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The effect of family doctor policy practice on primary health-care workers’ health in Hongkou District of Shanghai, China: varied by occupational divisions?

Abstract

Background

A key component of the 2009 medical reform in China was the change to family doctor (FD) policy practice. However, this led to an increased workload for primary health-care workers (PHCWs) at community health service centres. Their increasing workload may play a significant role in affecting PHCWs’ health.

Methods

A questionnaire survey was conducted in Hongkou district of Shanghai amongst PHCWs including family doctors (FDs), family nurses (FNs), public health doctors (PHDs), and other PHCWs in early 2019. Ordered logistic regression models (Models 1 to 3) were performed to explore the differing health status amongst PHCWs, and their respective influential factors were also tested (Models 4 to 7).

Results

Five hundred sixty-two valid questionnaires were collected with a response rate of 96.4%. Other PHCWs’ (OR = 2.03; 95% CI: 1.163–3.560) and FNs’ (OR = 1.98; 95% CI: 1.136–3.452) self-rated health (SRH) were significantly better than that of FDs. In terms of FNs, the OR of SRH for those who strongly perceived the extra workload brought by FD-contracted services was only 12.0% (95% CI: 0.018–0.815) of that of the no-pressure group. Similarly, FNs with stronger work pressure had worse SRH, i.e., compared with “no” pressure, the SRH ORs for “neutral,” “strong,” and “very strong” evaluations of work pressure were 0.002 (95% CI: 0.000–0.055), 0.001 (95% CI: 0.000–0.033), and 0.000 (95% CI: 0.000–0.006), respectively. Information technology (IT) systems and performance incentives were suggested to improve SRH for FNs, while the former was found to be negatively correlated with other PHCWs. After one unit increase in the PHDs’ team/department support, their OR was 10.7 times (95% CI: 1.700–67.352) higher. In addition, policy support had a negative effect on SRH for PHDs. The OR of “good” assessments of cultural environments was 25.98 times (95% CI: 1.391–485.186) higher than that of “very poor” for Other PHCWs.

Conclusions

The influences of FD policy practice on FNs’ SRH were the most significant amongst PHCWs, rather than FDs’ as expected. The significant factors of SRH were varied over different occupational categories, that is team/department support and policy support (though negative) for PHDs, IT system and incentive for FNs, facility and equipment for FDs, and culture environment for other PHCWs respectively.

Peer Review reports

Background

In 2009, a new round of health-care reform was launched in China. A key target of this reform was to improve the population’s poor access to health-care resources by reducing its expensive cost [1]. One of the strategies of this reform was to strengthen the primary health-care system [2, 3]. Hence, primary health care has seen rapid development over the last 10 years [4]. The developmental stages of primary care could be identified, i.e., facility and equipment construction, primary health-care human resource cultivation, contracted services provision, and primary health-care workers’ (PHCWs) team cooperation patterns. In the third stage, several support policies were implemented to achieve the contract rate [5]. China set the ambitious goal that by 2017, the family doctor (FD)-contracted rate should reach 30% for all and 60% for the key population, including elderly, patients with non-communicable disease (NCD), pregnant women, infants, and disabled. In the case of Shanghai, the newly updated number of FD contracts was over 7,000,000 as revealed during the conference of Shanghai Medical Reform Work Promotion in July, 2019 [6]. A study listed 32 detailed FD-contracted services to be supplied by FDs and their assistants in Jiading district of Shanghai, including health evaluations, health management, health record updates, extended prescriptions, long prescriptions for patients with NCD, data collection and reports, family inpatient services, physical health examinations for the elderly, and follow-up management of patients with NCD or the disabled [7]. PHCWs are facing unprecedented numbers of visits and workloads especially in Shanghai, one of the metropolitan cities where the FD policy was first implemented. The Yearbook showed that from 2010 to 2017, the visits per PHCW per day in Shanghai was 28.2, while the averages for western, central, and eastern areas were 10.9, 8.9, and 20.1, respectively [8].

