Murdoch University
Health sciences
ABSTRACT Aims: Leptospirosis is endemic to tropical regions of the world and is re-emerging as a new danger to public health in Southeast Asia, including Malaysia. The purpose of this particular study was to determine the common... more
ABSTRACT
Aims: Leptospirosis is endemic to tropical regions of the world and is re-emerging as a new danger to public health in
Southeast Asia, including Malaysia. The purpose of this particular study was to determine the common leptospiral
serovars present in small wild mammals living around wildlife reserves and disturbed forest habitats and human
communities.
Methodology and results: The samples of blood and kidneys of small rodents, bats and squirrels were analyzed.
Antibodies to different serovars of leptospires were detected in 73 of 155 wild small mammals captured (47.0%: 95% CI
39.0-55.3%). The seroprevalence for rats (57.9%; 95% CI 44.1-70.9) was slightly higher than that for squirrels (42.9%;
95% CI 24.5-62.8) and bats (40%; 95% CI 28.5-52.4). Seropositive animals were detected in all 5 localities sampled.
Antibodies to serovar Lepto 175 Sarawak were detected in 30 (24.7%) rats, 11 (9.0%) squirrels and 27 (52.9%) bats. Of
155 kidney samples from individual animals only 17 were positive for Leptospira on a molecular study (10.97%, 95% CI
6.5-17). The majority of the positive results were from plantain squirrels (53%; 95% CI 27.8, 77), Müller’s rat (35%; 95%
CI 14.2, 61.7) and brown spiny rats (12%; 95% CI 1.5, 36.4).
Conclusion, significance and impact of study: This particular study should generate concerns and lead to the health
authorities expanding disease control measures in the region as there are significant levels of human activity at all five
locations where the animals were sampled. The pathogenesis of serovar Lepto 175 Sarawak also needs to be monitored
closely, considering its similarities to the pathogenic Leptospira wolffii.
Keywords: Leptospirosis, zoonotic disease, bats, rodents, wildlife
Aims: Leptospirosis is endemic to tropical regions of the world and is re-emerging as a new danger to public health in
Southeast Asia, including Malaysia. The purpose of this particular study was to determine the common leptospiral
serovars present in small wild mammals living around wildlife reserves and disturbed forest habitats and human
communities.
Methodology and results: The samples of blood and kidneys of small rodents, bats and squirrels were analyzed.
Antibodies to different serovars of leptospires were detected in 73 of 155 wild small mammals captured (47.0%: 95% CI
39.0-55.3%). The seroprevalence for rats (57.9%; 95% CI 44.1-70.9) was slightly higher than that for squirrels (42.9%;
95% CI 24.5-62.8) and bats (40%; 95% CI 28.5-52.4). Seropositive animals were detected in all 5 localities sampled.
Antibodies to serovar Lepto 175 Sarawak were detected in 30 (24.7%) rats, 11 (9.0%) squirrels and 27 (52.9%) bats. Of
155 kidney samples from individual animals only 17 were positive for Leptospira on a molecular study (10.97%, 95% CI
6.5-17). The majority of the positive results were from plantain squirrels (53%; 95% CI 27.8, 77), Müller’s rat (35%; 95%
CI 14.2, 61.7) and brown spiny rats (12%; 95% CI 1.5, 36.4).
Conclusion, significance and impact of study: This particular study should generate concerns and lead to the health
authorities expanding disease control measures in the region as there are significant levels of human activity at all five
locations where the animals were sampled. The pathogenesis of serovar Lepto 175 Sarawak also needs to be monitored
closely, considering its similarities to the pathogenic Leptospira wolffii.
Keywords: Leptospirosis, zoonotic disease, bats, rodents, wildlife
Abstract Aim: The proposed study was carried out to determine the extent of exposure to leptospirosis in non-human primates. Materials and Methods: Trapping of non-human primates was carried out opportunistically around the Bako National... more
Abstract
Aim: The proposed study was carried out to determine the extent of exposure to leptospirosis in non-human primates.
