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Influencing factors of knowledge proficiency of general practitioners in rural China for esophageal cancer prevention and treatment: a cross-sectional study

Published online by Cambridge University Press:  12 February 2024

Jinjia Zhang
Affiliation:
Department of General Practice, The Second Hospital of Hebei Medical University, Shijiazhuang Hebei, China
Huadong Wu
Affiliation:
Department of Gastrointestinal Surgery, The Second Hospital of Hebei Medical University, Shijiazhuang, Hebei, China
Rongying Wang*
Affiliation:
Department of General Practice, The Second Hospital of Hebei Medical University, Shijiazhuang Hebei, China
Min Zhang
Affiliation:
Department of General Practice, The Second Hospital of Hebei Medical University, Shijiazhuang Hebei, China
*
Corresponding author: Rongying Wang; Email: [email protected]
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Abstract

Background:

This study aims to investigate the knowledge of rural general practitioners (GPs) in esophageal cancer (EC) prevention and treatment in China and analyze relevant influencing factors, so as to improve the ability of rural GPs in EC prevention and treatment.

Methods:

This cross-sectional study was conducted from November 5, 2021, to November 20, 2021. A self-designed questionnaire was used to conduct an online survey. Multivariable logistic regression models were used to identify the influencing factors of knowledge proficiency of GPs in rural China for EC prevention and treatment.

Results:

This study included 348 participants from 12 rural areas in Hebei Province. The mean accuracy rate on all question items was 42.3% ± 10.67%. Sex (OR = 2.870, 95% CI: 1.519–5.423), educational level (OR = 3.256, 95% CI: 1.135–9.339), and comprehension of clinical practice guidelines for EC (OR = 4.305, 95% CI: 2.023–9.161) were significant predictors for GPs’ knowledge proficiency of EC prevention and treatment (P < 0.05).

Conclusions:

The study indicated that knowledge proficiency of rural GPs of EC prevention and control still awaits to be improved. Sex, educational level, and comprehension of clinical practice guidelines for EC were significant predictors for their proficiency.

Type
Research
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2024. Published by Cambridge University Press

Introduction

Esophageal cancer (EC) refers to malignant carcinoma originating from esophageal mucosal epithelium, which is one of the most commonly seen fatal malignant tumors all over the world. According to the worldwide cancer statistics, the incidence and mortality of EC ranked seventh and sixth, respectively, in the year of 2018 (Bray et al., Reference Bray, Ferlay, Soeijomataram, Siegel, Torre and Jemal2018). The incidence of EC in China is significantly higher than those in other countries. In 2018, the incidence rate of EC in China was 13.9/100,000, which was approximately 2.21 times of the global statistics at the same time. In addition, domestic cancer statistics also suggested a mortality rate of 12.7/100,000, which was about 2.31 times of the global cancer deaths caused by EC, resulting in EC as the fourth leading cause for cancer death among all carcinoma in China (He et al., Reference He, Li, Liang, Jin, Wen, Chen and He2017; Bray et al., Reference Bray, Ferlay, Soeijomataram, Siegel, Torre and Jemal2018). Besides, distribution of EC histologic subtypes presents obvious geographical differences. At the national level, the most common domestic histologic subtype is squamous cell carcinoma, with about 50.3% of the global squamous cell carcinoma cases distributed in China (Lin et al., Reference Lin, Wang, Fang, Zheng and Wu2022). More importantly, statistics also indicated a trend of inequality of epidemiological features of EC between Chinese rural and urban areas, with the incidence in rural areas 2 to 10 times higher than that in urban areas (Yuan and Xie, Reference Yuan and Xie2021), which is speculated to be associated with higher prevalence of major risk factors for EC in rural areas, including lower socioeconomic status, smoking, heavy drinking, and dietary factors (Zhou et al., Reference Zhou, Su, Deng, Xiang, Chen and Hao2006; Dong and Thrift, Reference Dong and Thrift2017).

