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Exploring the effects of health information seeking on e-satisfaction in online health communities: an empirical investigation

Abstract

Background

Online health communities (OHCs) are becoming effective platforms for people to seek health information. Existing studies divide health information into general and specific information in OHCs. However, few studies discuss the effects of different types of information seeking in OHCs on users’ electronic satisfaction (e-satisfaction).

Objective

This study explores the effects of general and specific information seeking on users’ e-satisfaction with OHCs through the mediating roles of perceived benefits and costs drawing on the social information processing theory and the social exchange theory.

Methods

This study conducted an online survey to collected data from individuals who used OHCs to seek information. The structural equation model was used to analyze the collect data and the research model. Specifically, this study examined the common method bias and conducted a robustness check.

Results

Results show that general and specific information seeking affect e-satisfaction through the mediating roles of perceived benefits and costs. An interesting result is that general information seeking has a stronger effect on e-satisfaction than specific information seeking.

Conclusions

This study suggests that e-satisfaction should be further enhanced by information seeking as online healthcare practices evolve and change. Managers of OHCs should focus on increasing users’ perceived benefits, thereby increasing their e-satisfaction. Besides, this study discusses implications, limitations, and future research directions.

Peer Review reports

Introduction

With the rapid development of information and communication technology (ICT), the way people seek health information has been enriched [1, 2]. Using the ICT to seek information increases users’ empowerment in health decision-making and promotes users’ communications with health professionals [3]. Online communities provide users with a piece of broad information on medical conditions, prevention strategies, and treatment options [4,5,6]. Online health communities (OHCs) represent one of the fastest-growing online communities and plausibly provide communications beyond the restrictions of geographic proximity [1]. Data from the Pew Research Center show that 72% of adults have used the Internet to search online about various health issues, the most popular of which concern specific diseases and treatments [7, 8].

Due to dissatisfaction with the information provided by offline health services, people visit online platforms to seek information on reasonable opinions from others [9,10,11]. Online platforms break the time and location constraints of the conventional information seeking processes, improving access to health information for marginalized populations and those living in remote areas [12, 13]. Online platforms are attractive to users because of convenience, anonymity, and diversity of information [14]. Users participate in OHCs partly to meet information seeking and acquire social support [15].

OHCs have the potential to increase the availability of health information more equally [16]. More than 90% of patients search for medical and therapeutic experiences similar to their diseases [15]. OHCs are an information hub where people can access every bit of information available about a topic [17]. Users can seek information on health risk assessments, health care recommendations, and similar illness experiences in OHCs [18]. An advantage of OHCs is the availability of information to meet users’ personalized information seeking anytime and anywhere [19]. Patients can get more convenient and high-quality medical services in OHCs. For example, previous studies have found that patients with emotional abnormalities who use online communities have perceived benefits from health information seeking [20].

Users can better communicate with health professionals, understand symptoms, and improve their understanding of treatments and side effects [21]. In the context of OHCs, users typically consider online interactions as advantageous for health outcomes, management of personal health conditions, relationships with physicians, and utilization of online health services [22, 23].

Health information seeking in OHCs can be classified as general and specific information seeking according to whether health information is specific to patients [24, 25]. General information is publicly available [26], defined as public health information on online communities, such as hospital information and pharmaceutical prices [24]. Publicly available information is developed from credible scientific and institutional sources [15]. General information is considered to be more likely credible information because it comes from a trustworthy source [27]. In addition, general information in OHCs can help users who are unsure what information they need. Specific information is related to personal experiences and physical illnesses [15]. Due to user-generated content, specific information has little source credibility, accuracy, currency, and completeness [24].

However, users always perceive information overload because of the extensive information in OHCs [28]. Health information seeking imposes users’ perceived costs in OHCs. Users are surrounded by misleading and confusing information [29]. Professionals provide clinical expertise and reliable information for individuals’ inquiries in OHCs. However, users nevertheless continue to rely on unverified information that comes from various sources [23]. Online information seeking requires users to understand the information of e-health literacy, computer skills, and institutional policies [13, 30, 31], which consumes lots of time and energy.

In addition, health professionals report several negative effects of participating in OHCs, including feeling overworked, overcommitted, insecure, and helpless in both their personal and professional lives [32]. Potential drawbacks of relying on the Internet for health-related information include information overload, navigational challenges, and quality issues [16]. Moreover, users are intimidated by or unaware of how to use operational technology [33]. In the process of health information seeking, users in OHCs are perceived costs due to these negative effects. However, few studies examine how users’ information-seeking affect their perceived benefits and costs. To narrow the research gap, this study focuses on users’ perceived benefits and costs in general and specific information seeking in OHCs.

E-satisfaction (electronic satisfaction) refers to people’s satisfaction with previous purchase experience in a certain electronic commerce (e-commerce) company [34]. E-satisfaction is a measurement of how satisfied users are with OHCs and the informational content. Health information seeking in OHCs saves unnecessary time in a one-to-one consultant and may benefit for physicians’ follow-up communication with patients. Previous studies have explored customers’ e-satisfaction and identified the positive effect of performance expectations and e-satisfaction [35]. Convenience motivation, perceived value, and trust significantly accentuate the relationship between e-satisfaction and e-loyalty [34].

Although e-satisfaction is getting scholars’ attention [35], few research explore users’ e-satisfaction with OHCs. To address the research gap, we examine the effects of users’ general and specific information seeking on their e-satisfaction with OHCs through the mediating roles of perceived benefits and costs. Based on the above arguments, we strive to answer the following research questions:

RQ1. How does general and specific information seeking affect e-satisfaction through the mediating roles of perceived benefits and costs in OHCs?

RQ2. How does general and specific information seeking affect perceived benefits and costs?

