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An assessment of the quality of care for children in eighteen randomly selected district and sub-district hospitals in Bangladesh

Abstract

Background

Quality hospital care is important in ensuring that the needs of severely ill children are met to avert child mortality. However, the quality of hospital care for children in developing countries has often been found poor. As the first step of a country road map for improving hospital care for children, we assessed the baseline situation with respect to the quality of care provided to children under-five years age in district and sub-district level hospitals in Bangladesh.

Methods

Using adapted World Health Organization (WHO) hospital assessment tools and standards, an assessment of 18 randomly selected district (n=6) and sub-district (n=12) hospitals was undertaken. Teams of trained assessors used direct case observation, record review, interviews, and Management Information System (MIS) data to assess the quality of clinical case management and monitoring; infrastructure, processes and hospital administration; essential hospital and laboratory supports, drugs and equipment.

Results

Findings demonstrate that the overall quality of care provided in these hospitals was poor. No hospital had a functioning triage system to prioritise those children most in need of immediate care. Laboratory supports and essential equipment were deficient. Only one hospital had all of the essential drugs for paediatric care. Less than a third of hospitals had a back-up power supply, and just under half had functioning arrangements for safe-drinking water. Clinical case management was found to be sub-optimal for prevalent illnesses, as was the quality of neonatal care.

Conclusion

Action is needed to improve the quality of paediatric care in hospital settings in Bangladesh, with a particular need to invest in improving newborn care.

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Background

Quality of care provided to children in hospital settings in low-income countries has generally been found to be poor [1–6]. A study of hospital quality for severely ill children across seven developing countries highlighted many of the quality of care issues [6].

The Government of Bangladesh (GoB) adopted the Integrated Management of Childhood Illness (IMCI) in 1998 as a key strategy to reduce child mortality and improve child development [7]. A recent review of IMCI implementation in Bangladesh and elsewhere highlighted the positive impact of IMCI on child health, quality of care, as well as inadequate referral of sick children from first-level and community care [8].

Studies in Ethiopia and Bangladesh have reported that 12-34% of children that come into contact with first-level facilities require referral to hospital care for further assessment and treatment [9, 10]. The proportion needing hospital admission has been found to be even higher for infants [10]. The consequences of not accessing appropriate hospital care can be very serious and may include prolonged sickness and eventual death.

Health system context in Bangladesh

In Bangladesh formal health services are provided by a range of public, private and non-government organization (NGO) providers. It has been estimated that there are approximately 4,400 of first level government facilities in Bangladesh [11].

The next tier of service is composed of some 417 sub-district hospitals called Upazila Health Complexes, which are designed to receive referrals from first level services. These usually have around 31–50 beds and are staffed by medical doctors, nurses, paramedics and laboratory technicians. There are also an estimated 59 district hospitals across the country each having between 50–250 beds [11].

Quality improvement processes

The WHO framework for improving hospital care to children under five years of age outlines seven interconnected steps in the quality improvement process [12, 13]. These include: 1) orientation to the specific country and health system context, and the adaptation of tools for assessment; 2) undertaking a baseline hospital assessment; 3) using this assessment to facilitate a consensus on hospital care and support system standards; 4) using standards to inform the development of appropriate interventions and improvement strategies; 5) implementing interventions and improvement actions; 6) monitoring and evaluating improvement actions; 7) sharing information about hospital improvement and successes to inform fine-tune existing strategies, develop new ones and scale-up hospital improvement [12].

The WHO has developed a number of generic assessment tools for evaluating the quality of hospital care to children; each of which has been developed based upon available evidence. The WHO Assessment Tool for Hospital Care for Children provides a set of standards for each of the most important dimensions of paediatric hospital care, and includes criteria for the assessment of performance in relation to each of these standards [12].

Given concerns about the quality of, and limited information about hospital care in Bangladesh, we undertook a baseline assessment of the quality of care for under five children in randomly selected government district and sub-district hospitals in Bangladesh as these are where severely ill children are most likely to be referred to. We also sought to compare the current practices in these hospitals with evidence-based guidelines, using the WHO developed pocket book of hospital care for children, to initiate quality improvement in the health sector [14]. In so doing we hoped to identify priority areas in need of improvement and to provide recommendations on strategies that could assist in this regard.

