Development of serum and intestinal antibody response to rotavirus after naturally acquired rotavirus infection in man

The temporal characteristics of the response of rotavirus specific IgM, IgG, IgA in serum and secretory antibody in feces to rotavirus were studied in 77 hospitalized patients with rotavirus induced gastroenteritis. The response in serum was characterized by the sequential appearance of rotavirus specific IgM, IgG, and IgA antibody. The IgM antibody appeared to be higher in the acute phase of the disease and was subsequently replaced by the IgG and IgA antibodies. However, the titers of IgG rotavirus antibody in convalescent specimens of serum were found to be statistically significantly lower in patients with severe or prolonged rotavirus infection than in specimens from subjects with mild or moderate disease. Most fecal specimens collected during both the acute and convalescent phase of illness contained virus specific secretory IgA. Higher concentrations of antibody were measured in convalescent samples from patients with prolonged diarrhea and virus shedding. These observations suggest a possible relationship between the severity of rotavirus infection and the nature of systemic and secretory antibody response.     

Effect of acyclovir and prednisolone on the serological response in herpes zoster

The serological response of patients with acute herpes zoster was studied to determine whether a diagnosis could be made on a single serum sample, and whether this response was modified by treatment with antiviral and/or steroid therapy. The patients received one of four regimes of acyclovir and prednisolone, Varicella zoster virus (VZV) IgG, IgM, and IgA responses were measured by commercial and in-house enzyme immunoassays (EIA) using serum samples taken at days 0, 7, and 21 after entry into the study. Samples were also tested for IgM to Epstein-Barr virus (EBV) viral capsid antigen (VCA), and cytomegalovirus (CMV) IgM and for herpes simplex virus (HSV) antibodies by the complement fixation test (CFT). Analysis was carried out on data from 71 patients. VZV IgM was detected in 72%, VZV IgA in 78%, and either VZV IgM or IgA in 88% of patients tested, at some time during the 3-week study period. The optimal time to detect either class of antibody was approximately 1 week after the onset of the vesicular rash, when 85% of patients had one or both classes of acute phase antibody in their serum. There was no evidence of cross reaction with EBV, CMV, or HSV antibodies. Neither treatment with prednisolone nor the length of therapy with acyclovir affected significantly the VZV IgM or IgA responses. Therefore it is possible to make a serological diagnosis of herpes zoster on a single sample, optimally 1 week after the onset of the rash, in patients treated with acyclovir alone or with acyclovir and steroids. © 1996 Wiley-Liss, Inc.     

Measles virus-specific IgG4 antibody titer as a serologic marker of post-vaccinal immune response

In previous research, we concluded that measles virus specific IgG4 antibody titer could be used to differentiate between natural [IgG4 GMT 80 (95% CI, 33 to 191)] and vaccinal source of measles infection [IgG4 GMT 13 (95% CI, 7 to 26)]. The aim of this paper is to show that this new serologic marker (IgG4 measles antibody titer) can be applied to help interpret rare but well documented cases of measles Ig M-positive results in vaccinated individuals who, 1-2 months after vaccination, developed rash and fever and therefore do not meet the criteria for post-vaccinal measles infection. Six measles IgM-positive serum samples obtained from measles vaccinated individuals who developed rash/fever 1 to 2 months post-vaccination were studied by Immunofluorescence assay for the quantification of IgG4 measles specific antibody. IgG4 antibody titers from all these samples were between 1:10-1:20, consequently, the IgM positive results from the study cases could be ascribed to post-vaccinal immune response. Thus, measles virus specific IgG4 antibody titer could be used as a serologic marker of post-vaccinal immune response.     

