A systematic study on the prevention and treatment of retinopathy of prematurity in China

We employed stratified random sampling for this study. We randomly chose three provinces based on the location and level of economic development. These provinces were Guangdong province in the eastern region, Hunan province in the central region and Shaanxi province in the western region. Considering the representativeness of hospitals and the feasibility of manpower and material resources, we then randomly selected 20% from the hospitals at three levels which met the inclusion criterion in each province. These hospitals were 23 provincial and ministerial hospitals (8 in Guangdong province, 5 in Hunan province and 10 in Shaanxi province), 81 municipal hospitals (38 in Guangdong province, 19 in Hunan province and 24 in Shaanxi province), 180 district and county hospitals (76 in Guangdong province, 57 in Hunan province and 47 in Shaanxi province), amounting to 284 hospitals overall.

The hospital grade and administrative level of survey hospitals, the screening and treatment situation of the hospitals, restraining factors of ROP screening, such as personnel and funding shortage, space limitation, and lack of concern.

Data were collected in form of questionnaires (Additional files 1 and 2). Provincial women and children hospitals, regarding as our research center, were responsible for arranging the whole research progress and connecting with other hospitals by signing cooperation agreements, in this way, to ensure high recovery rate. We assigned one investigator to take charge of the questionnaire distribution and recovery. Questionnaires were distributed to the director of neonatology department who undertakes the responsibility of both the ROP prevention and department management in each hospital. The reliability and validity of the questionnaire was tested and Cronbach’s α was 0.962. A total of 284 questionnaires were distributed and all were recovered with a recovery rate of 100%.

All quantitative data were entered into Epidata 3.1 twice to ensure accuracy after careful examination. Meanwhile, missing or outliers were timely corrected through logic correction. We mainly conducted descriptive statistics methods and chi-square test for the data analysis using SPSS (version 19.0).

Our research is a status analysis, without involving any human or animal data, and approved by the Medical Ethics Committee of Guangdong Women and Children Hospital. All the surveyed hospitals had been informed before the investigation and consented to be participants.

The serious imbalance of economic development and resource allocation across China have led to the disproportion of ROP screening. There is a lack of a universally applicable, reasonable and sound ROP screening system, which started relatively late in most regions. Our study showed that ROP screening and treatment were carried out more intensively in the tertiary hospitals than that of secondary and primary hospitals in all regions. The majority of ROP screening work was conducted in the tertiary hospitals which were equipped with adequate resources. Our finding was in line with the investigation on 109 hospitals across China by Feng Zhichun [8], indicating that tertiary hospitals did better than other hospitals with a screening rate of 73.78% compared to 25%. We also found obvious regional diversity of ROP prevention due to the higher level of economic development and much more abundant resource allocation in the eastern region than the central and western regions. In general, medical institutions which are capable to carry out ROP screening were allocated unevenly and were relatively a small amount all over China. However, decrease of severe ROP incidence reported in recent years demonstrated that the ROP screening and treatment status was basically improving.

Collaborations between institutions has proved to be one of the key point that need attention in ROP detection and treatment programs [9]. At present, some developed regions in China, such as Beijing and Shanghai, have already carried out intraregional cooperation model, which has greatly improved the screening coverage and early treatment of ROP. For instance, the ‘Eye Center Model’ in Beijing which is carried out by an ophthalmic centre and in alliance with several NICUs, has achieved a high screening rate of 87.3% [10]. The rate was reported to be 85.26% in the co-established ROP screening cooperation net by 13 hospitals in Eastern China [11]. ‘Inter-hospital Cooperation Model’ was built up in Shenzhen Eye Hospital and other hospitals by signing agreements, creating the green channel of ROP screening and consultation to ensure timely referral, treatment and mutual benefit. In recent 10 years, the incidence of severe ROP cases in Shenzhen has decreased significantly [12, 13]. All the above regions have strong sophistication and superiority in both facilities and technology. They can not only undertake local ROP screening work but also can conduct the treatment of severe referral ROP patients elsewhere. Therefore, conditional eastern regions can draw on such models and establish cooperation model of ROP prevention within the region to jointly carry out ROP screening, consultation, treatment and follow-up.

As for the central and western regions with relatively lower level of economic development, establishing a large-scale and comprehensive ROP prevention network is likely to be a more appropriate and feasible way, such as the construction practices of three-level ROP prevention network in Shaanxi province [14]. It is suggested that one or several tertiary hospitals located in relatively developed cities, which possess adequate professional medical equipment and professional technical teams, can be established as the ROP prevention center of the whole region, while municipal and district hospitals were as the secondary units of the network, county and township hospitals were as the primary units. Meanwhile, admittance and cooperation systems for ROP prevention institutions should be formulated to clarify standard ROP screening, especially for the primary units. The guiding role of the prevention center should be fully emphasized on realizing resource sharing, establishing complete ROP prevention and management systems, reducing the incidence and disability rate of ROP and gradually improving the accessibility of ROP screening and treatment in central and western China.

A survey in 2006 has found that only half of the specialists were willing to take on ROP-related work in the US and lack of human resources was the main problem of ROP screening in western developed countries [15]. Confronted with ophthalmologist shortage in the nations around the world, it is therefore imperative to strengthen the education training of ophthalmologists and relevant professionals. Our study also revealed that lack of clinical professionals was the main barrier of ROP screening, since the number of doctors engaged in screening was far behind demands. Awareness of ROP prevention of department directors and hospital administrators for primary hospitals should be raised, so as to further promote the screening smoothly. Early examination should be done to the premature infants by professionals with systematic knowledge of ROP screening and treatment to ensure safety, efficiency and accuracy. Faced with adult patients and complicated ophthalmic examination, the enthusiasm of ophthalmologists can hardly be motivated in most general hospitals. Consequently, it is quite necessary to establish relevant incentive systems to motivate doctors. Detailed cultivating schemes for professionals of ROP prevention should be formulated. Theory and skill training of ROP screening and treatment-related field, including prevention and treatment of preterm birth, respiratory support technology, oxygen therapy management, new recovery technology should be regularly held through multiple forms such as courses, seminars and on-site technical guidance to promote the capacities of doctors at the frontline.

With the rapid development of science and technology, telemedicine emerges and brings new ideas to ROP prevention. Compared to traditional face-to-face medical, telemedicine is of higher efficiency and can beyond geographical limitations and improve the availability and timeliness of medical service for patients in remote areas. Moreover, the popularization and easy operating of RetCam makes ROP telemedicine more accessible [16]. Images can be captured through digital imaging techniques by technicians and sent to the ROP specialists for timely disease detection. Fijalkowski also claimed that telemedicine has high accuracy for detecting clinically significant ROP in time [17]. Currently, telemedicine has already been applied in some developed regions in eastern China and is necessary to further generalized in the central and western regions. For the present, the ‘Internet+’ model has been extensively carried out in China while some medical institutions begin to develop ‘Cloud Medical Treatment’ and ‘Wisdom Hospital’. This undoubtedly provides a favorable condition for ROP prevention. Where possible, establishment of integrated, interactive prevention and management platform including ROP screening, treatment, consultation and follow-up function through the Internet and open up to the medical institutions and personnel to share ROP prevention information and case resources, timely update forefront knowledge and online discussion should be taken into account. Simultaneously, the introduction and development of ‘mobile medical treatment’ also provides great convenience to medical providers. The combination of ROP prevention and ‘mobile medical treatment’ should be highlighted in the future.

In this study, we mainly used survey to investigate the constrain factors of ROP screening. So there may exists some reporting bias because it depends heavily on self-voluntary response.