Methods

Selection of facilities

Six district hospitals from a number of districts across the country were randomly selected for inclusion in the assessment. All the districts in each of the six divisions in Bangladesh were assigned a number. A random number generator computer program was then used to randomly select one district from each division, and then a district hospital was chosen from each of the six randomly selected districts.

Twelve sub-district hospitals were also included in the assessment. Sub-district hospitals in the selected six districts were stratified in two strata- hospitals having IMCI program and hospitals having both IMCI and emergency obstetric (EmOC) program. One hospital from each of the strata was selected randomly, using the same procedure applied for district hospitals selection (Figure 1).

Figure 1
figure 1

Distribution and districts and sub-districts (upazilas) for hospital assessment.

Assessment tools

Adapted versions of the WHO developed generic assessment tools were used for our assessment. Adaptation of the tools was conducted through workshops involving leading paediatricians, hospital administrators and relevant government and NGO programme personnel in Bangladesh. The tool was then field tested prior to use in the study.

The final assessment tool included sections on hospital layout, essential drugs, supplies and equipment; laboratory support; emergency area and emergency management; neonatal care and case management for acute respiratory infections, diarrhoea, febrile illness and malnutrition; supportive care and monitoring; hospital administration; access to hospital care; and quality of care.

Assessors

A total of 31 assessors were selected to undertake hospital assessments. Assessors were physicians and GoB and NGO programme personnel with experience in the area of child health. All assessors received three days training, facilitated by individuals who participated in the initial adaptation workshop. Assessors also participated in field practice sessions.

Assessment of hospitals

Each team consisting of two paediatricians and two programme personnel conducted assessments at selected hospitals in May 2009. Assessments of each hospital took two days for teams to complete. Direct observation of clinical case management was undertaken wherever possible. When there were not sufficient patients for direct case observations, assessors reviewed clinical records. Assessors also conducted interviews with hospital staff and, if needed, used simulated cases when no case could be observed nor record could be found. The extraction of data from hospital Management Information System (MIS) reports was also used as another source of information.

Assessors scored hospitals on many of the dimensions in the adapted tool with respect to current WHO guidelines and standards, which were detailed in the tool. For individual and overall scoring, points from 5 to 1 were awarded: 5 for good practice complying with standards of care, 4 indicating little need for improvement to reach standard care, 3 meaning some need for improvement to reach standards of care, 2 indicating considerable need for improvement to reach standards of care and 1 for services not provided, or inadequate care and potentially life-threatening practices.

Analysis

The results of completed hospital assessment tools were checked for consistency. A customized data entry programme was developed with the necessary consistency checks. After data entry and cleaning, the data was analyzed using SPSS version 12.

Ethical consideration

Approval for health facility assessment and data collection was obtained from Directorate General of Health Services under the Ministry of Health and Family Welfare of Government of Bangladesh. Hospital assessment was an activity which documented the existing practice and situation at public health facilities. Since the assessment of the hospitals was conducted as part of quality of care improvement process at government hospitals, not as a research, we did not obtain ethical approval from ethics committee.

Results

Utilisation of hospitals by under-fives

Routine hospital MIS data showed that district hospitals (DHs) generally saw more children (M=17,435) than sub-district hospitals (SDHs) (M=8,728) in 2008. The proportion of children seen in emergency departments was greater in DHs (8.9%) as compared to SDHs (3.8%). A greater proportion of children were seen in outpatient departments in SDHs (86.3%) as compared to DHs (DHs: 80.8%), while the proportion of children seen in inpatient departments was similar (DHs: 10.3% and SDHs: 9.9%). The breakdown of hospital utilization by illness illustrated similar patterns for both district and sub-district hospitals (Figure 2). The most common illnesses in district hospitals (DHs) and sub-district hospitals (SDHs) were acute respiratory infections (DHs: 46% and SDHs: 52%), diarrhoea (DHs: 15% and SDHs: 18%), and fever (DHs: 6% and SDHs: 15%). Neonatal illness accounted for 6% of admissions in DHs but was negligible in SDHs.

Figure 2
figure 2

Major reasons for under-five visits to hospital in 2008.

