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Neonatal health in Nepal: analysis of absolute and relative inequalities and impact of current efforts to reduce neonatal mortality

Abstract

Background

Nepal has made substantial progress in reducing under-five mortality and is on track to achieve Millennium Development Goal 4, but advances in neonatal health are less encouraging. The objectives of this study were to assess relative and absolute inequalities in neonatal mortality over time, and to review experience with major programs to promote neonatal health.

Methods

Using four nationally representative surveys conducted in 1996, 2001, 2006 and 2011, we calculated neonatal mortality rates for Nepal and for population groups based on child sex, geographical and socio-economic variables using a true cohort log probability approach. Inequalities based on different variables and years were assessed using rate differences (rd) and rate ratios (rr); time trends in neonatal mortality were measured using the annual rate of reduction. Through literature searches and expert consultation, information on Nepalese policies and programs implemented since 1990 and directly or indirectly attempting to reduce neonatal mortality was compiled. Data on timeline, coverage and effectiveness were extracted for major programs.

Results

The annual rate of reduction for neonatal mortality between 1996 and 2011 (2.8 percent per annum) greatly lags behind the achievements in under-five and infant mortality, and varies across population groups. For the year 2011, stark absolute and relative inequalities in neonatal mortality exist in relation to wealth status (rd = 21.4, rr = 2.2); these are less pronounced for other measures of socio-economic status, child sex and urban–rural residence, ecological and development region. Among many efforts to promote child and maternal health, three established programs and two pilot programs emerged as particularly relevant to reducing neonatal mortality. While these were designed based on national and international evidence, information about coverage of different population groups and effectiveness is limited.

Conclusion

Neonatal mortality varies greatly by socio-demographic variables. This study clearly shows that much remains to be achieved in terms of reducing neonatal mortality across different socio-economic, ethnic and geographical population groups in Nepal. In moving forward it will be important to scale up programs of proven effectiveness, conduct in-depth evaluation of promising new approaches, target unreached and hard-to-reach populations, and maximize use of financial and personnel resources through integration across programs.

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Background

Insufficient progress in reducing neonatal mortality

While infant and under-five mortality rates in developing countries have declined significantly in the past decades, newborn mortality rates have decreased much more slowly [1]. An estimated 18% to 37% of neonatal deaths, defined as deaths occurring during the first 28 days of life, could be averted through expanded coverage of cost-effective interventions, if delivered through family or community approaches [2].

Nepal is one of the few developing countries considered “on track” to achieve Millennium Development Goal (MDG) 4 to reduce child mortality by two-thirds between 1990 and 2015, [3] with reductions in under-five mortality from 118 to 54 per 1,000 live births (54% reduction) and infant mortality from 79 to 46 per 1,000 live births (41% reduction) between 1996 and 2011 [47]. Over the same time period, the neonatal mortality rate decreased by only 34%, from 50 to 33 per 1,000 live births. Socio-economic disparities in neonatal mortality in Nepal have been well documented, for example, neonatal mortality is evidently higher among poor groups and socially disadvantaged castes [810]. These are likely to be among the reasons for insufficient progress made to date, as interventions rarely reach all population groups in equitable ways.

Direct and underlying causes of neonatal deaths

Globally, the main direct causes of neonatal death are preterm birth (28%), severe infections (26%), asphyxia (23%), and neonatal tetanus (7%) [11]. Information about the causes of neonatal deaths is limited in Nepal. Verbal autopsy findings of newborn deaths in the 2006 Nepal Demographic and Health Survey showed that major causes of death are infections (39%), birth asphyxia/birth injury (33%), congenital anomalies (8%) and pre-maturity or low birth weight (6%) [5]. Other Nepalese community- and hospital-based data also suggest infections, birth asphyxia, preterm birth and hypothermia as the most important causes, [1214] largely in agreement with the general picture of the developing world.

In addition to lack of basic prenatal, natal and postnatal healthcare, a range of socio-economic and cultural factors, such as inability to pay for transportation and services, poor knowledge and attitudes in relation to healthcare, and various forms of gender bias negatively affect newborn survival in developing countries [15]. For example, in most of the cultures in rural Nepal, mothers are considered ritually “polluted” until nwaran (the name-giving ceremony on the ninth or eleventh day) and are restricted to stay at home, preventing access to care during this critical period. Also, newborn bathing immediately after birth and applying oil and turmeric powder to the cord stump are commonly practiced traditions and are known to increase the risk of neonatal infections [16].

Community-level efforts to improve prevention and care

Critical interventions to reduce neonatal mortality include behavior change communication; community mobilization and engagement for improved antenatal, intrapartum, and postnatal care practices; and community-based case management of illness [2]. A major challenge in relation to these is promoting demand for healthcare and meeting this demand through interventions delivered at family and community levels. Indeed, studies from South Asia demonstrate that simple community- and home-based prevention and treatment interventions during pregnancy, birth and the post-natal period can effectively save the lives of newborns [1719].

Drawing on international, regional and national evidence, the Government of Nepal initiated a series of policies and programs to address neonatal mortality in Nepal with efforts delivered through the governmental health system and its hospitals and peripheral health facilities (i.e. primary health care centres, health posts and sub-health posts) as well as through the strong workforce of 48,000 female community health volunteers. To date, no comprehensive review and analysis of these policies and programs has been undertaken with respect to their implementation and impact on newborn health.

The objectives of this study are to assess relative and absolute socio-economic inequalities in neonatal mortality over time, and to review current experience with programs to promote neonatal health in relation to progress towards achieving MDG 4.

