النبات
مواضيع عامة في علم النبات
الجذور - السيقان - الأوراق
النباتات الوعائية واللاوعائية
البذور (مغطاة البذور - عاريات البذور)
الطحالب
النباتات الطبية
الحيوان
مواضيع عامة في علم الحيوان
علم التشريح
التنوع الإحيائي
البايلوجيا الخلوية
الأحياء المجهرية
البكتيريا
الفطريات
الطفيليات
الفايروسات
علم الأمراض
الاورام
الامراض الوراثية
الامراض المناعية
الامراض المدارية
اضطرابات الدورة الدموية
مواضيع عامة في علم الامراض
الحشرات
التقانة الإحيائية
مواضيع عامة في التقانة الإحيائية
التقنية الحيوية المكروبية
التقنية الحيوية والميكروبات
الفعاليات الحيوية
وراثة الاحياء المجهرية
تصنيف الاحياء المجهرية
الاحياء المجهرية في الطبيعة
أيض الاجهاد
التقنية الحيوية والبيئة
التقنية الحيوية والطب
التقنية الحيوية والزراعة
التقنية الحيوية والصناعة
التقنية الحيوية والطاقة
البحار والطحالب الصغيرة
عزل البروتين
هندسة الجينات
التقنية الحياتية النانوية
مفاهيم التقنية الحيوية النانوية
التراكيب النانوية والمجاهر المستخدمة في رؤيتها
تصنيع وتخليق المواد النانوية
تطبيقات التقنية النانوية والحيوية النانوية
الرقائق والمتحسسات الحيوية
المصفوفات المجهرية وحاسوب الدنا
اللقاحات
البيئة والتلوث
علم الأجنة
اعضاء التكاثر وتشكل الاعراس
الاخصاب
التشطر
العصيبة وتشكل الجسيدات
تشكل اللواحق الجنينية
تكون المعيدة وظهور الطبقات الجنينية
مقدمة لعلم الاجنة
الأحياء الجزيئي
مواضيع عامة في الاحياء الجزيئي
علم وظائف الأعضاء
الغدد
مواضيع عامة في الغدد
الغدد الصم و هرموناتها
الجسم تحت السريري
الغدة النخامية
الغدة الكظرية
الغدة التناسلية
الغدة الدرقية والجار الدرقية
الغدة البنكرياسية
الغدة الصنوبرية
مواضيع عامة في علم وظائف الاعضاء
الخلية الحيوانية
الجهاز العصبي
أعضاء الحس
الجهاز العضلي
السوائل الجسمية
الجهاز الدوري والليمف
الجهاز التنفسي
الجهاز الهضمي
الجهاز البولي
المضادات الحيوية
مواضيع عامة في المضادات الحيوية
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مضادات الطفيليات
مضادات الفايروسات
علم الخلية
الوراثة
الأحياء العامة
المناعة
التحليلات المرضية
الكيمياء الحيوية
مواضيع متنوعة أخرى
الانزيمات
Blood Banking
المؤلف: المرجع الالكتروني للمعلوماتية
المصدر: almerja.com
الجزء والصفحة:
16-2-2016
1213
Blood Banking
Blood banking, the process of collecting (donation), testing, processing, and storing blood for later use (transfusion), is a cornerstone of emergency and surgical medicine and is dependent on the clinical laboratory for ensuring the safe use of blood and its components.
blood bank
A blood bank is a cache or bank of blood or blood components, gathered as a result of blood donation, stored and preserved for later use in blood transfusions.
A number of laboratory tests must be completed before blood or blood products can be transfused:
- Determination of the blood type with a cross match.
- Screening for antibodies that may produce adverse effects if transfused.
- Screening for possible infectious agents that could be transmitted with transfusion.
The following tests are mandatory on all units of blood collected for transfusion:
- ABO group and Rh type
- Screening for blood-group antibodies
- Serologic test for syphilis
- Serologic tests for human retroviruses including:
o HIV-1
o HIV-2
o HTLV I
o HTLV II
- Serologic tests for hepatitis including:
Hepatitis B and Hepatitis C
If, and only if, all of these markers are negative can blood be conveyed to the Blood Bank for storage until usage. A postive result for some of these tests may prevent further donation by that person. A person with such a test result will be notified by the donor center. Persons with a potential medical condition should see a physician and should not, under any circumstance, donate only to have blood tested. These measures are done to make the blood supply as safe as possible.
Blood Typing
Blood typing involves testing a person's blood for the presence or absence of certain antigens that are present on the red blood cells. Two of these antigens, or surface identifiers, are the A and B markers included in ABO typing. People whose red blood cells have A antigens are considered to be blood type A; those with B antigens are type B; those with both A and B antigens are type AB; and those who do not have either of these makers are considered to have blood type O. Our bodies produce antibodies against those ABO antigens we do not have on our red blood cells, which is why we can receive blood only from donors with certain blood types.
Another important surface antigen is called Rh factor. If it is present on your red blood cells, your blood is Rh+ (positive); if it is absent, your blood is Rh- (negative( .
