nueva página del texto (beta)
Inglés (pdf)
Artículo en XML
Referencias del artículo
Traducción automática
Enviar artículo por email
Citado por SciELO 
Similares en
SciELO 
Permalink
Introduction
For decades, ineffectiveness and inefficiency in public services have caused substantial concern worldwide, with government institutions often viewed as incapable of responding to the constantly changing needs of society (World Bank, 2016). A number of proposals have thus been formulated with the aim of transforming the administrative model of governments into one grounded in the principles of private management (Marvel, 2016).
Salient among these proposals, the New Public Management (NPM) model emerged in the late 1970s as a means of abating the widespread economic crisis, and was rapidly adopted by the reform agendas of most OECD countries (Gruening, 2001). The NPM model proposes the utilization of private sector management methods and tools as a pathway to improving public sector effectiveness and efficiency, among others (Siltala, 2013). Its implementation requires paradigmatic and operational shifts in the role of government based on neoliberal approaches. From a paradigmatic viewpoint, NPM requires governments to participate in the economy as facilitators, rather than competitors, of private activity (World Bank, 2016). Operationally, it proposes that governments transform their institutions into outcome-driven organizations that abandon bureaucratic schemes in order to focus on effectiveness and efficiency as the cornerstones in the production of social services for those unable to afford them privately (World Bank, 2016).
The NPM model was adopted by developing countries in response to the unsatisfactory performance of their public institutions. As indicated by World Bank surveys, government bodies are the object of global distrust (World Bank, 2016) manifested in claims of inefficiency in the management of public resources and incompetence in meeting the needs of populations, particularly of the most vulnerable groups. Improving management in government institutions has thus become a priority worldwide (World Bank, 2016), with NPM proposed as a means of remedying ineffectiveness and inefficiency (CLAD, 1998; World Bank, 2016).
Pursuant to international agreements in favor of public management reforms via nationwide action plans, the Mexican Government approved a national NPM reform process under the 2006 Budget and Fiscal Responsibility Law (MoF, 2006), administered through the Ministry of Finance and Public Credit (SHCP by its Spanish initials). The Chamber of Deputies of the Mexican Congress instituted this new model in 2008 with the aim of transforming traditional resource allocation into a dynamic operation focused on the outcomes of policies and programs (Curristine, Lonti, & Joumard, 2007). Following the reform, the Federal Government, including the Mexican Ministry of Health (MoH), incorporated NPM mechanisms as a pathway to more effective and efficient public services.
Looking for understanding the thinking behind the Mexican government decision to implement the NPM, we carried out a literature review. This review had the aim to look for empirical evidence about the effects of the NPM on the health care system performance. We restricted the search to the terms New Public Management and health, in English and Spanish, in the Medline, Pubmed, Lilacs-Bireme, Scielo, and Redalyc databases, 2000-2018. We reviewed the abstracts wich mentioned New Public Management in their title, and, when these abstracts sugested an analysis of the NPM on health care system performance, the articles were enterely reviewed.
At the moment that Mexico implemented NPM, in 2008, the global literature on health care system performance related to NPM was scarce. In addition, the evidence generated, after the NPM implementation in our country, shows null or negative effects. Thus, a study conducted in Spain, concluded that there is no evidence that the NPM contributes to improving the technical efficiency of hospitals in Madrid (Alonso, Clifton, & Díaz-Fuentes, 2015). Another study, also carried out in Spain, analyzed the effects of the NPM on the status of the medical profession, concluded that the NPM causes inequalities related to the conformation of social stratus into the medical profession (Cascon-Pereira, Kirkpatrick, & Exworthy, 2017). In Portugal, Nunes and Ferreira (2018) found that NPM instead of improve health system performance increase the health care costs (Nunes & Ferreira, 2018). In Norway, a study titled “The nurse-patient relationship in the New Public Management era, in public home care: A focused ethnography”, concluded the New Public Management could affect (in a negative way) the quality and meanings of the relationship between nurses and patients cared in Norwegian public home (Strandas, Wackerhausen, & Bondas, 2018). In Sweden a NPM strategy to shorten queues to healthcare, consisting in pay out to the county councils for reducing the queues for first visit, resulted in longer queues for return visits, affecting the patients with chronical or severe diseases (Hansson, 2014).