Methods

With respect to the first objective, the study used data from national surveys conducted in 1996 (Nepal Family Health Survey, NFHS) and 2001, 2006 and 2011 (Nepal Demographic and Health Surveys, NDHS). These surveys provide nationally representative data on fertility, health care behaviour and practices, childhood mortality, nutrition, and knowledge of HIV/AIDS that are comparable across different countries and across time. Data are in the public domain and accessible from the MEASURE DHS website (http://www.measuredhs.com). The surveys are based on two-stage, systematic cluster random sampling, and are characterized by response rates above 90%. Trained enumerators collect information from households and respondents after obtaining verbal informed consent. Table 1 shows the sample size and response rate for each survey. More details on the sampling methodology are available separately [47]. These surveys were reviewed and approved by the Institutional Review Board of the Nepal Health Research Council, Nepal; interviews were conducted after informed consent and the datasets used for this analysis were anonymous.

Table 1 Number of households, women of reproductive age and births by survey year

This paper assesses time trends in neonatal mortality, which is defined as the number of deaths per 1,000 live births occurring during the first 28 days of life. We determined neonatal mortality rate based on a true cohort log probability approach [20] for babies born during the 10 years preceding the survey. In addition to calculating national averages, we disaggregated neonatal mortality by child sex, place of residence (i.e. urban, rural), ecological zone (i.e. mountain, hill, terai or flatland), development region (i.e. Eastern, Central, Western, Mid-Western, Far-Western), maternal education (i.e. no education, primary education, secondary or higher education), wealth quintile, and caste and ethnicity. To assess magnitude and trends in inequalities, we calculated rate differences (highest – lowest) as absolute measures of inequality and rate ratios (highest/lowest) as relative measures of inequality for each of the four survey periods. The rate ratio is unit-less and independent of average levels and scale, whereas the rate difference depends on both average levels and scale [2123]. These two commonly used measures of inequality are easy to understand, but comparisons are limited to two extreme groups rather than covering the full population spectrum [24]. Reporting both absolute and relative measures of inequality is recommended to increase transparency, reduce systematic reporting biases, and improve the evidence base for policies aimed at reducing health inequalities [25].

The annual rate of change is commonly used to describe trends in increment (e.g. improved coverage) or reduction (e.g. reduced mortality rate), and to make projections of rates into the future. The annual rate of reduction (ARR) in neonatal mortality for this study was calculated as

ARR = LN NMR t 1 / NMR t 0 × 100 t 1 t 0

where LN is the natural logarithm, NMR is the neonatal mortality rate, and t0 and t1 correspond to 1996 and 2011 respectively [26]. Analyses were conducted in Stata Special Edition version 12 [27].

With respect to the second objective, the study compiled information on all policies and programs implemented since 1990 that have directly or indirectly attempted to reduce neonatal mortality. We conducted a range of searches in the peer-reviewed literature, using PubMed, and in the grey literature, using the websites and electronic repositories of the Nepal Ministry of Health and Population (e.g. http://www.mohp.gov.np, http://www.dohs.gov.np, http://elibrary-mohp.gov.np) and of key donors such as the US Agency for International Development (e.g. http://dec.usaid.gov) and the UK Department for International Development (e.g. http://www.dfid.gov.uk/r4d), as well as through direct contact with individuals in these and other organizations. Relevant documents identified included scientific publications, annual reports, project reports and technical briefs. These were reviewed to identify existing policies and programs and to select major policies and programs to improve newborn health. For the latter, information was extracted to provide a brief description of activities and to document program timeline, scale and coverage, as well as program effectiveness.

Results

Time trends and socio-economic inequalities in neonatal mortality

The most recent estimates for neonatal, infant and under-five mortality in Nepal are 33, 46 and 54 per 1,000 live births respectively, for the period 2006-2011 [6]. The overall rate of reduction in childhood mortality between 1990 and 2011 is impressive; however, there are stark differences in the annual rate of reduction for under-five, infant and neonatal mortality (5.2, 3.6 and 2.8 percent per annum respectively for the five-year period preceding the survey). As shown in Figure 1, the country had already achieved the MDG 4 target for under-five mortality by 2011, but reductions in infant and neonatal mortality are a must if childhood survival is to improve further.

Figure 1
figure 1

Trend in child, infant and neonatal mortality in Nepal for 1990 to 2011 in relation to the MDG baseline for 1990 and MDG targets for 2015. Note: Estimates of child, infant and neonatal mortality are based on the five-year period preceding the surveys. The MDG baseline is not survey-based but was estimated based on backward extrapolation of trends. Neonatal mortality does not form part of the MDG indicators, and the values for MDG baseline and MDG target are taken from the Nepali national health plan. U5MR: Under five mortality rate; IMR: Infant mortality rate; NMR: Neonatal mortality rate; MDG: Millenium Development Goal; NFHS: Nepal Family Health Survey; NDHS: Nepal Demographic and Health Survey.

Table 2 shows inequalities in newborn mortality by child sex, geographical location (as measured by urban–rural residence, ecological region and development region) and socio-economic status (as measured by maternal education, wealth status and caste and ethnicity); these inequalities are evident in all four surveys. Male neonates from rural areas, living in mountain areas and the Far-Western region, born to mothers with no education and into families belonging to the lower wealth quintile and to a marginalized caste or ethnic group (Dalit and Janajati) are dying more frequently than their counterparts.

