Its an agglutination test
passive agglutination reaction
agglutination reaction
Yes, agglutination reactions can be affected by temperature. High temperatures can denature antibodies, leading to reduced agglutination. It is important to perform agglutination tests at the recommended temperature to ensure accurate results.
Agglutination
No, precipitation and agglutination reactions are different processes. In precipitation reactions, an insoluble complex forms when antigens and antibodies interact, resulting in visible clumping. Agglutination reactions involve the clumping of cells or particles in the presence of specific antibodies, but the mechanisms and outcomes are distinct.
CaCl2 (aq) + Na2CO3 (aq) --> 2NaCl (aq) + CaCO3 (s) This is called a preciptation reaction
When an antigen and antibody react it causes cells to clump together. The term used to describe the clumping of cells is called agglutination.
H. Harold Scott has written: 'The vomiting sickness of Jamaica' -- subject(s): Vomiting 'A history of tropical medicine' 'Widal's agglutination reaction as an aid in prognosis in enteric fever' -- subject(s): Typhoid fever, Agglutination reaction, Diagnosis
Clumping of red blood cells when mixed with antiserum is known as agglutination. This reaction occurs when the red blood cells contain antigens that agglutinate with antibodies present in the antiserum. Agglutination is commonly used in blood typing to determine an individual's blood type.
An agglutination test is a test in which the use of a blood serum results in the agglutination of bacteria or foreign blood cells. The test is used to check for infection and to find pathogens as well as blood types.
Agglutination is the clumping together of particles, such as blood cells or bacteria, in the presence of specific antibodies. Hemolysis is the destruction of red blood cells, leading to the release of cellular contents into the surrounding fluid. Both are important laboratory techniques used in immunology and microbiology studies.
Compatibility testing involves mixing donor red blood cells (RBCs) with recipient serum to check for agglutination. If agglutination occurs, it indicates incompatibility between the donor RBCs and recipient serum, suggesting a mismatch that could lead to a transfusion reaction. Testing is crucial to ensure safe blood transfusions.