Thus, the fourth stage of the development of community health service centres (CHSCs) in China focused on cooperation amongst PHCWs to cope with the increased number of patients and larger population for health management, especially amongst FDs, family nurses (FNs), and public health doctors (PHDs). It is worth noting that technologists, pharmacists, psychological consultants, dietitians, and rehabilitation therapists working in CHSCs were also included in PHCWs, as the government believed that they played significant role to support or directly provide FD-contracted services. CHSC was the tier-1 hospital in China, through which patients could be referred to specialists in tier-2 and tier-3 hospitals [3]. FDs were mainly responsible for clinical treatment for all patients and health management for the contracted residents, FNs were for clinical nursing and always regarded as FDs’ assistants, and PHDs were for public health issues including vaccination, maternal and child health, infectious diseases and major public health emergencies. However, there are wide variations in the scope of functions and the division of labour amongst PHCWs, and many studies focus on division of responsibilities and cooperation among PHCWs [9,10,11]. Although different work patterns were practiced across Shanghai or even China, the FD-dominant pattern was outstanding, in which FNs and PHDs were regarded as significant team support. Though we found new team member roles, such as the FD’s neighbourhood assistant whose main work responsibility is to help FDs to connect closely with residents, were emerging, the FD-dominated pattern had not yet been replaced. This finding suggested that FDs might have increased workloads and pressures because of their cooperation with other FD team members.

This increasing workload might play a significant role in affecting PHCWs’ health, but this area has not yet been studied in China. Several studies have focused on work pressures and concluded that PHCWs, especially FDs, were under high work stress [12]. For example, Shen and colleagues found that amongst 308 respondents to a survey conducted in Shanghai, 190 (61.7%) experienced excessive stress, 72 (23.4%) had moderate stress, and 46 (14.9%) had low stress [13]. Little attention was paid to PHCWs’ health, especially from a workload and stress perspective. Xie and colleagues tried to describe the FDs’ workload, work stress, and health status. And negative relationship was found between stress source factor and self-rated health, however, multiple regression model controlling for more variables was not performed [14]. However, the relationship between work stress and physicians’ health has already been discussed widely globally, and scholars have reached a consensus that job stress was a significant factor influencing physicians’ physical and mental health [15]. For example, Buddeberg-Fischer and colleagues found that the groups experiencing constant and increasing extrinsic and intrinsic stress exhibit significantly worse health and life satisfaction compared with the remaining groups after controlling for gender and baseline health [16]. Except for workload and stress, three other predictors were found in these studies, i.e., work support, workplace conditions, and cooperation. A study conducted by Bergman and colleagues found that the physicians’ somatic symptoms were correlated with workload, time spent working, satisfaction, support for stress, and coping abilities. A stepwise regression analysis also showed that excessive workload and support were significant contributors to job stress for men and women [17]. Williams and colleagues conducted a nationwide survey and found that job stress had a powerful influence on physicians’ job satisfaction and physical and mental health. In addition, they found that workplace conditions were also a major determinant of physicians’ well-being [18]. Sarafis et al. also found that occupational stress negatively affected health-related quality of life and conflicts with co-workers was an independent predictive factor [19]. However, workload or stress, workplace conditions or environment, and social or work support have not been considered together in one study.

This study aimed to explore the health status of PHCWs in China and to identify the effect of FDs’ practice on the PHCWs’ health, especially against the background of FD-contracted services since the new round of health-care reform in 2009. We considered occupational categories because we believed that PHCWs’ occupational division might make a difference to their workloads, stress, and health, and workplace conditions, support, workload, and pressure were considered as well as significant factors of PHCWs’ health.

Materials and methods

Study design

First, we performed a descriptive health analysis for PHCWs in different occupational categories. A further model analysis was then performed to test whether these occupational categories mattered after controlling for sociodemographic variables. Second, we carefully examined the influential predictors affecting PHCWs’ health, especially the effect of FD practices on PHCWs. The three major categorical groups were tested separately, i.e., FDs, FNs, and PHDs. Based on our literature review, we absorbed the widely accepted factors into our model, including workplace environment/conditions, pressure, cooperation, and support.

Data collection

A questionnaire survey was conducted in Hongkou District of Shanghai, in which area there are six CHSCs in total. Hongkou district is a very typical central area in Shanghai, which is quite different from other suburban areas in Shanghai. We surveyed all PHCWs in Hongkou District by questionnaire, including FDs, FNs, PHDs, and other PHCWs (technologists, pharmacists, psychological consultants, dietitians, and rehabilitation therapists). It is a population study, but before the survey we also calculated the sample size considering the statistics significance. According to sample size formula of continuous data proposed by Kotrlik JW et al., a suitable sample size should be around 80 (see formula below) [20]. All the significance test had been conducted and gave us strong confidence including Log likelihood, BIC and Pseudo R2. We conducted a presurvey interview to revise our questionnaire. A four-part structured questionnaire was then designed to cover sociodemographic information, workload and pressure, cooperation and support, and health status and job satisfaction. In early 2019, our investigators visited each CHSC with help of Community Health Management Centre who was responsible for managing all CHSCs in the Hongkou area.

$$ n=\frac{t^2\ast {s}^2}{d^2}=\frac{1.96^2\ast {0.69}^2}{{\left(5\ast 0.03\right)}^2}=81.29 $$

Where t = value for selected alpha level of 0.025 in each tail = 1.96, s = estimate of standard deviation (SD) in the population = 0.69 (since the population is unknown, we used the sample SD of the five-point scale SRH instead), d = acceptable margin of error for mean being estimated = 0.15. (number of points on primary scale * acceptable margin of error; points on primary scale = 5; acceptable margin of error = .03 [error researcher is willing to except]).

