Preventing and treating respiratory disease in calves

Respiratory disease is a common problem in calves and is usually associated with housing and the calves’ ability to fight diseaseBasic preventive principles are that calves should be kept clean, drywarm and receive plenty of good quality colostrum straight away. 

Calf housing must have appropriate drainage – 1 in 20 slope to drain urine away from beds. It should be protocol to remove wet, soiled bedding and replace with fresh, dry bedding. Reducing stocking density can also reduce dirt build up and disease pressure. 

Air quality and adequate ventilation is key to prevent respiratory disease. Calf accommodation should have a low level of air movement (0.2 m/s) so calves do not get cold but enough to replace stale, contaminated air within the shed with fresh air from outside. Adding spaced cladding to walls to provide greater airflow is one solution, or mechanical ventilation is another option, as seen in this video Designing buildings to improve calf health  

This farmer was very pleased with the positive-pressure ventilation tube installed in her purpose-built calf shed, which removed stale air, helped reduce levels of pneumonia, subsequent treatments and mortality. 

Newborn calves will feel cold below 10°C. It is important to provide calves with enough bedding to be able to nest in and it is worth considering calf jackets as seen here Optimising calf health – Managing respiratory disease . 

If calves receive enough colostrum at birth, many are able to fight off mild viral infections themselves. Some might develop a fever and go off their feed; in these cases, it is recommended treating with anti-inflammatories so calves continue feeding. If cases worsen or do not respond within 24-48hrs, a discussion with your vet about antibiotic treatment may be necessary. 

Preventing and treating diarrhoea (caused by rotavirus/coronavirus/cryptosporidium) in pre-weaned calves

‘Prevention is better than cure’ for diarrhoea. This involves ensuring optimal hygiene at calving and in calf accommodation, regularly removing soiled bedding and steam cleaning, disinfecting and leaving calf pens empty, dry and in sunlight to rest between individuals/batches of calves. It is also important to clean feeding equipment with hot water and detergent between each feed. Depending on the bugs present on a farm, it is worth considering vaccination in adult cows to prevent the transmission of diseases like rotavirus to calves. 

When calves have diarrhoea, it is crucial to keep them hydrated and fed, as demonstrated in this video Optimising calf health – Managing Cryptosporidosis  

 

This farmer continues to feed milk as this provides the calf with energy, which supports their immune system in fighting disease. They also emphasize the importance of providing oral rehydration solutions to prevent dehydration, which can be purchased or a homemade solution can be usedThis farmer combines glucose, salt, bicarbonate of soda, and a small amount of potassium chloride in a solution to provide calves with the necessary electrolytes when dehydrated. The imbalance in electrolytes caused by fluid loss from diarrhoea also causes acidosis, so the farmer provides a couple of tablespoons of bicarbonate of soda in the milk feeds to help combat this. 

Use of Non-Steroidal Anti-Inflammatory Drugs (NSAIDhelps to reduce fever and symptoms caused by inflammation so that calves feel better and continue to drink. Taking faecal samples to test for what is causing the diarrhoea so that the most effective treatment can be selected is key. These principles have led to this farmer reducing their calf mortality from 8% to zero and only using antimicrobials occasionally. 

Improving calf housing with polycarbonate calf pen sections

It is standard practice to thoroughly clean calf housing and pens between batches. This can be time consuming and the material that the pens are made of has an impact on how effective the cleaning and disinfection process will be. It is also important to have similar sized calves in each batch to reduce competition for food and the spread of infection from older to younger calves 

This dairy farmer from the UK has designed and installed a novel calf pen consisting of a metal framework with a Jourdain locking yoke front and tailor-made side slots, which allow the insertion of polycarbonate side partitions. The polycarbonate side partitions can be removed and inserted quickly and easily, allowing flexibility in pen size and therefore number of calves per pen. The farmer groups 2-4 calves per pennoting that this helps to encourage the calves to feed, reduces stress and avoids the negative effects of dominant bigger calves. Managing groups of calves of similar sizes/ages would otherwise be problematic in aallyearround calving herd. Additionallythe polycarbonate partition is very easy for the farmer to stream clean, saving time and improving the effectivity of the cleaning and disinfection process 

The calf shed includes a ventilation tube to improve airflow as well as sloping floors to aid drainage, keeping the calf beds dry. Improving ventilation and reducing moisture from damp beds helps lower the incidence of lung diseaseThis updated calf accommodation has made management much easier for staff and reduced calf mortality rates significantly (from 8% to 0%), with a corresponding reduction in antimicrobial treatmentsThis has led to reduced costs through better use of staff time and fewer calves needing treatment. 

