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Accuracy of inpatient and outpatient gastric lavage in the diagnosis of pulmonary tuberculosis in children

Acurácia do lavado gástrico realizado em ambiente hospitalar e ambulatorial no diagnóstico da tuberculose pulmonar em crianças

Ethel Leonor Noia Maciel, Reynaldo Dietze, Renata Peres Lyrio, Solange Alves Vinhas, Moises Palaci, Rodrigo Ribeiro Rodrigues, Claudio Jose Struchiner

ABSTRACT

Objective: To compare gastric lavage (GL) performed in inpatients with GL performed in outpatients in terms of its accuracy in diagnosing pulmonary tuberculosis (TB) in children. Methods: A prospective study was carried out in the state of Espírito Santo, Brazil, from 1999 to 2003. A total of 230 children suspected of having TB (103 inpatients and 127 outpatients) were selected to undergo GL. Those thus diagnosed with TB (n = 53) were divided into two groups: inpatient GL (n = 30) and outpatient GL (n = 23). All 53 children were monitored for 6 months in order to evaluate the accuracy of the diagnosis. Accuracy was determined based on any change in diagnosis, cure rate, and the percentage of positive cultures in the two groups studied. Results: The cure rate was 100% in both groups, and there was no change in diagnosis in the 53 children studied. No significant difference was found between the two groups studied in terms of detection of Mycobacterium tuberculosis (RR = 1.47; 95% CI: 0.95-2.27; p = 0.095), although the outpatient group presented a greater rate of positive cultures. Conclusions: Our results show that the accuracy of GL performed in an inpatient setting is similar to that of GL performed in an outpatient setting. This indicates that hospitalization is required only in more severe cases in which GL cannot be performed as an outpatient procedure.

Keywords: Gastric lavage; Tuberculosis; Diagnosis.

RESUMO

Objetivo: Comparar a acurácia do lavado gástrico (LG) realizado em ambiente hospitalar e ambulatorial no diagnóstico da tuberculose (TB) pulmonar em crianças. Métodos: Estudo prospectivo realizado no Estado do Espírito Santo, Brasil, de 1999 a 2003. Um total de 230 crianças com suspeita de TB foi selecionado para realizar exame de LG em ambiente hospitalar (n = 103) ou em ambiente ambulatorial (n = 127). Desse total, 53 foram diagnosticadas como casos de TB e divididas em dois grupos: LG hospitalar (n = 30) e LG ambulatorial (n = 23). Todas as 53 crianças foram monitoradas por 6 meses para avaliação da acurácia do diagnóstico. A acurácia foi determinada com base na mudança do diagnóstico, na taxa de cura e no percentual de culturas positivas nos dois grupos estudados. Resultados: A taxa de cura foi de 100% nos dois grupos, e não houve mudança de diagnóstico nas 53 crianças estudadas. Nenhuma diferença significativa foi encontrada entre os dois grupos estudados em relação ao achado do Mycobacterium tuberculosis (RR = 1,47; IC95%: 0,95-2,27; p = 0,095), apesar de o grupo LG ambulatorial ter apresentado o maior índice de cultura positivas. Conclusões: Nossos resultados mostram que a acurácia do LG realizado em ambiente hospitalar é semelhante à do realizado em ambiente ambulatorial, o que indica que a internação é necessária apenas em casos mais graves nos quais não se pode realizar o procedimento em ambiente ambulatorial.

Palavras-chave: Lavagem gástrica; Tuberculose; Diagnóstico.

Introduction

Worldwide, tuberculosis (TB) is the second leading cause of death from communicable disease, killing nearly 2 million people each year. It is estimated that approximately 2 billion people, or one third of the world's population, are infected with Mycobacterium tuberculosis (Mtb), and that approximately 10% of those people will progress to active TB.(1)

Among children in developing countries, TB is responsible for 1.3 million new cases and 450,000 deaths every year.(2) In Brazil, 15% of all reported TB cases occur in pediatric patients under the age of 15.(3,4)

Programs to control TB focus almost exclusively on adults with sputum smear-positive TB, since they are most infectious individuals. However, children account for a significant proportion of the global TB caseload and experience considerable TB-related effects (morbidity and mortality).(5)

