Do transportation subsidies and living allowances improve tuberculosis control outcomes among internal migrants in urban Shanghai , China ?

WPSAR Vol 4, No1, 2013 | doi: 10.5365/wpsar.2013.4.1.003 www.wpro.who.int/wpsar 1 a School of Public Health, Fudan University, Shanghai, China. b School of Public Health, Nanjing Medical University, Nanjing, China. c Department of Tuberculosis Control, Shanghai Municipal Disease Control and Prevention Centre. Submitted: 18 January 2013; Published: 31 March 2013 doi: 10.5365/wpsar.2013.4.1.003 Introduction: Tuberculosis (TB) in internal migrants is one of three threats for TB control in China. To address this threat, a project was launched in eight of the 19 districts of Shanghai in 2007 to provide transportation subsidies and living allowances for all migrant TB cases. This study aims to determine if this project contributed to improved TB control outcomes among migrants in urban Shanghai.


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hina is one of the 22 highest tuberculosis (TB) burden countries in the world 1 with an estimated 0.9-1.2 million TB cases in 2010. 2 There is a large amount of rural-to-urban migration in China with over 200 million people relocating to seek better incomes and living conditions.TB in the large internal migrant population (about 221 million in 2010) has been demonstrated as one of the major threats to TB control in China. 3Many studies have found that internal migrants have lower incomes compared to the local residents, have poor access to health and social security systems, are highly mobile and are therefore more vulnerable to TB.These factors result in a lower proportion of suspected TB cases completing diagnostic evaluation and an even lower proportion of successful treatment in internal migrants. 4-10Information from the China TB Information Management System (TB-IMS) in Do transportation subsidies and living allowances improve tuberculosis control outcomes among internal migrants in urban Shanghai, China?
Hui Lu, ab Fei Yan, a Wei Wang, a Laiwa Wu, a Weiping Ma, a Jing Chen, c Xin Shen c and Jian Mei c Correspondence to Fei Yan (e-mail: fyan@shmu.edu.cn).
2005 showed a higher proportion of migrants among notified TB cases in big cities, ranging from 40%-80%, and a treatment completion rate among migrants of around 60% compared with over 85% among local residents. 11][16][17] To improve TB control for migrants, a five-year financing project of transportation subsidies and living allowances for patients was launched in eight of 19 districts in Shanghai (one district in 2006 and seven districts in 2007).This study aims to determine if the transportation subsidies and living allowances contributed to improved

Data analysis
Descriptive statistics were used to summarize the characteristics of the TB cases from the surveillance data.For dichotomous data, the differences between TB treatment outcomes of project and non-project districts were tested using chi-squared tests.To assess the project intervention effect on migrant smear-positive PTB cases, a difference-in-difference (DID)estimation framework was used.To determine the impact of the intervention, a crude double difference of TSR was calculated: ([TSR proj,2010 -TSR proj,2006 ]-[TSR non-proj,2010 -TSR non-proj,2006 ]).This assumed that the change of TSR in the non-project districts reflects what would happen in the project districts in the absence of the project.
A multivariate logistic regression model was then performed to estimate the association among the probability of being successfully treated (P[Y = 1]) and the DID impact e stimator (the interaction on being a project recipient and year of registration) and some other independent variables.Here the dependent variable Y indicated "treatment success or not" (using value one for treatment success, zero for otherwise).The independent variables were basic personal information available in TB-IMS, including year of patient registration (2006 or 2010), patient site (non-project and project), two-way interactions between patient site and year of registration, sex, age, job (professional, managerial, skilled or partially skilled, housekeeper or unemployed, children or youth, retired and others) and TB type (initial or re-treated cases).Analyses were conducted using SPSS version 20.0 and STATA version 12.