The prognosis of EC largely depends on the clinical stage at the time of diagnosis. More than 90% of the patients with EC at early stage may survive for at least 5 years after receiving minimally invasive treatment, while the 5-year survival rate among patients with advanced EC is still less than 30% following multiple anticancer treatments, such as surgery, radiotherapy, and chemotherapy (Min et al., Reference Min, Lee, Song, Min, Kim, Choi, Lee, Hwang, Carriere, Rhee, Kim, Zo and Shim2018; Zeng et al., Reference Zeng, Chen, Zheng, Zhang, Ji, Zou, Xia, Sun, Yang, Li, Wang, Han, Liu, Li, Mu, He, Xu, Fu, Zhou, Jiang, Yang, Chen, Wei, Fan, Wang, Fu, Zhao, Song, Chen, Jiang, Zhou, Gu, Jin, Li, Li, Wu, Yan, Dong, Hua, Baade, Bray, Jemal, Yu and He2018). However, due to the stealthiness of tumor at early stage, more than 90% of the EC patients would not get diagnosed until advanced stage (DiSiena et al., Reference DiSiena, Perelman, Birk and Rezaizadeh2021). From the perspective of EC disease progression, the precancerous state of EC may last for 5–10 years, and the prognosis shall be significantly improved if effective preventions were applied during the window. Prevention strategies are divided into primary prevention and secondary prevention according to different focuses. The former one mainly focus on proactive control of risk factors for EC by changing unhealthy lifestyles, while the later one relies on early diagnosis and treatment, which can be achieved through EC screening. Therefore, screening programs among people at high risks for EC are of vital importance to, thereby facilitating the introduction of interventions at early stage. Currently, electronic gastroscopy is the most commonly used method for EC screening (Hosseini et al., Reference Hosseini, Asadi, Emami and Ebnali2023), which is less used in rural areas due to lack of gastroscopy equipment, qualified technicians, and healthcare consciousness (Wu et al., Reference Wu, Cai, Lan, Fan and Xue2017; Jia et al., Reference Jia, Li, Zeng, Zheng, Li, Shi, Yang, Cao and Chen2019), all of which may hinder the widespread application of gastroscopy screening in China for potential EC.

Doctors’ knowledge proficiency toward EC can determine their prescribing process. However, current studies on EC mainly focus on blood chemistry markers or genes, and there are few studies on GPs’ knowledge proficiency of EC (Ji Q et al., Reference SJi, Luo, Wang, Liu, Li and Su2016; Picard M, Reference Picard2022). Cross-sectional research has its advantages in understanding knowledge, attitudes, and practices. Therefore, this cross-sectional study aims to investigate the knowledge of rural general practitioners (GPs) in EC prevention and treatment in China and analyze relevant influencing factors, so as to improve the ability of rural GPs in EC prevention and treatment.

Methods

The survey was designed in accordance with ethical principles indicated in Declaration of Helsinki. Anonymous questionnaire was adopted for data collection. The introduction page of the questionnaire contained information about informed consent, and participants provided their consent by clicking the “Start” button. The protocol of this study was approved by the Ethics Committee of the Second Hospital of Hebei Medical University (No. 2021-R321).

Research participants

Participants from the rural district in Fuping Xian of Baoding, China, were enrolled to this cross-sectional study via cluster sampling, and data from November 5, 2021, to November 20, 2021, were collected for analyses. Due to the severe shortage of GPs in rural areas, village doctors were included. The total number of GPs in rural Fuping is around 400. In total, 366 GPs agreed to participate. Finally, excluding 18 incomplete questionnaires, 348 valid questionnaires were completed with 95.08% (348/366) effective rate.

Research methods

The questionnaire used in this study was designed after consulting National Comprehensive Cancer Network Guidelines (Ajani et al., Reference Ajani, D’Amico, Almhanna, Bentrem, Besh, Chao, Das, Denlinger, Fanta, Fuchs, Gerdes, Glasgow, Hayman, Hochwald, Hofstetter, Ilson, Jaroszewski, Jasperson, Keswani, Kleinberg, Korn, Leong, Lockhart, Mulcahy, Orringer, Posey, Poultsides, Sasson, Scott, Strong, Varghese, Washington, Willett, Wright, Zelman, McMillian and Sundar2015), European Society for Medical Oncology Clinical Practice Guidelines (Stahl et al., Reference Stahl, Mariette, Haustermans, Cervantes and Arnold2013), and large prospective cohort studies conducted in China (Chen et al., Reference Chen, Ma, Guan, Song, Ma, Xie, Wang, Shao, Li and Wei2019) and South Korea (Cho et al., Reference Cho, Shin, Han, Yoon, Park, Kim and Lee2020). Then the expert group revised the initial draft. Afterward, we conducted a presurvey and modified the items in the questionnaire again to form the final questionnaire (Table S1).The final questionnaire was filled out on the Internet platform (star network platform) powered by www.wjx.cn. Participant recruiting was carried out by publishing survey advertisements in the WeChat group, which is the most widely used social networking software in China. The same internet protocol address could only be filled out once. The questionnaire consisted of two major domains: GPs’ general status and GPs’ knowledge in EC prevention and treatment. The former domain included age, sex, educational level, professional title, specialty, years of work experience, working hours per week, number of clinic patients per day, and income per month. The later domain included 20 items covering four aspects: risk factor identification, screening and diagnosis, treatment methods for different stages, disease surveillance and follow-up.