Hospital layout, staffing and child health infrastructure

All of the six DHs had a separate paediatric section and designated beds for children whereas seven SDHs had a separate paediatric section and only two had designated beds for children. None of the hospitals had paediatric surgeons. In terms of inpatient and outpatient care all DHs and SDHs had at least one doctor present during the morning shift (8 am-2 pm) but only a third of DHs (2 of 6) and two third of SDHs (8 of 12) hospitals had at least one doctor during the evening shift (2 pm-8 pm) and the night shift (8 pm-8 am). No DHs or SDHs had more than one doctor present in inpatient and outpatient departments during the evening and night shifts. All facilities had 24-hour nursing care for admitted children, and reported that emergency care provided by paramedics and/or on call doctors was available 24-hours a day and seven days a week. However, no hospitals had a functioning triage system for prioritizing severely ill children upon arrival at emergency departments (Table 1).

Table 1 Hospital layout and child health infrastructure

Hospital support systems, equipment and essential drugs

Electricity was available at all hospitals, but amidst the back drop of frequent power cuts in Bangladesh, only one DH and four SDHs had a backup generator. Sufficient fuel to power backup generators was not available at any SDH. Whilst running water was available at all but one hospital, more than half (10 of 18 hospitals) were unable to provide safe drinking water. Five DHs and eight SDHs had coloured bins for waste disposal but instructions for correct waste disposal were not always followed (Table 2).

Table 2 Hospital support systems

Functioning refrigerators for Expanded Programme on Immunization (EPI) vaccines were present at all hospitals. Filled oxygen cylinders were available but three SDHs lacked flow meters. Half of DHs (3 of 6) and a quarter of SDHs (3 of 12) had incubators for neonatal care, and only one hospital had a warmer. Weighing scales for children were available at the inpatient departments of almost all DHs (5 of 6) and in just over half of SDHs (7 of 12) (Table 3).

Table 3 Hospital equipment

Only one DH had all of the essential paediatric inpatient drugs (normal saline, cholera saline, injectable ampicillin, injectable gentamicin, syrup amoxicillin and injectable amoxicillin) whilst not a single SDH complied fully with the requirement. The majority of DHs (4 of 6) had a supply of normal saline, but this was present in less than half of SDHs (5 of 12). Cholera saline was found in almost all DHs and SDHs (5 and 11, respectively). Although both ampicillin and gentamicin should be available for the management of severe pneumonia or severe disease, at least one injectable antibiotic was available at all DHs, but not at all SDHs. Oral rehydration solution (ORS) and zinc tablets were available at all facilities (Table 4).

Table 4 Availability of essential drugs

Laboratory support

Supplies for essential laboratory tests, such as blood glucose, haemoglobin, complete blood count (CBC), blood grouping and cross-matching, routine microscopic examination for urine and stool and facilities for chest x-rays were present in most DHs and some SDHs. However, the presence of laboratory test was undermined by the availability of laboratory support, particularly in SDHs. For instance, laboratory test results were available on a 24/7 basis in just a quarter of SDHs (3 of 12). Similarly half of the DHs (3 of 6) and one third of the SDHs (4 of 12) were not conducting laboratory tests according to standard operating procedures, and maintenance of laboratory safety measures was generally poor (Table 5).

Table 5 Quality of laboratory support

Availability and quality of neonatal care

Neither DHs nor SDHs had a separate unit or room for managing sick newborns. The safety of wards and hygiene practices relating to neonatal care was found to be poor overall. In particular substantial improvement was required in over half (7 of 12) of the SDHs in our sample. Likewise, no hospitals had adequate systems for prioritizing seriously ill neonates.

SDHs were found to be marginally better than DHs in promoting early initiation and exclusive breastfeeding and skin-to-skin contact for newborns (4 of 12 SDHs compared to 1 of 6 DHs). Adequate thermal protection for newborns was absent at all facilities and immunizations were not given routinely to all children born at the facilities.

Low birth weight (LBW) newborns were appropriately diagnosed at only two DHs. Treatment of LBW was poor at all hospitals, and particularly at SDHs, eight of which required substantial improvement compared to one DH. Similarly, appropriate feeding of young infants and LBW newborns was lacking at all hospitals (Table 6).

Table 6 Availability and quality of neonatal care

Quality of case management

Prevalent child illnesses such as pneumonia, diarrhoea and severe malnutrition were poorly managed at these facilities. This was despite the fact that all hospitals with the exception of one, had workers trained in IMCI. Even so, our assessment found that there was very little retraining, nor adequate and updated guidelines available at hospitals.

Severity of pneumonia was found to be correctly assessed and diagnosed in only one-third of DHs (2 of 6) and in one-quarter of SDHs (3 of 12). Appropriate antibiotics were found to be administered inadequately in all hospitals. Similarly correct and appropriate administration of oxygen was absent in most of the hospitals (Table 7).