Table 2 Neonatal mortality rate for the 10-year period preceding the survey, by child sex, geographical location and socio-economic characteristics*

Annual rate of reduction

The overall average annual rate of reduction in neonatal mortality for the period 1996 to 2011 is 3.3 percent per year. The rate of reduction is greatest for the richest wealth quintile (6.2 percent per annum), and is also substantially above average for the Eastern development region (4.4 percent per annum) and the Mid-Western development region (4.2 percent per annum). Neonates living in the Western development region (2.3 percent per annum), or born into the richer wealth quintile (2.5 percent per annum), into a Janajati family (2.7 percent per annum) or to mothers with no education (2.6 percent per annum) show particularly low average annual rates of reduction.

Absolute inequalities based on rate differences in 2011

In Nepal, differences in neonatal mortality are most pronounced for wealth (21.4 between the wealth quintiles with highest and lowest neonatal mortality rates). Interestingly, neonatal mortality is higher among poorer and middle quintile families than among poorest quintile families. Differences in neonatal mortality rate are also relatively stark for maternal education (14.1 between a child born to a mother with secondary or higher education and a child born to a mother with no education). Differences are moderate for the three geographical indicators (10.9 for urban compared to rural areas, 12.7 for mountain compared to hill areas, 11.6 for the Far-Western compared to Eastern region), as well as caste and ethnicity (11.6 for Brahmins, Chhetris and Newars compared to others; others include diverse castes and ethnic groups that could not be disaggregated due to small sample sizes). Interestingly, absolute differences in neonatal mortality are not very pronounced for males compared to females (3.8).

Relative inequalities based on rate ratios in 2011

Overall, relative inequalities in neonatal mortality show similar results, with wealth status showing the greatest inequalities (2.2 for the richest wealth quintile compared to the poorer wealth quintile). Maternal education (1.5 for children born to mothers with no education compared to children born to mothers with secondary or higher education), geographical features (1.4 for urban–rural, Far-Western compared to Eastern and mountain compared to hill regions) and caste (1.4 for Brahmins, Chhetris and Newars compared to others) show very similar relative inequalities. Relative inequalities are barely present for male versus female neonates.

Changes over time

No clear and consistent pattern emerges in the reduction of absolute and relative inequalities in neonatal mortality based on the range of variables assessed. For most variables, rate differences and rate ratios are relatively stable with some fluctuation (i.e. urban–rural residence, development region, caste and ethnicity) or stark fluctuation (i.e. ecological region, maternal education) between years. For most comparisons, the groups with the highest and lowest neonatal mortality rates remain the same across comparisons; with caste and ethnicity, there is substantial variation between years. Findings for child sex and wealth status stand out: For child sex, rate differences and rate ratios were much more pronounced in 1996 and have shown a steady decline since then. No clear gradient for neonatal mortality emerges across wealth quintiles; the richest wealth quintile performs best across all four surveys but the worst performance is observed for either the poorer or middle wealth quintile rather than the poorest. Overall, rate differences are relatively stable over time whereas the rate ratio increased from 1.4 in 1996 to 2.2 in 2011 between wealth quintiles with the highest and lowest mortality rates.

Major policies and programs to improve neonatal health

Since 1990, Nepal has developed, piloted and gradually scaled-up a broad range of facility- and community-based programs to address maternal, neonatal and child health; many of these have since been integrated with regular public health programs. Figure 2 provides a graphical overview of these programs, distinguishing between national programs (presented in bold) and sub-national programs or pilots (presented in italics) and showing support from external donors. They cover the continuum of maternal and child health and comprise integrated approaches to addressing multiple health concerns among target populations (e.g. community-based Integrated Management of Childhood Illness), highly vertical programs to address specific health conditions (e.g. National Vitamin A program) and interventions to strengthen the health system (e.g. female community health volunteers program). While neonatal health is not an explicit focus in all of these programs, they illustrate the considerable background activity prior to the introduction of focused newborn interventions, with specific components of all programs directly impacting newborn health.

Figure 2
figure 2

Major maternal, neonatal and child health-related policies, programs and projects in Nepal (1990–2015). FCHV: Female Community Health Volunteer; EPI: Expanded Program on Immunization; NVAP: National Vitamin A Program; CBAC: Community based ARI Control of Diarrheal Diseases program; CB IMCI: Community based Integrated Management of Childhood Illness; BPP: Birth Preparedness Package; SDIP: Safe Delivery Incentive Program; CS/FP Project: Child Survival and Family Planning Project; NFHP: Nepal Family Health Program; USAID: United States Agency for International Development; NSMP: Nepal Safer Motherhood Project; SSMP: Support to Safe Motherhood Program; NHSSP: Nepal Health Sector Support Program; DFID: UK Department of International Development; DACAW: Decentralized Action for Children and Women; UNICEF: United Nations Children’s Fund; SNL: Saving Newborn Lives program; CB NCP: Community based Newborn Care Package; CHX Cord Care: Chlorhexidine for Umbilical Cord Care; CB MNH: Community based Maternal Newborn Health program; CSHGP: Child Survival Health and Grant Program; MIRA: Mother and Infant Research Activity; MINI: Morang Innovative Neonatal Intervention; NDHS: Nepal Demographic and Health Survey; NFHS: Nepal Family Health Survey.