In addition, children have been shown to play an important role in the chain of TB transmission, not as an active source of disease to their household contacts but as major Mtb reservoirs. The Mtb bacilli can survive in a latent state for many years in children, who, in some cases, later progress to active TB. Therefore, childhood TB is considered an important indicator of the success of public health programs in interrupting and preventing TB transmission.(6)

Signs and symptoms of TB in children are non-specific, which makes clinical diagnosis difficult, delaying treatment and prevention. Childhood TB presents a broad clinical spectrum, ranging from asymptomatic to more severe disseminated forms, typically accompanied by wasting and frequently leading to death.(7)

It is difficult to confirm a diagnosis of TB using the methods currently available. Even in industrialized countries, the triad of obtaining a positive tuberculin skin test (TST) result, identifying radiographic or clinical manifestations consistent with TB, and establishing a recent link to a known infectious TB case is the 'gold standard' for diagnosis. Even when these criteria have been met, problems related to the bacteriological confirmation often arise.(5)

Since children with pulmonary TB are unable to produce sputum, gastric lavage (GL) is currently the procedure of choice for microbiological confirmation of tuberculous disease. Although the GL procedure has been described in a number of studies, there are marked variations in terms of the volume of saline used, number of samples collected per patient, and management of patients testing negative. Therefore, there is no consensus on the protocol for performing GL, and its sensitivity is low (ranging from 30 to 40%). Culture results can take weeks, and smears can yield false-positive results, which makes it difficult to compare data among studies.(5,6,8-10)

A positive smear for acid-fast bacilli can be a criterion for treatment initiation. However, the sample collection procedure, the concentration of bacilli in a given sample (paucibacillary sample), and the need to hospitalize patients in order to collect samples have become a problem, especially in developing countries, where hospital beds are scarce.

In a retrospective study, Mtb culture from gastric aspirates collected from children in an outpatient setting was shown to have a yield comparable to that of aspirates collected from hospitalized children, suggesting that hospitalization might not be necessary for the diagnosis of childhood TB.(11)

The objective of the present study was to compare, prospectively, inpatient and outpatient pediatric GL in terms of the yields of gastric aspirates collected for Mtb culture, as well as in terms of accuracy in the diagnosis of pulmonary TB. In addition, we attempted to identify factors associated with a positive culture.

Methods

This was a four-year prospective study of all suspected TB cases treated at two children's hospitals in the state of Espírito Santo, Brazil.

The study was conducted from July of 1999 to August of 2003. During this period, a total of 230 children under 15 years of age were referred to the two hospitals for investigation of TB. Since 1999, in the state of Espírito Santo, there has been a centralized system of allocating hospital beds known as "Central de Vagas", which is responsible for referring children to various hospitals. We used this system to randomly select children based on the hospital to which they were referred.

The only exclusion criterion was being HIV-positive. The inclusion criteria were history of contact with an index case, signs and symptoms consistent with TB, a positive TST result, and X-ray findings suggestive of TB. Clinical data were obtained through physical examinations performed by trained physicians.

Information related to disease history (cough, fever, contact with a TB index case, bacillus Calmette‑Guérin-BCG-vaccination, and ­malnutrition) was obtained from parents.

The purified protein derivative RT-23 was used. The execution of TSTs and the interpretation of TST results were conducted according to the Brazilian National Ministry of Health guidelines for the diagnosis of childhood TB (Chart 1).(12)



Chest X-ray findings were considered suspicious when at least one of the following patterns was found: right hilar lymph node enlargement, infiltration, cavitation, atelectasis, and miliary pattern.(13)

Of the 230 children suspected of having TB, 103 were referred to the Hospital Infantil Nossa Senhora da Glória (HINSG, Nossa Senhora da Glória Hospital for Children) to undergo GL as inpatients, and 127 were referred to the Hospital Universitário Cassiano Antônio Moraes (HUCAM, Cassiano Antônio Moraes University Hospital) to undergo GL as outpatients.