Table 7 Quality of case management by illness

Diagnosis and treatment of diarrhoea was also generally found to be deficient in most hospitals. Substantial improvement with respect to this was particularly required in SDHs (8 of 12) as compared to DHs (2 of 6). Despite two DHs and two SDHs meeting standards, continued feeding during diarrhoea was found to require improvement in most hospitals (Table 7).

All hospitals fell below standards in relation to severe malnutrition case management. Appropriate nutrition assessment for malnutrition was not conducted in many hospitals. As a result two thirds of DHs (4 of 6) and three quarters of SDHs (9 of 12) were found to need substantial improvement in managing electrolyte imbalance and micronutrients appropriately. Similarly correct management of dehydration, hypoglycaemia and hypothermia, and the correct feeding of severely malnourished children were lacking (Table 7).

Patient monitoring system

Re-assessment of all admitted children by nurses was not conducted in any hospitals. A comprehensive monitoring chart has been developed by the Government of Bangladesh, which describes patient details, vital signs, clinical signs, treatments given, feeding practices, an intake-and-output chart, and outcomes of these practices. It however, was not used at most of the facilities (Table 8).

Table 8 Patient monitoring system

Discussion

Consistent with research in other developing countries [1–6], we found that the quality of hospital care to under-fives in Bangladesh is poor and requires improvement. Deficiencies were found in a number of interconnected areas including in relation to triage systems, clinical case management and monitoring, the quality of neonatal care, essential hospital support systems and drugs, and hospital and child health infrastructure. Addressing these quality issues may not only improve the standard of care provided, but also improve access. For instance, Bari et al. found that perceptions of high quality care, alongside the availability of treatment, and the fact that care was free, were reasons cited by parents of newborns for accessing hospital care in one sub-district in Bangladesh [15].

Many deaths occur in the first 24 hours after arrival at a hospital and thus urgent intervention can be critical to child survival [16]. The WHO has developed guidelines for triage and emergency treatment of common emergency conditions that occur in under-five children in developing countries [6]. When accompanied by a short training course, the use of these guidelines by nurses was found to be effective in facilitating the identification and management of severely ill children in a hospital in Brazil [17].

This assessment found that out-patient case management and care practices were poor despite all but one hospital in our sample having IMCI-trained providers.

A study in Bangladesh highlighted the potential for incomplete assessments, and incorrect treatment amongst IMCI trained providers [18]. The reinforcement of training and provision of supportive supervision were factors that different studies identified as contributing to health workers performance in relation to IMCI [19, 20].

Our findings illustrate that essential drugs, equipment and supports also need to be made available so that health providers can provide care based upon evidence-based guidelines. Even the best trained providers cannot treat severely ill children when, for instance, the essential drugs needed to do so are not at their disposal. Such essential supports were generally found to be lacking in the hospitals we assessed, which may be due to supply chain and stock management issues. While supply chain issues may take time to rectify, supervision may be a feasible way of improving stock management [21]. Similarly, inadequate laboratory support, as was found in many hospitals in this assessment, is likely to impact upon the quality of the diagnosis and treatment of severely ill children. Likewise a lack of equipment, as in the case of weighing machines for example, compromises proper assessment and leads to inappropriate treatment dosages given. English et al. document a similar situation in rural Kenya, in which they found between 30% to 56% of necessary items for paediatric care to severely ill children and newborns to be lacking in hospitals [1].

Although hospitals are supposed to function as places of healing and recovery, our findings point to the possibility that, if neglected, the hospital environment itself can have the opposite effect. Poor physical infrastructure such as unsafe drinking water or the lack of a back-up power supply found in many hospitals in our sample for instance, threaten to compromise patient safety.