This study makes several contributions to health informatics and online platforms research. First, this study enriches the literature on users’ general and specific information-seeking in OHCs. This study examines the effects of general and specific information seeking on users’ e-satisfaction with OHC. The effective channel to users’ perceived costs and benefits is information seeking, which also has an impact on how satisfied they are with OHCs. Second, this study extends the understanding of the social information process theory in the context of OHCs. By investigating users’ perceptions of information seeking, this study reveals the benefits and costs of information processing in OHCs. This study empirically examines the mediating effects of perceived benefits and costs on the relationships between different types of information-seeking and e-satisfaction. In practice, this study provides implications for marketing OHCs to fill the health information gap in China.

Literature review and theoretical background

Due to the value of ICT in healthcare, research on information seeking in OHCs has been growing exponentially. For example, acquiring the perceived usefulness of health information [36, 37], reducing the costs of acquiring health information [38], and assisting patients’ consultation decisions [39]. However, literature exploring the effects of different information-seeking on users’ e-satisfaction is finite in China. The success of OHCs relies on users’ participation in activities. The quality and quantity of information are significant for information-seeking in OHCs [40]. Few studies discuss how to increasing users’ e-satisfaction through general and specific information seeking. Based on the social information processing theory and the social exchange theory, this study investigates the mediating roles of perceived benefits and costs on the relationships between information seeking and e-satisfaction with OHCs in China.

Social information processing theory

Social information processing theory suggests that people adapt their attitudes and behaviors to environments [41]. Social environments draws attention to information on individuals’ activities and attitudes [42]. people rely on social information to shape their attitudes, beliefs, and views when they have inadequate information about the work environment [43]. Based on the social information processing theory, people evaluate situations using social information [44, 45] People can derive maximum benefit and minimize personal risk after rationally assessing the appropriateness of information and behaviors [46, 47].

In addition, social information processing theory assumes that the nature and content of information may vary depending on social context [43]. Based on the social information processing theory, scholars have studied various of workplace phenomena, including employee job satisfaction and adaptation to new technologies [48, 49]. As an emerging social environment, OHCs provide users with the way to seek health information and adapt their attitudes.

Users evaluate general and specific information seeking perceived benefits and costs according to the social information processing theory. These psychological perceptions make users have favorable attitudes toward information-seeking in OHCs. Previous research has considered users’ satisfaction as an attitude [50]. Social information processing theory provides an essential perspective for studying different information seeking and the effects of psychological perceptions on e-satisfaction with OHCs.

Health information types

ICT is changing the way that people gain information on health and disease [51]. The intersection of healthcare and online platforms provides enormous potential for facilitating online health services [52]. Online health information refers to health services information on online platforms, which strengthens users’ participation in health maintenance and treatment decisions [53,54,55]. Existing studies believe that health information is a relatively broad category, including disease information, health, physical and mental health, and other content [24]. Information is divided into two categories according to whether it is unique to those patients or not: general and specific information [24].

General information includes hospitals’ records, health services prices, and physicians’ public information in OHCs. In contrast, specific information includes patients with online reviews, the emotions of online consultations, and health outcomes. Moreover, general information is exceptionally rich in OHCs, which is determined valid information [56]. However, compared to general information, specific information involves users’ health issues. Previous studies have classified the information needs of informal professionals and information needs in general [57]. In this study, we classify health information in OHCs into general and specific information based on different users’ information needs. Specific information seeking is related to patients’ demands in OHCs. General information seeking in OHCs helps users who are not sure what information they need.

Perceived benefits and costs

Social exchange theory proposes that individuals weigh benefits and costs through social behaviors before deciding whether to continue them [58]. Social exchange theory assumes that behaviors depend on maximizing benefits and minimizing costs [59]. Prior studies have discussed information seeking based on the social exchange theory and proposed that perceived benefits motivate users’ reciprocated intentions of information seeking [60]. There are advantages to taking part in online communities. The literature argues that users will contribute information in online platforms if there are benefits, such as rewards, reputation, reciprocity, and enjoyment [61, 62].

Users in OHCs connect with others who share their health issues [63]. People join OHCs primarily for health information and emotional support, such as friendship, encouragement, and sympathy [64]. Previous studies suggest that users’ perceived benefits from engaging in OHCs consist of utilitarian benefits1, symbolic benefits [24], and intrinsic benefits [65]. Perceived benefits come from non-instrumental, experiential, emotional, and personally gratifying benefits [66]. When users conduct online consultations, they are likely to make positively respond to health decisions [67]. Users’ information seeking in OHCs brings benefits in the processes of online consultations, such as information convenience, anonymity, and diversity of information sources [14]. Patients with emotional abnormalities who use online platforms perceive benefits [20]. Seeking behavior mainly promotes physician–patient interactions in clinical treatment, which is the embodiment of positive physician–patient relationships [68].

In contrast, costs refer to the expenditure of behaviors. When a potential detriment or cost is perceived, people are selfish to give up activities [69]. Prior studies suggest information exchanging makes users lose authority [70, 71]. Health professionals reject using OHCs as information seeking on online platforms requires them to spend non-chargeable hours and give up personal energy [36]. In addition, users recall their memory of experiences when seeking specific information that leads to painful and uncomfortable feelings. Users must cognitively identify the correctness and credibility of information in OHCs. Information exchange in online platforms requires the explanation and codification of information, which entails costs like time and labor [72, 73]. Information seeking in OHCs causes perceived costs for both physicians and patients.

Research model and hypotheses

Based on the social information processing theory and the social exchange theory, we propose the research model (Fig. 1) to explore the effects of information seeking on e-satisfaction. Our research model includes two independent variables (general information seeking and specific information seeking), two mediation variables (perceived benefits and perceived costs), and one dependent variable (e-satisfaction). Users’ perceived benefits and costs are caused by general and specific information-seeking process. Users’ e-satisfaction with OHCs is affected by their perceived benefits and costs.