Kinetics of specific IgA, IgD, IgE, IgG, and IgM antibody responses in rubella

Rubella-specific IgD and IgE antibodies were determined with a solid-phase enzyme immunoassay using enzyme-labeled heavy-chain specific anti-immuno-globulins, and the antibody responses in rubella infection were compared to IgM, IgA, and IgG antibodies. IgD and IgE antibodies increased rapidly after the onset of infection, remained at a high level for at least 2 months, and declined slightly by 6 months. In comparison, the IgM antibodies decreased more rapidly, whereas the IgG antibodies persisted longer at a steady level. By 6 months the mean levels of the different antibodies had declined from their maximal mean levels as follows: IgM, 52%; IgA, 42%; IgE, 35%; IgD, 29%; and IgG, 8%. Thus IgD and IgE antibodies, in spite of their known short half lives, persisted longer than IgM and IgA antibodies, which limits their diagnostic value. The IgA antibody responses were found too variable to substitute for IgM antibody determination in diagnosis of a recent rubella virus infection from a single serum specimen. Comparison of maternal and cord blood sera indicated that, in addition to IgG antibodies, rubella-specific IgD antibodies were found to cross the placenta.     

Solid-phase radioimmunoassay determination of virus-specific IgM antibody levels in a follow-up of patients with naturally acquired measles infections

The question of the exact disappearance time or possible persistence of measles-specific IgM antibodies after naturally acquired measles virus infections was studied with a sensitive solid-phase radioimmunoassay (RIA) method. A total of 30 patients were analyzed with follow-up times varying from 4.5 to 8 months; all were measles IgM positive in the first serum specimen obtained after the onset of rash. In 29 of 30 patients, the measles IgM declined to undetectable levels by approximately 90 days. The remaining patient developed postmeasles encephalitis, however, and was found to have a prolonged measles IgM antibody response. For comparison, the measles-specific IgG response was also studied and was found to develop only slightly later than the IgM response, with levels then remaining high and stable up to 8 months later. Although apparent measles IgM antibodies were found in 1 of 64 nonmatched adult controls, they were due to the presence of high levels of IgM-class rheumatoid factor. The data presented indicate that measles IgM antibodies begin to decline soon after the onset of rash and reach negative levels 1 to 3 months later; in complicated infections, however, measles IgM antibody synthesis may not terminate normally.     

用重组汉坦病毒NP、GP检测急性期HFRS患者血清中特异性IgG、IgM、IgA抗体

目的 探讨肾综合征出血热(HFRS)患者急性期IgA、IgG、IgM抗体的变化规律。方法 使用套式RT-PCR检测此次病毒感染情况。用杆状病毒表达的汉坦病毒重组核蛋白(rNP)和糖蛋白(rGP)为抗原，使用ELISA方法检测了14例急性期肾综合征出血热患者的6l份系列血清中的IgA、IgG、IgM抗体。结果 14例肾综合征出血热患者中，ll例患者的血清用RT-PCR检出家鼠型汉坦病毒核酸。几乎所有肾综合征出血热患者早期即有IgA、IgM、IgG抗体的迅速升高，抗rNP抗体滴度明显高于rGP。3种抗rNP抗体中早期IgG上升趋势最为显著，IgM与IgA次之，IgM与IgA上升趋势相近，但IgA的滴度明显高于IgM。抗rGP抗体中XgA变化最显著，IgG次之。IgM发病2周内总的变化趋势不明显，但是发病l周内滴度上升趋势明显，而发病第2周内则呈下降趋势。其中l例RT-PCR阳性的患者，早期IgM未测出，IgA的滴度却较高。l例重度患者，抗糖蛋白IgG、IgM和IgA抗体滴度均低于其他患者，且整个急性期一直维持较低水平。结论 肾综合征出血热急性期IgA、IgG、lgM变化具有明显的规律，抗糖蛋白和核蛋白抗体病患规律不同，检测IgM的同时检测IgA，可以提高诊断的准确性。     

Detection of measles,mumps, and rubella antibodies in saliva using antibody capture radioimmunoassay

