In 1997, a measles outbreak was identified in São Paulo. Between February and December, 20 185 cases were confirmed. From April to July 1997, a seroepidemiologic survey was conducted to identify the recipients of bone marrow (BM) transplants who were susceptible to measles and the occurrence of measles in this population. A total of 156 patients were screened by enzyme immunoassay (EIA). Patients with IgG titers more than 100 mIU/mL were considered immune. Measles reimmunization records were also reviewed. Thirty-two vaccinated patients underwent serologic evaluation. Six of 22 patients (27.3%) within 3 years after vaccination lost measles immunity, in contrast to 7 of 10 patients (70%) vaccinated longer than 3 years previously (P = .049). Among the 122 nonvaccinated patients, 41 (33.6%) were susceptible to measles: 4 of 47 patients (8.5%) within the first year after BM transplantation (BMT), and 37 of the 75 patients (49.3%) after the first year after BMT (P < .001). Eight recipients acquired measles, confirmed by serology (EIA). High-avidity IgG antibodies were observed in the acute phase of measles, suggesting a secondary immune response. Measles interstitial pneumonia was observed in one patient. Seven patients had mild symptoms. Exanthema was present in all patients. All but one patient had fever and nonproductive cough. Koplik spots could be observed in 5 patients. Measles can be mild in BM transplant recipients. Exanthema is frequently present but not often typical. Immunity to measles decreases after day +365 after BMT. Additional studies are needed to evaluate the safety of measles vaccine after the first year of BMT, mostly during outbreaks.

In 1997, a measles outbreak was detected in the state of São Paulo. Between February and December, 20 185 cases of measles had been confirmed.1 

Immunocompromised patients are at increased risk of severe measles and in the early 1990s, case fatality rates around 70% and 40% were described in oncology patients and patients infected with human immunodeficiency virus, respectively.2 In the setting of bone marrow transplantation (BMT), few data are available concerning the occurrence and the severity of measles.3 In contrast, the loss of specific antibody response to measles in patients after allogeneic and autologous BMT has been consistently demonstrated.4-6 Thus, a reimmunization program is necessary to ensure immunity, and measles vaccination has been recommended after the second year following BMT, for patients not receiving immunosuppressive drugs.7 8 

In view of the outbreak and the restricted use of measles vaccine in this population, we conducted a seroepidemiologic survey to identify the recipients of transplants living in the greater São Paulo metropolitan area who were susceptible to measles. During the course of the outbreak, clinical and epidemiologic data were collected among the patients who acquired measles as well as the data concerning the duration of immunity in patients who had already received measles vaccination after BMT.

Patient population

From April to July 1997, a measles serologic survey was conducted in 156 of the 161 patients followed at the BMT Program of the University of São Paulo Medical School. Patients were notified about the outbreak personally or by telephone calls and asked to undergo serologic assessment. Five patients were lost from follow-up and were not tested for measles antibodies. Data concerning posttransplantation vaccination were also recorded. No patient was receiving intravenous immunoglobulin (IVIg).

Measles vaccination after BMT

At the time of this study, measles live attenuated virus vaccine was administered only to patients who had undergone BMT more than 2 years previously and who were not receiving immunosuppressive drugs.4,7 8 To evaluate the response to measles vaccine, all vaccinated patients underwent specific IgG detection 2 months after vaccination.

Case definition

The criteria for measles investigation among the transplant recipients were the presence of fever and respiratory symptoms or the presence of exanthema. The criteria for measles diagnosis were the clinical findings mentioned plus the appearance of specific IgG antibodies in patients previously seronegative, a 4-fold rise in specific IgG titers, or the appearance of specific IgM antibodies.

Serology

Measles IgM antibodies were detected by a monoclonal-based capture enzyme immunoassay (EIA), provided by the Centers for Diseases Control and Prevention.9 

Measles IgG antibodies were detected by an in-house EIA. Standard serum (National Institute for Biological Standards and Control, Hertford, United Kingdom) was included in each set of tests for the estimation of antibody titers expressed in mIU/mL, which were calculated by a linear regression analysis. Patients with EIA titers more than 100 mIU/mL were considered immune to measles.10 

In patients with measles, the IgG avidity test was performed using the urea method10 to characterize the type of infection, if primary or secondary. Briefly, after incubation with diluted serum for 1 hour at 37°C, the wells were washed twice with phosphate-buffered saline-Tween (PBST). Half the wells were soaked for 10 minutes with 7 M urea in PBS containing 0.05% Tween 80 (PBST) and half with PBST without urea. After 2 additional washes, the antibodies were detected by conventional EIA. The result for each serum, expressed as difference in optical density (ΔOD), was obtained by subtracting the absorbance of the control antigen from the absorbance of the measles virus antigen. The avidity index was calculated by (ΔOD with urea/ΔOD without urea) × 100 and a value of 30% or less was considered indicative of primary infection.