Variables and measurements

The dependent variable in this study was the PHCWs’ health status. Self-rated health (SRH) was selected as the health variable and defined using a 5-point Likert scale: “How do you evaluate your own health? 1 = very poor, 2 = poor, 3 = neutral, 4 = good, 5 = excellent.” It is widely agreed that this simple global question provides a useful summary of overall health status [21, 22]. FD practices was the key independent predictor that we wanted to examine in this study. Therefore, we divided FD practices into three categories: workload, stress, and support. Workplace environment was the key control variable. Seven items were included in FD practices to cover workload (work time, work intensity, workload in the FD practice), work pressures (work pressure), and cooperation/support (team/department support, CHSCs’ support, and policy support). Support policies refer to preferential policies for family doctors, including investment in facilities and equipment, funding, vocational training, et al. Five items were included in workplace environment measurements: office environment, facilities and equipment, information technology (IT) system, spiritual culture, and performance incentives. We not only included physical workplace environment, but also considered cultural and performance incentives as factors, which were widely discussed as a significant part of the workplace environment [23].

The sociodemographic characteristics included age, gender, marital status, hukou, and occupational category. Education and annual income were also considered as socioeconomic characteristics. Hukou is a special household registration system in China used for population management, especially the migrant population. Hukou is highly related to social welfare because of the huge regional disparity of social wealth in China [24, 25]. (see appendix Table 5).

Data analysis

Descriptive analyses were performed to capture the sample characteristics, including frequency, percentage, mean, and standard deviation. Health status of occupational categories (FD, FN, PHD and other PHCW) were also described. Ordered logistic regression was performed to examine the SRH differences between different occupation categories, after demographics (Model 1), socioeconomic characteristics (Model 2), and workplace environment (Model 3) were controlled step by step. Based on Model 3, we tested the effect of FD practices on SRH separately for FDs (Model 4), FNs (Model 5), PHDs (Model 6), and Others (Model 7).

Results

Sample characteristics

Five hundred ninety-one questionnaires were distributed and 570 returned, with a high response rate of 96.4%, in which 562 questionnaires were valid. The number of FDs, FNs and PHDs were 126 (22.4%), 215 (38.26%), and 72 (12.81%) respectively. The remaining 26.52% in the Others category included technologists, pharmacists, psychological consultants, dietitians, rehabilitation therapists, amongst others, which varied in different CHSCs. Table 1 showed that the average age of this sample was 37.57 years (±8.59 years), and the average age of FD was greater than others. 79.36% of PHCWs were women, while 99.53% of FNs were women. The PHCWs’ martial statuses varied, with 83.10% married, 14.77% single, and only around 2% were divorce or widowed. The majority of PHCWs’ hukou were registered in Shanghai with only 10.50% originally from other provinces. The education levels of the PHCWs was high, with 90.57% having a bachelor’s degree, and 17.46% of FDs had a master’s degree; The average annual income of PHCWs was 8.45 (unit: 10,000 yuan), with FDs (9.19, unit: 10,000 yuan) earning more than other groups.

Table 1 Sociodemographic characteristics

Health status of PHCWs in CHSCs

The descriptive analyses showed significant differences amongst PHCWs in their SRH: e.g., 18.25% of FDs assessed their health as good or excellent, while 20.00% of FNs, 26.39% of PHDs, and 29.06% of Others reported good or excellent health. Nevertheless, PHDs had the worst assessment (poor or very poor) of their own health, which indicated an apparent polarization in their SRH. The more consistent finding was that most of the PHCWs of different occupational categories rated their health as ‘neural’. In general, Other PHCWs and FNs seemed to have better SRH than FDs and PHDs (see Table 2).