Antibody capture radioimmunoassays were developed for detecting virus specific IgM (MAC-RIA) and IgG (GACRIA) to measles, mumps, and rubella and used to investigate saliva as an alternative specimen to serum for diagnosis. Saliva was collected from 63 patients with measles, 19 with mumps, and 150 with rubella, which were all clinically diagnosed and serologically confirmed. Virus specific IgM was detected in 92% of measles, 75% of mumps, and 100% of rubella saliva samples collected during the first week of illness. Between 1 and 5 weeks after onset virus specific IgM was detected in 100% of saliva specimens. After the 5th week the proportion of reactive specimens declined. The specificity of the MACRIA tests was established by testing saliva samples collected from blood donors for measles (88), mumps (88), and rubella IgM (91). All of the saliva specimens tested for measles and rubella specific IgM were unreactive, 1/88 specimens tested for mumps specific IgM contained significant reactivity. Saliva specimens collected from acute cases of MMR were tested in all 3 MACRIAs. A small proportion of saliva samples contained detectable IgM of more than one virus infection. Rubella and measles specific IgG was detected in the saliva of all cases from the 4th or 5th day of illness, respectively. Detection of mumps specific IgG was less successful. We have demonstrated that virus specific IgM can be reliably detected in saliva samples collected from acute cases of measles, mumps, and rubella and identified 1–5 weeks after onset of illness as the optimum time for collection of samples. © 1993 Wiley-Liss, Inc.     

Measles virus-specific immunoglobulin G isotype immune response in early and late infections

A total of 154 human serum samples (32 acute-phase and 22 convalescent-phase serum samples obtained within a week and between days 8 and 26 after the onset of rash, respectively, and 100 samples drawn from healthy immune adults) were processed by an immunofluorescence assay for the detection of immunoglobulin M (IgM), total immunoglobulin G (IgG), IgG1, IgG2, IgG3, and IgG4 measles virus-specific antibodies. In the acute phase, IgG1 was seen first, followed by IgG2, IgG3, and IgG4 responses, the mean seropositivity of which gradually increased during convalescence, reaching 100% (standard deviation [SD], 84 to 100%), 57% (SD, 34 to 80%), 86% (SD, 66 to 100%), and 86% (SD, 66 to 100%), respectively. IgG2 rose and fell in connection with IgG3 subclass antibodies, showing a rate of detection of IgG2 and/or IgG3 subclass antibodies of 95.5% (range, 100 to 86.5%) in the convalescent phase of infection. The mean percentage of measles IgG2 and IgG3 seropositivity dropped significantly during the memory phase, to 2% (range, 2 to 6%) and 3% (range, 3 to 7%), respectively (P < 0.05); meanwhile IgG1 and IgG4 subclass responses remained relatively unmodified in samples obtained years after infection (mean 100% [SD, 96 to 100%] and 86% [SD, 79 to 93%], respectively). Results obtained defined two highly different immune isotypic response patterns. One pattern is restrictive to IgG2 and/or IgG3 in the convalescent phase and is kinetically similar to the IgM antibody response, so its detection could be referred to as a recent viral activity. On the other hand, IgG1 and IgG4 were detected in both the convalescent and memory phases of the immune response, but their isolated occurrence without IgG2 and IgG3 could be related to the long-lasting immunity.     

Comparison of serum and mucosal antibody responses following severe acute rotavirus gastroenteritis in young children.