Materials and Methods: Trapping of non-human primates was carried out opportunistically around the Bako National Park and the Matang Wildlife Center in the vicinity of human settlements and tourism areas of Sarawak. Blood samples were obtained from the saphenous vein to determine the presence of antibodies by the Microscopic Agglutination Test (MAT) to 17 serovars of Leptopira commonly found in Malaysia.
Results: This study reports the screening of twelve primates (eight captive and four free ranging) for leptospirosis. Eight of the
12 monkeys (66.6%; 95% CI 34.9-90.1) reacted against one or two serovars of Leptospira (Lai and Lepto175). The Leptospira serovar Lai is considered pathogenic for different mammals, including humans. Leptospira Lepto 175 has been identified as an intermediate strain and further studies are being undertaken on this serovar.
Conclusion: These results are important as primates may act as reservoirs of Leptospira spp. for humans, which may potentially affect tourism (economic loss), conservation efforts and public health.
Aim: The proposed study was carried out to determine the extent of exposure to leptospirosis in non-human primates.
Materials and Methods: Trapping of non-human primates was carried out opportunistically around the Bako National Park and the Matang Wildlife Center in the vicinity of human settlements and tourism areas of Sarawak. Blood samples were obtained from the saphenous vein to determine the presence of antibodies by the Microscopic Agglutination Test (MAT) to 17 serovars of Leptopira commonly found in Malaysia.
Results: This study reports the screening of twelve primates (eight captive and four free ranging) for leptospirosis. Eight of the
12 monkeys (66.6%; 95% CI 34.9-90.1) reacted against one or two serovars of Leptospira (Lai and Lepto175). The Leptospira serovar Lai is considered pathogenic for different mammals, including humans. Leptospira Lepto 175 has been identified as an intermediate strain and further studies are being undertaken on this serovar.
Conclusion: These results are important as primates may act as reservoirs of Leptospira spp. for humans, which may potentially affect tourism (economic loss), conservation efforts and public health.
ABSTRACT Leptospirosis is a zoonotic disease caused by pathogenic leptospiral bacteria, which are transmitted directly or indirectly from animals to humans or animal to animal. The first phase of this proposed study was carried out to... more
ABSTRACT
Leptospirosis is a zoonotic disease caused by pathogenic leptospiral bacteria, which are transmitted directly or indirectly from animals to humans or animal to animal. The first phase of this proposed study was carried out to determine the extent of exposure to leptospirosis in wild mammals surrounded by human settlements around wildlife or tourism area (Wind Cave, Fairy Cave, Bako National Park and Matang Wildlife Center). This study reports an incident of leptospirosis among primates (three captive and two free ranging), rats, bats, squirrels and mongoose around Kuching, Sarawak area, which has been screened for Leptospirosis. Blood samples were obtained to determine the presence of antibodies through the microscopic agglutination test (MAT) using eighteen serovars of Leptospira commonly found in Malaysia as antigens. It was observed that four out of the five monkeys (80%), rats (9/4) (44%), bats (20/5) (20.8%), squirrels 4/4 (100%) and mongoose (1) (100%) reacted against one or more serovars of Leptospira. In this study antibody of five serovars of Leptospira interrrogans Copenheni, Leptospira interrrogans Lai, Leptospira interrrogans Pomona, Leptospira interrrogans Pyrogenes, Lepto 175* were detected. Serovars Copenhegeni, Lai, Pomona and Pyrogenes were considered pathogenic for different mammals including human beings. No information about serovars lepto 175 and further studies going on. This is providing information on the possible zoonotic importance of mammalian species in maintaining this disease in Sarawak. The transmission of leptospires in rats reported several incidents and between primates, bats, squirrels, mongoose and human is not reported elsewhere but this could create new reservoir and transmission routes and may affect the tourism, conservation effort and public health.