Statistical analysis

Statistical significance was determined using the χ2 test.

Patient characteristics

The study included 2 syngeneic BMTs, 25 autologous BMTs, and 129 allogeneic BMTs (one unrelated). The median age of the patients was 27 years (range, 4-58 years). At the evaluation for measles antibodies, 15 of the 129 allogeneic recipients were within the first 100 days after BMT and 10 of them (66.6%) had acute graft-versus-host disease (GVHD) grade 2 or higher. The remaining 114 had undergone BMT longer than 100 days previously and active chronic GVHD was present in 28 patients (24.5%). Twenty-six had extensive chronic GVHD and 2 had limited chronic GVHD. Among the 129 recipients of allogeneic transplants, 34 (26.4%) were receiving immunosuppressive drugs (prednisone or cyclosporin A or both; Table1).

Table 1.

Patient characteristics (N = 156)

Median age, y (range) 27  (4-58)  
BMT type (%)  
 Allogeneic 129  (82.7) 
 Autologous/syngeneic 25/02  (17.3)  
Underlying diseases (%)  
 CML 47  (30.1)  
 SAA 43  (27.5) 
 AML 20  (12.8)  
 NHL 17  (10.9)  
 ALL 11  (7.1)  
 Other 18  (11.5)  
Measles vaccination after BMT 34  (21.8)  
Acute GVHD*: grade ≥ 2 (%) 10/15  (66.6)  
Chronic GVHD: extensive or limited (%) 28/114  (24.5)  
Immunosuppressive drugs (%) 34/129  (26.4) 
Median age, y (range) 27  (4-58)  
BMT type (%)  
 Allogeneic 129  (82.7) 
 Autologous/syngeneic 25/02  (17.3)  
Underlying diseases (%)  
 CML 47  (30.1)  
 SAA 43  (27.5) 
 AML 20  (12.8)  
 NHL 17  (10.9)  
 ALL 11  (7.1)  
 Other 18  (11.5)  
Measles vaccination after BMT 34  (21.8)  
Acute GVHD*: grade ≥ 2 (%) 10/15  (66.6)  
Chronic GVHD: extensive or limited (%) 28/114  (24.5)  
Immunosuppressive drugs (%) 34/129  (26.4) 

CML indicates chronic myelogenous leukemia; SAA, severe aplastic anemia; AML, acute myelogenous leukemia; NHL, non-Hodgkin lymphoma; and ALL, acute lymphoid leukemia.

*

In 15 allogeneic recipients within the first 100 days after BMT at the evaluation.

In 114 patients after day +100.

Patients on immunosuppression at the time of evaluation.

Vaccination and immunity to measles

Thirty-four patients had already received measles vaccination and 122 patients had not been vaccinated. Of the 122 not vaccinated, 76 were not eligible because they were less than 2 years from BMT, 8 were on immunosuppression regimens, and 38 were not compliant with the vaccines scheduled in the second year after BMT. During the outbreak, 32 of the 34 vaccinated patients underwent serologic evaluation by EIA and 13 (40.6%) were susceptible to measles despite previous vaccination. A significant loss of measles immunity was observed after the third year after vaccination. Only 6 of 22 patients (27.3%) who were vaccinated less than 3 years previously were deemed susceptible to measles (EIA titers ≤ 100, as previously defined), in contrast to 7 of 10 patients (70%) vaccinated 3 or more years previously. (Table 2,P = .049).

Table 2.

Long-term immunity after measles vaccination in transplant recipients

Measles immunity*Years after vaccination (%)Total
< 3≥ 3
Susceptible 6  (27.3) 7  (70) 13  
Immune 16  (72.7) 3  (30) 19  
Total 22  (100) 10  (100) 32 
Measles immunity*Years after vaccination (%)Total
< 3≥ 3
Susceptible 6  (27.3) 7  (70) 13  
Immune 16  (72.7) 3  (30) 19  
Total 22  (100) 10  (100) 32 
*

Immunity is defined in text; χ2 test for association showed P = .049.

Among the 122 unvaccinated patients, 41 (33.6%) had antibodies titers lower than 100 mIU/mL. Only 4 of 47 (8.5%) patients in the first year after BMT were susceptible to measles, whereas 37 of 75 (49.3%) patients were susceptible after the first year after BMT (Table 3, P < .001). No statistical difference was observed between susceptibility to measles and type of transplant (allogeneic, syngeneic, or autologous), presence of acute or chronic GVHD, or the use of immunosuppressive drugs (Table3).

