Q & A on Treating Cattle
for Bovine Respiratory Disease (BRD) In this easy-to-read paper,
you’ll learn about the common causes of BRD and how they relate to
various disease situations, the economics of those situations, a disease
concept known as "smoldering pneumonia", and what you can do
to stay ahead of BRD. Q. Which three bacteria
are the most common causes of BRD? A. Mannheimia (Pasteurella) haemolytica
Pasteurella multocida
Haemophilus somnus Q. How do you know which
one is causing the disease in the calves you’re treating today? A.
Can’t know for sure. Virtually 100 percent of BRD cases are multi-organism
infections, with more bacteria invading as the disease advances.a Q. What can happen if you
don’t kill all the bacteria involved? A. Costly repulls and
chronics, and – most costly – death loss later in the feeding
period. Q. So, what bacteria should
you treat for? A. All three common
causes of BRD. Start early and use a broad-spectrum antibiotic.
Probable Causes of Bovine Respiratory Disease Situations
Acute Cases - M. haemolytica:
Incidence Index = 100b
Causes sudden and severe disease. - Pasteurella multocida:
Incidence Index = 80b
Frequently accompanies M. haemolytica.
Repulls - Animal not completely cleared
of bacteria during first treatment.
- Reinfection possible in
animals with compromised immune systems.
Chronics - Animal not completely cleared
of bacteria during earlier treatments.
- On-going infection with
resistant population of bacteria possible.
Death Loss After 30 Days on
Feed - Smoldering pneumonia caused
by P. multocida.
- Low-level, smoldering infection
by Haemophilus somnus.
"Pasteurella multocida
is commonly associated with chronic BRD that is described as smoldering
– a low-level infection that doesn’t make calves sick enough
to be pulled. Affected animals continue eating and possibly gaining
weight, while the infection continues to spread and cause extensive
lung damage. Often, such an infection
does not become apparent until the animal breaks back with a more acute
M. haemolytica infection. Or the infection may smolder long enough
to involve a large percent of the lung before it becomes clinical. Often,
clinical detection is too late in the disease process for treatment
to be effective. Widespread mortality results." c
Economics of Bovine Respiratory Disease: Where the Dollars Go
| Disease Situation | Primary Economic Considerations | | Acute cases | Treatment cost and labor | | Repulls | Treatment cost and labor
Retreatment cost and labor
Performance loss | | Chronics | Treatment cost and labor
Retreatment cost and labor
Retreatment cost and labor
Performance loss
Carcass value loss | Death loss after
30 days on feed | Treatment cost and labor
Performance loss
Carcass value loss
Purchase price expense
Yardage expense
Feed expense
Customer dissatisfaction* |
| *A concern of custom feeders
|
Veterinarians
and cattle feeders agree that approximately 66 percent to 75 percent of
death loss occurs after 30 days on feed.d
What You Can Do to Help Stay Ahead of Bovine Respiratory Disease
- Treat affected animals early,
particularly high-risk cattle, before extensive and irreversible lung
damage occurs.
- Treat with a broad-spectrum
antibiotic that is active against the 3 major bacteria – M.
haemolytica, P. multocida, H. somnus – because
you cannot know for certain what the causative ones are. Reducing the
bacterial population will help limit repulls, chronics, and costly death
loss.
While M. haemolytica is believed responsible for most acute cases
of BRD, Texas Veterinary Medical Diagnostic System recordsb show
a high incidence of P. multocida infection also:
Number of Isolates from Lung Tissue and Nasal Swabs, 1992-1998
| | 1992 | 1993 | 1994 | 1995 | 1996 | 1997 | 1998 | | M. haemolytica | 581 | 692 | 369 | 675 | 274 | 369 | 291 | | P. multocida | 476 | 480 | 361 | 432 | 239 | 317 | 273 |
NUFLOR is effective against M. haemolytica, P. multocida,
and H. somnus. It offers activity against the three bacteria
most likely to be causing BRD.
- Treat with an antibiotic
to which the most common BRD bacteria have shown a high degree of sensitivity.
Antibiotic sensitivity datad reported by laboratories in
Kansas, Nebraska, Oklahoma and Texas from 1995 through 1998 demonstrate
bacteria’s high level of sensitivity to florfenicol:
Sensitivity of Isolates to Florfenicol, 1995-1998
| State Laboratories | Independent Laboratories | | Organism | # Tested | % Sensitive | Organism | # Tested | % Sensitive | | M. haemolytica | 923 | 99 | M. haemolytica | 586 | 99 | | P. multocida | 726 | 99 | P. multocida | 402 | 99 | | H. somnus | 184 | 99 | H. somnus | 66 | 99 |
NUFLOR can help lower the costs of BRD. Its high level of activity against
3 major bacterial causes means animals can respond before a long-standing
and expensive infection occurs.
- For best results, provide
therapy for 4 days and observe animals daily for 5 days to fully assess
treatment response.
An ideal treatment regimen can be easily accomplished with NUFLOR: 4
days of therapy with one dose sub-Q or 2 doses IM 2 days apart.
Footnotes: a Mayer, John,
DVM, Midlands Consulting, Omaha, NE. Observations on the complexity of
bovine respiratory disease. Animal Health Forum, Fall 1995. b Personal communication,
Dr. Robert Sprowls. c Sprowls, Robert,
DVM, PhD and Post, Karen, DVM, MS, Texas A&M Veterinary Diagnostic
Laboratory, Amarillo, TX. An examination of four bovine respiratory bacterial
pathogens. Veterinary Scope, Volume 2, No. 2, 1992. d Data on file,
Intervet/Schering-Plough Animal Health.
 
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