Migrant PTB notifi cations
There were a total of 909 and 963 migrant PTB cases reported in TB-IMS in 2006 and 2010, respectively.Among these, 42%-45% were smear-positive cases.The case notification rate for smear-positive PTB in migrants was more than two times that of local residents in 2006 (27.1 per 100 000 compared with 12.1 per 100 000) and 1.3 times higher in 2010 (16.2 per 100 000 compared with 11.9 per 100 000).
The migrant groups in project districts had a smear-positive notification rate of 26.8 per 100 000 in 2006, lower than for migrants in non-project districts at TB treatment outcomes among internal migrants in Shanghai.

Study setting
There were eight project districts in Shanghai.The project provided transportation subsidies and living allowances of US$14.63 and US$4.39 a month, respectively, for all migrant TB cases (non-local official household registered resident TB cases) in the project districts.The services they received were the same as those in non-project districts.In 2010, there were 2439 migrant pulmonary TB (PTB) cases receiving the subsidies.
Three project and three non-project districts were compared.Sample size calculations estimated samples of 108 for project groups and 484 for non-project groups (a = 0.05, b = 0.10).It was estimated there are 600 migrant TB cases in three districts a year.Three project and three non-project districts in Shanghai were selected by geographic location: one central urban district (A district), one suburb district (B district) and one between A district and B district (C district) for both the project and non-project groups.
Project B district initiated the project on 1 October 2006; in order to minimize the effect of this bias, the cases from October to December 2006 in B district were eliminated along with a quarter of the population.

Study design
This was a community intervention study; quantitative methods were used to evaluate the effect of the project.The data of PTB cases were obtained from the China TB-IMS for 2006 and 2010.
Treatment success rate (TSR) was defined as the proportion of a cohort of TB cases registered in the TB-IMS as being treated under directly observed treatment, short-course (DOTS) in a given year whom successfully completed treatment.Treatment success included those with bacteriologic evidence of success ("cured") or without bacteriologic evidence ("treatment completed"). 18TSR was used to determine the success of the project between smear-positive PTB and smearnegative PTB cases. 19

Treatment outcomes of migrant PTB cases
In 2006, TSR of smear-positive cases in project districts was 59.9%, lower than in non-project districts at 73.1% and significantly different (P = 0.021).In 2010, TSR in project districts rose to 87.6%, significantly higher than in 2006 (P < 0.001) and was appreciably higher than non-project districts in 2010 at 81.9%, although this was not significantly different (P = 0.205; Figure 1).
In 2006, TSR of smear-negative PTB cases in project districts was 73.1%, lower than that in nonproject districts at 78.4%.In 2010, TSR in project districts increased to 89.8%, higher than that in nonproject districts at 85.6%, but this was not significantly different (P = 0.165; Figure 2).
The crude average double difference of TSR was 18.9% (Figure 1).In the logistic regression model, the predictor of interaction on being a project recipient and year of registration was significantly associated with a higher probability of TSR (odds ratio [OR] = 3.178; 95% confidence interval (CI): 1.305-7.736;P = 0.011) after adjustment for all other variables.The odds, the 28.2 per 100 000.In 2010, this rate decreased by 33.3% in the project districts to 17.9 per 10 000.In contrast, it decreased by 58.9% in non-project districts to 11.6 per 100 000.
In both 2006 and 2010, nearly 90% of new PTB cases in migrants were diagnosed and treated for the first time, compared with about 85% in local resident groups.

Characteristics of migrant PTB cases
Among the migrant PTB patients, 515 (27.5%), 1009 (53.9%) and 348 (18.6%) cases were registered in A, B and C districts, respectively.Some characteristics of the 1872 migrant PTB cases were similar in both project and non-project districts in both 2006 and 2010.About 60% of all four groups were male with just over 65% cases aged 15-34 years (Table 1).Approximately 40% of migrant PTB cases in all groups combined were skilled or partially skilled employees (e.g.worker, farmer, service personnel), 25% were housekeepers or unemployed migrants and 4% were children, youth and retired people.However, job structure comparison between project and non-project districts showed that there was a significant difference both in 2006 and However, we estimated the increased probability of TSR in the project group before and after the project intervention period (coefficient = 1.156;OR = 3.178; 95% CI: 1.305-7.736;P = 0.011) (Table 3).