Table 2 PHCWs’ health status

We further performed model tests to distinguish health differences amongst PHCWs, controlling for socioeconomic characteristics and workplace environment. We observed an obviously positive relationship between the workplace environment and SRH. Specifically, the SRH of those who evaluated the IT system in their workplace as being “good” were 2.95 times than that of those who reported it as being “very poor.” The SRH of “very good” evaluators of their cultural environment were 4.74 times higher than that of those who reported it as “very poor.” PHCWs who had better evaluations of their performance incentives seemed to have better health, although this relationship did not seem to show a gradient. We then focused on the effect of occupational categories on SRH, which was quite consistent with our descriptive findings. Compared with FDs, Other PHCWs and FNs had better SRH, e.g., the odds ratio (ORs) were 2.03 for Others, 1.98 for FNs, while FDs were the reference group. Besides, we found that males reported better (OR = 2.43, 95%CI: 1.480–3.983) health status than females, and the SRH of PHCWs from other provinces was 2.37 times than that of those local district PHCWs (Table 3).

Table 3 Ordered logistic regression of SRH for all PHCWs

Factors associated with different PHCWs’ health

We then separated our model into four sub-models focusing on four categories of PHCWs, in which all sociodemographic, socioeconomic, and workplace environment variables were controlled. Some interesting findings were obtained. Workplace environment and FD practices were significant predictors of SRH, although this varied by occupational category. For FDs, the facilities and equipment in the workplace environment were the only significant variable, i.e., the OR for “good” evaluations was 235.73 times than that for “very poor” evaluations. Surprisingly, all items in FD practices did not have a significant impact on the SRH of FDs. Office environment had a negative effect on FNs’ SRH, while IT system and performance incentives positively affected their SRH. A significant effect was observed in FNs from FD practices; specifically, FNs who strongly felt under pressure from their increased workload because of FD-contracted services had worse SRH. That is, the OR for “strong” pressure was 12.0% higher than that of “no” pressure. Similarly, those feeling stronger work pressure had worse SRH, i.e., compared with “no” pressure, the SRH ORs for “neutral,” “strong,” and “very strong” evaluator of work pressure was 0.002, 0.001, and 0.000, respectively. PHDs did not evaluate their workplace environment that significantly, but supported FD practices. Specifically, considering a unit increase in team/department support, the OR was 10.7 times than that from before the increase. However, policy support had a negative effect on the SRH of PHD. Considering Other PHCWs, FD practices did not play significant role in affecting their SRH, but the workplace environment did, especially the cultural environment, facility, and equipment. Specifically, compared with those “very poor” evaluators of facility and equipment, the OR of those who evaluated it as being “poor” was 138.34 times higher. Similarly, those who assessed their cultural environment as being good were better in SRH than those as poor, i.e., the OR for “good” was 25.98 times higher than that of “very poor.” However, a negative relationship was found between IT system and SRH (Table 4).

Table 4 Separate ordered logistic regressions of health for different PHCWs

Discussion

The descriptive analyses and model tests showed significant differences in SRH status amongst the PHCWs. FNs and Other PHCWs had much better SRH than FDs, who played the key role in of FD teams. Studies have not focused on PHCWs’ health to date, although the Chinese government has repeatedly strengthened the significant role of PHCWs to support them using policy [26]. In addition, the health differences amongst FDs, FNs, PHDs, and Other PHCWs have not yet been explored. Worse self-reported health could be related to teamwork in primary health care, where FDs were usually in charge and bore primary responsibility. The relationships between job characteristics, role stress, and health had been documented widely in the psychological literature. For example, Kelloway and Barling proposed and evaluated a causal model that delineated the processes whereby individual mental health was affected by job characteristics and found that indices of job-related affective well-being and subjective competence mediated the relationships between job characteristics and role stressors on the one hand and mental health on the other hand [27].

The health differences amongst PHCWs were explored further and apparent differences were also found. Surprisingly, the significant effect of FD practice was only discovered in FNs, rather than FDs, PHDs, or Others, which was contrary to previous cognition. Specifically, negative relationships with SRH were found in the effect of FD-contracted services workload and work pressure for FNs. In most studies, FDs are described as the dominant leaders of FD-contracted service teams, including PHDs, FNs, and Other team members [28]. FDs were thought to be the greatest contributor to primary health care by the public and social media. However, in our study, FNs were significantly affected by the growing workload in delivering FD-contracted services, in addition to the pressure to work because of their increased workload. FNs usually work closely with FDs as their assistants, although they can work in different ways [29]. As FD-contracted services were implemented, the FNs’ workload grew dramatically in two main components: the usual health care for visiting patients and health management for FD-contracted residents [30]. Pan and Yang analysed different models of FD teams in China. They found that FNs always supported FDs in areas of medical care, health consultation, health examinations, health profile updates, supported PHDs with NCD management, health education, and so on [31]. Using practice evidence from four CHSCs in Shanghai where FNs were regarded as assistants, Lu and colleagues explored the FNs’ work cooperation more deeply [7]. They found there were 32 specific work tasks related to FNs’ daily work, which were classified into four categories: primary medical care, primary public health care, major public health care, and FD-contracted services. This strongly shows that FNs have been deeply involved in primary health care since the 2009 health-care reform, but have also been ignored. Our study drew the preliminary inference that FD-contracted services had led to heavy work pressure for FNs that even caused serious deterioration of their health.