Leptospirosis is a zoonotic disease caused by pathogenic leptospiral bacteria, which are transmitted directly or indirectly from animals to humans or animal to animal. The first phase of this proposed study was carried out to determine the extent of exposure to leptospirosis in wild mammals surrounded by human settlements around wildlife or tourism area (Wind Cave, Fairy Cave, Bako National Park and Matang Wildlife Center). This study reports an incident of leptospirosis among primates (three captive and two free ranging), rats, bats, squirrels and mongoose around Kuching, Sarawak area, which has been screened for Leptospirosis. Blood samples were obtained to determine the presence of antibodies through the microscopic agglutination test (MAT) using eighteen serovars of Leptospira commonly found in Malaysia as antigens. It was observed that four out of the five monkeys (80%), rats (9/4) (44%), bats (20/5) (20.8%), squirrels 4/4 (100%) and mongoose (1) (100%) reacted against one or more serovars of Leptospira. In this study antibody of five serovars of Leptospira interrrogans Copenheni, Leptospira interrrogans Lai, Leptospira interrrogans Pomona, Leptospira interrrogans Pyrogenes, Lepto 175* were detected. Serovars Copenhegeni, Lai, Pomona and Pyrogenes were considered pathogenic for different mammals including human beings. No information about serovars lepto 175 and further studies going on. This is providing information on the possible zoonotic importance of mammalian species in maintaining this disease in Sarawak. The transmission of leptospires in rats reported several incidents and between primates, bats, squirrels, mongoose and human is not reported elsewhere but this could create new reservoir and transmission routes and may affect the tourism, conservation effort and public health.
Abstract Leptospirosis is an endemic disease in Malaysia and recently has received increasing attention mainly due to several recent incidents that have resulted in human mortality which have alarmed health professionals in Malaysia. The... more
Abstract
Leptospirosis is an endemic disease in Malaysia and recently has received increasing attention
mainly due to several recent incidents that have resulted in human mortality which have alarmed
health professionals in Malaysia. The increasing incidence of leptospirosis in forested regions is
associated with the bacteria infecting small wild mammals other than rats. Infection in wildlife could
result in the introduction of new serovars to humans and domesticated animals. More research on
leptospirosis and the screening of wildlife and humans near wildlife habitats is required to have a
better understanding of the involvement of wildlife in the disease.
Key words: infectious disease, leptospirosis, zoonotic disease, wildlife
Leptospirosis is an endemic disease in Malaysia and recently has received increasing attention
mainly due to several recent incidents that have resulted in human mortality which have alarmed
health professionals in Malaysia. The increasing incidence of leptospirosis in forested regions is
associated with the bacteria infecting small wild mammals other than rats. Infection in wildlife could
result in the introduction of new serovars to humans and domesticated animals. More research on
leptospirosis and the screening of wildlife and humans near wildlife habitats is required to have a
better understanding of the involvement of wildlife in the disease.
Key words: infectious disease, leptospirosis, zoonotic disease, wildlife
- by M. Thayaparan and +1
- •
- Veterinary Epidemiology
AbStrAct Introduction: Leptospirosis is endemic to tropical regions of the world and is re-emerging as a new danger to public health in Malaysia. the purpose of this particular study was to determine the common leptospiral serovars... more
AbStrAct
Introduction: Leptospirosis is endemic to tropical regions of
the world and is re-emerging as a new danger to public
health in Malaysia. the purpose of this particular study was
to determine the common leptospiral serovars present in
human communities living around wildlife
reserves/disturbed forest habitats. the objective of this
study was to estimate the seroprevalence of leptospirosis
and finding infecting serovars in villages surrounded
habitats where wildlife lives in Sarawak, Malaysia.