The results of our assessment, when interpreted alongside the quality of care literature, [1–6] highlight the interconnectedness of the many dimensions that influence the quality of hospital care for children. In order to have the greatest impact on improving hospital quality, our findings suggests that it is not enough to focus solely on improving one dimension of hospital care alone whilst others remain neglected. For example increasing the training of hospital staff or providing them with refresher training is likely to increase clinical case management skills but is only likely to result in quality gains if the essential assessment and monitoring equipment, drugs, and laboratory support are present. And even if the necessary equipment and drugs are available to providers in order to optimize their clinical case management skills, positive outcomes for patients may be undermined by the hospital environment itself. Similarly even if improvements are made in other areas, deficient triage systems may mean that children most in need of urgent care do not receive the care they need. Therefore our assessment points to the need for an integrated package of quality improvement measures to be implemented. This would ideally include measures such as:

  • Ongoing training, supportive supervision and guideline development to increase clinical case management skills of providers

  • Investment in essential drugs, equipment, and laboratory supports to optimise the clinical case management skills of providers

  • Investment in human resources, and in improving hospital infrastructure to ensure that the hospital environment is safe, and

  • The development of triage and other systems based upon guidelines to prioritise those most in need.

  • Regular feedback on hospital performance to motivate managers and workers, and sustain quality improvement

In Bangladesh particular emphasis and investment within an integrated quality improvement package needs to be placed on neonatal care. While some of the quality improvement measures that we have suggested may require significant investment and time to implement, others such as providing ongoing training, supportive supervision, guideline development and the development of triage systems in hospitals can be positive first steps. For instance, Ayieko et al. found that a multifaceted intervention, which included evidence-based clinical practice guidelines, training on emergency triage assessment and treatment, the provision of job-aides, local facilitation, and regular supervision and face to face feedback resulted in improvement in paediatric care in Kenyan district hospitals [22]. The authors also found that the implementation of the full intervention resulted in greater improvement in paediatric care practice as compared to a partial intervention, which included less quality improvement strategies. This reiterates the notion that multifaceted interventions may be more effective in improving the quality of care in resource poor settings than single interventions [23].

The persistence of quality of care issues in resource poor settings suggests that similar underlying issues may be present. Many of the issues that we and others have reported including poor hospital infrastructure, essential supports and drug availability may reflect health system deficiencies. But, as Travis et al. point out, health system strengthening has not been given adequate attention in comparison to specific disease focussed interventions [24]. Similarly, Rowe et al. argue that: ″There is a growing imperative to scale up delivery of key health interventions to meet the Millennium Development Goals. However, simply scaling up interventions in weak health systems that deliver poor quality services is likely to waste precious resources and fail to show the anticipated improvements in health″. (pg 8) [23]. Because health system strengthening has been relatively neglected as part of the global health agenda, the potential for initiatives such as an integrated quality improvement approach to enhance system wide capacity is great.

National benchmarking or hospital accreditation may be possible ways in which an integrated quality improvement approach can occur in Bangladesh. Zambia has embarked upon a national hospital accreditation programme, in which hospitals undergo educational and accreditation surveys and are provided with feedback on how they can meet agreed-upon standards for accreditation [25]. This represents the next step in the hospital quality improvement process in Bangladesh.

An important foreseeable barrier to this pursuit is resource scarcity in developing countries like Bangladesh. However, one place to start might be a reassessment of the current allocation of resources. Carai et al. note that tertiary hospitals have tended to receive the large share of hospital funding even though the majority of severely ill children are treated in referral level facilities [26]. Whilst emphasis on primary care and prevention is needed, increasing investment in referral level facilities is also needed if child survival activities, such as IMCI, are to be successful.

Conclusion

The results of this assessment are consistent with findings in the international literature and thus provide a strong rationale for quality improvement in Bangladeshi hospitals. Given the scale of neonatal mortality in Bangladesh, particular attention should be paid to improving neonatal care within such an integrated package.

Key messages

The quality of care for children in first level referral facilities in Bangladesh is poor.

Findings suggest that there is room for improvement in a number of interconnected areas including in relation to the layout and child health infrastructure in hospitals; hospital support systems, equipment and essential drugs; laboratory support; the availability and quality of neonatal care; and the quality of case management and patient monitoring systems.

An integrated quality improvement strategy is needed to improve the quality of care provided to children in district and sub-district hospitals in Bangladesh.

References

  1. English M, Ntoburi S, Wagai J, Mbindyo P, Opiyo N, Ayieko P, Opondo C, Migiro S, Wamae A, Irimu G: An intervention to improve paediatric and newborn care in Kenyan district hospitals: understanding the context. Implement Sci. 2009, 4: 42-10.1186/1748-5908-4-42.

    Article  PubMed  PubMed Central  Google Scholar 

  2. Reyburn H, Mwakasungula E, Chonya S, Mtei F, Bygbjerg I, Poulsen A, Olomi R: Clinical assessment and treatment in paediatric wards in the north-east of the united republic of Tanzania. Bull World Health Organ. 2008, 86 (2): 132-139.