Table 3.

Measles serologic status in 122 nonvaccinated patients after BMT

Serologic status3-150(%)TotalP
SusceptibleImmune
Time after BMT, y     
 ≤ 1 04  (8.5) 43  (91.5) 47  (100)  
 1-2 11  (36.6) 19  (63.3) 30  (100)  
 ≥ 2 26  (57.7) 19  (42.3) 45  (100)  
 Total 41 81 122 <.0001  
Type of BMT     
 Allogeneic 37  (37.4) 62  (62.6) 99  (100)  
 Autologous or syngeneic 06  (26.1) 17  (73.9) 23  (100)  
 Total 43 79 122 NS  
Acute GVHD3-151     
 Grade 1 or absent 0  (0) 5  (100) 5  (100)  
 Grade ≥ 2 2  (20) 8  (80) 10  (100)  
 Total 13 15 NS 
Chronic GVHD3-152     
 Absent 27  (48.2) 29  (51.8) 56  (100)  
 Present 10  (35.7) 18  (64.3) 28  (100)  
 Total 37 47 84 NS 
Immunosuppressive drugs     
 With 10  (29.4) 24  (70.6) 34  (100)  
 Without 27  (41.5) 38  (58.5) 65  (100)  
 Total 37 62 99 NS 
Serologic status3-150(%)TotalP
SusceptibleImmune
Time after BMT, y     
 ≤ 1 04  (8.5) 43  (91.5) 47  (100)  
 1-2 11  (36.6) 19  (63.3) 30  (100)  
 ≥ 2 26  (57.7) 19  (42.3) 45  (100)  
 Total 41 81 122 <.0001  
Type of BMT     
 Allogeneic 37  (37.4) 62  (62.6) 99  (100)  
 Autologous or syngeneic 06  (26.1) 17  (73.9) 23  (100)  
 Total 43 79 122 NS  
Acute GVHD3-151     
 Grade 1 or absent 0  (0) 5  (100) 5  (100)  
 Grade ≥ 2 2  (20) 8  (80) 10  (100)  
 Total 13 15 NS 
Chronic GVHD3-152     
 Absent 27  (48.2) 29  (51.8) 56  (100)  
 Present 10  (35.7) 18  (64.3) 28  (100)  
 Total 37 47 84 NS 
Immunosuppressive drugs     
 With 10  (29.4) 24  (70.6) 34  (100)  
 Without 27  (41.5) 38  (58.5) 65  (100)  
 Total 37 62 99 NS 

NS indicates not significant.

F3-150

Refer to definition in text.

F3-151

In 15 allogeneic patients within the first 100 days after BMT at evaluation.

F3-152

In 84 allogeneic patients after day +100.

Acquisition of measles and patient outcomes

Eight of the 54 susceptible patients (IgG titers ≤ 100) contracted measles, for an attack rate of 14.8%. Five had undetectable titers, whereas 2 had detectable titers less than 100 mIU/mL. The remaining patient was not tested at the start of the survey. This patient (Table 4, patient no. 8) had seroconverted after being vaccinated in 1994, but probably lost specific immunity and acquired measles. In the 7 unvaccinated patients, high-avidity IgG antibodies were observed in the acute phase of measles, suggesting a secondary immune response.

Table 4.

Clinical findings in transplant recipients with measles

Patient no.AgeBMT typeTime after BMTGVHD at evaluationGVHD treatmentSerologic statusDuration of rashKoplik spotsFever coughIgMIVIgComplication
42 Allo 3 y 9 m CL None Neg 7 d No Yes Pos Yes None 
28 Allo 6 y 9 m No None Neg 12 d Yes Yes Pos No None 
25 Allo 3 y 1 m No None <100 mIU/mL 5 d No No Pos No None 
17 Allo 4 y 10 m No None Neg 6 d Yes Yes Pos No None 
45 Allo 4 y 9 m No None Neg 10 d Yes Yes Neg Yes None 
27 Allo Day +373 CE CyA/PDN Neg 18 h Yes Yes Pos Yes MIP 
10 Allo Day +257 No CyA 100 mIU/mL 7 d No Yes Pos Yes None 
38 Allo 6 y 7 m No None Not done 6 d Yes Yes Neg No None 
Patient no.AgeBMT typeTime after BMTGVHD at evaluationGVHD treatmentSerologic statusDuration of rashKoplik spotsFever coughIgMIVIgComplication
42 Allo 3 y 9 m CL None Neg 7 d No Yes Pos Yes None 
28 Allo 6 y 9 m No None Neg 12 d Yes Yes Pos No None 
25 Allo 3 y 1 m No None <100 mIU/mL 5 d No No Pos No None 
17 Allo 4 y 10 m No None Neg 6 d Yes Yes Pos No None 
45 Allo 4 y 9 m No None Neg 10 d Yes Yes Neg Yes None 
27 Allo Day +373 CE CyA/PDN Neg 18 h Yes Yes Pos Yes MIP 
10 Allo Day +257 No CyA 100 mIU/mL 7 d No Yes Pos Yes None 
38 Allo 6 y 7 m No None Not done 6 d Yes Yes Neg No None 