Health management and welfare of young dairy animals – impact on antibiotic use

 

Good husbandry practices are an important contributor to animal health on the farm. Young dairy animals that are cared for appropriately are in a better state to combat their ailments, thus reducing need for antibiotics. At the heart of all these challenges is the overall benefit of keeping calves feeling well.  The International Dairy Federation has developed a set of health recommendations regarding the welfare of young dairy animals to minimise the use of antimicrobials. Calving areas should have high standards of hygiene, be sheltered, and have appropriate bedding. An appropriate birthing plan should consider issues such as choice of sire; safe birthing facilities; and regular checking of animals to ensure prompt, experienced help is available if needed. Newborn dairy animals must receive adequate colostrum, both quantity and quality. The frequency of inspection of stock will depend on the circumstances and management systems. More than one daily inspection is particularly important in the case of animals close to giving birth, newborn, and newly weaned calves. If disbudding is performed, should be done before 2 months of age and follow appropriate birthing and weaning practices. Calves should not be offered for sale until they are sufficiently hardy to be transported. Adequate body weight and dry navel are good indicators. Appropriate transport conditions stipulated in national welfare regulations or codes of practice should be followed. 

Automatic spray system of Animal Life Plus

Between rounds, pollution accumulates in stables, with lots of dust, odor and ammonia. Something that is bad for animals, people and the environment. Animal Life Plus delivers an innovative automated barn cleaning system to improve the barn climate.

The automatic spray system is an easy to install system that works from an installation unit containing the spray. This spray is a biological cleaning agent that consists of a wide range of selected micro-organisms. These micro-organisms attach themselves to the core of the contamination, which can be seen as a layer of bonded dust on surfaces. The air remains and is considerably fresh.

The spraying system can be applied in all kinds of sectors, including piglets, sows, laying hens, broilers, calves and dairy goats. The system can be built into new and existing houses.

Prior to spraying, the starter is used to speed up microbiological cleaning, and the cleaner is used to clean between rounds with biological softener. By using these coordinated cleaners, the effect of the spray is optimally highlighted.

The automated microbiological cleaning concept of Animal Life Plus offers many advantages. For this pig farmer, the system has led to better animal health, less use of antibiotics, increased job satisfaction and an improved technical result. This means that the system pays for itself in a short period of time.

 

Webinar DISARM (ZLTO), Animal Life Plus and Gezondheidsdienst voor Dieren:

Biosecurity on a farrow-to-finish farm

Disease Prevention > Biosecurity > Resource > Biosecurity on a Farrow-to-Finish farm

Prevention is better than cure, with this aim, Bart Debaerdemaecker had an external coach assessing his farms’ biosecurity and identified areas for improvement. Reducing the risk of diseases entering the farm (external biosecurity) and their spread within the farm (internal biosecurity) are two major factors that make antibiotic usage sometimes seem inevitable. However, targeted actions have the potential to reduce the need for antibiotics and thus reduce the risk of antibiotic-resistant bacteria. In the video and following text, Bart explains how he improved biosecurity on his farm with simple, low-cost measures.

To prevent the spread of pathogens between different age groups, he uses colour-coded material for each age group. Tools, clothing and footwear are compartment-specific and footwear and hands are frequently disinfected. In addition, he makes use of walking lines to avoid the spread of disease from the older animals to the younger ones. Bart always starts his work in the farrowing pens, proceeds to the weaned piglets, and then ends up in the finisher pig house. The newly purchased gilts, sick bay and cadaver storage are visited last.

A second measure is the use of a gate for a physical separation between the ‘clean’ and ‘dirty’ area. To get access to the farm, visitors need to ring the bell at the entrance gate and register. Furthermore, specific footwear to enter the ‘dirty’ area of the farm is provided at the entrance, and always remains outside the gate.

Another ingenious measure is the waiting zone for the pigs between the stable corridor and the loading bay, created with a sliding door from a horse stable. When the outside light is on, the transporter knows the animals are in the waiting zone and ready to load. This way the driver never enters the clean area.

Preventing streptococcal infections 

Disease Prevention > Biosecurity > Resource > Preventing Streptococcal infections

There are several management measures that can be taken towards preventing Streptococcal infections. Biosecurity rules designed to prevent the introduction of germs like Streptococcus suis onto the farm must be respected. Important factors are: separating clean and dirty areas, biosecurity measures for persons entering the barn (washing hands, company clothing and boots), restricting the purchase of animals, and proper pest control.

Measures relating to spread of germs within the farm must also be observed. Piglet relocation must be limited and done via a pre-established protocol. If foster sows are used, these should be brought to the piglets (and not vice-versa). Working lines should be respected, from young to old (farrowing pen -> piglet battery -> fattening pigs). Between stables, it is important to wash hands and change overalls and boots. It is advisable to have different equipment per animal group, and to clean and disinfect this material regularly.