Fig. 1
figure 1

Research model

Effects of general and specific information seeking on perceived benefits

ICT has increased access to general and specific information for people who are in remote areas and have inadequate health information [1]. The time and space barriers of the traditional information-seeking process are broken by ICT [74]. Users acquire perceived benefits from general information-seeking in OHCs, such as information support, and emotional companionship [75]. General information is publicly available and easily accessible. People are willing to obtain useful and reliable health information to make better medical decisions [76]. Users see the advantages of information seeking in OHCs because of the convenience, anonymity, and diversity of information sources.

Specific information is closely related to users’ issues and the content of personal experience [77], such as electronic medical records and online consultations [26]. Moreover, seeking specific information is extremely meaningful for users with similar diseases. For example, specific information is related to specific diagnoses and treatment recommendations, emotional support, and healing experience. Specific information helps users improve health outcomes and makes them perceive benefits. Thus, we propose the following hypotheses.

H1

General information seeking has a positive impact on perceived benefits.

H2

Specific information seeking has a positive impact on perceived benefits.

Effects of general and specific information seeking on perceived costs

The advantage of ICT has made the field of e-health successful [78]. However, seeking and identifying health information in using ICT need to spend on time and energy [8]. OHCs provide substantial content and a variety of sources for information. It is difficult for users to identify the accuracy and reliability of health information. Users find it challenging to seek useful common sense regarding healthcare, particularly when identifying and filtering various claims of unified information. More than 90% of users seek information on their illnesses [14]. Users without e-health literacy seek health information costly.

In addition, specific information has little source credibility, accuracy, currency, and completeness due to user-generated content in OHCs [15]. Users are more likely to incur potential emotional costs, such as sadness and pain, through specific information seeking. Thus, we propose the following hypotheses.

H3

General information seeking has a positive impact on perceived costs.

H4

Specific information seeking has a positive impact on perceived costs.

Effects of perceived benefits and costs on e-satisfaction

The definition of e-satisfaction is “the gratification of people for their previous experience with a certain electronic commerce company” [34]. When the outcomes of general and specific information-seeking match and exceed users’ expectations, they are pleased about seeking experiences. As a form of attitude, satisfaction represents users’ performance in terms of cost, ease of access to resources, and well-being [79]. Prior studies suggest that satisfaction reflects how users’ expectations for products and services are met by comparing them with the expected outcomes [80, 81]. Prior studies have defined satisfaction as an evaluation of health service expectations based on related healthcare requirements [82, 83].

This study proposes that e-satisfaction refers to users’ gratification of general and specific information seeking in OHCs when comparing the expectations with actual experiences. Users receive helpful feedback on their health decisions when they inquire about information and conduct online consultations in OHCs. The consequence of information seeking increases users’ e-satisfaction with OHCs. Users’ perceptions of the advantages of information seeking are invisible and not measurable [24]. Prior studies have found users who are satisfied with the information make for favorable clinical outcomes [84]. However, other issues in OHCs, such as economic costs, misdiagnosis, misleading suggestions, and privacy disclosure, make users perceive costs [85]. Users require significant amounts of time and energy when they use online platforms to seek health information. Costs perceptions of information seeking decrease e-satisfaction with OHCs [86]. Thus, we propose the following hypotheses.

H5

Perceived benefits have a positive impact on e-satisfaction.

H6

Perceived costs have a negative impact on e-satisfaction.

Research design

Measures

To ensure the validity of the questionnaires, we used well-established scales from prior studies. Items were tested using a 7-point Likert scale (from 1-strongly disagree to 7-strongly agree). As shown in Table 1, scales for general and specific information seeking were adapted from [17] and [24]. Scales for perceived benefits were adapted from [8, 65, 85], and [87]. Scales for perceived costs were adapted from [8] and [88]. E-satisfaction was measured based on [59].

Table 1 Measurement items

There were four control variables in our research model, including gender, age, education, and frequency of using OHCs. Since all of the items were crudely developed in English, we translated the English items into Chinese using the reverse translation approach. To ensure the acceptable and reliability of the questionnaires’ content, we invited ten experts to examine whether items were ambiguous. We revised the ambiguous items according to experts’ comments.

Data collection

We conducted an online survey to verify the previously proposed model. In this study, the subjects of our investigation were Chinese individuals participating in health information seeking in OHCs. The formal survey was conducted on a Chinese online platform. Participants were invited to access the online platform (https://www.wjx.cn/) and complete questionnaires online. We carried out the anonymous online investigation in October 2019. Each participant’s informed permission and privacy were safeguarded before the formal survey.

In addition, we considered participants’ experience of filling online questionnaires to avoid the impact of operation technology. We eliminated from the survey any invalid samples that had no responses and overly quick completed times. The formal survey had 512 participants. 412 valid questionnaires were returned. 75% (412/549) of the data were valid.

Data analysis

The structural equation model (SEM) was used to examine the hypotheses in our research model. There are two sections in the SEM analysis, including measurement model analysis and structural model analysis. In this study, we adopted PLS-SEM to analyze the hypothesis model and used SmartPLS to analyze the data and test hypotheses.

PLS-SEM estimates biased model relationships in iterative sequences of ordinary least squares regression [88]. PLS-SEM maximizes the explained variance of endogenous latent variables and relaxes the assumption of multivariate normality [89]. PLS-SEM is capable of estimating complex models with small samples [89,90,91]. The rule of thumb for the sample size is 10–15 times the maximum structural equation [92]. Given the complexity of our research model with five structures and six hypotheses, PLS-SEM is the best approach for this study.