Our study also suggested that an improved IT system and performance incentives could help improve FNs’ SRH. FNs in CHSCs were mainly responsible for medical care, but also regarded as FDs’ assistants in FD contracted services provision. For example, FNs collected each contracted resident’s health information to establish electronic health record, and update them annually, and FNs were also responsible for following-up NCD patients’ health status, all of which were highly dependent on information systems. The Chinese government increased its subsidies to primary health-care institutions from ¥19 billion (US$2.8 billion) in 2008 to ¥140 billion ($20.3 billion) in 2015, as part of China’s new health-care reform initiated in 2009 [32]. Infrastructure, including IT systems, had been improved greatly in the CHSCs because the government developed and deployed a series of IT systems that covered all CHSCs, including systems for infectious diseases and public health emergencies reports, health management for psychosis, resident health records, and electronic medical record systems [2]. A well-established system helps to reduce the difficulty of work and increase work efficiency, thus improving health. A recent study showed that after the application of IT in China, medical costs were obviously reduced, consultation became more convenient, and the health system worked more efficiently [33], which is consistent with previous studies abroad [34, 35]. In our study, self-rated IT system satisfaction was positively correlated with higher SRH for FNs, suggesting a positive effect of IT systems on FNs’ health. And performance incentive was also found to be advantageous for FNs’ health, which was consistent with health disparity theory, revealing that better income, education, and occupation position were positively correlated with health status, which was articulated by Margaret Whitehead [36]. However, the performance incentive and income of FNs in China was criticized by many scholars. A national survey conducted by Li and colleagues showed that the median annual income for doctors who had 2 to 10 years of clinical practice experience after graduating was ¥48,000, ranging from ¥35,000 in the central regions to ¥60,000 in eastern regions, which were lower than the average income in China (¥62,029) [2]. We suggested further improvements to the IT system, especially a further combination of different systems, and construction of performance incentives, especially for income.

In terms of significant factors for FDs, the only significant predictor was facility and equipment, which was also positively related with SRH for Other PHCWs. The relationship between workplace environment and health for doctors has been widely documented and similar results show that a better environment equals better health [37, 38]. Another interesting finding for other PHWCs was that SRH was negatively correlated with IT system rating, which is contrary to our previous finding. “Others” are mainly made up of technologists, pharmacists, psychological consultants, dietitians, and rehabilitation therapists in CHSCs, and a large part of their work is done through web-based systems. For example, medical imaging medical technicians use a computer system to produce test reports. With the upgrading of information system, they may therefore take on more work. Another example is that the daily job for psychologists in CHSCs was online counselling, which is preferred by most of residents, as they believed that it is shameful to have a mental illness, which is obviously stigmatized in China. Therefore, the improvement of the information system has brought more workload to other PHCWs, and therefore their health deteriorates.

First, team/department support played a positive role while policy support played a negative role in PHDs’ SRH. Some studies indicated that PHDs had joined FD teams, but had not assimilated into the team. Most PHDs still maintained their original work patterns, i.e., reporting data to public health institutions. Public health was broadly defined as all social efforts to prevent diseases and improve the health of the population; however, this was usually understood from the perspective of the services or activities provided by public health institutions in China, which differ from medical services [39, 40]. PHDs were affiliated with CHSCs, but reported their work directly to public health institutions, which suggests the fragmented delivery of public health services, and limited cooperation mechanisms in providing integrated care for prevention, treatment, and health promotion [41]. The absence of this cooperation affected PHDs’ SRH, according to our study. Recent studies have provided similar results, showing that the lack of organizational support might result in larger work pressures, a poor sense of integration, and worse health for employees [42]. Besides, the Chinese government and public media had given strong attention to FDs instead of PHDs; therefore, the current policies were not advantageous or supportive for PHDs, which resulted in a weak sense of support from social policies [43].