The development of mucosal immunity is presumed to be the most important marker of rotavirus infection. The practical difficulties of obtaining small-bowel secretions stimulated this study of the antibody response to acute rotavirus infection at other sites. Forty-four infants admitted to the hospital with rotavirus gastroenteritis had serum, saliva, and feces collected at the acute phase (median, 5.5 days), during convalescence (median, 33.5 days), and 4 months later (median, 12.2 weeks). A subgroup of 19 children also had duodenal juice collected in parallel. Rotavirus-specific immunoglobulin G (IgG), IgA, secretory immunoglobulin, and IgM were measured and compared in all samples. The results showed that the estimation of antirotavirus serum IgM, serum IgG, duodenal juice IgA, and duodenal juice IgM by an enzyme immunoassay indicated an immune response to severe primary rotavirus infection in all children. Four months later, the levels of serum IgG and IgA served as the most sensitive markers of the preceding rotavirus infection. The predictive accuracies of immune responses at different sites in relation to a positive IgA immune response in the duodenum were calculated. Fecal IgA predicted duodenal IgA rotavirus antibodies with accuracies of 86% at 1 month and 92% at 4 months. The high sensitivity of serum IgM and IgG in detecting rotavirus infection and the high predictive accuracy of fecal IgA as an indicator of duodenal IgA abrogates the need for duodenal intubation to detect (or monitor) an immune response to rotavirus infection. This finding has important practical implications for epidemiological studies of acute diarrhea in children and in rotavirus vaccine trials.     

Local antibody production and respiratory syncytial virus infection in children with leukaemia

Children undergoing therapy for acute lymphoblastic leukaemia (ALL) are at increased risk of severe viral respiratory infection, and some find it difficult to terminate virus secretion. This increased severity may result from a defect in the mucosal immune response. To test this hypothesis, nasal immunoglobulin secretion and specific antiviral antibody responses to infection with respiratory syncytial (RS) virus in children with ALL have been compared with those in a normal age-matched comparison group. Children with leukaemia secreted normal levels of IgA and slightly raised IgM levels. IgG levels were depressed. Following RS virus infection, the majority of children with leukaemia secreted normal amounts of IgA and IgG nasal antibody and successfully cleared the virus. However, three of the 13 children studied made poor or undetectable nasal antibody responses, which correlated with their inability to clear the virus.     

Local and systemic antibody response to bovine respiratory syncytial virus infection and reinfection in calves with and without maternal antibodies.

Enzyme-linked immunosorbent assays for the detection of immunoglobulin M (IgM), IgA, IgG1, and IgG2 antibodies against bovine respiratory syncytial virus (BRSV) were used to measure antibody responses of calves after experimental or natural infection with BRSV. Serially collected sera, lung lavage samples, nasal and eye secretions, and feces were tested for the presence of these antibodies. Lung lavage fluids and nasal secretions were further examined for the presence of virus. After experimental infection of 3- to 4-week-old, colostrum-deprived (seronegative) calves, the virus was detected from days 3 to 8 post-initial inoculation day (PID). An immune response was first detected 8 to 10 days PID, when BRSV-specific IgM and IgA appeared nearly simultaneously in serum, secretions, and feces. BRSV-specific IgG1 appeared only in serum on days 13 to 17 PID, and IgG2 was first detected in sera from 1 to 3 months PID. Specific IgM and IgA were detectable in the different samples for various periods. In the respiratory and eye secretions, IgA usually remained detectable for long periods, that is, for up to 3.5 months or longer. In lung lavage samples, BRSV-specific IgG1 was only incidentally demonstrated and appeared to be blood derived. The immune response of a 5-month-old calf strongly resembled that of the 3- to 4-week-old calves (feces excepted), indicating that an age effect on the immune response to BRSV is unlikely. After experimental infection of colostrum-fed, seropositive calves, both local and systemic antibody responses were largely or totally suppressed. The degree of suppression seemed to be related to the level of preinoculation virus-specific serum IgG1. Of all isotypes, IgM was least affected. Colostrum-fed animals shed virus in about equal amounts and for the same length of time as colostrum-deprived calves. Clinical signs were mild in both groups. After reinfection, no virus shedding was detected in either colostrum-deprived or colostrum-fed calves. In both groups, a secondary immune response developed, characterized by strong and rapid (from about day 6 PID) mucosal and systemic IgA responses, but reaching higher titers in colostrum-deprived calves. Also, strong mucosal, but not serum, IgM responses were observed, which, however, did not develop faster than those observed after primary infection. Naturally infected calves, showing severe signs of respiratory disease, had various levels of, most likely, maternally derived antibodies on the first day of illness. Mucosal and systemic antibody responses of various heights and durations were observed, but in general these responses were stronger than those observed after experimental infection. The results point to an important role for local IgA, rather for serum IgG1, in the protection against BRSV infection. The capacity to mount a local memory IgA response seems especially important. Priming for such a mucosal memory response is possible even when the primary immune response is severely suppressed because of the presence of material antibodies.     

