Both. O Pos is universal for positive RH, O Neg is universal for RH negative.
We are looking for the possible blood types of a baby.Parental information:Mother type A negative -- can be AA or AO and Rh (--)Genes: A, O, (-)Father type A -- can be AA or AO and Rh (--)Genes: A, O, (-)Baby recieves one gene from each parent: Baby is type AA Rh (--) = Type A negBaby is type AO Rh (--) = Type A negBaby is type OO Rh (--) = Type O negIf both parents are A neg, then they would have an Type A neg or O neg child. The child cannot B because the parents do not carry a B gene, and cannot be Rh positive since neither parent carries the Rh (+) gene.
We are looking for the possible blood types of a baby.Parental information:Mother type A neg --can be AA or AO with Rh (--) = contributes A, O, (-)Father type O pos --can only be OO with Rh (++), (+-) = contributes O, (+), (-)Baby receives one gene from each parent: Baby is type AO with Rh (+-) or (--) = Type A pos/negBaby is type OO with Rh (+-) or (--) = Type O pos/negYES, these parents could produce a Type A positive child.
You can physically give blood while having mononucleosis, however during normal blood screening procedure your blood would be rejected. Mononucleosis is due to the Epstein Bar Virus which infects B cells in your blood. Therefore it can be transmitted through blood transfusion and blood infected with mononucleosis is rejected by blood banks.
We are looking for the possible blood types of a baby.Parental information:Mother type O pos -- can only be OO with Rh (++) or (+-)Gene contribution = O, (+), (-)Father type O pos -- can only be OO with Rh (++) or (+-)Gene contribution = O, (+), (-)Baby receives one gene from each parent: Baby is type OO Rh (++) = O posBaby is type OO Rh (+-) = O posBaby is type OO Rh (--) = O negSince the parents only have an O gene to contribute, the baby will be OO. Since they are both Rh positive, the baby may be Rh pos or Rh neg.
a or ab neg and o pos
We are looking for the possible blood types of a baby.Parental information:Mother type O neg = can only be OO and Rh (--) Genes: O & (-)Father type AB pos = can only be AB and Rh (++) or (+-) Genes: A, B, (+), (-)Baby receives one gene from each parent: Baby is type AO Rh (+-) = Type AposBaby is type AO Rh (--) = Type A negBaby is type BO Rh (+-) = Type B posBaby is type BO Rh (--) = Type B negIf the parents are O neg and AB pos, they can have a Type A pos/neg or Type B pos/neg baby.
Both. O Pos is universal for positive RH, O Neg is universal for RH negative.
We are looking for the possible blood types of a baby.Parental information:Mother type A negative -- can be AA or AO and Rh (--)Genes: A, O, (-)Father type A -- can be AA or AO and Rh (--)Genes: A, O, (-)Baby recieves one gene from each parent: Baby is type AA Rh (--) = Type A negBaby is type AO Rh (--) = Type A negBaby is type OO Rh (--) = Type O negIf both parents are A neg, then they would have an Type A neg or O neg child. The child cannot B because the parents do not carry a B gene, and cannot be Rh positive since neither parent carries the Rh (+) gene.
Yes. 85% of the population is Rh+. Rh- is recessive . Type O+ and B- can make O+/- (or) B+/-
We are looking for the possible blood types of a MOTHER.Available information:Father type O pos -- can only be OO with Rh (++) or (+-)Genes: O, (+), (-)Baby type O neg -- can only be OO with Rh (--)Baby receives one gene from each parent: Mother must contribute an O and Rh (-)Blood type AO with Rh pos (+-) or neg (--)Blood type BO with Rh pos (+-) or neg (--)Blood type OO with Rh pos (+-) or neg (--)With the father contributing an O and (-) gene, the mother mus contribute the other O and (-); therefore the mother can be Type A pos/neg, Type B pos/neg or Type O pos/neg, with Type O neg being the best case of getting the O neg baby.
Yes. If you both are Rh+ that means that one of each of your Rh genes is +, but the other could be -. This is called heterozygous, meaning you each have one Rh+ gene and one Rh- gene (+,-). Then there is a 25% chance that your child will be Rh-.
No. The baby could have a negative Rh factor, but it would have either the A or B blood group.
We are looking for the possible blood types of a baby.Parental information:Mother type A neg --can be AA or AO with Rh (--) = contributes A, O, (-)Father type O pos --can only be OO with Rh (++), (+-) = contributes O, (+), (-)Baby receives one gene from each parent: Baby is type AO with Rh (+-) or (--) = Type A pos/negBaby is type OO with Rh (+-) or (--) = Type O pos/negYES, these parents could produce a Type A positive child.
We are looking for the possible blood types of a baby.Parental information:Mother type A pos = can be AA or AO and Rh (++) or (+-)Father type A pos = can be AA or AO and Rh (++) or (+-)Baby receives one gene from each parent: Baby is type AA Rh (++) = Type A posBaby is type AA Rh (+-) = Type A posBaby is type AA Rh (--) = Type A NEGBaby is type AO Rh (++) = Type A posBaby is type AO Rh (+-) = Type A posBaby is type AO Rh (--) = Type A NEGBaby is type OO Rh (++) = Type O posBaby is type OO Rh (+-) = Type O posBaby is type OO Rh (--) = Type O NEGNOTE: There is no B gene in this mix; therefore, a baby could NOT be AB positive. The baby from Type A pos parents will be Type A pos/neg or Type O pos/neg.
We are looking for the possible blood types of a baby.Parental information:Mother type A pos = can be AA or AO and Rh (++) or (+-)Father type A pos = can be AA or AO and Rh (++) or (+-)Baby receives one gene from each parent: Baby is type AA Rh (++) = Type A posBaby is type AA Rh (+-) = Type A posBaby is type AA Rh (--) = Type A NEGBaby is type AO Rh (++) = Type A posBaby is type AO Rh (+-) = Type A posBaby is type AO Rh (--) = Type A NEGBaby is type OO Rh (++) = Type O posBaby is type OO Rh (+-) = Type O posBaby is type OO Rh (--) = Type O NEGNOTE: There is no B gene in this mix; therefore, a baby could NOT be AB positive. The baby from Type A pos parents will be Type A pos/neg or Type O pos/neg.
It's a trade name for Rh Immune Globulin (RhIg) Used mostly for Rh prophylaxis in Rh neg mom's in the case of an Rh pos pregnancy...given during gestation and after childbirth if necessary...or after an interuterine bleed (i.e. abdominal trauma). Another widely used tradename in Canada is WinRho.