According to American Association of Blood Banks (AABB), the distribution of blood types
is as follows:
- O Rh-positive 38%
- A Rh-positive 34%
- B Rh-positive 9%
- O Rh-negative 7%
- A Rh-negative 6%
- AB Rh-positive 3%
- B Rh-negative 2%
- AB Rh-negative 1%
ABO and Rh blood typing are conducted on all donor units by the collection facility and in the laboratory for hospital patients. There are two steps to ABO typing: forward and reverse typing. First, forward typing is performed by mixing a sample of blood with anti-A serum ) serum that contains antibodies against type A blood) and with anti-B serum (serum that contains antibodies against type B blood). Whether the blood cells stick together) agglutinate) in the presence of either of these sera determines the blood type. Second, in reverse typing, the patient's serum is mixed with blood that is known to be either type A or B to watch for agglutination. A person's blood type is confirmed by the agreement of these two tests.
Similarly, with Rh typing a sample of a person's red blood cells is mixed with an anti -serum containing anti-Rh antibodies. If agglutination occurs, then the blood is Rh-positive; if no reaction is observed, then the blood is Rh-negative. Rh testing is especially important during pregnancy because a mother and her fetus could be incompatible. If the mother is Rh-negative but the father is Rh-positive, the fetus may be positive for the Rh antigens. As a result, the mother's body could develop antibodies against Rh, which can destroy the baby's red blood cells. To prevent development of Rh antibodies, an Rh-negative mother with an Rh-positive partner is treated with an injection of Rh immunoglobulin during the pregnancy and again after delivery if the baby is Rh-positive.
Compatibility Testing
Compatibility testing is performed to determine if a particular unit of blood can be transfused safely into a certain patient. This includes ABO-Rh blood typing , antibody screening (for unexpected red blood cell antibodies that could cause problem in the recipient), and cross-matching.
There are many antigens besides A, B, and Rh. However, neither the donor nor the recipient is tested routinely for these other antigens. However, if a patient has had a previous transfusion or been pregnant, they may have developed antibodies to one of these other antigens. Therefore, it will be important in all future transfusions that the donor's red blood cells do not have that particular antigen; otherwise, the recipient may have a transfusion reaction. The presence of such an antibody is determined by doing an antibody screening test by mixing the patient's serum with red cells of a known antigenic makeup.
Cross-matching is performed to determine if the patient has antibodies that react with the donor's cells. If there is a reaction, the laboratory staff will investigate further to identify the specific antibody and locate donor units that lack the antigen that matches the patient's antibody. This unit will then be tested to confirm that this is a safe match.
It is ideal to receive a blood transfusion with blood that matches your blood type exactly. However, anyone can receive type O red blood cells in an emergency. Therefore, people with type O blood (particularly O Rh-negative) are called "universal donors." People with type AB Rh-positive blood can be transfused with red blood cells from individuals of any ABO type and are commonly referred to as "universal recipients."
There are two types of crossmatches:
- Major crossmatch: This is the most important crossmatch, comparing donor erythrocytes to recipient serum (i.e. you are checking for preformed (acquired or naturally occurring) antibodies in recipient serum against donor erythrocytes. For the major crossmatch, you need red blood cells from the donor (this ca n be whole blood from a donor animal or packed red blood cells) in EDTA or citrate and serum from the recipient (non-anticoagulant tube).
- Minor crossmatch: This compares donor serum to recipient erythrocytes and checks for preformed antibodies in donor serum that could hemolyse recipient red cells. This crossmatch is less important as usually the donor serum is markedly diluted after transfusion and is unlikely to produce a significant transfusion reaction. This type of crossmatch could be important if transfusing small patients, in which hemodilution is less likely to occur.
For the major crossmatch: Donor erythrocytes are washed and incubated with recipient serum.
For the minor crossmatch: Donor serum is incubated with washed recipient erythrocytes.
Apheresis
Apheresis is a medical technology in which the blood of a donor or patient is passed through an apparatus that separates out one particular constituent and returns the remainder to the circulation. It is thus an extracorporeal therapy. An extracorporeal medical procedure is a medical procedure which is performed outside the body.
Plasmapheresis
Plasmapheresis is the removal, treatment, and return of (components of) blood plasma from blood circulation. It is thus an extracorporeal therapy. The method can also be used to collect plasma for further manufacturing into a variety of medications. The procedure is used to treat a variety of disorders, including those of the immune system, such as Guillain-Barré syndrome, lupus, and thrombotic thrombocytopenic purpura.
Transfusion Reactions
Hemolytic Reactions
Hemolytic reactions occur when the recipient's serum contains antibodies directed against the corresponding antigen found on donor red blood cells. This can be an ABO incompatibility or an incompatibility related to a different blood group antigen.
Allergic Reactions
Allergic reactions to plasma proteins can range from complaints of hives and itching to anaphylaxis. Such reactions may occur in up to 1 in 200 transfusions of RBCs and 1 in 30 transfusions of platelets.
Febrile Reactions
White blood cell reactions (febrile reactions) are caused by patient antibodies directed against antigens present on transfused lymphocytes or granulocytes. The risk for febrile reaction is 1 in 1,000 to 10,000.Symptoms usually consist of chills and a temperature rise > 1 degree C.
Bacterial Contamination
Bacterial contamination of blood can occur during collection. Bacteria can grow during storage at room temperature and during refrigeration (psychrophilic organisms). Platelet products carry the greatest risk, because they are stored at room temperature. Transfusing a contaminated unit can result in septic shock and death.
Circulatory Overload
Circulatory overload can occur with administration of blood or any intravenous fluid, particularly in patients with diminished cardiac function.