Newborn survival was made a development priority for the country through a major strategic document endorsed by the Ministry of Health and Population, the Nepal Neonatal Health Strategy 2004 [28]. In an effort to develop recommendations towards the implementation of this strategy, a rapid assessment of neonatal health programs in Nepal was conducted in 2007 to analyze the status of ongoing programs and the roles of different partners, and to identify gaps and constraints in the implementation of evidence-based interventions [29]. All recent policy documents, such as the periodic health plans (9th plan, 10th plan and interim plan) and the Nepal Health Sector Plans I (2004–2009) and II (2010–2015) recognized neonatal health as a priority and listed it as a component of essential health care services [3036]. Some of these policy documents also emphasize improved access for poor and vulnerable groups [33]. Taken together, these policies and strategies provide both a conducive environment and a framework for developing, piloting and implementing newborn programs in the country [37].

Table 3 provides more in-depth information for three established and two more recently initiated programs that are considered to be of critical importance in improving neonatal health based on (i) their explicit focus on delivery and the post-partum and neonatal periods, (ii) their programmatic rather than research orientation, and (iii) their aim for or ongoing national-level implementation. In principle, these were developed and implemented based on available international, regional and national evidence [38, 39].

Table 3 Major policies and programs to improve neonatal health

The community-based Integrated Management of Childhood Illness (CB IMCI) represents an established approach and is globally considered one of the best models for integrated delivery of care at family and community level for the most common illnesses (i.e. pneumonia, diarrhoea, malaria, malnutrition) during the first five years of life. The birth preparedness package (BPP) targets pregnant women, helping them and their families to be prepared for a safe delivery and for the arrival of the baby, and to recognize danger signs and seek care from a health provider when needed. It emphasizes the need to be ready for emergencies, such as blood transfusion or caesarean section, and to reduce delays in seeking care for maternal or neonatal illness (in particular newborn asphyxia, postpartum haemorrhage and severe bacterial infections). The main objective of the Safe Delivery Incentives Program (SDIP) is to increase deliveries at health institutions (i.e. hospital, primary health care center or health post and sub-health post with birthing center) and thus to provide better care for mothers and newborns during and immediately after birth. Institutional deliveries or safe home deliveries are expected to contribute to reducing all causes of neonatal mortality, in particular they can prevent newborns from dying due to birth asphyxia and severe bacterial infections. More recent programs include the community-based newborn care package (CB NCP) and the umbilical cord care for newborns (CHX cord care) program; both are in early phases of implementation and roll-out. Based on the experience of implementing these programs and results to date, these programs are being revised to integrate approaches by harmonizing efforts and messages. These changes are expected to create synergies in the delivery of better neonatal health outcomes.

As shown in Table 3 evidence of effectiveness of these programs in Nepal with respect to neonatal health outcomes, as obtained from the scientific publications and documents reviewed, is scarce. Notably, we were unable to quantify coverage of the five programs beyond a general statement about the geographical spread of implementation (i.e. national or various districts); likewise, we were unable to document equity or inequity in program implementation. To date, studies of program impact on neonatal mortality are rare. We were only able to identify two such studies, where a cluster-randomized controlled trial of a pilot showed large and statistically significant declines in cord infections as a result of applying chlorhexidine [44] and an interrupted time series study in one district failed to demonstrate any impact on neonatal mortality for the implementation of the SDIP program [45]. Current gains in reducing under-five mortality in Nepal can be plausibly linked to CB IMCI [46] but, as of yet, no evidence is available for a measurable impact on neonatal mortality. Instead or in addition to looking at neonatal mortality, several programs measured impact in term of changes in intermediate outcomes, such as birth preparedness (BPP, [43]), institutional or safe home delivery (SDIP, [45]) and case reporting and case severity (CB IMCI, [41, 42]).

Discussion

Critical considerations across programs

Based on the data available, Nepal has made very good progress in terms of reducing child and infant mortality [3]. In order to be able to achieve further gains in child survival, the main challenge for the country will be to reduce neonatal mortality. Neonatal mortality varies greatly by wealth status and, to a lesser extent, by maternal education, caste and ethnicity and geographical location. Absolute and relative inequalities in neonatal mortality are relatively stable and interventions to date do not appear to have acted to greatly decrease or increase inequalities. As the annual rate of reduction in neonatal mortality has stagnated in recent years and as inequalities in neonatal mortality persist, labelling a country as “on track” to achieve the MDGs may divert focus and slow the momentum of ongoing efforts. Despite persistent high levels of neonatal mortality, in the last decade Nepal has witnessed a higher rate of decline in neonatal mortality (3.6 percent per annum) compared to the global average (2.1 percent per annum) and compared to progress made in neighbouring countries [47, 48]. This achievement can be plausibly linked to the country’s progress with respect to family planning, antenatal and delivery care practices as well as significant improvements in infrastructure over the same period.

The Government of Nepal, together with major international donors, has implemented a broad range of programs to address maternal, neonatal and child health problems over the past twenty years. It is difficult to attribute the progress made to date to individual programs, in part because of the broad range of ongoing activities and in part because of insufficient impact data for individual programs. In particular, information on coverage and uptake of the five programs most directly concerned with reducing neonatal mortality and evidence of impact on neonatal mortality rather than intermediate outcomes is limited. Moreover, the available information is rarely disaggregated for different socio-economic groups, although descriptive data suggest that programs do not equitably reach those in greatest need [6]. Given the substantial financial and personnel resources dedicated to these programs, it will be important to carefully evaluate their future performance in terms of coverage and effectiveness.