Results

As shown in Table 2, There were 412 valid responses. Male respondents made up 43.7% of the total, while female respondents made up 56.3% of the total. As for age, 169 respondents were aged from 21 to 30, which covers 41.1% of the total. The number of college respondents is 362 (87.9%). From the perspective of education, respondents with high education levels tend to seek information in OHCs. Moreover, 26 respondents used OHCs almost daily and 170 respondents used OHCs 2–3 times a week on average. 213 respondents used OHCs when health issues appeared, which covers 51.7% of respondents.

Table 2 Demographic statistics

Measurement model analysis

We used SPSS and SmartPLS to examine the measurement model. Before testing the discriminate validity and convergent validity, we conducted the Kaiser–Meyer–Olkin (KMO) and Bartlett’s test of sphericity. Results indicated that the KMO values were greater than the standard 0.8. Thus, scales are suitable for confirmation factor analysis. Moreover, we used Harmon’s one-factor test to assess common method bias. Results reflected that the first factor accounts for the highest variance of 26.4%. Thus, common method bias was not a severe threat in this study.

As shown in Table 3, the values of average variance extracted (AVE) were over 0.5. The values of composite reliability (CR) were over 0.7. Results reflected the good convergent validity of scales. The values of Cronbach’s alpha were over 0.7. Results indicated the good reliability of scales. As shown in Table 4, correlations between the two constructs were less than the values of the square root of AVE. The discriminate validity of the constructs in this study was identified. The multivariate coefficients of determination results are presented in Table 5.

Table 3 Composite reliability and average variance extracted
Table 4 Correlations between constructs
Table 5 Multivariate coefficient of determination (\({R}^{2}\)) results

We considered gender, age, education, and frequency of using OHCs as control variables. We used Cohen ƒ2 to assess the effects of control variables. Results reflected that the effects of control variables were limited. We evaluated the fitness of the structure model. Table 6 presented several fit indices, including normed chi-square (\({\upchi }^{2}/df\)), the goodness of fit index (GFI), Tucker-Lewis index (TLI), comparative fit index (CFI), incremental fit index (IFI), root means square error of approximation (RMSEA) and the adjust GFI (AGFI). The values of fit indices reflected the good fitness of our research model.

Table 6 Goodness of fit assessments for the structural model

Structural model analysis

We examined the structural model using PLS-SEM. Table 7 and Fig. 2 present the significance of standard path coefficients. Results indicated that general and specific information seeking positively affected on perceived benefits and costs. Perceived benefits had a positive effect on e-satisfaction. Perceived costs had a negative effect on e-satisfaction.

Table 7 Hypothesis testing
Fig. 2
figure 2

PLS-SEM results of the structural model. Note: ***p-value < 0.001

The results of the effect size analysis are shown in Table 8. General and specific information seeking had significant effects with moderate effect sizes on perceived benefits. General and specific information seeking had effects with weak effect sizes on perceived costs. In addition, perceived benefits and costs had effects with moderate effect sizes on e-satisfaction.

Table 8 Partial least squares effect size analysis

Robustness check

To check the robustness of the statistical results, we conducted two steps. First, we used G*Power to calculate whether the 412 sample size has sufficient statistical power. According to post hoc analysis, the power (1 − \(\beta\)) value above 0.999, exceeding the standard value of 0.8. Thus, our samples could explain the research model. Second, this study measured the structural model using AMOS technique. As shown in Table 9 and Fig. 3, the results of the structural model through using AMOS were consistent with the results of PLS-SEM through using SmartPLS.

Table 9 Hypothesis testing
Fig. 3
figure 3

Results of the structural model using AMOS. Note: ***p-value < 0.001

Discussion

We investigate the effects of general and specific information seeking on patients’ e-satisfaction in OHCs. Users in OHCs can perceive benefits and costs through general and specific information seeking. We explore the effects of users’ perceived benefits and costs on e-satisfaction. Perceived benefits make users satisfy the information in OHCs and online platforms.

However, perceived costs can reduce users’ e-satisfaction with OHCs. One of the reasons may be the operation technique of information seeking on the Internet is complicated for users. Participating in OHCs requires users to invest time and effort, which explains why perceived costs lower users’ e-satisfaction. To increase users’ e-satisfaction, perceived benefits in the process of general and specific information seeking should be focused on by OHCs managers.

Theoretical implications

This study has several theoretical implications. First, this study enriches the literature on users’ different information seeking in OHCs. Information in OHCs is divided into general and specific information [24]. General and specific information seeking make users perceive benefits and costs. According to social exchange theory, perceived benefits have a positive effect on users’ e-satisfaction with OHCs. Conversely, perceived costs negatively affect users’ e-satisfaction with OHCs.

Second, this study extends social information process theory in the context of OHCs. OHCs have two main functions, including information and social supports [93]. After rationally assessing the appropriateness of the information in OHCs, users can perceive benefits and costs. This study contributes to the research about users’ perceived benefits and costs of information seeking in OHCs. Processing general and specific information raises users’ e-satisfaction with OHCs.

Third, this study provides theoretical guidance for increasing users’ e-satisfaction with OHCs. Social information processing theory, as the theoretical framework, explains people’s information behavior and attitude. Previous research has examined users’ satisfaction with online platforms [35]. However, few studies explores the effects of health information seeking on users’ e-satisfaction with OHCs. This study provides an understanding of users’ e-satisfaction from the perspective of general and specific information seeking.

Practical implications

Meanwhile, this study provides practical implications regarding marketing OHCs. First, this study suggests that OHCs managers should be concerned about users’ perceived benefits of information seeking. This study considers users’ information-seeking as an influential factor in predicting e-satisfaction.