DISCUSSION
This study indicated that transportation subsidies and living allowances played a role in improving treatment outcomes of migrant PTB patients in Shanghai.In project districts, the TSR for migrant smear-positive PTB cases relative possibility of PTB treatment success, for those in project districts in 2010 (site*year=1) was 3.178 times as high as those in non-project districts in 2006, those in project districts in 2006, and those in non-project districts in 2010 (site*year=0) (Table 2).
Further analysing the interaction on being a project recipient and year of registration by stratified analysis, the difference of TSR before and after project intervention periods (post-baseline) was not significantly different for cases in the non-project districts (OR = 1).PTB cases; specifying the amount of subsidies for migrant PTB cases on different economic levels; and raising the amount of the subsidies moderately to relieve the burden for the migrant PTB cases who really need them.
This study had some limitations.First, it was a retrospective study and secondary data were used, so the data set was limited in its ability to identify certain variables affecting TSR such as personal economic situation; education level; and regional, social, economic and ecological conditions.Second, selection of districts in project and non-project groups was based more on geography, although the analysis results in project and non-project groups in baseline showed that their background information was similar (except for occupation).Third, the non-project group did not reach the required sample size because some cases visited a doctor and registered in a municipal-level TB hospital in a non-project district but lived elsewhere.Their treatment and treatment outcome information was not completed, and they need to be retrieved for a further study.

CONCLUSION
Transportation subsidies and living allowances contributed to the improvement of TB treatment success among internal migrants TB cases in Shanghai.Despite limitations with using surveillance data, our study did allow for the assessment of the effectiveness of the project.
The project was a short-term programme with special financing subsidies for migrant PTB cases.Meanwhile, the number of migrant PTB cases is growing in urban areas; thus, a similar long-term investment by government is recommended.The project provided the same subsidies for each migrant PTB case in project districts without recognizing the poor or other vulnerable migrant groups who need more financial aid to support their TB treatment.Therefore, the priority interventions are to identify and ensure adequate subsidies for vulnerable groups.

Confl icts of interest
None declared.reached 87.6% in 2010.The DID improvement of TSR, which compares the crude improvement of the project districts with the non-project districts, was 18.9%.Further, the result of the multivariable logistic regression analysis showed that the project intervention was positively associated with treatment success outcomes (OR = 3.178; 95% CI: 1.305-7.736).
In this study, the financial support was designed to promote better compliance to quality TB care in the internal migrant population. The reasons for increased TSR might be that the transportation subsidies and living allowances reduced the disease burden for migrant PTB cases and encouraged them to stay in Shanghai to complete the treatment course; 28 and the subsidies may also improve their trust in TB control policies, services and health providers.However, in practice, some TB control staff and PTB patients mentioned that the project subsidies were too little for the patients who really needed them to support their TB treatment; for some migrants with high income, the effect was limited.
Despite the success of this programme, certain challenges affecting project sustainability should not be overlooked.The initial project was made possible through a governmental special financing programme.According to the World Health Organization Global TB Control Programme, making DOTS pro-poor is justified on epidemiological, economic and equity grounds and will significantly contribute to the achievement of the global targets for TB. 29 It is suggested that national and local governments give priority to poverty reduction strategies in TB control.Improvements could include building a sustainable mechanism to continue and increase the investment amount; cooperating with other related departments, including departments of civil affairs, labour and social security, and nongovernmental organizations to identify the more vulnerable migrant the part of the estimation model (Logit[Y TSR ]): 2.026-0.403xsex -0.588x therapy -1.040x jobretired.

Table 1 . Characteristics of migrant PTB cases by project and non-project districts, Shanghai, China, 2006 and 2010
* P-values are for chi-squared tests of association between district type (project versus non-project) and characteristics factors.

Table 2 . Multivariable logistic regression analysis on the treatment success rates for migrant smear-positive cases by confounding factors, Shanghai, China, 2006 and 2010
a Occupation is used as dummy variables in regression analysis.All other occupation fields are not included in the regression model.CI -confidence interval; OR -odds ratio.