EC prevention and treatment knowledge mastery was classified based on the number of correct answers. Participants with above-average scores were assigned to the group with in-depth knowledge in EC prevention and treatment, while those with below-average scores were assigned to the other group (Li Y et al., Reference Li, Yan, Dai, Cheng, Huang, Shao, Zhou, Wang, Liu, Shen, Mi and Du2021).

Statistical analysis

Statistical analysis was performed using SPSS 20.0 statistical software. Enumeration data were expressed in the formation of relative numbers. The χ 2 test was employed for intergroup comparison, while the Wilcoxon rank-sum test was adopted for rank data comparison. Multivariate analysis was conducted through logistic regression analysis, the result of which was employed to establish the risk prediction model and obtain joint predictors. The risk prediction model was verified using a series of parameters of the joint predictor, including sensitivity, specificity, Youden index (YI), positive and negative predictive values, receiver operator curves (ROC), and area under curve (AUC). A P value less than 0.05 was considered statistically significant.

Results

This study included 348 participants from 12 rural areas in Hebei Province. Among all participants included in the study, 277 (73.0%) participants were male, and 71 (27.0%) participants were female. The median age was 55.8 years (range: 28–76 years). The most advanced degree of 155 (44.5%) participants were senior high school or below, 172 (49.4%) participants were associate’s degree, and only 21 (6.0%) participants obtained bachelor’s degree or above. Other demographic characteristics such as professional title, specialty, and years of work experience are summarized in Table 1.

Table 1. General status of general practitioners

Regarding the domain of GPs’ knowledge in EC prevention and treatment, the mean accuracy rate on all question items was 42.3% ± 10.67%, and the average accuracy rates of the four sub-aspects (risk factor identification, screening and diagnosis, treatment method for different stages, disease surveillance, and follow-up) were 37.8% ± 12.35%, 41.5% ± 9.48%, 67.2% ± 13.78%, and 31.8% ± 10.25%, respectively.

On average, the number of questions with correct answer was 8.12 ± 4.56 for each GP. Therefore, a score of 8 was set as the threshold, and the GPs were divided into two groups accordingly, that GPs with scores lower than 8 were assigned to the low knowledge score group and the others were assigned to the high knowledge score group. Differences between the two groups are shown in Table 1. Compared with GPs in the low knowledge score group, those with high scores were significantly older (Fig. 1A) and had more advanced degrees (Fig. 1C). In addition, sex (Fig. 1B) and comprehension of clinical practice guidelines for EC (Fig. 1D) also affected their of knowledge proficiency of EC prevention and treatment.

Figure 1. Comparison of knowledge proficiency of GPs for EC prevention and treatment in different groups (A: age; B: sex; C: educational level; D: comprehension of clinical practice guidelines for EC).

Legends: Compared with GPs in the low knowledge score group, those with high scores were significantly older (Fig. 1A) and had more advanced degrees (Fig. 1C). Sex (Fig. 1B) and comprehension of clinical practice guidelines for EC (Fig. 1D) also affected their of knowledge proficiency of EC prevention and treatment.

In the multivariate analysis, binary logistic regression analysis was conducted with the EC prevention and treatment knowledge scores as the dependent variable (assignment: low knowledge score group = 0; high knowledge score group = 1). The results showed that sex (OR = 2.870, 95% CI: 1.519–5.423), educational level (OR = 3.256, 95% CI: 1.135–9.339), and comprehension of clinical practice guidelines for EC (OR = 4.305, 95% CI: 2.023–9.161) were significant predictors for GPs’ knowledge proficiency of EC prevention and treatment (P < 0.05, Table 2).

Table 2. Result of multivariate logistic regression analysis

Based on the results of logistic regression analysis, the joint predictor (L) was obtained using the following formula: L = X 1 + 1.120 X 2 + 1.385X 3, where X 1 denotes sex, X 2 denotes educational level, and X 3 denotes comprehension of clinical practice guidelines for EC.

The threshold value of the best prediction by the highest YI was 4.758, with a sensitivity, specificity, and YI of 0.831, 0.862, and 0.693, respectively. The positive predictive value was 79.32%, and the negative predictive value was 79.35% (Fig. 2). The ROC curve was shown in Fig. 3, with an AUC of 0.876. The above-mentioned parameters indicated a promising predictive value of the model.