Methods: A cross-sectional serological survey of 198
humans was conducted in four villages around Kuching,
Sarawak between January 2011 and March 2012.
results: A seroprevalence of 35.9% (95%cI 29.2-43.0) to the
MAt was detected in the tested humans. Antibodies to
serovar Lepto 175 Sarawak were most commonly detected
(31.3%; 95%cI 24.9-38.3) and were detected in individuals at
all four locations. the presence of skin wounds (Or 3.1),
farm animals (Or 2.5) and rats (Or 11.2) were all
significantly associated with seropositivity in a multivariable
logistic regression model.
conclusions: the results of the current study are important
as wildlife may act as reservoirs of leptospires for humans.
Health authorities should expand disease control measures
to minimise the spill-over from wildlife to humans visiting,
living or working in the sampled locations. the pathogenic
status of serovar Lepto 175 Sarawak also requires further
investigation.
Introduction: Leptospirosis is endemic to tropical regions of
the world and is re-emerging as a new danger to public
health in Malaysia. the purpose of this particular study was
to determine the common leptospiral serovars present in
human communities living around wildlife
reserves/disturbed forest habitats. the objective of this
study was to estimate the seroprevalence of leptospirosis
and finding infecting serovars in villages surrounded
habitats where wildlife lives in Sarawak, Malaysia.
Methods: A cross-sectional serological survey of 198
humans was conducted in four villages around Kuching,
Sarawak between January 2011 and March 2012.
results: A seroprevalence of 35.9% (95%cI 29.2-43.0) to the
MAt was detected in the tested humans. Antibodies to
serovar Lepto 175 Sarawak were most commonly detected
(31.3%; 95%cI 24.9-38.3) and were detected in individuals at
all four locations. the presence of skin wounds (Or 3.1),
farm animals (Or 2.5) and rats (Or 11.2) were all
significantly associated with seropositivity in a multivariable
logistic regression model.
conclusions: the results of the current study are important
as wildlife may act as reservoirs of leptospires for humans.
Health authorities should expand disease control measures
to minimise the spill-over from wildlife to humans visiting,
living or working in the sampled locations. the pathogenic
status of serovar Lepto 175 Sarawak also requires further
investigation.
Aim: Materials and Methods: Results: Conclusion: Keywords: The proposed study was carried out to determine the extent of exposure to leptospirosis in non-human primates.
Leptospirosis is an endemic disease in Malaysia and recently has received increasing attention mainly due to several recent incidents that have resulted in human mortality which have alarmed health professionals in Malaysia. The... more
Leptospirosis is an endemic disease in Malaysia and recently has received increasing attention mainly due to several recent incidents that have resulted in human mortality which have alarmed health professionals in Malaysia. The increasing incidence of leptospirosis in forested regions is associated with the bacteria infecting small wild mammals other than rats. Infection in wildlife could result in the introduction of new serovars to humans and domesticated animals. More research on leptospirosis and the screening of wildlife and humans near wildlife habitats is required to have a better understanding of the involvement of wildlife in the disease.
Penicillin resistance mediated by b-lactamase activity has been reported previously in the anaerobic intestinal spirochaete Brachyspira pilosicoli, and a novel class D b-lactamase (OXA-63) hydrolysing oxacillin was described recently in a... more
Penicillin resistance mediated by b-lactamase activity has been reported previously in the anaerobic intestinal spirochaete Brachyspira pilosicoli, and a novel class D b-lactamase (OXA-63) hydrolysing oxacillin was described recently in a resistant human strain from France. In the current study, 18 B. pilosicoli strains from Australia and Papua New Guinea were tested for ampicillin and oxacillin susceptibility, and investigated for the presence of the class D b-lactamase gene bla OXA-63 using PCR. PCR products were amplified from seven human and four porcine strains that were penicillin resistant, but not from seven penicillin-sensitive strains. Sequence analysis of the whole gene amplified from seven of the resistant strains from humans and pigs revealed only minor nucleotide differences among them, but there were significant differences compared with bla OXA-63 . The predicted amino acid sequence of the enzyme from all seven strains had the same key structural motifs as the previously reported OXA-63, but two variants with 94-95 % identity with OXA-63 were identified. OXA-136 had an additional amino acid and 12 other consistent amino acid substitutions compared with OXA-63. OXA-137 had the same differences compared with OXA-63 as OXA-136, but had an additional amino acid substitution at position 16. No structures consistent with integrons or transposons were found in the nucleotide sequences in the vicinity of bla OXA-136 in partially sequenced B. pilosicoli strain 95/1000, and the GC content (25.2 mol%) of the gene was similar to that of the whole genome. The gene encoding OXA-136 from B. pilosicoli strain Cof-10 conferred penicillin resistance on Escherichia coli. This study shows that penicillin resistance in human and porcine B. pilosicoli strains from Australia is associated with the production of two variants of OXA-63, and that susceptible strains lack the genes encoding OXA-63 or the variants.
