Passive immunity occurs when 'preformed' antibodies are made in one animal and passed onto another. For example a cow passes on her own antibodies to her calf via colostrum (first milk after parturition) and milk.

Antibodies can be transferred to other individuals via colostrum, milk, crossing of the placenta, vaccination, and plasma transfusions.

Materno-Fetal Immunity - Introduction

Maternal Immunity in Birds

• Transfer of maternal IgG into egg yolk (in ovary)
• Transfer of maternal IgM and IgG into albumin (in oviduct)
• Chick embryo absorbs IgG from yolk
• Chick embryo ingests [[Immunoglobulin A|IgA]] and IgM from amniotic fluid

References

Books

A.H. Andrewa Bovine Medicine - Diseases and Husbandry of Cattle Blackwell Publishing 2004 2nd Edition

Koterba, Drummound and Kosch Equine Clinical Neonatology Williams and Wilkins 1990

P. Lydyard, A. Whelan and M.W. Fanger Immunology Garland Science 2nd Edition 2004

Websites

www.sheepandgoat.com

Failure of passive transfer (FPT)

Inadequate absorption of immunoglobulin.

It occurs because of 4 main reasons:

1. The neonate did not receive any colostrum.
2. The neonate did not receive enough colostrum.
3. The neonate did not absorb enough colostrum.
4. The quality of the colostrum was inadequate.

Colostrum quality (amount of IgG) depends on:

• Breed - antibody and milk fat are correlated, thus Jersey cows have the highest amount of immunoglobulin. Conversely Holsteins have the lowest amount of immunoglobulin.
• Nutrition - it is especially important for cows during the dry period (last 2 months of pregnancy) to have the correct nutrition in order to produce immunoglobulin.
• Season - the lowest quality of colostrum is produced in the late winter months as this is correlated to the quality of forage available.
• Stress - dams under increased stress produce colostrum of reduced quality.
• Immunostatus of the dam - dams exposed to specific diseases mount an immune response and produce antibodies for that particular disease, these antibodies are then transferred to the neonate via colostrum. Dams may also be vaccinated which, if done during the colostrum production period (last 2 months of gestation), will also provide the neonate with some protection via passive transfer.
• Milk yield - increased yield dilutes the amount of immunoglobulins in the colostrum.
• Pre milking - omitting a dry period or mistakenly milking a cow during the dry period removes any colostrum produced.
• Dripping from teats - poor teat confirmation may result in a poor teat seal and thus dripping before the calf has been born or sucked.
• Parity - older cows have better quality colostrum as they have been exposed to more pathogens and may have had multiple vaccinations causing their colostrum to have a higher amount of immunoglobulin.

Colostrum quantity depends on:

• Amount the neonate suckles - a strong neonate and good mothering from the dam increases the amount the neonate suckles. Udder conformation also influences the accessibilty of the teats to the neonate. Dystocia may reduce mothering and produce a weak calf potentially causes an increased time to the first suck and/or reducing the amount the neonate consumes.
• Premature births - if born early the dam has a shorter period of time for concentration of antibodies from the blood to the colostrum. It is more likely that the neonate will also be weaker and smaller, causing the amount of colostrum sucked to be reduced.

Failure of absorption from the intestines:

• If the neonate is provided with colostrum 30 hours post partum the FcRn receptors will be completely absent and thus no IgG will be absorbed.

As a rough guide 8-10% of the neonate's body weight of good quality ('green') colostrum should be given over the first 12 hour period of a neonate's life to prevent FPT. This can be done effectively by hand feeding using bottles or with oesophageal feeders.

References

Books

A.H. Andrewa Bovine Medicine - Diseases and Husbandry of Cattle Blackwell Publishing 2004 2nd Edition

Koterba, Drummound and Kosch Equine Clinical Neonatology Williams and Wilkins 1990

P. Lydyard, A. Whelan and M.W. Fanger Immunology Garland Science 2nd Edition 2004

Websites

www.sheepandgoat.com

Testing colostrum quality

Colostrum quality can not be determined by appearance. Colour and consistency only indicate the fat components of the colostrum, and a measure of the IgG either in the colostrum or in the blood of the neonate is required to determine the immunological quality.

Storage: Colostrum can be stored, however this must be done correctly to prevent reduction in immunological status and to prevent outbreaks of disease. Disease outbreaks may occur from feeding colostrum as it is a very good medium for bacterial growth. The best way to store colostrum is to freeze it immediately after milking in a small, clean, secure container. It can be frozen for a year with minimal reduction in quality. It should be thawed thoroughly before giving it the the neonate by leaving it at room temperature, or by gently warming it in water (no hotter than 38 C). Thawing colostrum at high temperatures or by using a microwave can irreversibly denature the immunoglobulin (proteins) and thus reduce the colostrum's immunological status. Colostrum can be refrigerated for approximately 5-7 days. However, this must be done immediately after milking, and it must be discarded after this period to prevent colostrum with bacterial overgrowth being fed to the neonates.