Around the time of farrowing, sows’ manure must be removed. Wound prevention is important: if castration is necessary, it must be done hygienically; and default teeth removal should be avoided. The floor in the farrowing pen should not be rough, to avoid injury.

Piglets should be weaned at minimum 25 days old; animals of the same litters should be kept together and piglets should be separated by age.

After weaning, access to fresh feed and drinking water and enough light must be ensured. The piglet house must be dry and sufficiently warm (temperature must be 5°C warmer than in the farrowing pen). Air flow in the battery should be checked prevent draught at the level of the lying areas.

Finally, cleaning and disinfection of the wards must follow a fixed protocol: dry cleaning, soaking, wet cleaning, drying, disinfection.

Slower growing broiler crosses for reduced antibiotic use

 

Disease Prevention > Breeding for Resilience > Resource > Slower growing broiler crosses

In Europe, the demand for high-quality poultry meat is rising. This tendency goes hand in hand with understanding and implementation of animal welfare and activation of organic farming. There are points in the organic farming format which conventional farmers can use to reduce the frequency of diseases and antibiotic usage. One of these points is to use slower growing broiler crosses and another is lower stocking densities.

The classic conventional broiler crosses are fast growing and kept in high densities so they are more susceptible to heath disorders including bacterial and protozoa diseases which are usually treated with antibiotics.

Today there are a lot of offers in Europe for various farming systems. The slow growing broiler crosses are more suitable for organic farming, but there are also offers for differentiated growing broiler crosses which are more robust and less sensitive to heath disorders. These can be used in conventional farms and can be realized from day 48. There are also possibilities to choose specific dwarf breeds for parent stock to reduce feed costs but at the same time maintain high productivity levels.

Stocking density also influences animal health and spread of disease. Reductions in bird count or bird live weight mass per m2 play an important role in both productivity (better weight gain) and disease incidence.

In conclusion, animal welfare, vaccination programs and biosecurity programs will play an important role in overall flock health level, but in combination with differentiated and slower growing broiler crosses, it is more feasible to keep broilers healthy, reduce antibiotic usage and offer high quality poultry meet to consumers.

 

On farm hatching of broiler chicks to improve broiler welfare, health and performance and lower the need for antibiotics in broiler production. 

Conventional broiler chicks that are transported to the broiler farm shortly after birth can suffer from the stress of handling in the hatchery, feed and water deprivation, and during the transport. This stress is detrimental for the birds’ immunological and physiological development resulting in less resilient birds.

On-farm hatching is an innovative concept preventing the burden of this stress because eggs which have been incubated for 18 days are being hatched directly on the broiler farm. The hatched chicks have instant access to water and feed, allowing for better development of their intestines and organs. This concept results in healthier and more robust animals that are more resilient to disease pressure. The concept is available through different suppliers offering specific systems (Nestborn®, One2Born® and X-treck (Vencomatic)), varying in labour requirements, ease of use and investment.

Depending on the farm-specific availability of labour, capital and desired production scheme different solutions can be interesting. On-farm hatching needs to fit in the production schedule since you need extra time to prepare your shed for the next cycle which can create a peak in labour requirements. Additionally, some extra costs for heating the shed three days earlier will be incurred. Still, savings on medicine use are possible as well as improvements to the technical performance of the birds which may help to offset additional costs. Field trials in Flanders on two farms transitioning from conventionally hatched broilers to the NestBorn concept have shown a reduction in their antibiotic usage for the NestBorn chicks compared to conventional broiler chicks. Antibiotic use measured as mg active substance per stocked chicken decreased by 62.76% on average and on 18 out of 27 production cycles no antibiotics were used in the NestBorn system.

Practical aspects of milking dairy cows

Milking dairy cows is a complex action, which has to take into account the physiological aspects of the animal, hygiene, quantity and quality of milk, as well as the work ergonomics. The milking of dairy cows must be carried out within a specified time (8 min), which coincides with the secretion of the oxytocin hormone, which is responsible for the ejection of milk. Workers are careful that the milking is complete, to extract the entire amount of milk and fat, and to prevent mastitis. Those who carry out milking must ensure that the milking machine does not cause pain to the animal, as it may retain milk. Also, the physiology of milking is very complex and involves many factors that favor the ejection and evacuation of milk.

Regardless of the milking system adopted, the practical performance of milking involves the observance of some basic rules: the cows are milked at the same hours of the day and at regular intervals; milking is carried out quietly, in similar environmental conditions. These rules aid the development of favourable conditioned reflexes, and avoid triggering the mechanisms of inhibition of milk ejection (adrenaline synthesis). The training of milking staff is directly related to the efficiency of milking (a worker serves 30-35 cows per hour) and milk and udder hygiene (it is very important to clean teats before the start of milking and at the end of milking). The degree of hygiene is quantified by the total number of germs and the number of somatic cells.