BIOMAT Database Logo BIOMAT Database Logo

Complement changes during exercise-induced asthma. 1978

C M Gwynn, and R A Thompson

Two groups of asthmatic children, one with and one without a history of post-exercise wheezing, and one non-asthmatic adult, were exercised on a treadmill, and their complement levels were measured before and after exercise. The first group of patients had the most obvious fall in FEV 1 and all showed a slight rise in haemolytic complement following exercise. Two of the patients of the second group also had a rise in haemolytic complement. The C4 titre did not change in any of the asthmatic children who did not wheeze after exercise, but there were changes, albeit inconsistent, in the titres of C4 in four of the six patients who exhibited post-exercise wheezing. C3 breakdown products were not detected in any of the sera, following exercise. The role of complement in exercise-induced bronchospasm is not clear, but there does appear to be a greater lability of the complement system in patients who are susceptible to this form of provocation.

UI MeSH Term Description Entries
D003165 Complement System Proteins Serum glycoproteins participating in the host defense mechanism of COMPLEMENT ACTIVATION that creates the COMPLEMENT MEMBRANE ATTACK COMPLEX. Included are glycoproteins in the various pathways of complement activation (CLASSICAL COMPLEMENT PATHWAY; ALTERNATIVE COMPLEMENT PATHWAY; and LECTIN COMPLEMENT PATHWAY). Complement Proteins,Complement,Complement Protein,Hemolytic Complement,Complement, Hemolytic,Protein, Complement,Proteins, Complement,Proteins, Complement System
D003176 Complement C3 A glycoprotein that is central in both the classical and the alternative pathway of COMPLEMENT ACTIVATION. C3 can be cleaved into COMPLEMENT C3A and COMPLEMENT C3B, spontaneously at low level or by C3 CONVERTASE at high level. The smaller fragment C3a is an ANAPHYLATOXIN and mediator of local inflammatory process. The larger fragment C3b binds with C3 convertase to form C5 convertase. C3 Complement,C3 Precursor,Complement 3,Complement C3 Precursor,Complement Component 3,Precursor-Complement 3,Pro-C3,Pro-Complement 3,C3 Precursor, Complement,C3, Complement,Complement, C3,Component 3, Complement,Precursor Complement 3,Precursor, C3,Precursor, Complement C3,Pro C3,Pro Complement 3
D003181 Complement C4 A glycoprotein that is important in the activation of CLASSICAL COMPLEMENT PATHWAY. C4 is cleaved by the activated COMPLEMENT C1S into COMPLEMENT C4A and COMPLEMENT C4B. C4 Complement,C4 Complement Component,Complement 4,Complement C4, Precursor,Complement Component 4,Pro-C4,Pro-complement 4,C4, Complement,Complement Component, C4,Complement, C4,Component 4, Complement,Component, C4 Complement,Pro C4,Pro complement 4
D005541 Forced Expiratory Volume Measure of the maximum amount of air that can be expelled in a given number of seconds during a FORCED VITAL CAPACITY determination . It is usually given as FEV followed by a subscript indicating the number of seconds over which the measurement is made, although it is sometimes given as a percentage of forced vital capacity. Forced Vital Capacity, Timed,Timed Vital Capacity,Vital Capacity, Timed,FEVt,Capacities, Timed Vital,Capacity, Timed Vital,Expiratory Volume, Forced,Expiratory Volumes, Forced,Forced Expiratory Volumes,Timed Vital Capacities,Vital Capacities, Timed,Volume, Forced Expiratory,Volumes, Forced Expiratory
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D001249 Asthma A form of bronchial disorder with three distinct components: airway hyper-responsiveness (RESPIRATORY HYPERSENSITIVITY), airway INFLAMMATION, and intermittent AIRWAY OBSTRUCTION. It is characterized by spasmodic contraction of airway smooth muscle, WHEEZING, and dyspnea (DYSPNEA, PAROXYSMAL). Asthma, Bronchial,Bronchial Asthma,Asthmas
D001250 Asthma, Exercise-Induced Asthma attacks following a period of exercise. Usually the induced attack is short-lived and regresses spontaneously. The magnitude of postexertional airway obstruction is strongly influenced by the environment in which exercise is performed (i.e. inhalation of cold air during physical exertion markedly augments the severity of the airway obstruction; conversely, warm humid air blunts or abolishes it). Bronchospasm, Exercise-Induced,Exercise-Induced Asthma,Exercise-Induced Bronchospasm,Asthma, Exercise Induced,Bronchospasm, Exercise Induced,Exercise Induced Asthma,Exercise Induced Bronchospasm,Exercise-Induced Asthmas,Exercise-Induced Bronchospasms

Related Publications

C M Gwynn, and R A Thompson
Laryngeal changes during exercise and exercise-induced asthma.
January 1991, The Annals of otology, rhinology, and laryngology,
C M Gwynn, and R A Thompson
Changes in lung mechanics during asthma induced by exercise.
June 1975, Journal of applied physiology,
C M Gwynn, and R A Thompson
Changes in functional residual capacity during exercise in patients with exercise-induced asthma.
January 1981, Bulletin europeen de physiopathologie respiratoire,
C M Gwynn, and R A Thompson
Metabolic changes in exercise-induced asthma.
March 1973, Clinical allergy,
C M Gwynn, and R A Thompson
ECG changes in exercise-induced asthma.
January 1982, Respiration; international review of thoracic diseases,
C M Gwynn, and R A Thompson
Levels of complement components during allergen-induced asthma.
January 1978, Clinical allergy,
C M Gwynn, and R A Thompson
Plasma glucagon response during exercise-induced asthma.
April 1983, European journal of respiratory diseases,
C M Gwynn, and R A Thompson
Complement receptor enhancement as evidence of neutrophil activation after exercise-induced asthma.
November 1983, Lancet (London, England),
C M Gwynn, and R A Thompson
Resistance to breathing during exercise-induced asthma attacks.
June 1970, The American review of respiratory disease,
C M Gwynn, and R A Thompson
Hyperventilation during exercise: independence on exercise-induced bronchoconstriction in mild asthma.
March 1996, Respiratory medicine,
Copied contents to your clipboard!