Difference between revisions of "Camelid Lactation & Care of the Newborn - Anatomy & Physiology"
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+ | <big><center>[[Reproductive System|'''BACK TO REPRODUCTIVE SYSTEM''']]</center></big> | ||
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+ | <big><center>[[Reproductive_System#Camelids_.28LLamas_.26_Alpacas.29|'''BACK TO CAMELIDS''']]</center></big> | ||
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All camelidae are born in a relatively advanced stage of development and should be relatively active and capable of holding their heads up high as well as standing, nursing and walking unaided within a few minutes to one hour after birth. | All camelidae are born in a relatively advanced stage of development and should be relatively active and capable of holding their heads up high as well as standing, nursing and walking unaided within a few minutes to one hour after birth. | ||
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** Very friable and can be easily removed with only the slightest friction. | ** Very friable and can be easily removed with only the slightest friction. | ||
** Close examination of this epidermal membrane is very helpful in evaluating prematurity and the degree of stress in the newborn. | ** Close examination of this epidermal membrane is very helpful in evaluating prematurity and the degree of stress in the newborn. | ||
− | *** In premature camelidae the membrane is firmly attached to the extremities, and in case of [[Dystocia|dystocia]] or prolonged birth, the epidermal membrane becomes yellow because of the increased defecation and even diarrhea of the fetus. | + | *** In premature camelidae the membrane is firmly attached to the extremities, and in case of [[Parturition_-_Risks_in_Parturition_-_Anatomy_%26_Physiology#Dystocia|dystocia]] or prolonged birth, the epidermal membrane becomes yellow because of the increased defecation and even diarrhea of the fetus. |
== Normal Parameters == | == Normal Parameters == | ||
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** Signs of respiratory distress include open mouth breathing (gasping for air), or heavy breathing due to collapsed lungs, presence of fluids or choanal atresia. | ** Signs of respiratory distress include open mouth breathing (gasping for air), or heavy breathing due to collapsed lungs, presence of fluids or choanal atresia. | ||
* Normal body temperature varies from 37.5oC to 39oC but the newborn may show shivering during the first few hours after birth, which is quite normal. | * Normal body temperature varies from 37.5oC to 39oC but the newborn may show shivering during the first few hours after birth, which is quite normal. | ||
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== Suckling == | == Suckling == | ||
* The suckling reflex is usually shown within the first 30 minutes. | * The suckling reflex is usually shown within the first 30 minutes. | ||
− | * Camelidae are born agammaglobulinemic because of the lack of [[ | + | * Camelidae are born agammaglobulinemic because of the lack of [[Female_Reproductive_Tract_-Placenta_-_Anatomy_%26_Physiology|placental]] transfer of [[Immunoglobulin_G_-_Anatomy_%26_Physiology|immunoglobulins]]. |
− | * Rely exclusively on passive immunity absorbed from maternal [[ | + | * Rely exclusively on passive immunity absorbed from maternal [[Lactation_-_Milk_Composition_and_Biosynthesis-_Anatomy_%26_Physiology#Colostrum|colostrum]] for their protection against infection during the first weeks of their life. |
− | * [[ | + | * [[Lactation_-_Milk_Composition_and_Biosynthesis-_Anatomy_%26_Physiology#Colostrum|Colostrum]] absorption is possible during the first 24 hours of life, with the maximum absorption being achieved during the first 8 to 12 hours. |
− | * Failure of passive transfer of [[ | + | * Failure of passive transfer of [[Lactation_-_Milk_Composition_and_Biosynthesis-_Anatomy_%26_Physiology#Colostrum|colostral]] [[Immunoglobulin_G_-_Anatomy_%26_Physiology|immunoglobulin]] is the major factor in neonatal mortality in alpacas and probably also in other camelidae. |
− | * Newborn cria should receive 10% of their body weight in [[ | + | * Newborn cria should receive 10% of their body weight in [[Lactation_-_Milk_Composition_and_Biosynthesis-_Anatomy_%26_Physiology#Colostrum|colostrum]], preferably within the first 12 hours after birth, with half of this amount given in the first 6 hours after birth. |
− | * Many factors such as cold weather or heat stress, lack of mothering, delivery by caesarean section and metabolic disturbances can can negatively affect the absorption of [[ | + | * Many factors such as cold weather or heat stress, lack of mothering, delivery by caesarean section and metabolic disturbances can can negatively affect the absorption of [[Immunoglobulin_G_-_Anatomy_%26_Physiology|immunoglobulin]]. |
