Evaluating the implementation of cervical cancer screening programs in low-resource settings globally: a systematized review

Globally, there are over a half million new cases of cervical cancer yearly, with nearly 90% of these cases in least developed economies [1]. The United States (US) 2012 cervical cancer incidence rate was 8.1 per 100,000 women, while low- and middle- income countries (LMICs) had a collective rate of 15.7 [2]. Cervical cancer screening programs detect pre-cancerous lesions which can be treated with low-cost outpatient procedures, and if invasive cancers are caught early, successful treatments exist.

Cervical cancer disproportionately affects populations in resource-limited settings globally despite the variety of evidence-based screening options. Technological innovation and efficacy testing of health service interventions including various screening modalities [3, 4] have led to clear recommendations for improving cancer control among HPV vaccination programs and cervical cancer screening using locally appropriate methods [5‐7]. Nonetheless, the judicious implementation of evidence-based cervical cancer screening programs remains inadequate, resulting in persistently elevated cervical cancer incidence and mortality rates, especially in resource-limited settings [8].

We conducted a systematized literature review [18] of cervical cancer screening program implementation evaluations. Inclusion criteria were that the article (1) states the cervical cancer screening intervention occurred in a resource-limited setting in any country, (2) clearly defines implementation evaluation of the intervention with consideration of any defined implementation-relevant outcomes (acceptability, adoption, appropriateness, feasibility, fidelity, coverage, sustainability) [17], and (3) articulates evidence or intent of the intervention sustainment over time or through policy change by describing or reporting factors relevant to the inner (e.g., organizational characteristics, fidelity monitoring, staffing) or outer context (sociopolitical, funding, public-academic collaboration) [19]. The only exclusion criterion was publication in a language other than English.

Fifty-one of 13,330 initially identified papers met inclusion criteria. Twenty-five (49.0%) of the articles were published between 2011 and 2015 compared to only four (9.8%) being published between 2001 and 2005. When analyzed by the World Bank Income level [24], only five (9.8%) had sites discussed in the papers in low-income countries (three of which were in Uganda), while twenty-six (51.0%) sites were in lower-middle-income countries. (Table 1).

The studies reviewed and tested a variety of screening methods, and many of the studies tested multiple methods. Visual inspection was the most prevalent screening method, including 30 (58.8%) VIA studies and eight (15.7%) studies that considered VILI. Cytology testing was second most common, with 20 (39.2%) associated studies. The scale of intervention was distributed towards smaller-scale interventions. Thirty-three (64.7%) were conducted at the city or district level, while only five (9.8%) were at the national level. Forty-four of the 51 studies clearly described the involvement of multiple partners. Of all 51 studies, 26 (51.0%) indicated involvement of national academic institutions and 19 (37.3%) reported involvement of international institutions. Most engaged health systems including those at the local (n = 34, 66.7%), national (n = 22, 43%), and international (n = 3, 5.9%) levels.

For a more nuanced analysis of the reviewed articles, we categorized the relevance to various levels of implementation. (Table 2) We identified 40 (78.4%) articles pertinent to patient- or client-level considerations. Only 13 (25.5%) are applicable to the quality of clinical services. Twenty-five (49.0%) articles discussed additional health system-relevant themes (financing, information systems, equipment/resources management, leadership/governance, and others).

In addition to identifying the implementation access level of relevance, we, as well, sought to understand the explicit findings regarding barriers identified through the implementation research. Many of the papers reported specific findings relevant to demand-side (n = 26, 51.0%) or supply-side (n = 28, 49%) barriers to the successful implementation of cervical cancer screening services. From the articles presenting demand-side barriers (Table 3), those most often reported include comfort (n = 6, 23.1%), lack of knowledge (5, 19.2%), embarrassment associated with the clinical procedure (n = 3, 11.5%), and patient cost considerations (n = 3, 11.5%). Others receiving fewer mentions include distance to clinic, lack of patient priority for prevention, permission required by husband for procedure, and concern about no sexual intercourse after the procedure.

Of the 28 papers reporting supply-side barriers (Table 3), 22 (78.6%) discuss provider-relevant themes and 16 (57.1%) discuss other health system-relevant considerations. Of the 22 reporting provider-associated barriers, 10 (45.5%) report a lack of opportunity or time to participate in trainings, nine (41.0%) report significant provider turnover as a major barrier, and 6 (27.3%) describe technical deficiencies of the provider as limitation to the impact of the screening program. Of the 16 reporting other system barriers, nine (56.3%) report cost as a major limiting factor in implementation.