- by Tom La and +2
- •
- GC content, Anti-Bacterial Agents, Base Sequence
Brachyspira hyodysenteriae is an anaerobic intestinal spirochete that colonizes the large intestine of pigs and causes swine dysentery, a disease of significant economic importance. The genome sequence of B. hyodysenteriae strain WA1 was... more
Brachyspira hyodysenteriae is an anaerobic intestinal spirochete that colonizes the large intestine of pigs and causes swine dysentery, a disease of significant economic importance. The genome sequence of B. hyodysenteriae strain WA1 was determined, making it the first representative of the genus Brachyspira to be sequenced, and the seventeenth spirochete genome to be reported. The genome consisted of a circular 3,000,694 base pair (bp) chromosome, and a 35,940 bp circular plasmid that has not previously been described. The spirochete had 2,122 protein-coding sequences. Of the predicted proteins, more had similarities to proteins of the enteric Escherichia coli and Clostridium species than they did to proteins of other spirochetes. Many of these genes were associated with transport and metabolism, and they may have been gradually acquired through horizontal gene transfer in the environment of the large intestine. A reconstruction of central metabolic pathways identified a complete set of coding sequences for glycolysis, gluconeogenesis, a non-oxidative pentose phosphate pathway, nucleotide metabolism, lipooligosaccharide biosynthesis, and a respiratory electron transport chain. A notable finding was the presence on the plasmid of the genes involved in rhamnose biosynthesis. Potential virulence genes included those for 15 proteases and six hemolysins. Other adaptations to an enteric lifestyle included the presence of large numbers of genes associated with chemotaxis and motility. B. hyodysenteriae has diverged from other spirochetes in the process of accommodating to its habitat in the porcine large intestine.
- by David Hampson and +1
- •
- Base Sequence, Pentose Phosphate Pathway
Background: The anaerobic spirochete Brachyspira pilosicoli colonizes the large intestine of various species of birds and mammals, including humans. It causes ''intestinal spirochetosis'', a condition characterized by mild colitis,... more
Background: The anaerobic spirochete Brachyspira pilosicoli colonizes the large intestine of various species of birds and mammals, including humans. It causes ''intestinal spirochetosis'', a condition characterized by mild colitis, diarrhea and reduced growth. This study aimed to sequence and analyse the bacterial genome to investigate the genetic basis of its specialized ecology and virulence.