Second, this study suggests that health professionals should focus on health information seeking. The diversity of information and users in OHCs causes users’ perceived costs for information seeking. Results reflect that perceived costs reduce users’ e-satisfaction with OHCs. To increase users’ e-satisfaction, OHCs managers should assist health professionals in seeking information and reduce perceived costs. For example, the user interface of OHCs is easy to operate, reducing users’ time and energy.

Third, OHCs have become an ideal channel for rural patients to access health information [94]. This study investigates information seeking in Chinese OHCs. OHCs are being used by more physicians and patients to access health information [19]. As the world’s largest developing country, the urban–rural health gap in China has always been a serious social problem [95]. This study provides practical implications to increasing users’ e-satisfaction with OHCs for addressing the urban–rural health gap in China.

Limitations

This study has several limitations and future research directions. First, this study conducts data collection using respondents’ self-reports. The self-rating scales depend on respondents’ knowledge and opinions, which easily causes bias. Future research can use objective data to validate our research model.

Second, cross-sectional data were used in this study, ignoring the time-varying effects of constructs. Future research can use longitudinal data to analyze information seeking in OHCs. Third, this study does not consider the types of OHCs. Different communities may exhibit different ways of online information seeking. Future research can consider different sources of health information.

Finally, the research model of this study does not include the effect of trust in OHCs. Users’ trust is not the main topic of this study. In addition, this study ignores users’ health information needs in OHCs. This is a limitation of our research focusing on e-satisfaction. Further research can explore other issues like trust, misinformation, and information needs in OHCs.

Conclusion

This study identifies that general and specific information seeking have positive effects on e-satisfaction through the mediation role of perceived benefits. General and specific information seeking affect e-satisfaction negatively by the mediation role of perceived costs. General information seeking has a stronger impact on perceived benefits and costs than specific information seeking. Moreover, perceived benefits have a positive effect on e-satisfaction, while perceived costs have a negative effect on e-satisfaction. Our results suggest that OHCs should increase users’ perceived benefits of general and specific information seeking. Furthermore, OHCs provide general and specific health information for users to improve their e-satisfaction. This study contributes to enriching the literature on the social information process theory in the context of OHCs.

Availability of data and materials

The authors confirm that the datasets used and/or analysed during the current study available from the corresponding author on reasonable request.

References

  1. Goh JM, Gao GD, Agarwal R. The creation of social value: Can an online health community reduce rural–urban health disparities? MIS Q. 2016;40(1):247–63.

    Article  Google Scholar 

  2. Ziebland S, Chapple A, Dumelow C, Evans D, Prinjha S, Rozmovits L. How the internet affects patients’ experience of cancer: a qualitative study. BMJ-Brit Med J. 2004;328(7439):564.

    Article  Google Scholar 

  3. Millar RJ, Sahoo S, Yamashita T, Cummins PA. Literacy skills, language use, and online health information seeking among Hispanic adults in the United States. Patient Educ Couns. 2020;103(8):1595–600.

    Article  Google Scholar 

  4. Jacobs W, Amuta AO, Jeon KC. Health information seeking in the digital age: an analysis of health information seeking behavior among US adults. Cogent Soc Sci. 2017;3:1302785.

    Google Scholar 

  5. Tonsaker T, Bartlett G, Trpkov C. Health information on the Internet: Gold mine or minefield? Can Fam Phys. 2014;60:407–8.

    Google Scholar 

  6. Tan SS, Goonawardene N. Internet health information seeking and the patient-physician relationship: a systematic review. J Med Internet Res. 2017;19: e9.

    Article  Google Scholar 

  7. Fox S, Duggan M. The social life of health information. 2014. https://www.pewresearch.org/fact-tank/2014/01/15/the-social-life-of-health-information/

  8. Zhang XF, Guo XT, Wu Y, Lai KH, Vogel D. Exploring the inhibitors of online health service use intention: a status quo bias perspective. Inf Manag. 2017;54(8):987–97.

    Article  Google Scholar 

  9. Chen X, Siu LL. Impact of the media and the Internet on oncology: survey of cancer patients and oncologists in Canada. J Clin Oncol. 2001;19:4291–7.

    Article  CAS  Google Scholar 

  10. Derdiarian AK. Informational needs of recently diagnosed cancer patients. Cancer Nurs. 1987;2(10):107–15.

    Google Scholar 

  11. McMullan M. Patients using the Internet to obtain health information: how this affects the patient-health professional relationship. Patient Educ Couns. 2005;63:24–8.

    Article  Google Scholar 

  12. McGrath RG. A real options logic for initiating technology positioning investments. Acad Manage Rev. 1997;22(4):974–96.

    Article  Google Scholar 

  13. LaPerrie ́re B, Edwards P, Romeder JM, Maxwell-Young L. Using the Internet to support self-care. Can Nurse. 1998;94:47–8.

    Google Scholar 

  14. Cline RJW, Haynes KM. Consumer health information seeking on the Internet: the state of the art. Health Educ Res. 2001;16(6):671–92.

    Article  CAS  Google Scholar 

  15. Fan H, Lederman R, Smith S, Chang S. How trust is formed in online health communities: a process perspective. Commun Assoc Inf Syst. 2014;34:531–60.

    Google Scholar 

  16. Morris TA, Guard JR, Marine SA, Schick L, Haag D, Tsipis G, Kaya B, Shoemaker S. Approaching equity in consumer health information delivery: NetWellness. J Am Med Inf Assoc. 1997;4(1):6–13.

    Article  CAS  Google Scholar 

  17. Hu X, Bell RA, Kravitz R, Orrange S. The prepared patient: information seeking of online support group members before their medical appointments. J Health Commun. 2012;8(17):1–19.