Figure 2. Predicted probability of multiple logistic regression.

Legends: The positive predictive value of the model was 79.32%, and the negative predictive value was 79.35%.

Figure 3. ROC curve of multiple logistic regression.

Legends: Sensitivity refers to the proportion of true-positive results, and 1-specificity refers to the proportion of false-positive results. ROC curve showed the threshold value of the best prediction by the highest Youden index was 4.758, with a sensitivity, specificity, and Youden Index of 0.831, 0.862, and 0.693, respectively, and the AUC was 0.876.

Discussion

The prognosis of EC in rural areas of China may be improved by increasing the consciousness and knowledge of EC prevention and treatment among GPs in rural areas. Therefore, it is of vital importance to understand GPs’ current knowledge proficiency of EC prevention and treatment in rural areas and analyze relevant influencing factors. To our knowledge, this study is the first research to investigate the above-mentioned topic. The study results indicated that knowledge proficiency of rural GPs of EC prevention and control still await to be improved. Sex, educational level, and comprehension of clinical practice guidelines for EC were significant predictors for their proficiency.

GPs play an important role in the health care system, and knowledge gaps in the professional field, such as epidemiology, early symptom identification, and screening methods of EC, may lead to unnecessary examination and overtreatment, or even delayed treatment. Our study showed poor knowledge proficiency of rural GPs in the field of EC prevention and treatment, especially in the aspects of risk factor identification and disease surveillance and follow-up. Accurate understanding of the risk factors for EC may facilitate the introduction of effective preventive measures as well as medical resource distribution, which are the fundamentals to reduce the incidence of EC (Li S et al., Reference Li, Chen, Man, Zhang, Yin, He, Yang and Lu2021). Risk factors for EC vary with histological characteristics. It has been reported that esophageal squamous cell carcinoma is associated with smoking, drinking, cardiac damages, nutritional deficiency, etc., while esophageal adenocarcinoma is believed to be associated with high body mass index, smoking, reflux diseases, and a diet lacking in fruits and vegetables (Arnold et al., Reference Arnold, Ferlay, van Berge Henegouwen and Soerjomataram2020; Lander et al., Reference Lander, Lander and Gibson2023). Therefore, correct identification of these risk factors may assist GPs to carry out public health propaganda, so as to decrease the incidence of EC. In addition, the follow-up visit is also an important aspect in the treatment of malignant tumors. Therefore, it is necessary for the GPs to master the key points of follow-up for EC. Our findings suggested that a series of policy interventions should be adopted to improve GPs’ knowledge proficiency of EC prevention and treatment.

The logistic regression analysis showed that sex, educational level, and comprehension of clinical practice guidelines for EC were significant predictors for GPs’ knowledge proficiency of EC prevention and treatment in rural areas. More specifically, female practitioners presented better knowledge than the male, which is in line with the conclusions of Li Y (Li Y et al., Reference Li, Yan, Dai, Cheng, Huang, Shao, Zhou, Wang, Liu, Shen, Mi and Du2021). The underlying reason for this phenomenon is still not clear. It is speculated that female practitioners tend to be more patient than the male (Veness et al., Reference Veness, Tibble, Grenyer, Morris, Spittal, Nash, Studdert and Bismark2019). In addition, the results indicated that as the educational level increase, GPs have better knowledge of EC prevention and treatment, suggesting that previous educational background may affect knowledge proficiency, which was also confirmed by previous studies (Hooja et al., Reference Hooja, Singh, Mital, Bhargava, Sharma and Kumawat2016; Viwattanakulvanid et al., Reference Viwattanakulvanid, Somrongthong, Vankwani, Kavita and Kumar2020). It is generally accepted that previous academic training may assist the GPs to formulate a mode of thinking that can help them in learning. However, due to the unequal distribution of health medical care personnel between urban and rural areas, rural medical care personnel are always insufficient in number, education, and professional skills (Li et al., Reference Li, Lu, Hu, Cheng, De Maeseneer, Meng, Mossialos, Xu, Yip, Zhang, Krumholz and Jiang2017). Therefore, it is necessary to formulate specific policy incentives for medical students to divert part of the talents to rural areas (Bao and Huang, Reference Bao and Huang2021). Educators in medical colleges should enable medical students to understand the national medical reform policy and the work content of GPs during their study in colleges, so that general medicine teaching can start earlier and help medical students to think about their future career choices.