Immunoblot analysis of Toxoplasma gondii antigens by human immunoglobulins G, M, and A antibodies at different stages of infection.

The Toxoplasma gondii antigenic components eliciting the immunoglobulin G (IgG), IgM, and IgA antibody responses were studied by using follow-up sera from a laboratory worker who developed an acute glandular toxoplasmosis after an accidental infection with the protozoa. IgG toxoplasma antibodies reacted with multiple components over a wide molecular weight range from 6,000 to 150,000. In contrast, IgM toxoplasma antibodies reacted predominantly with polypeptides of 6, 25, and 35 kilodaltons, which might be useful in new diagnostic procedures. The general pattern of antigenic components in the IgA toxoplasma antibody response closely resembled that in the IgM response, even though some characteristic features were constantly observed. The possibility that the restricted IgM and IgA antibody responses relate to the pathogenetic events in human toxoplasmosis is considered.     

Use of antibody avidity assays for diagnosis of severe acute respiratory syndrome coronavirus infection

An indirect immunofluorescent assay (Euroimmun AG, Luebeck, Germany) was used to investigate the avidity of immunoglobulin G (IgG), IgM, IgA, and total Ig (IgGAM) antibody responses to severe acute respiratory syndrome coronavirus (SARS CoV) infections. Serial serum samples from eight patients collected during the first, third, and ninth months after the onset of infection were evaluated. It was found that low-avidity IgG antibodies were detected in 15/15 (100%), 1/5 (20%), and 0/8 (0%) serum samples collected during the first, third, and ninth months after the onset of symptoms, respectively. Low-avidity antibodies of IgA and IgM subclasses were detected in 14/14 (100%) and 3/14 (21%) serum samples, respectively, collected in the first month after the onset of infection. However, IgA antibodies remained low in avidity in a proportion of patients even during late convalescence. As a consequence, IgG antibody avidity assays gave better discrimination between acute-phase and late-convalescent-phase serum samples than IgM, IgA, or IgGAM assays. In two of these patients, sequential serum samples were also tested for IgG avidity against human CoV strains OC43 and 229E in parallel. While SARS CoV infections induced an anamnestic IgG antibody response to the 229E and OC43 viruses, these cross-reactive antibodies remained of high avidity from early (the first month) postinfection. The results showed that assays to detect low-avidity antibody may be useful for discriminating early from late antibody responses and also for distinguishing anamnestic cross-reactive antibody responses from primary specific responses. This may be useful in some clinical situations.     

Humoral immune response in patients with IgA and IgM glomerulonephritis.

A single dose of inactivated mumps virus vaccine was administered to male patients with IgA glomerulonephritis (IgA-GN), IgM glomerulonephritis (IgM-GN) and to healthy males. Antibodies to mumps virus were determined using an enzyme-linked immunosorbent assay. Patients with IgA-GN showed a higher and more sustained IgG and IgA antibody response compared to patients with IgM-GN or healthy controls. Before vaccination, patients with IgM-GN had higher levels of IgG antibodies than the controls or those with IgA-GN. However, the IgA antibody and IgG responses after vaccination were low. IgM antibody responses did not vary among the groups studied. It is concluded that patients with IgA-GN are high responders for IgA and IgG antibody production. Patients with IgM-GN are low responders, especially for IgA antibody.     

Immunoglobulin class-specific antibody response in serum, spleen, lungs, and bronchoalveolar washings after primary and secondary sendai virus infection of germfree mice.