Allo indicates allogeneic; CL, chronic limited; CE, chronic extensive; MIP, measles interstitial pneumonia; CyA, cyclosporin A; PDN, prednisone; Pos, positive; and Neg, negative.

Two patients were within the first year after BMT and were not eligible for vaccination. Four patients had not been vaccinated due to lack of compliance and one due to chronic GVHD and use of immunosuppressive drugs until 3 months before acquiring measles (patient no.1). All patients who contracted measles were allogeneic transplant recipients. Chronic GVHD was present in patient no. 1 (limited GVHD) and in patient no. 6 (extensive GVHD). This patient was receiving cyclosporin A (300 mg) and prednisone (60 mg) every other day. Patient no. 7 had no chronic GVHD at evaluation and was tapering immunosuppressive drugs (cyclosporin A 200 mg) when he contracted measles.

All patients had coldlike prodomes. All patients but one had cough and fever above 38.5°C. Koplik spots could be observed in 5 patients. The rash was generally mild, except in 3 adults, who received a transplant longer than 3 years 6 months previously and who had typical rashes and higher fever. In younger patients (patients no. 4 and 7) the rash was mild and without desquamation. The only complication observed in the present series, measles interstitial pneumonia, was seen in patient no. 6 who had an extremely mild rash, only in the face, trunk, and arms, which faded in 18 hours. The latter patient was receiving cyclosporin A (300 mg) and prednisone (60 mg) every other day and was hospitalized for 5 days (Table 4). The patients received vitamin A, 400 000 IU, in a single dose.11 IVIg was administered to 4 patients who had more severe disease (2 patients with higher fever and intense rash and in 2 patients receiving ongoing immunosuppression; Table 4).

Few data are available concerning the occurrence and the severity of measles in BMT recipients.3 

The serologic survey that we conducted at the beginning of the outbreak showed that 91.5% of the unvaccinated patients within the first year after BMT retained measles immunity, whereas only 50.7% of the patients receiving a transplant longer than 1 year previously were immune to measles. These data confirm reported data about the persistence of host-derived humoral immunity for at least 6 months after grafting, fading thereafter.12 The persistence of host B cells producing antibodies, passively acquired antibodies via blood transfusion, and the stimulation of already precommitted memory B cells transferred from the donor may also contribute to the presence of specific antibodies after transplantation.12 

Ljungman and coworkers observed a 27% probability of measles immunity in patients in the fifth year after BMT.13 Therefore, an increasing number of susceptible patients are expected after the first year after BMT and measles vaccination should be considered earlier for these patients, especially if an outbreak emerges in countries that have not achieved measles elimination.

No data are available concerning the safety and effectiveness of measles vaccination before the second year of BMT. Due to the potential risk of complications of live attenuated virus vaccines in the immunocompromised host,14 the safety and efficacy of measles vaccination have only been evaluated in patients not receiving immunosuppressive drugs and after the second year following BMT.4-6 

Among the vaccinated patients, the serologic survey demonstrated that a significant loss of measles immunity occurred after the third year after vaccination (70% versus 27.3%), suggesting that serologic surveillance to check for immunity should be conducted in patients during long-term follow-up. Moreover, the value and the frequency of booster doses of measles vaccine in patients who lost measles immunity should be better investigated in this population.

Measles susceptibility among immunocompromised patients may not represent a major problem in countries that have achieved measles elimination and have maintained high levels of immunity among children. However, if measles virus recirculates and the numbers of susceptible persons are significant, an outbreak can emerge as happened in the city of São Paulo.

The impact of the outbreak in the BMT population could soon be observed. None of 100 patients with EIA titers more than 100 contracted measles. Among the 54 susceptible patients (13 vaccinated, 41 nonvaccinated), 8 acquired measles (measles attack rate = 14.8%). The number of cases could indeed have been higher because asymptomatic measles could have occurred but was not investigated in the present study. Among the patients in whom measles was confirmed, 7 were susceptible to measles (EIA ≤ 100 mIU/mL). The remaining patient was not tested at the beginning of the survey. An IgG titer more than 100 mIU/mL establishes immunity in immunocompetent hosts10 and we could observe that this cut-off value is also valid in immunocompromised hosts.