Medicine is a practical discipline, and accumulated clinical experience is an important source of knowledge (Sharon et al., Reference Sharon, Goldway, Goor-Aryeh, Eisenberg and Brill2018). However, in our study, the knowledge of EC prevention and treatment did not increase along with advance in clinical practice experience (such as the extended years of work experience, professional title and outpatient visits), and even the knowledge level of those with working experience of more than 10 years showed a downward trend, which may be related to current rural medical practice. In rural areas, the job duties of GPs mainly include routine health examination, preventative care, vaccination, health promotion advice, follow-up, etc. (Qin et al., Reference Qin, Li, Liu, Ren and Yu2023), which could be established and comprehended early in career (Rahimi-Ardabili et al., Reference Rahimi-Ardabili, Spooner, Harris, Magin, Tam, Liaw and Zwar2021), while more advanced clinical knowledge were learned from books and training rather than practice. Practitioners with more years of working experience may be affected by knowledge forgetfulness, knowledge aging, and other factors, thereby the longer the working years, the lower the knowledge level.

Clinical Practice Guidelines (CPGs) are management protocols that cover recommendations on prevention, diagnosis, treatment, and long-term management to aid clinical decision making (Ravindra et al., Reference Ravindra, Sivakumar, Kraus, Riva-Cambrin and Kestle2020), which are developed for the unification of clinical practice as well as safeguard mechanism that the medical services are provided on an evidence-based basis. Employment of CPGs in clinical practice is a core skillset to improve the quality of medical services (Albarqouni et al., Reference Albarqouni, Hoffmann, Straus, Olsen, Young, Ilic, Shaneyfelt, Haynes, Guyatt and Glasziou2018). GPs generally acknowledge the importance of CPGs, while only a few actively use the database to learn CPGs, and more often they learn CPGs through continuing education (Young and Ward, Reference Young and Ward2001). Our study showed that only 15.5% (54/348) of GPs have studied the clinical practice guides of EC, and in-depth comprehension of CPGs could improve GPs’ knowledge proficiency of EC prevention and treatment in rural areas. Therefore, the government should strengthen the continuing education of GPs in rural areas and ensure that rural GPs have the opportunity to receive specialized CPG training courses.

This study had some limitations. First, this study was a cross-sectional study, with the result sample mainly composed of males. This limits the generality of the data to the wider population. Second, causal inferences could not be made due to the cross-sectional design of the study. Furthermore, our questionnaire did not provide a more detailed classification of the sources of GPs. A horizontal comparison of the knowledge proficiency of GPs from different rural areas cannot be performed. In future research, we will expand the sample size and refine the questionnaire content for more in-depth analysis

Conclusions

The study results indicated that knowledge proficiency of rural GPs of EC prevention and control still await to be improved. Sex, educational level, and comprehension of clinical practice guidelines for EC were significant predictors for their proficiency.

Supplementary material

For supplementary material accompanying this paper visit https://doi.org/10.1017/S1463423623000701

Acknowledgments

The authors are grateful to Yinzhang Wu for proofreading this manuscript.

Financial support

This study was supported by a grant from Health Commission of Hebei Province (No. 20221128).

Competing interests

The authors declared that they have no conflicts of interest to this paper.

Ethical approval

This study was approved by the Ethics Committee of the Second Hospital of Hebei Medical University (No. 2021-R321).

Informed consent

Informed consent was obtained from all participants.

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Table 1. General status of general practitioners

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Figure 1. Comparison of knowledge proficiency of GPs for EC prevention and treatment in different groups (A: age; B: sex; C: educational level; D: comprehension of clinical practice guidelines for EC).Legends: Compared with GPs in the low knowledge score group, those with high scores were significantly older (Fig. 1A) and had more advanced degrees (Fig. 1C). Sex (Fig. 1B) and comprehension of clinical practice guidelines for EC (Fig. 1D) also affected their of knowledge proficiency of EC prevention and treatment.

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Table 2. Result of multivariate logistic regression analysis

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Figure 2. Predicted probability of multiple logistic regression.Legends: The positive predictive value of the model was 79.32%, and the negative predictive value was 79.35%.

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Figure 3. ROC curve of multiple logistic regression.Legends: Sensitivity refers to the proportion of true-positive results, and 1-specificity refers to the proportion of false-positive results. ROC curve showed the threshold value of the best prediction by the highest Youden index was 4.758, with a sensitivity, specificity, and Youden Index of 0.831, 0.862, and 0.693, respectively, and the AUC was 0.876.

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