A group of Australian researchers also tested a NPM strategy in the South of Australia. The authors explored the consequences on the nursing work of imposing rounding as a risk reduction strategy. The rounding looked for to “place the patient at the centre of the ward routine by taking care back to the patient, it involves nurses carrying out regular and standardized checks, on all patients at set intervals to assess and manage their fundamental care needs”. Health system managers looked for to improve quality, efficiency and productivity, but by the contrary, rounding increased call bells from bedridden patients, moreover it negatively affected the nurse-patient relationships (Willis et al., 2016). Another study carried out in Australia and New Zealand determined that the culture of austerity that includes healthcare budget cuts “impacted on the quality of patient care and nursing work, as well as contributing to missed care” (Willis, Carryer, Harvey, Pearson, & Henderson, 2017). An study published in Mexico in 2009 that included all Mexican public administration areas, concluded that the NGP has not had the expected impact on the improvement of the performance of the state public administrations measured in terms of their contribution to the quality of life and the satisfaction of the citizens (Martínez-Vilchis, 2009). With hardly any existing empirical evidence or literature on its functionality (Levy, 2010) to guide an informed decision, the Mexican Government adopted the NPM model relying on the decisions of the majority of developed OECD countries.
Ten years after local implementation, the impact of the new model on the performance (effectiveness and efficiency) of the Mexican public sector was still unknown. The present study therefore sought to contribute knowledge on the subject by evaluating the effectiveness and efficiency of Mexican public health services before and after NPM implementation.
The MoH is a vast and complex institution. To mention only a few of its principal functions, this institution manages the national Health Care System, provides financing for health activities, and delivers services. Our analysis focused specifically on the delivery of obstetric services, which account for roughly 64% of total hospital discharges (HDs) from MoH facilities. This area of health care has been drawing increased attention from researchers worldwide, with maternal mortality internationally classified as a major public health problem. The pervasiveness of pregnancy-related deaths and complications, particularly in developing countries, reflects social inequality, poor health care, and limited access to health services. The present study explored obstetric-care performance at MoH facilities before and after the introduction of the NPM model in 2008 (2000-2015). It analyzed the trend in HDs with a recovery status as a measure of effectiveness (MoH, 2017) and the average length of stays (LoS) of obstetric patients in MoH hospitals as a measure of efficiency (DGED, 2013).
Methods
Study design and setting
Based on an observational, retrospective time series design, we quantified the effectiveness and efficiency of MoH facilities operating under the framework of the NPM model. Analysis considered the health status of obstetric-care patients at the time of HD and the average LoS required to produce a HD. Indicators were assessed before and after the implementation of the NPM model. Previous studies have reported post-admission mortality and unplanned readmissions (Davis et al., 2013)effectiveness, equity (E3, yet these data were unavailable in the analysed databases.
Data were drawn from hospital-care databases compiled by the MoH Directorate General of Health Information (DGIS by its Spanish initials) (DGIS, 2015). Of the 25.8 million observations registered from 2000 to 2015, we analyzed 16.5 million obstetric cases concerning women of reproductive age (between 10 and 54 years).
Statistical analysis
We calculated averages, standard deviations, and proportions by type of variable. HDs were grouped, according to the type of care, into three categories: obstetric complications, vaginal deliveries and cesareans, and estimated by status: recovery (full recovery or remission) and other (voluntary discharge, referral to another health care facility, death, and unspecified) (Eurostat, 2017b). Temporary descriptions were formulated under stacked columns. Given the high concentration of HDs with a recovery status (98.3% during the 16 years analyzed), we considered only central tendency (average) and dispersion (standard deviation (SD) measures by type of care provided.
Regarding efficiency, analysis excluded LoS beyond ten days, with evidence (Campbell, Cegolon, Macleod, & Benova, 2016) showing that this is normally the maximum in-hospital time for obstetric patients. Moreover, LoS beyond this timeframe accounted for only 0.25% of total obstetrics cases in the analyzed databases. We performed survival analysis in order to compare the temporal relationship between HD and average LoS before and after NPM implementation. Given the retrospective nature of our study, follow-up comprised all subjects until occurrence of the event of interest (HD). Analysis did not include censored (exact survival time unknown) or truncated (delayed entry of patient into the study time scale) data. As the likelihood of HDs was assumed to occur independently, the Kaplan-Meier survival function was estimated (Kleinbaum & Klein, 2005). Survival analysis is a statistical procedure used for “analyzing data where the outcome variable is the time until the occurrence of an event of interest. The event can be death, occurrence of a disease, marriage, divorce, etc. The time to event or survival time can be measured in days, weeks, years, etc. For example, if the event of interest is heart attack, then the survival time can be the time in years until a person develops a heart attack” (Hosmer, Lemeshow, & May, 2011).