    Article  PubMed  PubMed Central  Google Scholar 

  3. English M, Esamai F, Wasunna A, Were F, Ogutu B, Wamae A, Snow RW, Peshu N: Delivery of paediatric care at the first-referral level in Kenya. Lancet. 2004, 364 (9445): 1622-1629. 10.1016/S0140-6736(04)17318-2.

    Article  PubMed  Google Scholar 

  4. English M, Esamai F, Wasunna A, Were F, Ogutu B, Wamae A, Snow RW, Peshu N: Assessment of inpatient paediatric care in first referral level hospitals in 13 districts in Kenya. Lancet. 2004, 363 (9425): 1948-1953. 10.1016/S0140-6736(04)16408-8.

    Article  PubMed  Google Scholar 

  5. Duke T, Tamburlini G, The Paediatric Quality Care Group: Improving the quality of care in peripheral hospitals in developing countries. Arch. Dis. Childh. 2003, 88: 563-565. 10.1136/adc.88.7.563.

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  6. Nolan T, Angos P, Cunha AJ, Muhe L, Qazi S, Simoes EA, Tamburlini G, Weber M, Pierce NF: Quality of hospital care for seriously ill children in less-developed countries. Lancet. 2001, 357 (9250): 106-110. 10.1016/S0140-6736(00)03542-X.

    Article  CAS  PubMed  Google Scholar 

  7. Tulloch J: Integrated approach to child health in developing countries. Lancet. 1999, 354 (suppl. 2): 16-20.

    Article  Google Scholar 

  8. Ahmed HM, Mitchell M, Hedt B: National implementation of integrated management of childhood illness (IMCI): policy constraints and strategies. Health Policy. 2010, 96 (2): 128-133. 10.1016/j.healthpol.2010.01.013.

    Article  PubMed  Google Scholar 

  9. Simoes EAF, Desta T, Tessema T, Gerbresellassie T, Dagnew M, Gove S: Performance of health workers after training in integrated management of childhood illness in Gondar, Ethiopia. Bull World Health Organ. 1997, 75 (S43): 53-

    Google Scholar 

  10. Kalter HD, Schillinger JA, Hossain M, Burnham G, Saha S, de Wit V, Khan NZ, Schwartz B, Black RE: Identifying sick children requiring referral to hospital in Bangladesh. Bull World Health Organ. 1997, 75: 65-75.

    PubMed  PubMed Central  Google Scholar 

  11. Rahman RM: Human rights, health and the state in Bangladesh. BMC Int Health Hum Rights. 2006, 6: 4-10.1186/1472-698X-6-4.

    Article  PubMed  PubMed Central  Google Scholar 

  12. Campbell H, Duke T, Weber M, English M, Carai S, Tamburlini G: Global initiatives for improving hospital care for children: state of the art and future prospects. Pediatrics. 2008, 121 (4): e984-992. 10.1542/peds.2007-1395.

    Article  PubMed  PubMed Central  Google Scholar 

  13. WHO: Improving the Quality of Hospital Care at First Referral Level. 2001, Geneva: World Health Organization

    Google Scholar 

  14. WHO: Pocket book of hospital care for children: Guidelines for the management of common illnesses with limited resources. 2005, Geneva: World Health Organization

    Google Scholar 

  15. Bari S, Mannan I, Rahman MA, Darmstadt GL, Serajil MH, Baqui AH, El Arifeen S, Rahman SM, Saha SK, Ahmed AS, et al: Trends in use of referral hospital services for care of sick newborns in a community-based intervention in tangail district, Bangladesh. J Health Popul Nutr. 2006, 24 (4): 519-529.

    PubMed  PubMed Central  Google Scholar 

  16. Gove S, Tamburlini G, Molyneux E, Whitesell P, Campbell H: Development and technical basis of simplified guidelines for emergency triage assessment and treatment in developing countries. WHO integrated management of childhood illness (IMCI) referral care project. Arch Dis Child. 1999, 81 (6): 473-7. 10.1136/adc.81.6.473.

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  17. Tamburlini G, Di Mario S, Maggi RS, Vilarim JN, Gove S: Evaluation of guidelines for emergency triage assessment and treatment in developing countries. Arch Dis Child. 1999, 81: 478-482. 10.1136/adc.81.6.478.