Other programs covered by Figure 2 but not further considered in Table 3 are also likely to contribute to improved newborn health. Specific interventions, such as tetanus toxoid injections and the safe motherhood program improve coverage and quality of care of obstetric and newborn care services. Other programs are mobilizing communities and their change agents to educate mothers and their families, promoting healthy behaviors for better maternal and newborn health in different parts of the country. With respect to strengthened primary health care, female community health volunteers (FCHV) are a unique and strong cadre for all community-based programs in Nepal and play a crucial role in delivering newborn interventions under the CB NCP and CHX for cord care [49]. Beyond these front-line health workers, Nepal’s public health system is suffering from a shortage of health personnel and services, especially in rural areas. For example, many birthing facilities do not offer a 24-hour service seven days a week and, as a result, expectant mothers are often reluctant to deliver at a health facility. Therefore, greater capacity of providers at all levels and broader health system strengthening will also be necessary to improve maternal and newborn health care services further [50].

A further hidden reason behind the limited impact of neonatal health programs to date is the fact that some practices, such as immediate care for newborns and recently delivered women, are greatly affected by existing cultural norms and behaviors. In Nepal and many south-Asian cultures, birth and the postnatal period are considered ritually polluted, and the new mothers often face seclusion which undermines their ability to seek health care when needed for themselves or their babies [51, 52]. Their care-seeking behavior is further limited by decision-making authorities in the household, where the ultimate decision to seek care and pay for travel, care or medication usually resides either with the male head of household or older women such as mothers-in-law [53]. As a result, new mothers might not be able to follow recommended newborn care practices due to existing family and social pressures and their inability to negotiate on these matters. Furthermore, issues related to health worker behavior, gender-friendliness in service delivery and perceived quality of care affect service utilization and compliance. In south-Asian cultures, many women do not visit health facilities as most of the providers are male, or because they have not been treated respectfully during previous visits. The design of programs and their delivery will therefore need to pay attention to implementing interventions in socio-culturally appropriate ways, in particular among socio-economically disadvantaged and hard-to-reach population groups.

The strong support from high-level policy makers, as evident in the recognition of neonatal health in the long-term health sector plan and the neonatal health strategy, has been and will be a critical ingredient of making progress. Likewise, effective partnerships between the government and a range of donors have enabled the country to develop and implement neonatal health programs and to scale these up over a relatively short period of time [37, 38]. There are, however, some missed opportunities to integrate and harmonize across efforts. Some programs are implemented in a vertical fashion with distinct implementation modalities and information systems, and limited attempts are being made to harmonize messages for behavior change across programs. For example, CHX for cord care is delivered as a stand-alone program even though it clearly fits into the CB NCP and CB IMCI program framework. Similarly, the SDIP could be extended from just focusing on the number of institutional deliveries to expanding quality care for mothers and newborns. This is likely to be particularly relevant for newborn survival as the institutional delivery rate is rapidly increasing and as this early contact between health workers and mothers is an opportunity for timely diagnosis and treatment of newborn illnesses and for the promotion of essential newborn care practices. Most of these programs focus on increasing health workers’ knowledge and skills to deliver services to prevent, diagnose and manage newborn illnesses on the one hand, and on improving community behaviors and generating demand for care and services on the other hand. At the same time, efforts should be targeted more towards strengthening health systems to improve the delivery of basic supplies and equipment, such as chlorhexidine for cord care, gentamicine for newborn infections and resuscitation-kits to manage asphyxia, all of which are critically needed to prevent and manage newborn illness.

Nepal has witnessed considerable political unrest and even armed conflict during 1996 – 2006. Nevertheless the country continued to improve most of its health indicators despite some disruption to health services [54]. During the last two decades, Nepal has also undergone significant socio-economic changes, in particular improved transportation and communication infrastructure and girls’ education. International labour migration has been a recent phenomenon leading to young males not being at home to support and care for recently delivered women and their newborns but also generating greater household income due to remittance. The effect of these major societal changes on neonatal and broader health indicators among different population groups has not been yet systematically assessed.

Strengths and limitations

We provided time trends in neonatal mortality and conducted an assessment of absolute and relative differences in neonatal mortality, based on best-available data (Table 2). There are, however, several problems with these data. Due to limited sample size, neonatal mortality was calculated for the last ten years preceding the survey, resulting in sample overlaps between estimates for different points in time. Also, the MDG baseline for 1990 and the MDG targets for 2015 in Figure 1 are estimates provided by the Ministry of Health and are thus not truly comparable to survey data for the years 1996, 2001, 2006 and 2011. Most importantly, NFHS and NDHS data are designed to be representative at the national level but may not necessarily be representative for each of our subgroup analyses, e.g. selected caste and ethnic groups; therefore, the comparison of rate differences and rate ratios and their changes across time must be made with caution.

A major limitation in relation to our review of efforts to reduce neonatal mortality is that information on relevant programs and policies and evidence of their coverage and effectiveness is based on non-systematic literature searches. Through conducting searches of the grey literature as well as the scientific literature and, in particular, through consultation with relevant stakeholders in Nepal, we are confident to have captured all important programs of direct relevance to neonatal health. We are less confident to have unearthed all available evidence on the effectiveness of different programs, especially as much unpublished additional evidence may reside with implementing organizations. Also, we did not conduct any formal quality appraisal for studies of effectiveness and have therefore not examined the evidence in terms of methodological flaws and potential bias due to non-independent evaluations.

Nevertheless, we believe that this study provides an important and much needed overview of key developments in neonatal health in Nepal over the past 20 years, capturing time trends in neonatal mortality in a disaggregated way, examining absolute and relative inequalities and providing an analysis of current experience with policies and programs.