A total of sixty surgically castrated male pigs (Large White £ Landrace) weighing 31·2 (SD 4·3) kg were used in a randomised block experiment to examine the effect of added dietary inulin (0, 20, 40 and 80 g/kg) on the occurrence of swine... more
A total of sixty surgically castrated male pigs (Large White £ Landrace) weighing 31·2 (SD 4·3) kg were used in a randomised block experiment to examine the effect of added dietary inulin (0, 20, 40 and 80 g/kg) on the occurrence of swine dysentery (SD) and on fermentation characteristics in the large intestine after experimental challenge with the causative spirochaete Brachyspira hyodysenteriae. The pigs were allowed to adapt to the diets for 2 weeks before each pig was challenged orally four times with a broth culture containing B. hyodysenteriae on consecutive days. Increasing dietary levels of inulin linearly (P¼ 0·001) reduced the risk of pigs developing SD; however, eight out of fifteen pigs fed the diet with 80 g/kg inulin still developed the disease. The pH values in the caecum (P¼0·072) tended to decrease, and in the upper colon, the pH values did decrease (P¼0·047) linearly with increasing inulin levels in the diets, most probably due to a linear increase in the concentration of total volatile fatty acids in the caecum (P¼ 0·018), upper colon (P¼0·001) and lower colon (P¼0·013). In addition, there was a linear reduction in the proportion of the branched-chain fatty acids isobutyric acid and isovaleric acid in the caecum (P¼ 0·015 and 0·026) and upper colon (P¼ 0·011 and 0·013) with increasing levels of dietary inulin. In conclusion, the present study showed that a diet supplemented with a high level of inulin (80 g/kg) but not lower levels reduced the risk of pigs developing SD, possibly acting through a modification of the microbial fermentation patterns in the large intestine.
Swine dysentery (SD) is an important endemic infection in many piggeries, and control can be problematic. In this study the efficacy of BmpB, a 29.7 kDa outer-membrane lipoprotein of Brachyspira hyodysenteriae, was evaluated as an SD... more
Swine dysentery (SD) is an important endemic infection in many piggeries, and control can be problematic. In this study the efficacy of BmpB, a 29.7 kDa outer-membrane lipoprotein of Brachyspira hyodysenteriae, was evaluated as an SD vaccine. Non-lipidated BmpB was expressed in Escherichia coli as a histidine-tagged protein (His 6 -BmpB), or as an 8 kDa carboxy-terminal portion fused to maltose-binding protein (MBP-BmpB-F604). The purified proteins were emulsified with oil-based adjuvants for intramuscular (im) administrations. In experiment 1, 20 weaner pigs were vaccinated im with 1 mg of His 6 -BmpB. After 3 weeks, 10 received 1 mg of the protein orally (im/oral), and 10 received 1 mg im (im/im). Ten acted as unvaccinated controls. In experiment 2, 12 pigs were vaccinated im with 1 mg of His 6 -BmpB, and 12 with 1 mg of MBP-BmpB-F604. Three weeks later, each was given 1 mg of the same protein orally. Twelve pigs acted as unvaccinated controls. All pigs were challenged orally with B. hyodysenteriae 2 weeks after their second vaccination. In both experiments, all pigs vaccinated with His 6 -BmpB developed serum antibodies to BmpB, and oral administration provided boosting of im-induced serum antibody titres. In experiment 1, seven non-vaccinated control pigs developed dysentery and severe colitis. Three pigs vaccinated im/oral developed diarrhoea; two had severe colitis and one had mild lesions. Four pigs vaccinated im/im developed diarrhoea; one had severe colitis and the others had mild lesions. In experiment 2, six control pigs developed SD with severe colitis. Two His 6 -BmpB vaccinated pigs developed SD with mild colitis. Nine pigs vaccinated with MBP-BmpB-F604 developed SD and severe colitis. Overall, 50-70% of controls and 17-40% of His 6 -BmpB vaccinated pigs developed disease. Vaccination with MBP-BmpB-F604 did not induce serum titres against BmpB, nor confer protection. The incidence of disease for the three His 6 -BmpB vaccinated groups was significantly less (P = 0.047) than for the control groups, with a ∼50% reduction. BmpB appears to have potential as an SD vaccine component.
The intestinal spirochete Brachyspira hyodysenteriae is an important pathogen in swine, causing mucohemorrhagic colitis in a disease known as swine dysentery. Based on the detection of significant linkage disequilibrium in multilocus... more
The intestinal spirochete Brachyspira hyodysenteriae is an important pathogen in swine, causing mucohemorrhagic colitis in a disease known as swine dysentery. Based on the detection of significant linkage disequilibrium in multilocus sequence data, the species is considered to be clonal. An analysis of the genome sequence of Western Australian B. hyodysenteriae strain WA1 has been published, and in the current study 19 further strains from countries around the world were sequenced with Illumina technology. The genomes were assembled and aligned to over 97.5% of the reference WA1 genome at a percentage sequence identity better than 80%. Strain regions not aligned to the reference ranged between 0.2 and 2.5%. Clustering of the strain genes found on average 2,354 (88%) core genes, 255 (8.6%) ancillary genes and 77 (2.9%) unique genes per strain. Depending on the strain the proportion of genes with 100% sequence identity to WA1 ranged from 85% to 20%. The result is a global comparative ...