As described in the background, we sought to characterize studies along the continuum of implementation research categories. (Table 4) In doing so, we illustrate the value of findings elucidated through studies with well-formulated implementation science questions. Twenty papers (39.2%) were labeled as Proof of Concept, 13 (25.4%) as Proof of Implementation, and 18 (35.3%) as Informing Scale-up. Table 5 details the publications categorized as informing scale-up, stratified by year.

The number of articles (n = 51) evaluating the implementation of cervical cancer screening programs in limited resource settings is relatively small compared to the total number of articles identified through the review. Of note, we identified only five papers in low-income countries where settings are likely to have the greatest barriers to building sustainable capacity for cervical cancer screening and where, arguably, there is the most to be learned in vastly improving systems and approaches for screening. Of our reviewed articles, the majority (52.9%) were published between 2011 and 2015, suggesting an upward trend of reporting with the later time of publication. The reporting of experiences and sharing of best practices will contribute to our collective ability to overcome the many challenges in ensuring ultimate sustainability of these programs [76, 77].

The identified studies cover a range of cervical cancer screening methodologies with VIA being the most utilized and studied in our included papers. In addition, 46 (90.2%) papers describe research in decentralized settings with the majority of these (33 of 46, 71.7%) at the district or city level. As well, given the significant shortage of healthcare workforce globally [78], especially in resource-limited settings, it is not surprising that the overwhelming number of supply-side focused studies (32 of 37, 86.5%) considered capacity building. These findings may reflect a trend to integrate an effective, low-resource appropriate technology into existing health services in response to inequities in women’s health care and to strengthen primary health care in decentralized community health systems. The 2008 call [79] to offer more comprehensive packages of basic health services (including improved preventive care services) in all settings and more recent calls [12] to address non-communicable diseases (NCDs) are also consistent with this trend.

These findings provide some insight into the cervical cancer screening implementation literature. We note that articles commonly describe community- and client-relevant implications and explore challenges to human resources. Of interest, however, our analysis reveals that a relatively small percentage of papers describe or report quality assurance themes (25.5%) and a very low percentage (3.9%) describe quality improvement activities related to the implemented health service. Given that only 23.5% of all papers are describing “policy” in explicit terms, the present findings also illustrate a major gap in the literature regarding policy development around the long-term sustainment of cervical cancer screening programs.

Demand-side barriers are identified in 51% of reviewed articles with the most frequent focus on comfort, knowledge gaps, personal sensitivity, and cost. Provider issues (78.6%) make up most supply-side barriers. Much can also be learned from implementation evaluations describing other systems-level issues. The present analysis highlights other explicit concerns including cost, equipment, management practices, space, supervision, and infrastructure.

“Proof of Concept” papers describe studies where implementation is not relevant, or implementation is relevant but not considered as research questions. The context of these studies is focused and the factors affecting implementation are not relevant, fixed, or ignored. Because 20 studies fell into the “Proof of Concept” category and 13 in the “Proof of Implementation,” one could conclude that many of the published articles investigating cervical cancer screening programs are not implicitly structured to provide meaningful information of the real world context in which the research project occurs.

For example, a study in Western Kenya aimed to validate VILI as a stand-alone screening test at a Family AIDS Care and Education Services (FACES) clinic [72] while a study in Leon, Nicaragua compared the acceptability of self-collected versus clinician-collected human papillomavirus (HPV) tests which applies to the “proof of implementation” category [73].

“Proof of Concept” studies may be strengthened by examining more contextual factors to determine screening feasibility in similar settings. Implementation research also has the potential to describe in greater detail the supporting and hindering factors to wide-scale implementation and sustainment of a cervical cancer screening program within the context of their health system’s existing cancer control and prevention policy.

We classified 18 papers as “informing scale-up.” These papers provide useful guidance for developing cervical cancer implementation programs across different contexts. Principally, those contexts include in-depth perspectives on acceptability and community perceptions [53], community education and mobilization [30, 59] including radio messaging [41], community-focused or mobile screening [30, 58], detail on training community health workers [50], client tracking [59], maintenance of human capacity [59], task sharing [65], and quality control [70]. These findings are accessible and highly applicable to the existing programs struggling with substantial challenges as well as to institutions that are prioritizing the new implementation of cervical cancer screening services.A large study in 130 rural communities in Guangdong Province, China [69] employs sound Dissemination and Implementation research methods. Study results described community participatory research through the Chinese Cancer Prevention Study (CHICAPS). This program was conducted by community leaders with the technical assistance of the research team. They utilized a “pass the message on” model to easily reach women in communities through local village promoters that were trained through locally organized workshops (with up to 25 community leaders being oriented). Their paper describes the model process in depth, including details of stakeholder roles. Conclusions were that the model was successful in (1) improving the efficiency of resource utilization, (2) teaching community leaders and promoters to get patient information and follow procedures, and (3) teaching rural women technical specifics of the screening approach.