Conclusions

This study clearly shows that much remains to be achieved in terms of reducing neonatal mortality across different socio-economic, ethnic and geographical population groups in Nepal. In moving forward it will be important to (i) strengthen and further increase the reach of those programs that have proven to achieve good results, such as applying chlorhexidine to prevent umbilical cord infections; (ii) put in place in-depth evaluation of the effectiveness and implementation approach of those programs that are promising but whose impact on neonatal mortality has not yet been verified, in particular CB NCP and SDIP; (iii) target hard-to-reach population across the country, customizing interventions as needed to ensure that they are socio-culturally appropriate; and (iv) maximize use of available financial and personnel resources by facilitating interaction between and, where feasible, integration across neonatal health programs as well as broader efforts to promote maternal and child health.

References

  1. Lassi ZS, Haider BA, Bhutta ZA: Community-based intervention packages for reducing maternal and neonatal morbidity and mortality and improving neonatal outcomes. Cochrane Database Syst Rev. 2010, 11: CD007754

    Google Scholar 

  2. Darmstadt GL, Bhutta ZA, Cousens S, Adam T, Walker N, de Bernis L: Evidence-based, cost-effective interventions: how many newborn babies can we save?. Lancet. 2005, 365 (9463): 977-988. 10.1016/S0140-6736(05)71088-6.

    Article  PubMed  Google Scholar 

  3. Bhutta ZA, Chopra M, Axelson H, Berman P, Boerma T, Bryce J, Bustreo F, Cavagnero E, Cometto G, Daelmans B, et al: Countdown to 2015 decade report (2000–10): taking stock of maternal, newborn, and child survival. Lancet. 2010, 375 (9730): 2032-2044. 10.1016/S0140-6736(10)60678-2.

    Article  PubMed  Google Scholar 

  4. MOH: 2001 Nepal Demographic and Health Survey. 2002, Kathmandu, Nepal: Ministry of Health, New Era, Macro International

    Google Scholar 

  5. MOHP: 2006 Nepal Demographic and Health Survey. 2007, Kathmandu, Nepal: Ministry of Health, New Era, Macro International

    Google Scholar 

  6. MOHP: 2011 Nepal Demographic and Health Survey. 2012, Kathmandu, Nepal: Ministry of Health and Population, New Era, ICF International

    Google Scholar 

  7. Pradhan A, Aryal RH, Regmi G, Ban B, Govindasamy P: 1996 Nepal Family Health Survey. 1997, Kathmandu, Nepal and Calverton, Maryland: Ministry of Health [Nepal], New ERA, Macro International Inc

    Google Scholar 

  8. Fenn B, Kirkwood BR, Popatia Z, Bradley DJ: Inequities in neonatal survival interventions: evidence from national surveys. Arch Dis Child Fetal Neonatal Ed. 2007, 92 (5): F361-366. 10.1136/adc.2006.104836.

    Article  PubMed  PubMed Central  Google Scholar 

  9. Fort AL, Kothari MT, Abderrahim N: DHS Working Papers. 2008, Calverton, MD, USA: Macro International, 1-47. Association between Maternal, Birth and Newborn Characteristics and Neonatal Mortality in Five Asian Countries, 55

    Google Scholar 

  10. MOHP: Equity analysis of health care utilization and outcomes: trend analysis of inequality by wealth quintile and caste/ethnic group from 1996 to 2006. 2008, Kathmandu, Nepal: Ministry of Health and Population, Health Sector Reform Support Programme, RTI International

    Google Scholar 

  11. Lawn JE, Cousens S, Zupan J: 4 million neonatal deaths: when? Where? Why?. Lancet. 2005, 365 (9462): 891-900. 10.1016/S0140-6736(05)71048-5.

    Article  PubMed  Google Scholar 

  12. Khanal S, Gc VS, Dawson P, Houston R: Verbal autopsy to ascertain causes of neonatal deaths in a community setting: a study from Morang, Nepal. JNMA J Nepal Med Assoc. 2011, 51 (181): 21-27.

    CAS  PubMed  Google Scholar 

  13. Khanal S, Sharma J, Gc VS, Dawson P, Houston R, Khadka N, Yengden B: Community health workers can identify and manage possible infections in neonates and young infants: MINI–a model from Nepal. J Health Popul Nutr. 2011, 29 (3): 255-264.

    Article  PubMed  PubMed Central  Google Scholar 

  14. Puri DM, Malla DK, Aryal DDR, Shrestha MM, Hulton DL, Pradhan MAS: Maternal and Perinatal Death Review in Nepal. In. 2008, Support to Safe Motherhood Programme, Nepal: Kathmndu, Nepal

    Google Scholar 

  15. Garg P, Gogia S: Reducing neonatal mortality in developing countries: low-cost interventions are the key determinants. J Perinatol. 2009, 29 (1): 74-75. 10.1038/jp.2008.123. author reply 75

    Article  CAS  PubMed  Google Scholar 

  16. WHO: Care of the umbilical cord. WHO/FHE/MSM-cord care. 1998, Geneva: World Health Organization

    Google Scholar 

  17. Bang AT, Reddy HM, Deshmukh MD, Baitule SB, Bang RA: Neonatal and infant mortality in the ten years (1993 to 2003) of the Gadchiroli field trial: effect of home-based neonatal care. J Perinatol. 2005, 25 Suppl 1: S92-107.

    Article  PubMed  Google Scholar 

  18. Baqui AH, El-Arifeen S, Darmstadt GL, Ahmed S, Williams EK, Seraji HR, Mannan I, Rahman SM, Shah R, Saha SK, et al: Effect of community-based newborn-care intervention package implemented through two service-delivery strategies in Sylhet district, Bangladesh: a cluster-randomised controlled trial. Lancet. 2008, 371 (9628): 1936-1944. 10.1016/S0140-6736(08)60835-1.