    Google Scholar 

  18. Oh S. The characteristics and motivations of health answerers for sharing information, knowledge, and experiences in online environments. J Am Soc Inf Sci Technol. 2012;63(3):543–57.

    Article  Google Scholar 

  19. Zhang X, Liu S, Deng ZH, Chen X. Knowledge sharing motivations in online health communities: a comparative study of health professionals and normal users. Comput Hum Behav. 2017;75:797–810.

    Article  Google Scholar 

  20. Wicks P, Massagli M, Frost J, et al. Sharing health data for better outcomes on PatientsLikeMe. J Med Internet Res. 2010;12(2): e19.

    Article  Google Scholar 

  21. Wicks P, Keininger DL, Massagli MP, de la Loge C, Brownstein C, Isojarvi J, Heywood J. Perceived benefits of sharing health data between people with epilepsy on an online platform. Epilepsy Behav. 2012;23(1):16–23.

    Article  Google Scholar 

  22. Peng X, Sun D, Zhao YC, Xu W. What trigger people use physician- patient interactive OHCs? An empirical research based integration model. In: The proceedings of the 19th Pacific Asia conference on information systems (PACIS), Singapore, 2015; 2.

  23. Vennik FD, Adams SA, Faber MJ, Putters K. Expert and experiential knowledge in the same place: patients’ experiences with online communities connecting patients and health professionals. Patient Educ Couns. 2014;95(2):265–70.

    Article  Google Scholar 

  24. Yan ZJ, Wang TM, Chen Y, Zhang H. Knowledge sharing in online health communities: a social exchange theory perspective. Inf Manag. 2016;53(5):643–53.

    Article  Google Scholar 

  25. Meng F, Zhang X, Liu L, Ren C. Converting readers to patients? From free to paid knowledge-sharing in online health communities. Inform Process Manag. 2021;58(3): 102490.

    Article  Google Scholar 

  26. Zack MH. Managing codified knowledge. Sloan Manag Rev. 1999;40(4):45.

    Google Scholar 

  27. Hovland C, Weiss W. The influence of source credibility on communication effectiveness. Public Opin Q. 1951;15:635–50.

    Article  Google Scholar 

  28. Swar B, Hameed T, Reychav I. Information overload, psychological ill-being, and behavioral intention to continue online healthcare information search. Comput Hum Behav. 2017;70:416-v425.

    Article  Google Scholar 

  29. Bartlett YK, Coulson NS. An investigation into the empowerment effects of using online support groups and how this affects health professional/patient communication. Patient Educ Couns. 2011;83(1):113–9.

    Article  Google Scholar 

  30. Eng TR, Maxfield A, Patrick K, Deering MJ, Ratzan SC, Gustafson DH. Access to health information and support-a public highway or a private road? JAMA-J Am Med Assoc. 1998;280(15):1371–5.

    Article  CAS  Google Scholar 

  31. Gallagher SM. Rethinking access in an information age. Ostomy Wound Manag. 1999;45(9):12–4.

    Google Scholar 

  32. Atanasova S, Kamin T, Petric G. Exploring the benefits and challenges of health professionals’ participation in online health communities: emergence of (dis)empowerment processes and outcomes. Int J Med Inform. 2017;98:13–21.

    Article  Google Scholar 

  33. Wilkins AS. Expanding Internet access for health care consumers. Health Care Manag Rev. 1999;24(3):30–41.

    Article  CAS  Google Scholar 

  34. Anderson RE, Srinivasan SS. E-satisfaction and e-loyalty: a contingency framework. Psychol Mark. 2003;20(2):123–38.

    Article  Google Scholar 

  35. Alalwan AA. Mobile food ordering apps: an empirical study of the factors affecting customer e-satisfaction and continued intention to reuse. Int J Inf Manag. 2020;50:28–44.

    Article  Google Scholar 

  36. Bhattacherjee A. Understanding information systems continuance: an expectation-confirmation model. MIS Q. 2001;25(3):351–70.

    Article  Google Scholar 

  37. Li RZ, Huang Q, Chen XY, Zheng BW, Liu HF. Factors affecting smart community service adoption intention: affective community commitment and motivation theory. Behav Inf Technol. 2019;38(12):1324–36.

    Article  Google Scholar 

  38. Choi BK, Moon HK, Nae EY. Cognition-and affect-based trust and feedback-seeking behavior: the roles of value, cost, and goal orientations. J Psychol. 2014;148(5):603–20.

    Article  Google Scholar 

  39. Yang HL, Guo XT, Wu TS. Exploring the influence of the online physician service delivery process on patient satisfaction. Decis Support Syst. 2015;78:113–21.

    Article  Google Scholar 

  40. Zhang RT, Lu XY, Wu W, Shang XP, Liu ML. Mature or emerging? The impact of treatment-related internet health information seeking on patients’ trust in physicians. Int J Environ Res Public Health. 2018;15(9):17.

    Article  Google Scholar 

  41. Salancik GR, Pfeffer J. A social information processing approach to job attitudes and task design. Adm Sci Q. 1978;23(2):224–53.

    Article  CAS  Google Scholar 

  42. Zalesny MD, Ford JK. Extending the social information processing perspective: new links to attitudes, behaviors, and perceptions. Organ Behav Hum Decis Process. 1990;47(2):205–46.

    Article  Google Scholar 

  43. Young GJ, Meterko MM, Mohr D, Shwartz M, Lin H. Congruence in the assessment of service quality between employees and customers: a study of a public health care delivery system. J Bus Res. 2009;62(11):1127–35.

    Article  Google Scholar 

  44. Ng TWH, Feldman DC. Changes in perceived supervisor embeddedness: effects on employees embeddedness, organizational trust, and voice behavior. Pers Psychol. 2013;66:645–85.