− | * If the dam does not have enough [[ | + | * If the dam does not have enough [[Lactation_-_Milk_Composition_and_Biosynthesis-_Anatomy_%26_Physiology#Colostrum|colostrum]], and no other camelid [[Lactation_-_Milk_Composition_and_Biosynthesis-_Anatomy_%26_Physiology#Colostrum|colostrum]] is available, then cow or goat [[Lactation_-_Milk_Composition_and_Biosynthesis-_Anatomy_%26_Physiology#Colostrum|colostrum]] may be used as a substitute. |
− | * In normal circumstances, the calf is left with the dam once it has been determined that the dam is producing [[ | + | * In normal circumstances, the calf is left with the dam once it has been determined that the dam is producing [[Lactation_-_Milk_Composition_and_Biosynthesis-_Anatomy_%26_Physiology#Colostrum|colostrum]]. |
− | ** This is important because maternal bonding enhances absorption of [[ | + | ** This is important because maternal bonding enhances absorption of [[Lactation_-_Milk_Composition_and_Biosynthesis-_Anatomy_%26_Physiology#Colostrum|colostrum]]. |
− | * If the calf is not seen suckling by 3 hours after birth, then [[ | + | * If the calf is not seen suckling by 3 hours after birth, then [[Lactation_-_Milk_Composition_and_Biosynthesis-_Anatomy_%26_Physiology#Colostrum|colostrum]] should be milked out and bottle-fed to the calf. |
− | ** If the calf has a poor suckling reflex, administration of [[ | + | ** If the calf has a poor suckling reflex, administration of [[Lactation_-_Milk_Composition_and_Biosynthesis-_Anatomy_%26_Physiology#Colostrum|colostrum]] should be initiated via a stomach tume (as in lambs). |
* Vitamin E-selenium preparations can be given intramuscularly to neonates born in selenium deficient regions. | * Vitamin E-selenium preparations can be given intramuscularly to neonates born in selenium deficient regions. | ||
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Revision as of 14:01, 1 August 2008
All camelidae are born in a relatively advanced stage of development and should be relatively active and capable of holding their heads up high as well as standing, nursing and walking unaided within a few minutes to one hour after birth.
Epidermal Membrane
- A unique characteristic of camelids is the development of an extra membrane of fetal epidermal origin called "the epidermal membrane".
- Covers the neonate and is attached at muco-cutaneous junctions but does not cover the nostrils or mouth so there is little danger of suffocation.
- Very friable and can be easily removed with only the slightest friction.
- Close examination of this epidermal membrane is very helpful in evaluating prematurity and the degree of stress in the newborn.
- In premature camelidae the membrane is firmly attached to the extremities, and in case of dystocia or prolonged birth, the epidermal membrane becomes yellow because of the increased defecation and even diarrhea of the fetus.
Normal Parameters
- The average normal birth weight ranges from 30 to 42 kg depending on species.
- The heart rate is usually very high at birth 80 to 120 beats, but respiration should be a regular 20 to 30 breaths per minute.
- Signs of respiratory distress include open mouth breathing (gasping for air), or heavy breathing due to collapsed lungs, presence of fluids or choanal atresia.
- Normal body temperature varies from 37.5oC to 39oC but the newborn may show shivering during the first few hours after birth, which is quite normal.
Suckling
- The suckling reflex is usually shown within the first 30 minutes.
- Camelidae are born agammaglobulinemic because of the lack of placental transfer of immunoglobulins.
- Rely exclusively on passive immunity absorbed from maternal colostrum for their protection against infection during the first weeks of their life.
- Colostrum absorption is possible during the first 24 hours of life, with the maximum absorption being achieved during the first 8 to 12 hours.
- Failure of passive transfer of colostral immunoglobulin is the major factor in neonatal mortality in alpacas and probably also in other camelidae.
- Newborn cria should receive 10% of their body weight in colostrum, preferably within the first 12 hours after birth, with half of this amount given in the first 6 hours after birth.
- Many factors such as cold weather or heat stress, lack of mothering, delivery by caesarean section and metabolic disturbances can can negatively affect the absorption of immunoglobulin.
- If the dam does not have enough colostrum, and no other camelid colostrum is available, then cow or goat colostrum may be used as a substitute.
- In normal circumstances, the calf is left with the dam once it has been determined that the dam is producing colostrum.
- This is important because maternal bonding enhances absorption of colostrum.
- If the calf is not seen suckling by 3 hours after birth, then colostrum should be milked out and bottle-fed to the calf.
- If the calf has a poor suckling reflex, administration of colostrum should be initiated via a stomach tume (as in lambs).
- Vitamin E-selenium preparations can be given intramuscularly to neonates born in selenium deficient regions.