A three-phase evaluation of a cervical cancer screening program was conducted in the Harare city health department, Zimbabwe [34]. This study included a survey of policy makers on guidelines, policy, and attitudes regarding cervical cancer screening, and evaluating determinants at both the supply- and the demand side. Dissemination of their work provides invaluable guidance on how comprehensive policies on cervical cancer screening should be developed to assist in standardization of program implementation, how the formal technical training of health workers should be done, and what necessary resources should be allocated to support a successful and sustainable cervical cancer screening program.

Finally, a cervical cancer screening evaluation was conducted in Guyana to explore the feasibility, effectiveness, and lessons learned of a single-visit approach to cervical cancer screening and treatment [65]. The reported findings were highly relevant to sustainability and scale-up and concluded that certain components are essential to achieve good population coverage with high-quality services: (i) competency-based training and supportive supervision; (ii) task shifting to non-physician providers; (iii) a strong monitoring and evaluation system that rapidly identifies and addresses programmatic and clinical gaps; (iv) an enabling environment providing programmatic support; and (v) integration of cervical cancer prevention services into appropriate existing programs, such as family planning, postpartum, and HIV care.

Many evidence-based health service interventions are not being readily adopted in LMICs because of an insufficient primary health care system in place to support them [79‐81]. More Dissemination and Implementation research is needed to illustrate how health systems function at the local level, especially in LMICs [17]. Much of the existing Dissemination and Implementation science exploring the interface between health research and policy is concentrated in high-income countries. The paucity of similar research in LMICs presents a major challenge for implementation of preventive measures in these countries [82]. Given that cervical cancer can serve as a proxy for larger health systems issues, more detailed exploration of the barriers and best practices for increasing initial screening uptake and sustaining screening services over time may provide important insights to addressing other persisting women’s health issues and beyond, including the strengthening of broad primary health care services in low-resource settings. For programs wishing to move towards expanding the focus on their inquiry into this area, the two principal references that we have used to analyze the papers in this review are excellent resources for investigators new to implementation science [17, 22].

Given the overwhelming supporting evidence for the effectiveness of various screening technologies, it is unsettling that high cervical cancer incidence rates persist globally. There are clear downward trends of age-standardized incidence (ASI) rates in HIC, although no clear changes by period in low-income countries [83]. Given that a successful cervical cancer control and prevention program requires a robust systems approach including reliable access to primary healthcare, referral, and follow-up services, the incidence of cervical cancer has been shown to be an indicator for larger health systems issues [8]. Therefore, the implementation of cervical cancer prevention and control programs in areas with the least resources would have the greatest immediate impact on cervical cancer ASI rates while potentially favorably impacting other primary health care services. Unfortunately, there is a gradient between reviewed studies conducted in low-income countries (5, 9.8%) and LMICs (29, 56.9%), (Fig. 1). This disparity may be due to the profound difficulty of implementing cervical cancer programs and conducting research in states that are unstable or where infrastructure is significantly lacking. The implementation challenges in these settings may be the greatest to overcome in order to achieve sustainability of impactful interventions. These settings, unfortunately, may also possess the greatest challenges in conducting sound science, contributing to this well-documented research gap [84]. The areas with the greatest need for developing a clear understanding of implementation are, therefore, the most neglected. The dramatic lack of research from lower-resource environments to inform practice, in part, contributes to the continued gap in outcomes in such settings. However, these challenges could be opportunities for impact as well as for building knowledge. Replicating best practices from the most challenging contexts will likely lead to the greatest impact from dissemination of such scientific pursuits.

Program managers will benefit from working closely with researchers to report lessons learnt from programs implementing cervical cancer screening services. Furthermore, we urge researchers to move beyond technological innovation as the primary scientific pursuit and incorporate, when possible, implementation strategies to overcome barriers to health systems integration and sustainability. Researchers should evaluate the implementation of cervical cancer screening programs. This will build the science and practice of how to strengthen human resources capacity, develop responsive policy, and ensure sustained utilization of cervical cancer health services in different geographical settings.