    Article  Google Scholar 

  45. Hsiung HH, Tsai WC. The joint moderating effects of activated negative moods and group voice climate on the relationship between power distance orientation and employee voice behavior. Appl Psychol. 2017;66(3):487–514.

    Article  Google Scholar 

  46. Frazier ML, Bowler WM. Voice climate, supervisor undermining, and work outcomes: a group-level examination. J Manag. 2015;41:841–63.

    Google Scholar 

  47. Lam CF, Mayer DM. When do employees speak up for their customers? A model of voice in a customer service context. Pers Psychol. 2014;67:637–66.

    Google Scholar 

  48. Rice RE, Aydin C. Attitudes toward new organizational technology: network proximity as a mechanism for social information processing. Adm Sci Q. 1991;36:219–44.

    Article  Google Scholar 

  49. Pollock TG, Whitbred RC, Contractor N. Social information processing and job characteristics: a simultaneous test of two theories with implications for job satisfaction. Hum Commun Res. 2000;26:293–330.

    Google Scholar 

  50. Wu P, Zhang R, Zhu X, Liu M. Factors influencing continued usage behavior on mobile health applications. Healthc (Ast). 2022;10(2):208.

    Article  Google Scholar 

  51. Ziebland S. The importance of being expert: the quest for cancer information on the internet. Soc Sci Med. 2004;59(9):1783–93.

    Article  Google Scholar 

  52. Christensen H, Griffiths K. The Internet and mental health literacy. Aust N Z J Psych. 2000;34(6):975–9.

    Article  CAS  Google Scholar 

  53. Iverson SA, Howard KB, Penney BK. Impact of internet use on health-related behaviors and the patient-physician relationship: a survey-based study and review. J Am Osteopath Assoc. 2008;108(12):699–711.

    Google Scholar 

  54. Oh HJ, Lee B. The effect of computer-mediated social support in online communities on patient empowerment and doctor-patient communication. Health Commun. 2012;27(1):30–41.

    Article  Google Scholar 

  55. Broom A. Virtually healthy: the impact of Internet use on disease experience and the doctor-patient relationship. Qual Health Res. 2005;15(3):325–45.

    Article  Google Scholar 

  56. Peng Y, Yin P, Deng Z, Wang R. Patient-physician interaction and trust in online health community: the role of perceived usefulness of health information and services. Int J Environ Res Public Health. 2019;17(1):139.

    Article  Google Scholar 

  57. Alzougool B, Chang S, Gray K. The nature and constitution of informal carers’ information needs: what you don’t know you need is as important as what you want to know. Inf Res. 2013;18:563.

    Google Scholar 

  58. Blau PM. Exchange and power in social life. New York, NY: John Wiley; 1964.

    Google Scholar 

  59. Shiau WL, Luo MM. factors affecting online group buying intention and satisfaction: a social exchange theory perspective. Comput Hum Behav. 2012;28(6):2431–44.

    Article  Google Scholar 

  60. Tsai JCA, Kang TC. Reciprocal intention in knowledge seeking: examining social exchange theory in an online professional community. Int J Inf Manag. 2019;48:161–74.

    Article  Google Scholar 

  61. Kankanhalli A, Tan BCY, Wei KK. Contributing knowledge to electronic knowledge repositories: an empirical investigation. MIS Q. 2005;29(1):113–43.

    Article  Google Scholar 

  62. Maheshwari B, Sarrion M, Motiani M, O’Sullivan S, Chandwani R. Exploration of factors affecting the use of web 2.0 for knowledge sharing among healthcare professionals: an Indian perspective. J Knowl Manag. 2021;25(3):545–58.

    Article  Google Scholar 

  63. Zhang X, Liu S. Understanding relationship commitment and continuous knowledge sharing in online health communities: a social exchange perspective. J Knowl Manag. 2021;26(3):592–614.

    Article  Google Scholar 

  64. Liu S, Xiao W, Fang C, Zhang X, Lin J. Social support, belongingness, and value co-creation behaviors in online health communities. Telemat Inform. 2020;50: 101398.

    Article  Google Scholar 

  65. Mpinganjira M. Precursors of trust in virtual health communities: a hierarchical investigation. Inf Manag. 2018;55(6):686–94.

    Article  Google Scholar 

  66. Arnold MJ, Reynolds KE. Hedonic shopping motivations. J Retail. 2003;79(2):77–95.

    Article  Google Scholar 

  67. Gilmour J, Hanna S, Chan H, Strong A, Huntington A. Engaging with patient online health information use: a survey of primary health care nurses. SAGE Open. 2014;4:1–10.

    Article  Google Scholar 

  68. Osei-Frimpong K, Wilson A, Lemke F. Patient co-creation activities in healthcare service delivery at the micro level: the influence of online access to healthcare information. Technol Forecast Soc Chang. 2018;126:14–27.

    Article  Google Scholar 

  69. Leana CR, Van Buren HJ. Organizational social capital and employment practices. Acad Manag Rev. 1999;24(3):538–55.

    Article  Google Scholar 

  70. Davenport TH, Prusak L. Working knowledge: how organizations manage what they know. Boston: Harvard Business Press; 1998.

    Google Scholar 

  71. Orlikowski WJ. Case tools as organization-change-investigating incremental and radical changes in systems-development. MIS Q. 1993;17(3):309–40.

    Article  Google Scholar 

  72. Markus ML. Toward a theory of knowledge reuse: Types of knowledge reuse situations and factors in reuse success. J Manag Inform Syst. 2001;18(1):57–93.

