4. Contd…
• Clostridium novyi Type A:
Pathogenic
Gas gangrene in man & animal (Big head in Ram)
Produce mainly Alpha toxin, a necrotizing and lethal toxin.
• Clostridium novyi Type B:
• Pathogenic
• Produce both alpha toxin and beta toxin
• Black disease (infectious necrotic hepatitis) in sheep.
5. Contd….
• Clostridium novyi Type C:
non-pathogenic to laboratory animals
• Clostridium haemolyticum(Clostridium novyi type D)
Causative agent of Bacillary haemoglobinuria
Soil borne bacteria
Produce mainly beta toxin
Produce alpha toxin if infected with phage of Clostridium
novyi Type A
C. haemolyticum clustered with C. botulinum types C & D &
C. novyi type B (16S r RNA gene analysis).
6. Introduction
Bacillary haemoglobinuria
• Red water
disease/Infectious
icterohaemoglobinuria/
Clostridial
icterohaemoglobinuria
Babesiosis
• Red Fever/Tick fever/texas
fever/Piroplasmosis
7. Bacillary haemoglobinuria
• An acute, infectious, toxic disease that primarily affects young cattle
on pasture (but may also affect sheep).
• Causative agent- Clostridium haemolyticum(Clostridium novyi
type D)
• This disease can be experimentally produced in rabbit, guinea
pig and mice.
• This organism is often found in livers of healthy cattle.
• The organism has been isolated from bones a year after the
death of an animal from bacillary haemoglobinuria.
8. Occurrence-
The disease occurs mainly in United states.
Risk factor-
Animal risk factor-
Cattle are usual species involved
Sheep occasionally involved
Pig rarely involved
Environmental risk factor-
Summer and autumn
This disease is highly prevalent in those areas where there is preponderance of
fascioliasis.
Swampy , low lying area, alkaline soil.
Contaminated hay
Epidemiology
9. Pathogenesis
• Endogenous infection
• Clostridial endospore are dormant in the liver (Kuffer cells).
{Ingestion organism multiply in intestinal tract enter into
systemic circulation localized into liver dormant stage}
• Local liver damage and necrosis (usually caused by a migrating liver
fluke infection or much less commonly due to a high nitrate diet)
• The bacteria spores germinate into vegetative cells that multiply and
produce toxins
10. Toxin of C.haemolyticum
• Phospholipase C (PLPC):
Major Toxin
Beta toxin
Possesses hemolytic activity
Responsible for necrosis of hepatocytes, lyses erythrocytes, and
damages capillary endothelium which leads to hemoglobinuria and
loss of vascular fluids into tissues and serous cavities.
• Two minor toxins of C. haemolyticum,
• the η-toxin (tropomyosinase)
• the Θ-toxin which causes opalescense of egg yolk
11. CLINICAL SIGNS
• Sudden onset of fever, severe depression, abdominal pain
(arched back) and labored breathing;
• Yellow color or pale of gum and eye sclera (jaundice/icteric)
with pinpoint red blood spots (petechia).
• Dark purple/red “port wine” colored urine
(hemoglobinuria) and dark colour feaces.
An opened urinary bladder showing dark
red urine in the lumen.
PM finding s of jaundice / icterus
12. P M finding of a patient of bacillary haemoglobinuria showing zahn’s infraction –
conical area of liver cell damage
Rigor mortis develops quickly.
13. Bacterial Hepatitis
THE CIRCUMSCRIBED ROUND TARGET-LIKE FOCI
(SPOTS) ARE CLASSICAL LESIONS OF
CAMPLYOBACTER
NECROBACILLOSIS IS DUE TO FUSOBACTERIUM
NECROPHORUM INFECTION
14. FOCAL HEPATITIS AND NECROSIS DUE TO
CLOSTRIDIUM PILIFORME
CORYNEBACTERIUM PSEUDOTUBERCULOSIS
CAUSES CHARACTERISTIC LESIONS IN THE
LIVER OF SHEEP AND GOATS.
GRANULOMATOUS REACTION DUE TO
MYCOBACTERIUM BOVIS
BLACK DISEASE (OR INFECTIOUS NECROTIC
HEPATITIS)
16. Diagnosis
Clinical signs- haemolysis and haemoglobinuria
Blood picture-Low R.B.C count and low Hb %
Lesion – Pathognomic liver infarction
FAT test
Serum agglutination test
Gram staining of direct smears
Isolation and biochemical characterization
Peroxidase-antiperoxidase (PAP) technique
PCR test based on flagellin gene.
Multiplex PCR system based on the fliC sequence
17. Fig. 1 (A) PCR amplification from total DNA of C. chauvoei strain ATCC 10092 T , C. septicum strain JCM 8144 T , C. novyi type A
strain JCM 1406 T , C. novyi type B strain ATCC 25758 and C. haemolyticum strain ATCC 9650 T PCR was done using the primers
FlaCF and FlaNR. Lane M, molecular size marker (pHY marker, TaKaRa Shuzo Co. Ltd., Japan); lane 1, C. chauvoei strain ATCC
10092T
; lane 2, C. septicum strain JCM 8144T
; lane 3, C. novyi type A strain JCM 1406T
; lane 4, C. novyi type B strain ATCC 25758;
lane5, C. haemolyticum strain ATCC 9650T
. (B) Structure of the PCR products.