Of the first 230 children enrolled in the study, 54 were clinically diagnosed with TB. However, one patient scheduled to undergo inpatient GL was excluded for being HIV-infected. The remaining 53 children were divided into two groups: those undergoing GL at the HINSG (inpatient group; n = 30) and those undergoing GL at the HUCAM (outpatient group; n = 23). All 53 children were monitored for 6 months in order to evaluate the accuracy of the diagnosis. Accuracy was estimated based on any change in the diagnosis, on the cure rate, and on the percentage of positive cultures in the two groups.

Sampling was performed at the two study sites (the HUCAM and the HINSG). Children were required to fast for 8 h prior to GL. Children undergoing inpatient GL were admitted to the pediatric ward. A nasopharyngeal catheter was introduced at midnight, and GL was performed at 7:00 a.m. by a registered nurse. The procedure was repeated on 3 ­consecutive days. Outpatient GL was also performed on 3 ­consecutive days following a protocol identical to that described above. Patients were required to fast for 8 h prior to GL and to report to the HUCAM outpatient clinic at 7:00 a.m. Parents were provided with transportation vouchers. All outpatient procedures were performed by two registered nurses.

In laboratory tests, staining of smears and solid medium culture were used in order to identify Mtb. Smear samples were processed according to the standard protocol for Ziehl-Neelsen acid-fast bacilli staining.

Sample pellets obtained from the GL samples were inoculated on Löwenstein-Jensen medium, incubated at 37 °C for 6 weeks, and evaluated weekly for bacilli growth. Growth and identification of Mtb on Löwenstein-Jensen medium was used as a confirmatory method. Three GL samples of at least 10 mL were collected from each patient on different days. The quantity to be collected was defined through a pilot laboratory test, since this quantity ranges from 5 to 50 mL in the literature.(6,7,14,15)

Positive GL samples were defined as those in which Mtb grew in one or more cultures of lavage specimens. Culture results for GL samples collected in the inpatient setting were compared with those for GL samples collected in the outpatient setting.

Although the confirmatory method is a laboratory test, it has low sensitivity and can take as long as two months to yield results. The final diagnosis of TB in this study sample was based on clinical findings, laboratory findings, or both, at the discretion of the physician in charge.

In order to evaluate the association between the diagnosis of TB and the setting in which the GL sampling was performed, relative risk was calculated for categorical variables, with a confidence interval of 95%. Continuous variables were analyzed using a t-test for independent samples, with a significance level of 0.05. Statistical data were analyzed using STATA software, version 7.0 (STATA Corp., College Station, TX, USA).

The study protocol was explained to all pediatric patients suspected of having TB, prior to their enrollment in the study. Written informed consent was obtained from the parents or legal guardians of the participants.

The study design was reviewed and approved by the Institutional Review Board of the Federal University of Espírito Santo Biomedical Center (Grant nº. 023/99).

Results

No significant difference was found between the inpatient and outpatient groups in terms of demographic variables (Table 1). In addition, there was no significant difference between the two groups in terms of age, which ranged from 8 months to 14 years in the outpatient group and from 1 month to 12 years in the inpatient group.



Of the 23 children in the outpatient group, 17 (75%) were from the greater metropolitan area of the city of Vitória, as were 22 (73.3%) of the 30 children in the inpatient group.

Among the variables associated with clinical history, cough and malnutrition occurred at significant rates in both groups (Table 2). In terms of the presence of secretion, no difference was found between the outpatient group (52.1%) and the inpatient group (36.6%). Although secretion was present in some of the children under 5 years of age, it is difficult to collect sputum from children that young.



The two groups did not differ in terms of the frequency of pulmonary TB: 12.5% of those in the outpatient group and 21.1% of those in the inpatient group presented pulmonary and extrapulmonary TB concomitantly.

Contact with an adult index case occurred in almost all cases studied, and the rates were similar in both groups.

Although the rate of chest X-ray findings consistent with TB was higher in the outpatient group, the difference between the two groups was not significant. In the outpatient group, 72% of the cases presented condensation or infiltration consistent with a diagnosis of TB, and 43% presented hilar lymph node enlargement. In the inpatient group, 86% of the patients whose chest X-ray findings were consistent with TB presented condensation or infiltration, and 38% presented hilar lymph node enlargement.

In our study, the TST response observed was described as pronounced in 11 (47.8%) of 23 children in the outpatient group (Table 2).