    Article  Google Scholar 

  73. Ba SL, Pavlou PA. Evidence of the effect of trust building technology in electronic markets: price premiums and buyer behavior. MIS Q. 2002;26(3):243–68.

    Article  Google Scholar 

  74. Gany FM, Herrera AR, Avallone M, Changrani J. Attitudes, knowledge, and health-seeking behaviors of five immigrant minority communities in the prevention and screening of cancer: a focus group approach. Ethn Health. 2006;11(1):19–39.

    Article  Google Scholar 

  75. Wang X, Zhao K, Street N. Analyzing and predicting user participations in online health communities: a social support perspective. J Med Internet Res. 2017;19(4): e130.

    Article  Google Scholar 

  76. Zhang X, Yan XD, Cao XF, Sun YQ, Chen H, She JH. The role of perceived e-health literacy in users’ continuance intention to use mobile healthcare applications: an exploratory empirical study in China. Inform Technol Dev. 2018;24(2):198–223.

    Article  Google Scholar 

  77. Zhang X. A research on evaluating index system of satisfaction degree with information services in healthy website. Changchun: Jilin University; 2011.

    Google Scholar 

  78. Sanaei MR, Sobhani FM. Information technology and e-business marketing strategy. Inf Technol Manag. 2018;19(3):185–96.

    Article  Google Scholar 

  79. Faezipour M, Ferreira S. A system dynamics perspective of patient satisfaction in healthcare. In: Paredis CJJ, Bishop C, Bodner D, editors. The proceedings of the 2013 conference on systems engineering research. vol. 16, Amsterdam: Elsevier Science Bv; 2013. pp 148–156.

  80. Amin M, Nasharuddin SZ. Hospital service quality and its effects on patient satisfaction and behavioural intention. Clin Gov An Int J. 2013;18:238–53.

    Article  Google Scholar 

  81. Wilson A, Zeithaml V, Bitner MJ, Gremler D. Services marketing: integrating customer focus across the firm. New York: McGraw Hill; 2016.

    Google Scholar 

  82. Pascoe GC. Patient satisfaction in primary health care: a literature review and analysis. Eval Program Plann. 1983;6(3–4):185–210.

    Article  CAS  Google Scholar 

  83. Alhashem AM, Alquraini H, Chowdhury RI. Factors influencing patient satisfaction in primary healthcare clinics in Kuwait. Int J Health Care Qual Assur. 2011;24(3):249–62.

    Article  Google Scholar 

  84. Liang CY, Gu DX, Tao FJ, Jain HK, Zhao Y, Ding B. Influence of mechanism of patient-accessible hospital information system implementation on doctor-patient relationships: a service fairness perspective. Inf Manag. 2017;54(1):57–72.

    Article  Google Scholar 

  85. Liang H, Xue Y. Online health information use by disabled people: the moderating role of disability. In: The proceedings of the 34th international conference on information systems, Zagreb, Croatia; 2013.

  86. Mellers BA, Schwartz A, Cooke AD. Judgment and decision making. Annu Rev Psychol. 1998;49:447–77.

    Article  CAS  Google Scholar 

  87. Venkatesh V, Thong JYL, Xu X. Consumer acceptance and use of information technology: extending the unified theory of acceptance and use of technology. MIS Q. 2012;36:157–78.

    Article  Google Scholar 

  88. Bulgurcu B, Cavusoglu H, Benbasat I. Information security policy compliance: an empirical study of rationality-based beliefs and information security awareness. MIS Q. 2010;34(3):523–48.

    Article  Google Scholar 

  89. Shiau WL, Chau PYK. Understanding behavioral intention to use a cloud computing classroom: a multiple model comparison approach. Inf Manag. 2016;53(3):355–65.

    Article  Google Scholar 

  90. Shiau WL, Sarstedt M, Hair JF. Internet research using partial least squares structural equation modeling (PLS-SEM). Internet Res. 2019;29:398–406.

    Article  Google Scholar 

  91. Shiau WL, Zhou M, Liu C. Understanding the formation mechanism of consumers’ behavioral intention on Double 11 shopping carnival: integrating S-O-R and ELM theories. Front Psychol. 2022;13: 984272.

    Article  Google Scholar 

  92. Gefen D, Straub DW, Boudreau MC. Structural equation modeling and regression: guidelines for research practice. Commun Assoc Inf Syst. 2000;4:7.

    Google Scholar 

  93. Nambisan P. Information seeking and social support in online health communities: impact on patients’ perceived empathy. J Am Med Inform Assoc. 2011;18(3):298–304.

    Article  Google Scholar 

  94. Cao X, Wang D. The role of online communities in reducing urban-rural health disparities in China. J Assoc Inf Sci Technol. 2018;69(7):890–9.

    Article  Google Scholar 

  95. Wang H, Yu Y. Increasing health inequality in China: an empirical study with ordinal data. J Econ Inequal. 2016;14(1):41–61.

    Article  Google Scholar 

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Acknowledgements

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Funding

This work was supported by the National Natural Science Foundation of China (Grant Number: 62172033); National Social Science Foundation of China (major project; Grant Number: 18ZDA086); the Fundamental Research Funds of the Central University (Grant Number: 2022YJS033). The authors also appreciate the support of the Beijing Logistics Informatics Research Base.

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Pei Wu participated in designing the study and developing the research model, designed the questionnaire, conducted data collection and analysis, and is a major contributor in writing and revising the manuscript. Runtong Zhang helped draft and modify the manuscript. All authors read and approved the final manuscript.

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Correspondence to Runtong Zhang.

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Wu, P., Zhang, R. Exploring the effects of health information seeking on e-satisfaction in online health communities: an empirical investigation. BMC Med Inform Decis Mak 22, 332 (2022). https://doi.org/10.1186/s12911-022-02079-y

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