Immunoglobulin class-specific antibodies were measured by a solid-phase radioimmunoassay in serum, bronchoalveolar washings (BAW), lung cell lysates, and spleen cell lysates in germfree mice after intranasal (i.n.) and intraperitoneal (i.p.) primary and secondary 10(5), 10(4), and 10(3) mean tissue culture infective doses (TCID(50)) of live parainfluenza 1 (Sendai) virus. The earliest antibody detected in lungs after i.n. virus challenge was immunoglobulin G (IgG), followed by IgM and, lastly, IgA. The local IgA response after both primary and secondary i.n. virus challenge was lowest after the severest infection. It is suggested that the delayed appearance of IgA antibody and the lower response after severe lung damage may be related to a temporary local secretory component-producing cell deficiency. The lungs were a major source of serum IgG antibody after both primary and secondary i.n. virus challenge. Only IgG and IgM antibodies were detectable in lung cell lysates after the i.n. 10(3) TCID(50) secondary response. A secondary response was detected in IgG, IgA, and IgM after secondary i.n. challenge with the other two doses. The lung response to all of primary and secondary i.p. doses of virus was exclusively IgG and IgM. Calculation of radioimmunoassay antibody per microgram of IgG, IgA, and IgM in serum and BAW after both i.n. and i.p. virus challenges showed that, when BAW antibody was present, the ratio in BAW was always higher than that in serum. This finding in the i.n. mice, together with the presence of IgA antibody-containing cells in the lungs, strongly indicates local manufacture and secretion of IgA antibodies in these animals and suggests that the same conclusion could apply to local IgG and IgM antibodies after both i.n. and i.p. challenges.     

Antibody responses in acute and chronic Q fever and in subjects vaccinated against Q fever

An analysis is made of the antibody response to Coxiella burnettii Phase-1 and Phase-2 antigens, as measured by immunofluorescence in the IgM, IgG or IgA immunoglobulin classes, or by complement-fixation, in patients with acute and chronic Q fever and in vaccinated or skin-tested subjects. In acute (primary) Q fever, IgM specific antibodies to Phase-1 antigen are present in early convalescence together with IgM, IgG, IgA and CF antibodies to Phase-2 antigen. IgM specific antibody may persist for at least 678 days after onset of the acute illness. Patients with chronic Q fever have no IgM specific antibody to Phase-1 or -2 antigens, or only at very low levels; high levels of specific antibody in the IgG and IgA classes, together with CF antibody to both antigenic phases, appear to be characteristic. The serological response in initially seronegative, vaccinated subjects is mainly to Phase-1 antigen in the IgM fraction, and to a lesser degree to Phase-2 antigen by CF and in IgM and IgG classes. Subjects who were equivocally seropositive before vaccination showed IgA and IgG specific antibody responses to Phase-1 antigen and CF and IgG class responses to Phase-2 antigen. Similar antibody profiles were observed in patients who seroconverted after a positive skin-test. Data are also presented on the suitability of C. burnettii antigens for use in immunofluorescence and on the binding of IgM specific antibody by Phase-1 antigen but its failure to fix complement.     

Evaluation of monoclonal antibody-based capture enzyme immunoassays for detection of specific antibodies to measles virus.