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  18. Arifeen SE, Bryce J, Gouws E, Baqui AH, Black RE, Hoque DM, Chowdhury EK, Yunus M, Begum N, Akter T, Siddique A: Quality of care for under-fives in first-level health facilities in one district of Bangladesh. Bull World Health Organ. 2005, 83 (4): 260-267.

    CAS  PubMed  PubMed Central  Google Scholar 

  19. Pariyo GW, Gouws E, Bryce J, Burnham G: Improving facility-based care for sick children in Uganda: training is not enough. Health Policy Plan. 2005, 20 (1): i58-i68. 10.1093/heapol/czi051.

    Article  PubMed  Google Scholar 

  20. Horwood C, Vermaak K, Rollins N, Haskins L, Nkosi P, Qazi S: An evaluation of the quality of IMCI assessments among IMCI trained health workers in south Africa. PLoS One. 2009, 4 (6): e5937-10.1371/journal.pone.0005937.

    Article  PubMed  PubMed Central  Google Scholar 

  21. Trap B, Todd CH, Moore H, Laing R: The impact of supervision on stock management and adherence to treatment guidelines: a randomized controlled trial. Health Policy Plan. 2001, 16 (3): 273-280. 10.1093/heapol/16.3.273.

    Article  CAS  PubMed  Google Scholar 

  22. Ayieko P, Ntoburi S, Wagai J, Opondo C, Opiyo N, Migiro S, Wamae A, Mogoa W, Were F, Wasunna A, Fegan G, Irimu G, English M: A multifaceted intervention to implement guidelines and improve admission paediatric care in Kenyan district hospitals: a cluster randomized trial. PLoS Med. 2011, 8: e1001018-10.1371/journal.pmed.1001018.

    Article  PubMed  PubMed Central  Google Scholar 

  23. Rowe A, de Savigny D, Lanata C, Victora C: How can we achieve and maintain high-quality performance of health workers in low-resource settings?. Lancet. 2005, 366: 1026-1035. 10.1016/S0140-6736(05)67028-6.

    Article  PubMed  Google Scholar 

  24. Travis P, Bennett S, Haines A, Pang T, Bhutta Z, Hyder AA, Pielemeier NR, Mills A, Evans T: Overcoming health-systems constraints to achieve the millennium development goals. Lancet. 2004, 364: 900-6. 10.1016/S0140-6736(04)16987-0.

    Article  PubMed  Google Scholar 

  25. Bukonda N, Tavrow P, Abdallah H, Hoffner K, Tembo J: Implementing a national hospital accreditation program: the Zambian experience. Int J Qual Health Care. 2003, 14: S7-16.

    Google Scholar 

  26. Carai S, Were W, Weber M: Hospital care for children in developing countries: getting the evidence where it matters. Trop Med Int Health. 2009, 14: 1324-1326. 10.1111/j.1365-3156.2009.02390.x.

    Article  PubMed  Google Scholar 

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Acknowledgement

We would like to acknowledge the support of the IMCI section of the Directorate General of Health Services, Ministry of Health and Family Welfare, Government of Bangladesh. We would also like thank SEARO/WHO for their technical assistance and financial support. Finally we acknowledge the support and technical guidance provided by the Bangladesh Paediatric Association. We would also like to thank the health facility managers, service providers and the clients for the help during data collection.

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Correspondence to Dewan ME Hoque.

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The authors declare that they have to competing interests.

Authors’ contributions

DH contributed to the conception and design, adaptation of survey tools, field data collection, data processing and analysis, and the drafting and revisions of the paper. MR and MB contributed to the design, adaptation of data collection tools, data collection and analysis, drafting and revisions of the paper. RK and EK contributed to planning, field data collection, data analysis and revisions of the paper. MS contributed in data analysis and revision of the manuscript. AH and JM contributed in survey tools adaptation, trainings and supervised implementation of the data collection. HK, SM, ZM, NR, MW and SA contributed to the conception and design, prepared the draft of the paper and contributed to revisions of the paper. All authors critically revised the first draft for content and contributed to the final draft.

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Hoque, D.M., Rahman, M., Billah, S.M. et al. An assessment of the quality of care for children in eighteen randomly selected district and sub-district hospitals in Bangladesh. BMC Pediatr 12, 197 (2012). https://doi.org/10.1186/1471-2431-12-197

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