Second, the cultural environment was a protective factor for Other PHCWs’ health. Other PHCWs were regarded as auxiliary staff for FD-contracted services, but who also performed indispensable work in the daily operation of CHSCs. According to previous studies, building a cultural environment, including team building seminars, regular vocational studies, employee salons, etc., reflected the importance that managers placed on their employees, which could improve employees’ sense of integration and health, also worked for Other PHCWs [44, 45].

Strength and limitation

There are some limitations still: firstly, our study was a cross-sectional one, through which we could not observe the change of workload and pressure before and after the reform; secondly, this study initially explored whether FD practice might influence PHCWs’ health, but the influential path and mechanism could be explored using method like system dynamics modelling, which could help us to better understand how FD practice affects PHCWs’ health. Thirdly, a larger sample could be better for sub-group analysis, though all the model fit quite well in our study. Finally, Hongkou is a central area in Shanghai, and Shanghai is quite a large city, suggesting that there may be large differences between the regions. Thus, a follow-up and cross-area study is worth conducting, in which the work path and mechanism could be further studies.

Conclusions

We found that this influence of FD practice was most significant on FN’s health, rather than FDs as expected. We also found that team/department support to PHDs played a positive role, while policy support played a negative role in PHDs’ SRH, suggesting that cooperating well in FD team construction and more supportive policy were needed by PHDs. The significant factor affecting the health of FD and Other PHCWs was the workplace environment, e.g., the facilities/equipment and cultural environment, respectively, which suggests that a better physical and cultural environment is needed.

Availability of data and materials

The datasets generated and analysed during the present study are not publicly available because of the need to protect privacy. However, they are available from the corresponding author on reasonable request (hkyangyonghua@sina.com).

Abbreviations

FDs:

Family doctors

FNs:

Family nurses

PHDs:

Public health doctors

CHSCs:

Community health service centres

PHCWs:

Primary health-care workers

NCD:

Noncommunicable diseases

SRH:

Self-rated health

OR:

Odds ratio

IT:

Information technology

References

  1. Yip W, Hsiao W. China’s health care reform: a tentative assessment. China Econ Rev. 2009;20(4):613–9.

    Article  Google Scholar 

  2. Li X, Lu J, Hu S, Cheng KK, De Maeseneer J, Meng Q, Mossialos E, Xu DR, Yip W, Zhang H, Krumholz HM. The primary health-care system in China. Lancet. 2017;390(10112):2584–94.

    Article  PubMed  Google Scholar 

  3. Huang JL, Lu W, Wang L, Zhang T, Liu CJ, Liu SS, Liang H, Zhang YM, Guo DF. A preliminary effect analysis of family doctor and medical insurance payment coordination reform in Changning District of Shanghai, China. BMC Fam Pract. 2019;20(1):1–10.

    Article  Google Scholar 

  4. Wang HH, Wang JJ, Zhou ZH, Wang XW, Xu L. General practice education and training in southern China: recent development and ongoing challenges under the health care reform. Malays Fam Physician. 2013;8(3):2–10.

    CAS  PubMed  PubMed Central  Google Scholar 

  5. Liu Q, Wang B, Kong YY, Cheng KK. China’s primary health-care reform. Lancet. 2011;377(9783):2064–6.

    Article  PubMed  Google Scholar 

  6. Chen J. Shanghai family doctors signed more than 7 million residents, the hierarchical treatment system was initially formed 2019. https://www.cn-healthcare.com/article/20190723/content-521703.html.

    Google Scholar 

  7. Lu QX, Chen P, Zhai JY, Tao QY. Working models of family doctor assistants in Jiading District of Shanghai: a current survey. Chin Gen Prac. 2019;22(25):1–7.

    Google Scholar 

  8. Nation Health Commission of People’s Republic of China. Health Statistic Yearbook of China 2018.

    Google Scholar 

  9. Huang YM, Gong YW, Fang H. Exploration and practice of internet + contracted family doctor services. Chin Gen Prac. 2019;22(25):1–5.

    Google Scholar 

  10. Xu R, Wang L, Shen YH, Xu LN, Liang SM. Evaluation of the effect of family doctor service team mode on community management of type 2 diabetes mellitus. Shanghai Med J. 2019;40(10):45–7.

    Google Scholar 

  11. Wang QQ, Hu YH, Wang LC, Zhang ZJ. Suzhou mode for the delivery of contracted family doctor services. Chin Gen Prac. 2019;22(19):2301–7.

    Google Scholar 

  12. Li SJ, Zhang HR, Zhu LN, Qin Y, Ma WY, Ma L. Status quo of occupational pressure and job satisfaction of general practitioners and its influencing factor. Chin Gen Prac. 2015;18(4):387–90.