Monoclonal antibodies to the hemagglutinin protein, fusion protein, phosphoprotein, matrix protein, and nucleoprotein of measles virus were evaluated as detector antibodies in capture enzyme immunoassays (EIAs) for the detection of specific serum immunoglobulin G (IgG), IgA, and IgM antibodies to measles virus. A pool of monoclonal antibodies to hemagglutinin protein and nucleoprotein proved optimal and was further evaluated. Specific IgM was detected in 97% of adolescents with clinical measles, 97% of infants 3 weeks postvaccination, and less than 1% of normal serum specimens. Specific IgA antibodies were found in 97% of adolescents with clinical measles, 97% of infants 3 weeks postvaccination, and less than 1% of normal serum specimens. Specific IgA antibodies were found in 97% of clinical measles cases and vaccinees, in 26% of healthy persons, and in 36% of infants 8 months postvaccination; consequently, IgA antibodies were not a useful indicator of recent measles infection. A significant increase in IgG antibodies between paired specimens was detected in 92% of clinical cases and all vaccinees. Only 59% of infant specimens had persistent IgG antibodies as detected by capture EIA at 8 months postvaccination, whereas all specimens had antibodies as detected by hemagglutination inhibition and plaque neutralization. An alternative indirect EIA, in which antigen was directly absorbed to the solid phase, was more sensitive than the capture design, detecting IgG antibodies in all infants postvaccination. When standardized with a microneutralization assay for the detection of persistent antibodies, the indirect IgG EIA gave predictive values for positive and negative tests exceeding 90%. Our capture IgM and indirect IgG EIAs provide a practical combination of serologic tests for the determination of acute measles virus infection and past exposure to measles virus or vaccine, respectively.     

Serum immunoglobulin A response to Norwalk virus infection.

We describe the serum immunoglobulin A (IgA) antibody response to Norwalk virus infection in human volunteers and compare it with previously described IgM and total antibody responses. Whereas specific IgA and IgM peak within 2 weeks after onset of symptoms, titers of total blocking antibody continue to rise, implying mediation by IgG antibody.     

Immunoglobulin G subclass antibody responses in influenza A and parainfluenza type 1 virus infections

Antibody responses in immunoglobulin G1, G2, G3, G4, A (IgA1) and M isotypes were studied in 10 patients with an acute influenza A and in another 10 patients with a parainfluenza type 1 virus infection using radioimmunoassay with standardized monoclonal anti-immunoglobulins. A four-fold or greater increase of antibody in patients have an acute influenza A virus infection, were found in IgG1 (all 10 cases), IgG3 (seven cases), IgG4 (eight cases) and in IgA1 (six cases) whereas IgG2 and IgM responses were observed only in one and three cases, respectively. The antibody titre values were converted to immunoglobulin units by multiplying the titre by a pre-determined correction coefficient compensating for the varying affinity of the individual monoclonal anti-immunoglobulins. These units were then used to calculate the actual proportions of each isotype. In the convalescent phase, 78% of total anti-influenza A antibodies were estimated to be of IgG1 isotype and other immunoglobulin isotypes varied from 3 to 7% of total. Similar results in parainfluenza virus antibodies were obtained with serum pairs from patients with an acute parainfluenza virus infection.     

Antibody responses to Campylobacter infections determined by an enzyme-linked immunosorbent assay: 2-year follow-up study of 210 patients

An enzyme-linked immunosorbent assay (ELISA) was adapted to measure immunoglobulin G (IgG), IgM, and IgA classes of human serum antibody to Campylobacter jejuni and Campylobacter coli. Heat-stable antigen, a combination of C. jejuni serotype O:1,44 and O:53 in the ratio 1:1, was used as a coating antigen in the ELISA test. A total of 631 sera from 210 patients with verified Campylobacter enteritis were examined at various intervals after infection, and a control group of 164 sera were tested to determine the cut-off for negative results. With a 90th percentile of specificity, IgG, IgM, and IgA showed a sensitivity of 71, 60, and 80%, respectively. By combining all three antibody classes, the sensitivity was 92% within 35 days after infection, whereas within 90 days after infection, a combined sensitivity of 90% was found (IgG 68%, IgM 52%, and IgA 76%). At follow-up of the patients, IgG antibodies were elevated 4.5 months after infection but exhibited a large degree of variation in antibody decay profiles. IgA and IgM antibodies were elevated during the acute phase of infection (up to 2 months from onset of infection). The antibody response did not depend on Campylobacter species or C. jejuni serotype, with the important exception of response to C. jejuni O:19, the serotype most frequently associated with Guillain-Barré syndrome. All of the patients infected with this serotype had higher levels of both IgM (P = 0.006) and IgA (P = 0.06) compared with other C. jejuni and C. coli serotypes.