Pasteurisation: If diseases such as Mycoplasma, Johnes and Bovine Leukaemia Virus are present on the farm it is important not to feed affected colostrum to the new born calves. To prevent the spread of these diseases, long time pasteurisation of the colostrum at low temperatures can be performed. However this causes a 40% reduction of antibody content.

1. Colostrometer

• Used to determine the immunological status (quantity of immunoglobulin especially IgG ) of the colostrum.
• It should be used before giving any foal or calf colostrum.
• Measures the specific gravity of the colostrum which correlates to the IgG concentration.
• The colostrum must be at room temperature (20°C). Below this the colostrometer will overestimate the amount of IgG present, and if it is above, the amount of IgG will be underestimated.

2. Zinc Sulfate Turbidity (ZST) test

• An easy, quick test to determine the immunological status (amount of immunoglobulins)/adequacy of passive transfer in foals and calves.

Calves:

Foals:

• If the foal has not nursed effectively from the mare 2-3 hours post partum then at least 1L of good quality colostrum must be given. The quality can be determined using a colostrometer. Specific gravity >1.060 is roughly equal to a colostrum IgG concentration of >3000 mg/dl.
• The immunological status is especially important in foals to prevent infection.
• IgG levels in foals peak at 18 hours post parturition.

Ideally check ZST at 12-18 hours or earlier if:

• Suspicion of FPT (eg. inadequate suckling etc).
• If colostrum is available.

Check ZST at 48 hours if:

• Foal is clinically normal.
• Financial constraints (can only afford to do the test once).
• No colostrum available to use at 12-18 hours anyway, so if there is a problem a plasma transfer would have to be performed to provide adequate antibodies.

800 mg/dl is considered normal and these foals are at less risk of infection compared to foals with failure of passive transfer.

3. Total serum protein

• It can be used as an on farm assessment of antibody levels in calves.
• A blood sample is taken when the calf is 2-8 days old.
• The total serum protein is measured using a refractometer.

References

Books

A.H. Andrewa Bovine Medicine - Diseases and Husbandry of Cattle Blackwell Publishing 2004 2nd Edition

Koterba, Drummound and Kosch Equine Clinical Neonatology Williams and Wilkins 1990

P. Lydyard, A. Whelan and M.W. Fanger Immunology Garland Science 2nd Edition 2004

Websites

www.sheepandgoat.com

Alloimmune haemolytic anaemia of the newborn

An alloantigen is an antigen existing in alternative (allelic) forms in a species, thus inducing an immune response when one for is transferred to members of the same species who lack it. So alloimmune haemolytic anaemia occurs when a neonate inherits the sire's blood type and drinks colostrum from the dam, which contains antibodies against the sire and thus the neonate's red blood cells.

It can naturally occur in humans (Rhesus disease) and foals (neonatal isoerytholysis) and can be induced in pigs and cattle by vaccines containing allotypic red blood cell antigens.

Neonatal Isoerytholysis (NI)

Occurs in some foals, and always occurs in mules due to the incompatibility of the sire and dams blood types.

First pregnancy from a stallion with incompatible blood type to the mare:

• Mare is mated with a stallion with an incompatible blood type.
• The neonate may inherit the sire's blood type.
• At parturition, or because of placentitis, RBCs from the foal enter the maternal circulation.
• The surface of the foal's RBCs possess an antigen (usually Aa or Qa) that the mare's RBCs lack.
• The mare begins to mount an immune response towards the foal's RBCs.
• There are no antibodies against the foal's RBCs in the mare's colostrum as there has not been sufficient time to mount an immune attack and secrete them into the colostrum.
• The foal's intestine stops absorbing maternal antibodies after 30 hours (as previously discussed) and thus, when the alloantibody is secreted in the milk, it does not affect the foal.

Subsequent pregnancy from the same stallion or same blood group as previously exposed to

• Foal is born and suckles from the mare.
• Colostrum already contains alloantibodies against the foal's RBCs causing there to be RBC destruction or removal from the circulation (type II hypersensitivity reaction) leading to haemolytic anaemia and jaundice.
• When the foal's intestines are no longer able to absorb maternal antibody (approximately 30 hours post partum) it is safe to return the foal to the mare.

Almost all mule pregnancys result in NI due to the mare lacking a factor called donkey factor.

References

Books

A.H. Andrewa Bovine Medicine - Diseases and Husbandry of Cattle Blackwell Publishing 2004 2nd Edition

Koterba, Drummound and Kosch Equine Clinical Neonatology Williams and Wilkins 1990

P. Lydyard, A. Whelan and M.W. Fanger Immunology Garland Science 2nd Edition 2004

Websites

www.sheepandgoat.com

Materno-fetal Immunity Flashcards