Average LoS (outcome variable) was modeled via kernel-weighted local polynomial regression methods (Welsh, 1996) using the Epanechnikov function and a polynomial degree of 3 (Deng & Chu, 2010); its trend was modeled as a function of time (t = year of occurrence of a HD). Kernel weighted local regression estimate nonparametric explanatory variables effects (Yu & Lin, 2008). This procedure is adequate to represent (graphically) the non-linear relationship between an explanatory factor (years of following) and the result (average of hospital stay). All analyses were performed on Stata version 14.
Results
Over the period analyzed, HDs for obstetric complications and vaginal deliveries increased 156% (from 256 347 in 2000 to 656 152 in 2015) and 59.6% (from 345 850 in 2000 to 552 117 in 2015), respectively, but dropped 25.8% (from 52 464 in 2000 to 38 949 in 2015) for cesarean deliveries (Figure 1). We also observed changes in the proportional distribution of HDs by type of obstetric care provided: from 2000 to 2008, vaginal deliveries represented 48.7% of all obstetric HDs, followed by obstetric complications (44.3%) and cesarean deliveries (7%). Conversely, from 2009 to 2015, that is, following NPM implementation, obstetric complications rose to 50.4% of obstetric HDs, followed by vaginal (45.2%) and cesarean (4.4%) deliveries (Figure 1).
Source: Prepared by the author with data from the General Directorate of Health Information (2000-2015).
Figure 1 Trend in obstetric hospital discharges by type of care provided at Ministry of Health facilities (Mexico, 2000-2015)
Effectiveness in the production of obstetric services, measured as the proportion of HDs with a full recovery health status, reached 98.5% of total cumulative HDs from 2000 to 2015, barely fluctuating between a minimum of 98% in 2000 and a maximum of 98.8% in 2011 (Figure 2). As expected, the highest level of effectiveness (99.5%) was observed in vaginal deliveries and the lowest (97.4%) in obstetric complications. Care for cesarean deliveries proved highly effective, with 99.3% of HDs resulting in recovery.
Source: Prepared by the author with data from the General Directorate of Health Information (2000-2015).
Figure 2 Hospital discharges due to health improvement, 2000-2015
Table 1 displays the number of HDs and average LoS by year and type of care. Over the study period, the average LoS culminating in a HD - regardless of the type of care provided - was 1.74 days (SD, 0.93 days). When considering average LoS by type of care, vaginal deliveries required only 1.15 days (SD, 0.55 days) to produce a HD, as opposed to 2.20 days (SD, 1.03 days) in the case of cesarean deliveries. Temporal analysis indicated a highly homogeneous distribution of LoS over time: 2000 registered the longest (1.80 days; SD, 0.95 days) and 2004 the shortest LoS averages (1.68 days; SD, 1.03 days) (Table 1).