    Article  PubMed  Google Scholar 

  19. Hodgins S, McPherson R, Suvedi BK, Shrestha RB, Silwal RC, Ban B, Neupane S, Baqui AH: Testing a scalable community-based approach to improve maternal and neonatal health in rural Nepal. J Perinatol. 2010, 30 (6): 388-395. 10.1038/jp.2009.181.

    Article  CAS  PubMed  Google Scholar 

  20. Rutstein SO, Rojas G: Guide to DHS Statistics. 2006, Calverton (Maryland): ORC Macro

    Google Scholar 

  21. Evans T, Whiteheard M, Diderichsen F, Bhuiya AMW: Measuring disparities in Health: methods and indicators. Challanging Inequalities in health, from ethics to action. edn. 2001, New York: Oxford University Press, 49-67.

    Chapter  Google Scholar 

  22. Houweling TA, Kunst AE, Huisman M, Mackenbach JP: Using relative and absolute measures for monitoring health inequalities: experiences from cross-national analyses on maternal and child health. Int J Equity Health. 2007, 6: 15-10.1186/1475-9276-6-15.

    Article  PubMed  PubMed Central  Google Scholar 

  23. Moser K, Frost C, Leon DA: Comparing health inequalities across time and place–rate ratios and rate differences lead to different conclusions: analysis of cross-sectional data from 22 countries 1991–2001. Int J Epidemiol. 2007, 36 (6): 1285-1291. 10.1093/ije/dym176.

    Article  PubMed  Google Scholar 

  24. Mackenbach JP, Kunst AE: Measuring the magnitude of socio-economic inequalities in health: an overview of available measures illustrated with two examples from Europe. Soc Sci Med. 1997, 44 (6): 757-771. 10.1016/S0277-9536(96)00073-1.

    Article  CAS  PubMed  Google Scholar 

  25. King NB, Harper S, Young ME: Use of relative and absolute effect measures in reporting health inequalities: structured review. BMJ. 2012, 345: e5774-10.1136/bmj.e5774.

    Article  PubMed  PubMed Central  Google Scholar 

  26. Liu L, Johnson HL, Cousens S, Perin J, Scott S, Lawn JE, Rudan I, Campbell H, Cibulskis R, Li M, et al: Global, regional, and national causes of child mortality: an updated systematic analysis for 2010 with time trends since 2000. Lancet. 2012, 379 (9832): 2151-2161. 10.1016/S0140-6736(12)60560-1.

    Article  PubMed  Google Scholar 

  27. Stata Corporation: Stata 12 Special Edition (www.stata.com). College Station, TX, USA

  28. MOHP: Nepal Neonatal Health Strategy. 2004, Kathmandu, Nepal: Department of Health Services, Ministry of Health and Population

    Google Scholar 

  29. MOH, Save the Children: Newborn Health and Program in Nepal: Rapid assessment of neonatal health programs in Nepal. 2007, http://www.healthynewbornnetwork.org/sites/default/files/resources/Nepal_Newborn_Assessement-2007.pdf on May 12, 2012: Ministry of Health, Department of Health Services, Save the Children

    Google Scholar 

  30. MOH: National Health Policy. 1991, Kathmandu, Nepal: Ministry of Health

    Google Scholar 

  31. MOH: Second Long Term Health Plan (1997–2017). 1997, Kathmandu, Nepal: Ministry of Health

    Google Scholar 

  32. MOH: Nepal Health Sector Plan (2004–2009). 2004, Kathmandu, Nepal: Ministry of Health

    Google Scholar 

  33. MOHP: Nepal Health Sector Plan II (2010–2015). 2010, Kathmandu, Nepal: Ministry of Health and Population

    Google Scholar 

  34. GON: Ninth Plan (1997–2002). 1997, Kathmandu, Nepal: National Planning Commission

    Google Scholar 

  35. GON: Tenth Plan (2002–2007). 2002, Kathmandu, Nepal: National Planning Commission

    Google Scholar 

  36. GON: Three year interim plan (2007/08 - 2010/11). 2008, Kathmandu, Nepal: National Planning Commission

    Google Scholar 

  37. Smith SL, Neupane S: Factors in health initiative success: learning from Nepal's newborn survival initiative. Soc Sci Med. 2011, 72 (4): 568-575. 10.1016/j.socscimed.2010.11.022.

    Article  PubMed  Google Scholar 

  38. Pradhan YV, Upreti SR, Pratap KCN KCA, Khadka N, Syed U, Kinney MV, Adhikari RK, Shrestha PR, Thapa K, et al: Newborn survival in Nepal: a decade of change and future implications. Health Policy Plan. 2012, 27 Suppl 3: iii57-71.

    CAS  PubMed  Google Scholar 

  39. KC A, Thapa K, YV P, KC N, Upreti S, Adhikari R, Khadka N, Acharya B, Dhakwa J, Aryal D, et al: Developing community-based intervention strategies and package to save newborns in Nepal. J Nepal Health Res Counc. 2011, 9 (2): 107-118. Accessed from http://www.nhrc.org.np on May 112, 2012

    CAS  PubMed  Google Scholar 

  40. Paudel D: Impact of community- and home-based interventions in improving newborn care practices in Nepal. 2013, Munich, Germany: Ludwig-Maximilians University

    Google Scholar 

  41. Ghimire M, Pradhan YV, Maskey MK: Community-based interventions for diarrhoeal diseases and acute respiratory infections in Nepal. Bull World Health Organ. 2010, 88 (3): 216-221. 10.2471/BLT.09.065649.

