When water gets into the bloodstream, it is absorbed by the body and circulates throughout to maintain hydration levels. The kidneys help regulate the balance of water in the body by filtering excess water and excreting it as urine. In extreme cases, such as excessive water intake, it can lead to a condition known as water intoxication or hyponatremia, where the balance of electrolytes in the blood is disrupted.
Could be any type, we all get our blood groups from our parents or even our grandparents so, if your child is not B positve, your child will have the same blood group as one of its four grandparents.
The baby could have blood type A positive, B positive, AB positive, or O positive. The Rh factor (positive or negative) can vary. The baby's blood type is determined by the combination of genes inherited from the parents.
If both parents are O negative, their child will also be O negative. This is because O negative is a recessive blood type that requires both parents to contribute an O negative allele for the child to have O negative blood type.
Rh positive parents can have an Rh negative baby if both parents are carriers of the Rh negative gene. In this case, each parent would need to pass on a copy of the Rh negative gene to the baby for the baby to be Rh negative.
If the father's blood type is O and the mother's blood type is A, the baby could have a blood type of either A or O. The baby will inherit one blood type allele from each parent, so there is a 50% chance of inheriting the A allele from the mother and a 50% chance of inheriting the O allele from the father.
Yes, it is possible for two O negative parents to have an A positive child if both parents are carriers of the A allele. The child would inherit one A allele from each parent, resulting in the A positive blood type.
Yes, it is possible for two O Positive parents to have an RH Negative child if both parents are carriers of the Rh negative allele. This would result in the genetic combination needed for their child to be RH negative.
The father could have blood types A, B, or AB as long as he is positive for the Rh factor. This is because the A blood type is dominant over O, so the offspring inherited the A allele from the father. The positive Rh factor could come from either parent.
No, O positive and AB positive blood types are different. O positive is type O blood with the Rh factor, while AB positive is type AB blood with the Rh factor. Blood type is determined by the presence or absence of antigens on the surface of red blood cells, which is not interchangeable between O and AB types.
No, blood is not considered neutral. Blood has a pH range of around 7.35-7.45, making it slightly basic or alkaline. This pH range is important for maintaining the body's overall health and proper functioning.
It would all depend on the Dominant and Recessive blood type genes in the mother and father it is near improbable to tell unless you take a blood sample to test the blood type. == A rhesus negative mother and positive father can produce either a rhesus negative or positive child. A type A and type O parental combination will only produce either type A or type O children. So an A- mother and O+ father will normally produce offspring having the possible blood groups of A+ or A- or O+ or O-. See the link for a full explanation.
Blood group O person is commonly referred to as a universal donor as their blood can be transfused to individuals with any blood type.
In stem cell transplants, the donor's human leukocyte antigen (HLA) markers need to be closely matched with the patient's HLA markers. Matching these markers helps reduce the risk of rejection or graft-versus-host disease after the transplant.
Based on your child having O positive blood and you having B positive blood, the father could have blood type A or AB with a positive Rh factor. This is because both blood type A and AB are compatible with B to produce an O blood type in your child.
Yes, it is possible for parents with O positive and B positive blood groups to have a child with either O positive or B positive blood group, as each parent can pass on either their O or B allele to their offspring.
If both parents have B positive blood type, the child can only have blood type B or O positive. This is because each parent can pass on either a B or an O gene to their child. It is not possible for the child to have a different blood type, such as A or AB.
The child can have the same blood type. It is possible if the child obtains the allele IA from one parent and IB from the other. So if a person with blood type AB provides IA or IB and the other parent provides the other allele, then the child may have the same blood type i.e. AB positive.
We are looking for the possible blood types of the PARENTS
Available information:
note: Each parent can be Rh pos (+-) or Rh neg (--) >> assume the selection of (-)
Type AB baby is guaranteed with the Type AA and Type BB combination.
Yes, it is possible for the child to have blood type B-negative. The child would inherit one B and one O allele from the B-positive parent and one A and one O allele from the A-positive parent, resulting in blood type B-negative.
People will receive a blood transfusion when there is a significant loss of blood, severe anemia, or as otherwise directed by a physician. On average, a transfusion of one pint of blood will raise hemoglobin levels by one gram. Hemoglobin is measured by grams per deciliter (100 milliliters) of whole blood.
I think it is the platelets cells but you may want to:
its a long process with a few cells
Google "clotting cascade" for the full story
On average, a person has about 8-10 pints of blood in their body. The amount of blood does not vary based on weight alone.
The molecule in red blood cells that enables them to carry oxygen is hemoglobin. Hemoglobin is a protein found in red blood cells that binds to oxygen in the lungs and releases it to body tissues as blood circulates. Each hemoglobin molecule can bind to four oxygen molecules.
There is no definite way to tell unless you know the actual genotype for both parents. This means that if the mother is AA (A blood type) genotype and the dad is BB (B blood type) genotype the baby will be AB for sure, but if the mother is AO (A blood type) and the dad BO (B blood type) the baby could be A, B, AB, or O. However, with the parents being A and B blood type means they each have at least one gene for those traits giving the baby a more than likely genotype of AB (AB blood type).