    Google Scholar 

  13. Shen Q, Liu S, Cui HQ, Chen C. Occupational stress and burnout in family doctors in Minhang District, Shanghai. Chin Gen Prac. 2019;22(31):1–5.

    Google Scholar 

  14. Xie HK, Wang ZF, LI NY, Zhao JG, Shi YL, Wang M. Relationship among vocational stress, coping style, and physical and mental health of general practitioners. Occup Health. 2017;33(4):456–60.

    Google Scholar 

  15. Aasland O. G, Olff M, Falkum E, Schweder T, Ursin H. Health complaints and job stress in Norwegian physicians: the use of an overlapping questionnaire design. Soc Sci Med. 1997;45(11):1615–29.

    Article  CAS  PubMed  Google Scholar 

  16. Buddeberg-Fischer B, Klaghofer R, Stamm M, Siegrist J, Buddeberg C. Work stress and reduced health in young physicians: prospective evidence from swiss residents. Int Arch Occ Env Health. 2008;82(1):31–8.

    Article  Google Scholar 

  17. Bergman B, Ahmad F, Stewart DE. Physician health, stress and gender at a university hospital. J Psychosom Res. 2003;54(2):171–8.

    Article  CAS  PubMed  Google Scholar 

  18. Williams E. Physician, practice, and patient characteristics related to primary care physician physical and mental health: results from the physician Worklife study. Health Serv Res. 2002;37(1):119–41.

    Article  PubMed Central  Google Scholar 

  19. Sarafis P, Rousaki E, Tsounis A, Malliarou M, Lahana L, Bamidis P, Niakas D, Papastavrou E. The impact of occupational stress on nurses’ caring behaviors and their health related quality of life. BMC Nurs. 2016;15(1):1–9.

    Article  Google Scholar 

  20. Kotrlik JW, Higgins CC. Organizational research: determining appropriate sample size in survey research appropriate sample size in survey research. Inform Technol Learn Perform J. 2001;19(1):43–50.

    Google Scholar 

  21. Fayers PM, Sprangers MA. Understanding self-rated health. Lancet. 2002;359(9302):187–8.

    Article  PubMed  Google Scholar 

  22. Lundberg O, Manderbacka K. Assessing reliability of a measure of self-rated health. Scand J Soc Med. 1996;24(3):218–24.

    Article  CAS  PubMed  Google Scholar 

  23. Naharuddin N, Sadegi M. Factors of workplace environment that affect employees performance: a case study of Miyazu Malaysia. Int J Independent Res Stud. 2013;2(2):66–78.

    Google Scholar 

  24. Chan KW, Buckingham W. Is China abolishing the hukou system? China Quart. 2008;195:582–606.

    Article  Google Scholar 

  25. Liu Z. Institution and inequality: the hukou system in China. J Comp Econ. 2005;33(1):133–57.

    Article  CAS  Google Scholar 

  26. Bhattacharyya O, Delu Y, Wong ST, Bowen C. Evolution of primary care in China 1997–2009. Health Policy. 2011;100(2–3):174–80.

    Article  PubMed  Google Scholar 

  27. Kelloway EK, Barling J. Job characteristics, role stress and mental health. J Occup Psychol. 1991;64(4):291–304.

    Article  Google Scholar 

  28. Xu GP, Niu LJ, Wang JJ. Set up of general practitioner-lea family medicine clinics in China. Chin Gen Prac. 2016;19(1):1–7.

    Google Scholar 

  29. Li L, Hu H, Zhou H, He C, Fan L, Liu X, Zhang Z, Li H, Sun T. Work stress, work motivation and their effects on job satisfaction in community health workers: a cross-sectional survey in China. BMJ Open. 2014;4(6):e004897.

    Article  PubMed  PubMed Central  Google Scholar 

  30. Shi L, Hung LM, Song K, Rane S, Tsai J, Sun X, Li H, Meng Q. Chinese primary care physicians and work attitudes. Int J Health Serv. 2013;43(1):167–81.

    Article  PubMed  Google Scholar 

  31. Pan GY, Yang Y. The current situation of family doctor team services mode. Chin Gen Prac. 2017;20(28):3457–62.

    Google Scholar 

  32. National Health and Family Planning Commission of the People’s Republic of China. China health and family planning statistical yearbook 2016. Beijing: Peking Union Medical College Publishing House; 2017.

    Google Scholar 

  33. Zhao J, Zhang Z, Guo H, Li Y, Xue W, Ren L, Chen Y, Chen S, Zhang X. E-health in China: challenges, initial directions, and experience. Telemed E-health. 2010;16(3):344–9.