    Article  PubMed  PubMed Central  Google Scholar 

  42. Dawson P, Pradhan Y, Houston R, Karki S, Poudel D, Hodgins S: From research to national expansion: 20 years' experience of community-based management of childhood pneumonia in Nepal. Bull World Health Org Suppl. 2008, 86 (5): 339-343. 10.2471/BLT.07.047688.

    Article  CAS  Google Scholar 

  43. McPherson RA, Khadka N, Moore JM, Sharma M: Are birth-preparedness programmes effective? Results from a field trial in Siraha district, Nepal. J Health Popul Nutr. 2006, 24 (4): 479-488.

    PubMed  PubMed Central  Google Scholar 

  44. Mullany LC, Darmstadt GL, Khatry SK, Katz J, LeClerq SC, Shrestha S, Adhikari R, Tielsch JM: Topical applications of chlorhexidine to the umbilical cord for prevention of omphalitis and neonatal mortality in southern Nepal: a community-based, cluster-randomised trial. Lancet. 2006, 367 (9514): 910-918. 10.1016/S0140-6736(06)68381-5.

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  45. Powell-Jackson T, Neupane BD, Tiwari S, Tumbahangphe K, Manandhar D, Costello AM: The impact of Nepal's national incentive programme to promote safe delivery in the district of Makwanpur. Adv Health Econ Health Serv Res. 2009, 21: 221-249.

    CAS  PubMed  Google Scholar 

  46. Rakha MA, Abdelmoneim AN, Farhoud S, Pieche S, Cousens S, Daelmans B, Bahl R: Does implementation of the IMCI strategy have an impact on child mortality? A retrospective analysis of routine data from Egypt. BMJ Open. 2013, 3 (1): doi:10.1136/bmjopen-2012-001852

    Google Scholar 

  47. Lawn JE, Kinney MV, Black RE, Pitt C, Cousens S, Kerber K, Corbett E, Moran AC, Morrissey CS, Oestergaard MZ: Newborn survival: a multi-country analysis of a decade of change. Health Policy Plan. 2012, 27 (Suppl 3): iii6-28.

    Article  PubMed  Google Scholar 

  48. Save the Children: States of the World's Mothers 2013. 2013, Washington DC, USA: Save the Children

    Google Scholar 

  49. Glenton C, Scheel IB, Pradhan S, Lewin S, Hodgins S, Shrestha V: The female community health volunteer programme in Nepal: decision makers' perceptions of volunteerism, payment and other incentives. Soc Sci Med. 2010, 70 (12): 1920-1927. 10.1016/j.socscimed.2010.02.034.

    Article  PubMed  Google Scholar 

  50. Nguyen KH, Jimenez-Soto E, Morgan A, Morgan C, Hodge A: How does progress towards the MDG 4 affect inequalities between different subpopulations? Evidence from Nepal. J Epidemiol Community Health. 2013, 67 (4): 311-319. 10.1136/jech-2012-201503. doi:10.1136/jech-2012-201503.

    Article  PubMed  Google Scholar 

  51. Kesterton AJ, Cleland J: Neonatal care in rural Karnataka: healthy and harmful practices, the potential for change. BMC Pregnancy Childbirth. 2009, 9: 20-10.1186/1471-2393-9-20.

    Article  PubMed  PubMed Central  Google Scholar 

  52. Mesko N, Osrin D, Tamang S, Shrestha BP, Manandhar DS, Manandhar M, Standing H, Costello AM: Care for perinatal illness in rural Nepal: a descriptive study with cross-sectional and qualitative components. BMC Int Health Hum Rights. 2003, 3 (1): 3-10.1186/1472-698X-3-3.

    Article  PubMed  PubMed Central  Google Scholar 

  53. Finlayson K, Downe S: Why do women not use antenatal services in low- and middle-income countries? A meta-synthesis of qualitative studies. PLoS Med. 2013, 10 (1): e1001373-10.1371/journal.pmed.1001373.

    Article  PubMed  PubMed Central  Google Scholar 

  54. Devkota B, van Teijlingen ER: Understanding effects of armed conflict on health outcomes: the case of Nepal. Confl Health. 2010, 4: 20-10.1186/1752-1505-4-20.

    Article  PubMed  PubMed Central  Google Scholar 

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Acknowledgements

We would like to acknowledge the USAID-funded MEASURE Demographic and Health Survey for providing the Nepal DHS dataset and guiding analysis of DHS data. The opinions expressed are those of the author and do not necessarily reflect the views of USAID. DP undertook this analysis as part of his research under the PhD program at the Munich Center for International Health, which is funded by the German Academic Exchange Service (DAAD) and the Federal Ministry of Economic Cooperation and Development (BMZ) - Germany. ER gratefully acknowledges financial support from the Munich Center of Health Sciences.

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Correspondence to Deepak Paudel.

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DP was employed by the United States Agency for International Development in Nepal and has been involved with the management of neonatal health programs.

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DP and ER had the original idea for this paper. DP carried out searches and data analysis, and prepared the first draft. ER, IBS, MS advised on methods and interpretation of findings. ER, IBS, MS reviewed and revised the draft manuscript. All authors read and approved the final manuscript.

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Paudel, D., Shrestha, I.B., Siebeck, M. et al. Neonatal health in Nepal: analysis of absolute and relative inequalities and impact of current efforts to reduce neonatal mortality. BMC Public Health 13, 1239 (2013). https://0-doi-org.brum.beds.ac.uk/10.1186/1471-2458-13-1239

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