Rapid rate-kinetic turbidometric assay for quantitation of viral complement-fixing antibodies

A rapid rate-kinetic turbidometric assay for the quantitation of viral complement fixing antibodies has been developed, using adenovirus as a model. The procedure is based on the turbidometric quantitation of intact sheep erythrocytes and measures the rate of hemolysis (change in absorbance at 640 n...

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Published in	Journal of virological methods Vol. 12; no. 1; pp. 13 - 24
Main Authors	Fulton, R.E., Dininno, V.L.
Format	Journal Article
Language	English
Published	London Elsevier B.V 01.01.1985 Amsterdam Elsevier New York, NY
Subjects	adenovirus Adenovirus Infections, Human - immunology Adenoviruses, Human - immunology Animals Antibodies, Viral - analysis Antigens, Viral - analysis Biological and medical sciences Complement Activation complement fixation Complement Fixation Tests - methods Fundamental and applied biological sciences. Psychology Guinea Pigs Hemolysis Humans kinetic turbidometric Microbiology Spectrophotometry Techniques used in virology viral antibodies Virology kinetic turbidometric viral antibodies complement fixation adenovirus Virus Assay Automation Rapid technique Adenoviridae Antibody Complement fixation test Turbidimetry Immunological method
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Abstract	A rapid rate-kinetic turbidometric assay for the quantitation of viral complement fixing antibodies has been developed, using adenovirus as a model. The procedure is based on the turbidometric quantitation of intact sheep erythrocytes and measures the rate of hemolysis (change in absorbance at 640 nm/min), at maximum velocity, occurring in the presence of residual complement not fixed by the antigen-antibody reaction. Reagents were standardized and assays performed using a microprocessor-controlled spectrophotometer with kinetic assay capability and a thermoregulated cell compartment. Eleven sera were assayed for complement fixing antibodies both by the conventional microtiter technique and by the rapid turbidometric method described here. Good correlation ( r = 0.89) was obtained between the two procedures. Unlike the conventional complement fixation test, the rate-kinetic turbidometric complement fixation assay was found to be tolerant of variation in complement and antigen concentration, endpoint titers were objectively quantitated and, once reagents had been standardized, results could be obtained within 45–60 min. The technique is potentially adaptable to large-scale automation.
AbstractList	A rapid rate-kinetic turbidometric assay for the quantitation of viral complement fixing antibodies has been developed, using adenovirus as a model. The procedure is based on the turbidometric quantitation of intact sheep erythrocytes and measures the rate of hemolysis (change in absorbance at 640 nm/min/), at maximum velocity, occurring in the presence of residual complement not fixed by the antigen-antibody reaction. Reagents were standardized and assays performed using a microprocessor-controlled spectrophotometer with kinetic assay capability and a thermoregulated cell compartment. Eleven sera were assayed for complement fixing antibodies both by the conventional microtiter technique and by the rapid turbidometric method described here. Good correlation (r = 0.89) was obtained between the two procedures. Unlike the conventional complement fixation test, the rate-kinetic turbidometric complement fixation assay was found to be tolerant of variation in complement and antigen concentration, endpoint titers were objectively quantitated and, once reagents had been standardized, results could be obtained within 45-60 min. The technique is potentially adaptable to large-scale automation. A rapid rate-kinetic turbidometric assay for the quantitation of viral complement fixing antibodies has been developed, using adenovirus as a model. The procedure is based on the turbidometric quantitation of intact sheep erythrocytes and measures the rate of hemolysis (change in absorbance at 640 nm/min), at maximum velocity, occurring in the presence of residual complement not fixed by the antigen-antibody reaction. Reagents were standardized and assays performed using a microprocessor-controlled spectrophotometer with kinetic assay capability and a thermoregulated cell compartment. Eleven sera were assayed for complement fixing antibodies both by the conventional microtiter technique and by the rapid turbidometric method described here. Good correlation ( r = 0.89) was obtained between the two procedures. Unlike the conventional complement fixation test, the rate-kinetic turbidometric complement fixation assay was found to be tolerant of variation in complement and antigen concentration, endpoint titers were objectively quantitated and, once reagents had been standardized, results could be obtained within 45–60 min. The technique is potentially adaptable to large-scale automation. A rapid rate-kinetic turbidometric assay for the quantitation of viral complement fixing antibodies has been developed, using adenovirus as a model. The procedure is based on the turbidometric quantitation of intact sheep erythrocytes and measures the rate of hemolysis (change in absorbance at 640 nm/min), at maximum velocity, occurring in the presence of residual complement not fixed by the antigen-antibody reaction. Reagents were standardized and assays performed using a microprocessor-controlled spectrophotometer with kinetic assay capability and a thermoregulated cell compartment. Eleven sera were assayed for complement fixing antibodies both by the conventional microtiter technique and by the rapid turbidometric method described here.
Author	Dininno, V.L. Fulton, R.E.
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Keywords	kinetic turbidometric viral antibodies complement fixation adenovirus Virus Assay Automation Rapid technique Adenoviridae Antibody Complement fixation test Turbidimetry Immunological method
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References	Polhill, Pruitt, Johnston (BIB6) 1978; 121 Vargues, Henley (BIB10) 1974; 41 Boackle, Pruitt (BIB1) 1974; Vol. 21 Nydegger, Achermann, Lambert, Miescher (BIB5) 1972; 109 Vargues, Henley (BIB11) 1974; 41 Siedentopf, Lauenstein, Fischer (BIB9) 1965; 20 Ponder, Yeager (BIB7) 1930; 106 Grist, Ross, Bell (BIB2) 1974 Larson, Dowden, Gorman (BIB4) 1972; Vol. 1 Irvine (BIB3) 1966; 1 Pruitt, Turner, Boackle (BIB8) 1974; 44 Vargues, Henley (BIB12) 1974; 41 Boackle (10.1016/0166-0934(85)90003-5_BIB1) 1974; Vol. 21 Vargues (10.1016/0166-0934(85)90003-5_BIB10) 1974; 41 Vargues (10.1016/0166-0934(85)90003-5_BIB12) 1974; 41 Grist (10.1016/0166-0934(85)90003-5_BIB2) 1974 Vargues (10.1016/0166-0934(85)90003-5_BIB11) 1974; 41 Polhill (10.1016/0166-0934(85)90003-5_BIB6) 1978; 121 Ponder (10.1016/0166-0934(85)90003-5_BIB7) 1930; 106 Larson (10.1016/0166-0934(85)90003-5_BIB4) 1972; Vol. 1 Pruitt (10.1016/0166-0934(85)90003-5_BIB8) 1974; 44 Siedentopf (10.1016/0166-0934(85)90003-5_BIB9) 1965; 20 Nydegger (10.1016/0166-0934(85)90003-5_BIB5) 1972; 109 Irvine (10.1016/0166-0934(85)90003-5_BIB3) 1966; 1
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SubjectTerms	adenovirus Adenovirus Infections, Human - immunology Adenoviruses, Human - immunology Animals Antibodies, Viral - analysis Antigens, Viral - analysis Biological and medical sciences Complement Activation complement fixation Complement Fixation Tests - methods Fundamental and applied biological sciences. Psychology Guinea Pigs Hemolysis Humans kinetic turbidometric Microbiology Spectrophotometry Techniques used in virology viral antibodies Virology
Title	Rapid rate-kinetic turbidometric assay for quantitation of viral complement-fixing antibodies
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