    Article  Google Scholar 

  34. Buntin MB, Burke MF, Hoaglin MC, Blumenthal D. The benefits of health information technology: a review of the recent literature shows predominantly positive results. Health Affair. 2011;30(3):464–71.

    Article  Google Scholar 

  35. Hillestad R, Bigelow J, Bower A, Girosi F, Meili R, Scoville R, Taylor R. Can electronic medical record systems transform health care? Potential health benefits, savings, and costs. Health Affair. 2005;24(5):1103–17.

    Article  Google Scholar 

  36. Whitehead M. 1992. The concepts and principles of equity in health. Int J Health Serv. 1992;22(3):429–45.

    Article  CAS  PubMed  Google Scholar 

  37. Markwell AL, Wainer Z. The health and wellbeing of junior doctors: insights from a national survey. Med J Aust. 2009;191(8):441–4.

    Article  PubMed  Google Scholar 

  38. Liss GM, Tarlo SM, Doherty J, Purdham J, Greene J, McCaskell L, Kerr M. Physician diagnosed asthma, respiratory symptoms, and associations with workplace tasks among radiographers in Ontario, Canada. J Occup Environ Med. 2003;60(4):254–61.

    Article  CAS  Google Scholar 

  39. Wu Y. Strengthening public health system and creating a new situation in China’s health work. National Health Work Conference. Chin Health Qual Manag. 2003;53(4):5–11.

    Google Scholar 

  40. Yuan B, Balabanova D, Gao J, Tang S, Guo Y. Strengthening public health services to achieve universal health coverage in China. BMJ. 2019;21(365):l2358.

    Article  Google Scholar 

  41. Grant-Vallone EJ, Ensher EA. An examination of work and personal life conflict, organizational support, and employee health among international expatriates. Int J Intercult Relat. 2001;25(3):261–78.

    Article  Google Scholar 

  42. Arnold KA, Dupré KE. Perceived organizational support, employee health and emotions. Int J Workplace Health Manag. 2012;5(2):139–52.

    Article  Google Scholar 

  43. Li G, Feng D, Tang SF, Fu H, Wang RX, Song HX, Mao YQ, Feng ZC. System construction for modern public health physician regime in China: an analysis based on system theory. Chin J Public Health. 2019;35(1):118–21.

    Google Scholar 

  44. Kent K, Goetzel RZ, Roemer EC, Prasad A, Freundlich N. Promoting healthy workplaces by building cultures of health and applying strategic communications. J Occup Environ Med. 2016;58(2):114–22.

    Article  PubMed  Google Scholar 

  45. Martin A, Karanika-Murray M, Biron C, Sanderson K. The psychosocial work environment, employee mental health and organizational interventions: improving research and practice by taking a multilevel approach. Stress Health. 2016;32(3):201–15.

    Article  PubMed  Google Scholar 

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Acknowledgments

We thank Community Health Management Centre of Hongkou District for questionnaire survey organization.

Funding

This work was funded by the National Natural Science Foundation of China (71904145; 71774116; 71603182), National Key Research and Development Program of China (SQ2018YFC130057) and Shanghai Jiao Tong University China Hospital Development Institute 2019 Local High-level University Hospital Management Special Project (CHDI-2019-C-01). The funding organization had no role in the design of the study and collection, analysis, and interpretation of data and in writing the manuscript.

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Authors and Affiliations

Authors

Contributions

ZXW and YHY conceived the study design. JLH wrote the manuscript. RL and PZ participated in the questionnaire design and translation. QG, XJM, JL and JS conducted the survey. JLH, JWS, and WYY performed data analysis. XG participated in a point-by-point revision of the paper. All authors read and approved of the manuscript.

Corresponding author

Correspondence to Yonghua Yang.

Ethics declarations

Ethics approval and consent to participate

This study was approved by the Ethics Committee of Shanghai Tenth People’s Hospital (2019-K-173-01). The study also passed a regular follow-up ethical inspection by the Committee (2019-K-173-02). Written consent was obtained from the participants before their participation in the questionnaire survey.

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Not applicable.

Competing interests

The authors report no conflicts of interest or competing financial or nonfinancial interests.

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Appendix

Appendix

Table 5 Variables and measurements

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Huang, J., Gong, X., Gu, Q. et al. The effect of family doctor policy practice on primary health-care workers’ health in Hongkou District of Shanghai, China: varied by occupational divisions?. BMC Fam Pract 21, 205 (2020). https://0-doi-org.brum.beds.ac.uk/10.1186/s12875-020-01275-x

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