Interestingly, 2 of the 5 smear-positive patients in the outpatient group were culture negative. In parallel, 3 of the 10 smear-positive patients in the inpatient group were culture negative (Table 3). Although there was no significant difference between the two groups in terms of culture or smear results, the proportion of positive cultures was greater (73.9%) in the outpatient group than in the inpatient group (50%).



The cure rate was 100% in both groups. In the follow-up period, there was no change in the diagnostic status of the two groups. No adverse effects, other than light nasal bleeding (in 10%), were reported, which is especially surprising if we consider that each of the children enrolled was submitted to 3 separate GL procedures.

Another important result was that, in the first samples, there were 17 positive cultures in the outpatient group (76.5%) and 15 positive cultures in the inpatient group (73.3%). In the third samples, less than 8% of the cultures tested positive.

Discussion

According to published data, younger patients are the most likely to develop TB. In the present study, the great majority of the children diagnosed with TB were under 5 years of age.(2,13) In both groups, girls predominated, which is in agreement with published data.(17)

Reports from other authors suggest that, among individuals having had contact with an index case, children are more likely to develop TB than are adults.(18-21)

One study demonstrated that 73.1% of the household contacts under 15 years of age were infected with Mtb and had a 10.67-fold greater chance of developing TB, 33% actually developing the disease.(13)

Another study revealed that 5-10% of treatment-naive immunocompetent adult patients infected with Mtb will develop TB in their lifetime; however, when pediatric patients were considered, the chance of developing TB varied significantly according to the age of the child: 43% in children under 1 year of age, 24% in children from 1 to 5, and 15% in the children from 10 to 15.(17) Our data corroborates the epidemiological significance of household contacts in the chain of TB transmission.

Another important issue is that children infected prior to age 4 are highly likely to develop immediate clinical manifestations, radiographic manifestations, or both, but are unlikely to present reactivation of the disease in adulthood. In contrast, children infected in pre-adolescence or adolescence are more likely to develop the more severe, adult-type pulmonary TB soon after infection or in adulthood.(19)

The clinical symptoms reported in our study concur with the data from another study performed in Brazil, and, among all clinical symptoms, persistent cough was the symptom most frequently reported in both studies (75% of all patients enrolled).(20) Analysis of the chest X-ray findings helped confirm the diagnosis of TB in both groups in our study, as in another study showing that X-ray data increases the chance of a positive diagnosis of TB by 25.4 times in infants.(13)

The rate of positive TST results obtained in our study (47.8% in the inpatient group and 38.1% in the outpatient group) differs from data published previously. In fact, TST results vary considerably, being dependent on several factors, such as age, nutritional status, BCG vaccination status, and HIV infection.(12) One group of authors evaluated 49 children with pulmonary TB and found that 45 (91.9%) presented a pronounced TST reaction.(20) In another study, it was reported that only 7 (15.5%) of the 45 children enrolled presented a pronounced TST reaction.(16) Although presenting significant variability in pediatric TB patients, when compared to TB-negative individuals, TST results are an important surrogate marker for TB. One of the limitations of our study was the TST. When the study began, it was not standard Ministry of Health practice to perform TST in children under 2 years of age, due to the cross-reaction with BCG vaccination. In 2002, this was changed based on the modification of the cut-off point to 15 mm.(12) Therefore, only 44 of the 53 children were submitted to TSTs, as shown in Table 2.

Mycobacteriology findings are quite important for the diagnosis of TB. However, it is extremely difficult to obtain either a positive smear or a positive culture result in pediatric patients. In our study, GL sample cultures produced better diagnostic results.

A study conducted in Cape Town, South Africa, obtained promising results in children between 1 month and 5 years of age, in whom sputum induction was found to be safe and useful for microbiological confirmation of TB. Although this technique is preferable to GL for the diagnosis of pulmonary TB, to date, it has not been used in younger children.(20) A limitation of these findings is the difficulty in implementing induced sputum on a large scale, since special rooms with negative air pressure are required.