Table 1 Obstetric hospital discharges and average length of hospital stays by type of obstetric care provided at Ministry of Health facilities (Mexico, 2000-2015)
| Obstetric complications | Type of obstetric care provided Vaginal deliveries |
Cesareans | Total | |||||||||
| Year | Hospital discharges | Average length of hospital stay | Hospital discharges | Average length of hospital stay | Hospital discharges | Average length of hospital stay | Hospital discharges | Average length of hospital stay | ||||
| n | Mean | SD | n | Mean | SD | n | Mean | SD | ||||
| 2000 | 256 347 | 1.94 | 1.24 | 345 850 | 1.16 | 0.52 | 52 464 | 2.31 | 1.10 | 654 661 | 1.80 | 0.95 |
| 2001 | 287 013 | 1.88 | 1.20 | 351 689 | 1.14 | 0.50 | 51 236 | 2.26 | 1.08 | 689 938 | 1.76 | 0.93 |
| 2002 | 317 883 | 1.94 | 1.21 | 367 680 | 1.16 | 0.53 | 50 903 | 2.25 | 1.03 | 736 466 | 1.78 | 0.93 |
| 2003 | 345 668 | 1.92 | 1.21 | 379 888 | 1.15 | 0.55 | 49 078 | 2.27 | 1.05 | 774 634 | 1.78 | 0.94 |
| 2004 | 362 327 | 1.82 | 1.28 | 393 069 | 0.98 | 0.72 | 52 485 | 2.23 | 1.09 | 807 881 | 1.68 | 1.03 |
| 2005 | 401 554 | 1.89 | 1.20 | 429 890 | 1.15 | 0.55 | 63 662 | 2.23 | 1.03 | 895 106 | 1.76 | 0.92 |
| 2006 | 428 025 | 1.87 | 1.18 | 451 567 | 1.16 | 0.53 | 66 225 | 2.20 | 1.03 | 945 817 | 1.74 | 0.91 |
| 2007 | 468 837 | 1.88 | 1.18 | 480 431 | 1.17 | 0.56 | 71 143 | 2.21 | 1.00 | 1 020 411 | 1.75 | 0.91 |
| 2008 | 519 748 | 1.86 | 1.19 | 523 926 | 1.16 | 0.54 | 79 233 | 2.17 | 0.99 | 1 122 910 | 1.73 | 0.91 |
| 2009 | 562 380 | 1.85 | 1.19 | 563 034 | 1.15 | 0.53 | 88 774 | 2.11 | 0.97 | 1 214 188 | 1.70 | 0.90 |
| 2010 | 608 469 | 1.85 | 1.19 | 563 051 | 1.15 | 0.52 | 59 712 | 2.16 | 0.99 | 1 231 232 | 1.72 | 0.90 |
| 2011 | 633 814 | 1.86 | 1.19 | 590 098 | 1.15 | 0.53 | 55 945 | 2.19 | 0.99 | 1 279 857 | 1.73 | 0.90 |
| 2012 | 652 749 | 1.87 | 1.18 | 586 296 | 1.15 | 0.53 | 53 204 | 2.18 | 1.02 | 1 292 249 | 1.73 | 0.91 |
| 2013 | 656 495 | 1.87 | 1.18 | 566 306 | 1.16 | 0.55 | 48 223 | 2.20 | 1.03 | 1 271 024 | 1.74 | 0.92 |
| 2014 | 670 499 | 1.89 | 1.21 | 559 151 | 1.18 | 0.57 | 42 842 | 2.20 | 1.02 | 1 272 492 | 1.76 | 0.93 |
| 2015 | 656 152 | 1.90 | 1.21 | 552 117 | 1.19 | 0.58 | 38 949 | 2.21 | 1.02 | 1 247 218 | 1.77 | 0.94 |
| Total | 7 827 960 | 1.88 | 1.20 | 7 704 043 | 1.15 | 0.55 | 924 078 | 2.20 | 1.03 | 16 456 081 | 1.74 | 0.93 |
Source: Prepared by the author with data from the General Directorate of Health Information (2000-2015).
In order to explore the relationship between HDs and LoS, we performed survival analysis and found homogeneous results in the number of days required to produce a HD, irrespective of the type of obstetric care provided (Figure 3). Regarding cesarean delivery services, the probability of a HD on the same day of admission was zero, both before and after NPM implementation. However, the cumulative probability of a HD on the fourth day slightly increased following NMP implementation (75% versus 63%).
Source: Prepared by the author with data from the General Directorate of Health Information (2000-2015).
Figure 3 Daily cumulative probability of obstetric hospital discharges before and after the implementation of the New Public Management (NPM) model by the Ministry of Health (Mexico).
Local polynomial smoothing (Figure 4) showed an average LoS of 1.54 days, with minor variations at the edges of the study period reaching a minimum in 2000 (1.52) and a maximum in 2015 (1.58).
Discussion
Mexico, similarly to various other countries worldwide, has implemented numerous strategies in order to improve the performance of its institutions, the most recent being the NPM model in 2008. NPM was adopted with the purpose of correcting effectiveness and efficiency limitations commonly encountered across government organizations. Actions launched under the theoretical guidelines of the NPM model included the installation of a performance evaluation system and a procedure for continuous monitoring of budget formulation and execution towards the development of quality, effective and efficient public services (Lapsley, 1999; Nuti, Seghieri, & Vainieri, 2013).
Implementation of the NPM model has called for considerable investments in the transformation of processes, installation of technology, and training of key personnel, among others. While the exact amounts disbursed are unavailable, in 2017, the SHCP provided an estimate of US$ 8,784.8 million. Expenditures have included actions to support the new budget process, enhance institutional efficiency, and improve public management and services (SHCP, 2017). This notwithstanding, no changes have been observed in the effectiveness and efficiency indicators.