Yoshimasa Sasaki , Akemi Kojima , Hiroshi Aoki , Yasuaki Ogikubo , Noriyasu Takikawa , Yutaka Tamura
Phylogenetic analysis and PCR detection of Clostridium chauvoei , Clostridium haemolyticum , Clostridium novyi types A
and B, and Clostridium septicum based on the flagellin gene
Veterinary Microbiology, Volume 86, Issue 3, 2002, 257 - 267
http://dx.doi.org/10.1016/S0378-1135(02)00002-0
18. Fig. PCR amplification of C. chauvoei , C. haemolyticum , C. novyi type A, C. novyi type B and C. septicum
-specific PCR products. Lane M, molecular size marker (100 bp molecular ruler, Bio-Rad Laboratories Co. Ltd.,
USA
lane 1, C. chauvoei strain ATCC 10092T
; lane 2, C. septicum strain JCM8144T
; lane 3, C. novyi type A strain JCM
1406T
; lane 4, C. novyi type B strain ATCC 25758; lane 5, C. haemolyticum strain ATCC 9650T
.
Yoshimasa Sasaki , Akemi Kojima , Hiroshi Aoki , Yasuaki Ogikubo , Noriyasu Takikawa , Yutaka Tamura
Phylogenetic analysis and PCR detection of Clostridium chauvoei , Clostridium haemolyticum , Clostridium novyi types A
and B, and Clostridium septicum based on the flagellin gene
Veterinary Microbiology, Volume 86, Issue 3, 2002, 257 - 267
http://dx.doi.org/10.1016/S0378-1135(02)00002-0
19. • Gram positive (but rapidly become Gram negative) straight rods.
• Oval, sub-terminal, bulging Spore
• Most strain are motile by means of peritrichous flagella.
• All strain are actively proteolytic but not saccharolytic.
• All strain are not strict anaerobes
20. Optimal growth at 37°C with anaerobic gas mixture (80% N2, 10% CO2,
10% H2)
Sheep or rabbit blood agar- haemolysis
Cooked meat broth- meat turns black with putrid smell
Cultures in PYG broth are turbid, usually with a granular or flocculent
sediment (pH - 5.0–5.5 for 24 h.)
Major products of metabolism in PYG broth: propionic, acetic and butyric
acids, abundant H2.
Conti…
21. Biochemical properties
Positive results for
H2 production(large amount)
hydrolysis gelatin
indole production
lecithinase
substrate utilized and/or acid produced from glucose.
Variable results for substrate utilized and/or acid produced from:
fructose, galactose (weak), glycerol, inositol, maltose (weak),
mannose, melezitose (weak), melibiose (weak), raffinose (weak),
rhamnose (weak), ribose & trehalose (weak)
23. Differential Diagnosis
Haemoglobinuria (red urine) may be arise due to other diseases
also.
• Leptospirosis-
Fever, jaundice and haemoglobinuria.
No liver infarction
Leptospira can be demostrated in urine by dark-field
technique.
• Anaplasmosis
Anemia and icterus
No liver infarction
Anaplasma can be demostrated in blood smear.
24. • Babesiosis
High rise of temperature
Babesia can be demostrated in blood smear.
No liver infarction.
Capillary tube agglutination test
• Post parturient haemoglobinuria
Profound Anemia without rise of temperature
History of ingestion of curiferous plant
No liver infarction
Respond to phosphate therapy
25. • Enzootic Heamaturia:
Red urine without rise of temperature
History of ingestion of Bracken fern
Extensive lesions in the wall of urinary bladder.
Respond to thiamine therapy.
• Myoglobinuria
No rise of temperature.
History of grain engorgement
Muscular degeneration and increased CPK.
Ammonium sulphate test.
26. • CHRONIC COPPER POISONING (sheep)
BRONZE COLOURED LIVER
JAUNDICE OF THE GUMS JAUNDICE OF THE
CONJUNCTIVAE
AND THIRD
EYELID
JAUNDICE OF THE
SCLERA OF THE EYE
'GUN METAL' APPEARANCE
OF THE KIDNEYS
27. Treatment
Early treatment with penicillin or oxytetracycline is
essential as the bacteria are restricted to areas of liver
damage
Depending on the severity of the disease, IV fluid
therapy and/or blood transfusion may also be required
Hemopoiesis should be facilitated by the provision of
vitamin and mineral supplements containing iron and cu.
28. Control
Cl. haemolyticum bacterin is a whole cell, formalin-
inactivated bacterin adsorbed on aluminum hydroxide.
Vaccination is recommended in the spring, prior to the
expected occurrence of the disease. (This disease occurs
mainly in the late summer and autumn.)
Annual boosters are necessary.
It is recommended to vaccinate every 6 months where
constant exposure is likely.
Vaccinate calves at 3 to 4 months of age
29. Control
SITEGUARD MLG, CAVALRY 9 and ELECTROID 7
bacterin-toxoid vaccine for the vaccination of healthy cattle and
sheep against diseases caused by Cl. chauvoei, Cl.septicum, Cl.
haemolyticum, Cl. novyi Type B, Cl. Sordellii, Cl.
perfringens Types C&D
Other control methods include rotating pastures and controlling
liver fluke infections.
Species:cowTissue:kidney, grossMorphologic DX:Hemoglobinuria, severeEtiologic DX:BACILLARY HEMOGLOBINURIA, DUE TO CLOSTRIDIUM HEMOLYTICUMLesion or DX Name:Lesion Description:Extremely diffusely dark kidneys