- by David Hampson and +2
- •
Pigs are colonized by two pathogenic species of anaerobic intestinal spirochetes, Brachyspira hyodysenteriae and B. pilosi- coli. B. hyodysenteriae causes swine dysentery, a severe muco- hemorrhagic diarrheal disease (10), while B.... more
Pigs are colonized by two pathogenic species of anaerobic intestinal spirochetes, Brachyspira hyodysenteriae and B. pilosi- coli. B. hyodysenteriae causes swine dysentery, a severe muco- hemorrhagic diarrheal disease (10), while B. pilosicoli causes porcine intestinal spirochetosis, a milder colitis that also occurs in other host species (9). Because of the economic impact of these diseases on pig production, rapid diagnostic
- by Tom La and +2
- •
- Microbiology, Species Specificity
This study investigated whether feeding different wheat varieties to laying hens could influence colonization with the intestinal spirochaete Brachyspira intermedia. Fifty ISA-Brown laying hens were divided into two groups. One group were... more
This study investigated whether feeding different wheat varieties to laying hens could influence colonization with the intestinal spirochaete Brachyspira intermedia. Fifty ISA-Brown laying hens were divided into two groups. One group were fed a laying-hen diet formulated with wheat variety Westonia, and one were fed the diet incorporating variety Stilleto. Each group was divided into 15 hens experimentally infected with B. intermedia and 10 uninfected controls. The 30 infected hens were housed in individual cages in one room, and the controls were similarly housed in another room. Following administration of cultures of B. intermedia strain HB60 by crop-tube over 3 days, cloacal swabs were taken for spirochaete culture every 3 to 4 days. The water content of caecal faeces, and egg production and body weight were measured weekly. The hens were killed after 4 weeks, the caeca cultured for spirochaetes and the viscosity of the ileal contents measured. A total of 48/120 (40%) of the excreta samples from infected hens fed Westonia contained B. intermedia, compared with 21/120 (17.5%) for Stiletto (P/0.0002). The ileal viscosity of hens fed Westonia also was higher (P /0.048), but viscosity was not clearly related to the non-starch polysaccharide (NSP) content of the wheats. Westonia had a slightly higher total NSP content than Stiletto, but the ratio of soluble to insoluble NSP was lower. Infected hens developed wetter excreta, but neither infection nor diet altered egg production. In conclusion, the wheat variety can influence colonization with B. intermedia, apparently through diet-related alterations in the intestinal microenvironment.
3 Supplied per kilogram of diet: 60.0 mg of Fe (FeSO 4 ); 10.0 mg of Cu (CuSO 4 ); 40.0 mg of Mn (MnO); 100.0 mg of Zn (ZnO); 0.30 mg of Se (Na 2 SeO 3 ); 0.50 mg of I (KI); 0.20 mg of Co (CoSO 4 ); vitamin A, 7,000 IU; vitamin D 3 ,... more
3 Supplied per kilogram of diet: 60.0 mg of Fe (FeSO 4 ); 10.0 mg of Cu (CuSO 4 ); 40.0 mg of Mn (MnO); 100.0 mg of Zn (ZnO); 0.30 mg of Se (Na 2 SeO 3 ); 0.50 mg of I (KI); 0.20 mg of Co (CoSO 4 ); vitamin A, 7,000 IU; vitamin D 3 , 1,400 IU; vitamin E, 20.0 mg; vitamin K 3 , 1.0 mg; thiamine, 1.0 mg; riboflavin, 3.0 mg; pyridoxine, 1.5 mg; vitamin B 12 , 0.015 mg; pantothenic acid, 10.0 mg; folic acid, 0.2 mg; niacin, 12.0 mg; and biotin, 0.03 mg. 4 PPE: potential physiological energy (Boisen, 2001). 5 SID: standardized ileal digestible. 6 NCP: noncellulosic polysaccharides. 7 NSP: nonstarch polysaccharides.