The results presented here indicate that the administration of public health services related to obstetric care was already highly effective - even exceeding the national target of 93.3% (MoH, 2017) - prior to NPM implementation, and remained stable (98%) throughout the period analyzed. Likewise, as regards efficiency, analysis yielded an average of 1.75 days for HDs prior to NPM implementation, lower than the numbers reported in the literature (Campbell et al., 2016; Ford, Algert, Morris, & Roberts, 2012; Kim, Kim, Han, & Park, 2017). Our findings therefore demonstrate that obstetric services at MoH facilities had achieved optimum levels of effectiveness and efficiency since before NPM implementation, leaving little room for improvement over the period analyzed. According to the indicators analyzed in this study, the commonly held perception of ineffective and inefficient public health services is unfounded, at least with regard to obstetric care. It is important to bear in mind, however, that the indicators selected, although internationally used to measure hospital performance (Eurostat, 2017a; Sarkies et al., 2015), may not have been sufficiently sensitive to obstetric service events. Furthermore, the frequent and generalized “anti-public sector” messages spurring a negative perception of public institutions should be taken into account (Marvel, 2016).
Also of relevance is the fact that the effectiveness and efficiency of public health services may have benefited from strategies adopted before NPM implementation to reduce obstetric risks and improve maternal health (Secretaría de Salud, IMSS, & ISSSTE, 2009). Likewise, they may have been boosted by the introduction of demand-related mechanisms designed to facilitate access to health services, such as the Social Protection System in Health. Our findings may also reflect the presence of favorable changes in the health-seeking behavior of the Mexican population, e.g., a growing awareness of obstetric risks and of the need to detect symptoms and seek care opportunely. Finally, the generalized perception of inadequate public services that triggered the NPM reform may have referred to aspects other than effectiveness or efficiency. These may have included, inter alia, limited access to services, inadequate coverage, insufficient human and material resources, unavailable supplies, barriers to care-seeking, and unsatisfactory interpersonal relationships with staff (Secretaría de Salud et al., 2009).
Mexico decided to institute (2002) and implement (2008) NPM amidst national and global economic crises that were shaking its socioeconomic and administrative structures. Although the capacity of the NPM model was questioned as a strategy to meet the challenges of public administration (Levy, 2010), very little empirical evidence (Alonso, Clifton, & Díaz-Fuentes, 2013) existed at the time of implementation, and reservations were based on theoretical arguments and macro analyses rather than on specific circumstances. Unavailable evidence compounded by the inertia of public administrations characteristic of developing countries may have accounted for the adoption of NPM despite the fact that developed countries had experienced important failures (Simonet, 2015). The implementation of the NPM model in Mexico reflects a lack of analysis and disregard for indicators existing within the government system. It also shows that decision-making is often driven by a political eagerness to comply with sweeping international covenants (Sarker, 2006) rather than by a rigorous look at local performance. The Mexican Government needs to develop greater knowledge, more in-depth analysis and sound judgments before making decisions, particularly those of nationwide scope.
Conclusions
In agreement with previous studies (Alonso et al., 2015), we have found no evidence to sustain that the provision of obstetric care in MoH facilities in Mexico is ineffective or inefficient. With optimal levels of effectiveness and efficiency already existing in this context prior to NPM implementation, it can be affirmed that this model did not improve performance. It follows, then, that the organizational processes and strategies that did contribute to high effectiveness and efficiency in the public health institutions assessed in this study should be identified, strengthened, disseminated, and replicated, while understanding that the predominance of excellence in private administration is a myth (UNDP Global Centre for Public Service Excellence, 2015). It is necessary to continue generating empirical evidence
- such as that provided here - regarding the impact of the NPM model on the organization and functioning of government institutions. Moreover, good practices that have produced evidence of success should be exploited in order to better understand the dynamics and enhance the performance of government institutions. This is indispensable for stimulating and achieving organizational changes according to existing contexts and social needs.
Most of the studies identified in the literature review have a theoretical-conceptual approach, without evidence of processes or results of NPM implementation; and those who report empirical evidence use qualitative procedures that seek to understand the process and results related to the NPM. In the Mexican context is necessary to carry out researches focusing on determine the NPM effects on other health system areas, but also on other public administration sectors.