Despite the recommendations that GL be performed in an inpatient setting,(12,21) the data presented here suggest that there is no significant difference between samples collected in an inpatient setting and those collected in an outpatient setting in terms of positive culture for Mtb, which is in accordance with the findings of Lobato et al.(11) It has also been reported that GL can provoke vagal stimulation.(23) However, that was not observed in the present study. Another limitation is that the study sample size was small, although this limitation could be mitigated by the fact that the measure of association was in the direction of the inpatient group.

The rates of successful cure and correct diagnosis were the same in both groups, which seems to show that the setting in which the GL is performed is less important than are the standards for defining a case of childhood TB. In general, there is some skepticism regarding the potential value of symptom-based diagnostic approaches, since current clinical diagnostic approaches are often poorly validated. However, it has been demonstrated that pulmonary TB can be diagnosed with a reasonable degree of accuracy in HIV-uninfected children using a simple symptom-based approach.(5,16)

The scoring system proposed by the Brazilian National Ministry of Health for the diagnosis of childhood TB is, in our opinion, the best system to standardize the diagnosis of TB cases in our settings.(24,25) One of the obstacles to discussing childhood TB is the lack of standard descriptive terminology to classify the diverse disease spectrum. Accurate disease classification is important, since the correct identification of the specific disease entity has definite prognostic value. Accurate classification will also improve study outcome definitions and facilitate scientific communication.

Our study corroborates the hypothesis of performing GL sampling without the need for patient hospitalization - a fact that is of great relevance, especially in developing countries, where the number of hospital beds available is extremely limited. The procedure can be performed in the outpatient setting without jeopardizing the accuracy of the culture results.
Although the yield from gastric aspirates is relatively low, important information, including drug susceptibility patterns, can be obtained.(11)

Although restricting hospitalization to more complex cases, reducing costs, and reducing patient stress are important issues, we still need to use a scoring system before performing GL. Once we establish this routine, we will reduce the number of patients who are submitted to the procedure unnecessarily, and we will increase the number of patients in whom samples need to be collected. Based on our results, it seems possible to consider only the first two samples rather than all three samples as recommended in TB guidelines. This will reduce patient stress and discomfort related to repeating the procedure.

Despite causing considerable mortality and morbidity, childhood TB is a neglected aspect of national TB control programs.(26) This is true in Brazil, where the official guidelines pay too little attention to this issue. Through our research, we hope to encourage the rethinking of basic TB control strategies in order to addressg problems specific to childhood TB.

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____________________________________________________________________________________________________________________
Study carried out in Unit 2 of the Infectious Diseases Center. Fundação Oswaldo Cruz - Fiocruz, Oswaldo Cruz Foundation - Rio de Janeiro, Brazil.
1. Adjunct Professor of Epidemiology. Universidade Federal do Espírito Santo - UFES, Federal University of Espírito Santo - Vitória, Brazil.
2. Adjunct Professor of Medicine. Universidade Federal do Espírito Santo - UFES, Federal University of Espírito Santo - Vitória, Brazil.
3. Biologist in the Infectious Diseases Center. Universidade Federal do Espírito Santo - UFES, Federal University of Espírito Santo - Vitória, Brazil.
4. Adjunct Professor of Microbiology. Universidade Federal do Espírito Santo - UFES, Federal University of Espírito Santo - Vitória, Brazil.
5. Adjunct Professor of Immunology. Universidade Federal do Espírito Santo - UFES, Federal University of Espírito Santo - Vitória, Brazil.
6. Head Researcher. Fundação Oswaldo Cruz - Fiocruz, Oswaldo Cruz Foundation - Rio de Janeiro, Brazil.
Correspondence to: Dra. Ethel Leonor Noia Maciel. Núcleo de Doenças Infecciosas, Centro de Ciências da Saúde/UFES, Av. Marechal Campos, 1468, CEP 29040-090, Maruípe,Vitória, ES, Brazil.
Tel 55 27 3335-7210. E-mail: emaciel@ndi.ufes.br
Financial support: Rede Brasileira de Pesquisa em Tuberculose (Rede-TB, Brazilian Tuberculosis Research Network).
Submitted: 6 June 2007. Accepted, after review: 10 September 2007.
**A versão completa em português deste artigo está disponível em www.jornaldepneumologia.com.br

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