- by Tom La and +2
- •
- Animal Science
Cecal samples from laying chickens from 25 farms with a history of decreased egg production, diarrhea, and/or increased feed conversion ratios were examined for anaerobic intestinal spirochetes of the genus Brachyspira. Seventy-three... more
Cecal samples from laying chickens from 25 farms with a history of decreased egg production, diarrhea, and/or increased feed conversion ratios were examined for anaerobic intestinal spirochetes of the genus Brachyspira. Seventy-three samples positive in an immunofluorescence assay for Brachyspira species were further examined using selective anaerobic culture, followed by phenotypic analysis, species-specific PCRs (for Brachyspira hyodysenteriae, B. intermedia, and B. pilosicoli), and a Brachyspira genus-specific PCR with sequencing of the partial 16S rRNA gene products. Brachyspira cultures were obtained from all samples. Less than half of the isolates could be identified to the species level on the basis of their biochemical phenotypes, while all but four isolates (5.2%) were speciated by using PCR and sequencing of DNA extracted from the bacteria. Different Brachyspira spp. were found within a single flock and also in cultures from single chickens, emphasizing the need to obtain multiple samples when investigating outbreaks of avian intestinal spirochetosis. The most commonly detected spirochetes were the pathogenic species pulli" also were identified. Pathogenic B. alvinipulli was present in two flocks, and this is the first confirmed report of B. alvinipulli in chickens outside the United States. Brachyspira hyodysenteriae, the agent of swine dysentery, also was identified in samples from three flocks. This is the first confirmed report of natural infection of chickens with B. hyodysenteriae. Experimental infection studies are required to assess the pathogenic potential of these B. hyodysenteriae isolates.
- by Tom La and +2
- •
- Fluorescent Antibody Technique, POULTRY DISEASES
Swine dysentery (SD) results from infection of the porcine large intestine with the anaerobic intestinal spirochaete Brachyspira hyodysenteriae. Diagnosis of SD traditionally has relied on detecting the spirochaete in the faeces of... more
Swine dysentery (SD) results from infection of the porcine large intestine with the anaerobic intestinal spirochaete Brachyspira hyodysenteriae. Diagnosis of SD traditionally has relied on detecting the spirochaete in the faeces of acutely affected pigs. To date simple and reliable serological assays that can be applied as a diagnostic tool at the herd level have not been available. In the current study a recombinant histidine tagged 29.7 kDa lipoprotein of B. hyodysenteriae (His 6 -Bhlp29.7) was used as an ELISA plate-coating antigen. Sera (n = 1121) from slaughter-aged pigs on 19 farms were tested in this ELISA. Following optimization of the ELISA conditions using hyperimmune control sera, a set of 464 sera from slaughter-aged pigs from five herds where SD did not occur was tested. From these results a suitable cut-off value for herd negativity was defined as the mean optical density reading plus three standard deviations. Testing of 337 pig sera from six farms with SD then showed that the sensitivity of the test at the herd level was 100%, with all six farms having one or more serum samples exceeding the cut-off value for negativity. Finally, 320 sera from eight herds suspected of having SD were examined. Four of these herds were shown to have pigs with titres consistent with SD. The true health status of the other four herds that were serologically negative could not be confirmed. In conclusion, when used on sets of 40 sera from slaughter-aged pigs the His 6 -Bhlp29.7 ELISA as established proved to be a useful adjunct to the diagnosis of SD at the herd level. #