The fact that all 7 unvaccinated patients had high-avidity antibodies, during the acute phase of measles (indicating secondary immune response), can explain the mild presentation of measles in this population as observed in secondary vaccine failures.15 

A T-cell response seems also to be important for the control of an established infection as suggested by the occurrence of severe measles in immunocompromised patients.2 We did not evaluate the presence of specific T-cell immunity to measles but some studies have demonstrated that it can also persist16 17and may also have contributed to the benign course of the infection in the present study.

Except for 2 patients, who were 10 and 17 years old, the other 6 patients were adults. In addition to their immunocompromised status, we expected that measles would be severe and with more complications because measles symptoms are more intense in adults.18However, in the present series, we observed mild symptoms, slightly more intense in 3 patients who were older than 40 years and received their transplant longer than 3 years previously. Younger patients and those within the first year after BMT had an atypical presentation of measles, with low fever and subtle rash.

Concerning the measles presentation in immunocompromised patients, the atypical course of the disease related to the rash should be emphasized. The data reported in the literature and shown here suggest that the more immunosuppressed the patient, the more atypical and faint the rash. Therefore, susceptible patients within the first year after BMT are at greater risk of atypical and complicated measles. Clinicians should be aware that the rash may be absent and diagnosing measles in this situation is not an easy task. In addition, the presence of IgM antibodies can be of limited help. In 2 of the 8 patients (25%) who seroconverted or had a 4-fold IgG rise, IgM antibodies were absent. Polymerase chain reaction has been used to diagnose subacute measles encephalitis in immunocompromised hosts,19 but its value in diagnosing acute measles needs further studies.

Treatment of measles has been mainly supportive. Intravenous ribavirin has been used successfully in some circumstances,19 but its role in the treatment of measles has not been established. Many studies have shown that administration of high doses of vitamin A during the acute phase of measles decreases morbidity and mortality even in the absence of clinical evidence of vitamin A deficiency.20 The World Health Organization recommends high-dose vitamin A supplementation for all children with measles in countries where the fatality rate is 1% or higher.21 A dose of 400 000 IU for all ages has been advised.11 All patients received vitamin A, and IVIg was added in 4 cases. Nevertheless, their role could not be evaluated in the present series.

Live attenuated measles vaccination is indicated for susceptible immunocompetent hosts who have contact with a person with measles.22 In the setting of BMT, due to the limited use of live attenuated virus vaccines in patients undergoing immunosuppression, the alternative would be IVIg. The rational for administering IVIg to the susceptible patients is to provide adequate levels of antibodies to abort natural infection. However, the control of an outbreak can last several months and, consequently, IVIg would have to be administrated every 40 days for all susceptible patients until the end of the outbreak.

The high cost of this approach, in addition to an increasing number of transplant recipients acquiring measles and the observation of mild symptoms in patients exposed to the wild virus, led us to extend the use of the measles attenuated virus vaccine to all susceptible patients after the first year following BMT. The safety and effectiveness of such an approach are being evaluated in a prospective trial.

We concluded that measles is not necessarily a severe disease in transplant recipients. Most of the patients who acquired measles had high-avidity antibodies indicating secondary immune response and this fact can explain the benign course of measles observed in the majority of the patients in the present series. We concluded also that immunity to measles decreases after the first year following BMT. The cut-off level of IgG titers that establishes immunity in immunocompetent hosts (> 100 mIU/mL) is also valid in immunocompromised patients. Patients at long-term follow-up after BMT are more likely to lose specific immunity after the third year of measles vaccination. The need and the frequency of booster doses of measles vaccine should be better investigated in these transplant recipients.

We would like to thank the nurses (Isamara F. da Rocha and Beatriz B. Diomede) and the physicians (Carlos Dzik, Maria Cristina A. Macedo, Roberto L. Silva, Ronald P. Filho, and Rosaura Saboya) for excellent patient care.

The publication costs of this article were defrayed in part by page charge payment. Therefore, and solely to indicate this fact, this article is hereby marked “advertisement” in accordance with 18 U.S.C. section 1734.

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Author notes

Clarisse M. Machado, Virology Laboratory, IMTSP-FMUSP, Av Dr Enéas de Carvalho Aguiar, 470, 05403-000 São Paulo, SP Brazil; e-mail: clarimm@usp.br.

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