinobacillus isolates from all horses in the study were present in the respective sera of 13 mares and 9 foals. In 11 mother-foal pairs, the antibody content of the foal serum was similar to that of the mare, and in 9 cases this was reflected in the antibody content of colostrum from the mare. The results indicate that an immune response to Actinobacillus spp. colonising the oral cavity is present in many adult horses and that this immune response can be transferred from mother to foal via colostrum.

Cloning and sequencing of a 16S/23S ribosomal spacer from Haemophilus parainfluenzae reveals an invariant, mosaic-like organisation of sequence blocks

A 16S/23S ribosomal spacer from a Haemophilus parainfluenzae rrn locus was cloned and sequenced. Analysis of PCR-amplified genomic fragments showed that this region is strongly conserved among unrelated isolates; computer analysis of database homologies showed that the spacer consists of sequence blocks, arranged in a mosaic-like structure, with strong homologies with analogous blocks present in the spacer regions of Haemophilus influenzae, Haemophilus ducreyi and Actinobacillus spp. It also contains a tRNA Glu gene, which is highly homologous to tRNA Glu genes found in spacers of other species. These data strongly support the hypothesis that recombination events are involved in the organisation of the sequence of the spacer, as a result of horizontal gene transfer.

Cloning and sequencing of a 16S/23S ribosomal spacer from Haemophilus parainfluenzae reveals an invariant, mosaic-like organisation of sequence blocks.

A 16S/23S ribosomal spacer from a Haemophilus parainfluenzae rrn locus was cloned and sequenced. Analysis of PCR-amplified genomic fragments showed that this region is strongly conserved among unrelated isolates; computer analysis of database homologies showed that the spacer consists of sequence blocks, arranged in a mosaic-like structure, with strong homologies with analogous blocks present in the spacer regions of Haemophilus influenzae, Haemophilus ducreyi and Actinobacillus spp. It also contains a tRNA(Glu) gene, which is highly homologous to tRNA(Glu) genes found in spacers of other species. These data strongly support the hypothesis that recombination events are involved in the organisation of the sequence of the spacer, as a result of horizontal gene transfer.

Antibiotic prophylaxis of lower respiratory tract contamination in horses confined with head elevation for 24 or 48 hours.

To evaluate the administration of procaine penicillin prior to or during confinement with head elevation as a means of reducing the associated accumulation of inflammatory lower respiratory tract secretions and increased numbers of bacteria within the lower respiratory tract of confined horses. Two experiments were conducted to evaluate the efficacy of different dose rates and dosing frequencies. In experiment A a single low dose (15,000 IU/kg) of procaine penicillin was administered to four horses immediately prior to confinement with head elevation for 48 hours. The systemic leucocyte response, gross and cytologic characteristics of transtracheal aspirate and bacterial numbers in lower respiratory tract samples were compared with corresponding samples from two horses confined with heads elevated but not given penicillin. The efficacy of higher dose rates (20,000 IU/kg and 40,000 IU/kg) given before and during confinement with heads elevated for 24 hours was evaluated in experiment B. Treatment with procaine penicillin had no effect on the systemic leucocyte response or on the accumulation of inflammatory lower respiratory tract secretions at any of the dosing schedules evaluated. The number of bacteria isolated from trans-tracheal samples was reduced at 12 hours for treated horses in experiment A and at 24 hours for experiment B. beta-haemolytic Streptococcus spp were not isolated from treated horses in either experiment. Bacterial species isolated from treated horses were predominantly Pasteurella and/or Actinobacillus spp, however, members of the family Enterobacteriaceae and a Staphylococcus sp were isolated from treated horses. One treated horse in experiment A developed clinically apparent pulmonary disease. The prophylactic administration of penicillin before or during confinement did not reliably reduce bacterial numbers or prevent the accumulation of purulent lower respiratory tract secretions in horses confined with their heads elevated. Numbers of beta-haemolytic Streptococcus spp were reduced following treatment, suggesting that the repeated administration of procaine penicillin may have some merit as part of a strategy to prevent transport-associated respiratory disease. However, methods directed at minimising the duration of confinement with head elevation, augmentation of the clearance of accumulated secretions and prompt identification of animals in which airway inflammation has extended to the pulmonary parenchyma remain the best ways of minimising transport-associated respiratory disease.

Clinical, pathologic, and microbiologic findings of foot abscess in neonatal pigs

Summary A longitudinal study was undertaken in a swine herd with an ever-present problem of foot abscess in suckling pigs reared on a woven-wire floor. Of 3,322 4-day-old pigs, 199 (6%) developed abscess lesions involving claws and accessory digits before weaning. Lesions were first detected in 4-day-old pigs; median and mean ages at onset were 10 and 11.3 days, respectively. At first detection, most pigs had only a single claw affected, but 39 pigs had at least 2 claws with abscesses. Hind limbs had more affected claws (140) than forelimbs (96). In the hind limbs, medial claws were most likely to have lesions, whereas the reverse was true for the forelimbs. Gross and microscopic examinations of affected claws indicated necrotic pododermatitis, with severe osteomyelitis, arthritis, and tenosynovitis. Bacteria isolated from foot abscess lesions included Actinomyces pyogenes, Staphylococcus spp, β-hemolytic Streptococcus spp, Actinobacillus spp, Escherichia coli, Fusobacterium spp, Bacteroides spp, and Peptostreptococcus spp.