INTRODUCTION

Hospital stay (HS) is subject to a variety of factors that, to varying extents, impact the management of hospital units, altering costs, duration, and risks for the most vulnerable patients. It can be measured using different parameters, but it remains an indicator of the efficiency level of health services.

In the hospital setting, beds represent a critical resource for service delivery. As a result, there is a need for measures to prioritize this resource and achieve proper efficiency¹.

Length of stay (LOS) in the ICU has been used as a measure of resource utilization because it is surprisingly consistent across most diagnoses².

Studies estimate that between 22.1% and 48% of HS days were unnecessary. A study from Iran showed that over 20% of the HS was inappropriate, with 45.1% due to the hospital's internal procedures³.

Illness and hospitalization are critical events that a newborn might face, having a psychological impact on the entire family, often manifesting as stress frequently seen during admission due to severe health status⁴.

For deducing prolonged stay (PS) in the neonatal ICU, any stays beyond the 75th percentile of hospitalized neonates who were discharged alive that year have been used as a reference⁵.

Accurately predicting hospital LOS and time to discharge could aid in resource planning and management, stimulate quality-improving activities, and support physicians in advising parents⁶.

Neonatal units manage significant resources due to their complex nature and are a focal point in each of their processes; among them is HS. When extended, it demands the identification of underlying causes to be addressed in favor of administrative efficiency, resulting in service improvements for patients. The aim of this research was to identify neonatal pathologies or conditions representing a risk of extended stay in the neonatal unit of the institution under study. This initiative seeks to delve into various problems affecting hospital costs and consuming resources that could benefit patients.

METHODS

RESULTS

Of the 700 registered neonates, 440 remained after applying the inclusion and exclusion criteria. Ultimately, based on the quality of the information, the number of studied neonates was reduced to 91 cases and 270 controls.

DISCUSSION

In our analysis, we identified birth weight as a significant risk factor, specifically the group ranging from 1000g to < 1500g. Although differing in the number of cases and methodology, birth weight has also been pinpointed by various authors as a primary factor. Lee, Henry et al. (2016), in their comparative study with 23,551 neonates and predictive models for the length of stay, recognized birth weight as a comparison factor, varying from 8 to 79 days⁸. Adebanji, Atinuke et al. (2015) in a retrospective study of 180 neonates, linked birth weight with length of stay⁹. Medina, Mareyke et al. (2015) in a case-control study analyzed risk groups based on birth weight in 447 cases and 1,341 controls, affirming birth weight as a factor¹⁰. Kurek, Meryem et al. (2017) in a retrospective study in the ICU involving 331 neonates born to mothers with preterm rupture of membranes, found significance in birth weight¹¹. Neonates with low birth weight often face respiratory, cardiovascular, hemorrhagic, septic, metabolic, and other complications during their stay; these, combined with immaturity, necessitate extensive care and delay hospital discharge due to the risks they pose. This also applies to extremely low birth weight neonates, but there were not enough cases for analysis.

In our research, we noted significant factors such as birth weight (1000g to < 1500g; adjusted OR 8.22, CI 3.17-21.27) and gestational age (28-31 weeks; adjusted OR 18.67, CI 4.88-71.46 and 32-33 weeks; adjusted OR 8.13, CI 3.57-18.49). Various studies similarly emphasized the combination of birth weight and gestational age as significant. Seaton, Sarah et al. (2016) in a systematic review of 9 selected studies found that factors like birth weight and gestational age allow for early and simple predictions of stay length¹². Kurek, Meryem et al. (2016) in a retrospective observational study with 3,607 ICU neonates also highlighted the importance of gestational age and birth weight¹¹. Marrugo-Arnedo et al. (2019) in a retrospective study of 947 neonates with a length of stay > 5 days also identified gestational age and birth weight as key determinants⁵. Mendoza, Luis et al. (2014) in their case-control study of 555 neonates (111 cases, 444 controls) with a length of stay > 7 days, pinpointed birth weight < 2000g and gestational age < 36 weeks as influential factors⁷. Khasawneh, Wasim et al. (2021) in their retrospective study of 2,236 late preterm infants considering a stay > 3 days, identified gestational age < 35 weeks, small for gestational age, and birth weight < 2500 g as factors¹³. Sahiledengle, Biniyam et al. (2020) in a prospective follow-up study with a stay > 7 days in 438 ICU neonates found significance in gestational age < 37 weeks and low birth weight¹⁴. Murki, Srinivas et al. (2020) in a multicenter study of 3,095 preterm infants (25 to 33 weeks) in the ICU found that for each week decrease in gestational age, the stay increases by 9 days. They identified factors such as gestational age and low birth weight¹⁵. Gestational age is directly linked to birth weight, and lower gestational ages express multiple complication possibilities based on the degree of immaturity. Given the level of complexity, most neonates admitted are ≥ 28 weeks gestational age and with birth weight ≥ 1000 grams, reflecting the complexity of problems and the time required for treatment.

In our study, sepsis was also found to be significant, reaching an adjusted OR of 7.103 (CI 3.13-16.09) with a p < 0.05. Neonates diagnosed with sepsis or those receiving antibiotics have been acknowledged by various authors. Ahlén, Katia et al. (2016) conducted a cross-sectional correlational study with 527 neonates and found that preterm infants treated with antibiotics had prolonged stays¹⁶. Kurek, Meryem et al. (2016) also identified sepsis and pneumonia as significant factors¹¹. Khasawneh, Wasim et al. (2021) pointed to sepsis¹³, Sahiledengle, Biniyam et al. (2020) to hospital-acquired infections¹⁴, and Murki, Srinivas et al. (2020) to sepsis cases¹⁵. The use of various invasive interventions, mechanical ventilation, parenteral nutrition, handling, and the potential presence of highly resistant germs in the ICU make sepsis a common complication that can prolong the stay of the hospitalized neonate.

Respiratory Distress Syndrome (RDS), formerly known as Hyaline Membrane Disease (HMD), associated with pulmonary immaturity in preterm infants, achieved appropriate risk and significance values (OR 10.37, CI 4.82-22.28) with a p-value < 0.05. Its occurrence also represented an important factor confirmed in various studies. Donda Keyur et al. in 1,526,186 preterm infants <34 weeks, (RDS: 260/1000 live births), found an average stay of 38 days¹⁷. Khasawneh, Wasim et al. (2021)¹³and Murki, Srinivas et al. (2020)¹⁵also concluded that RDS is a highly influential factor in hospital stays. Once again, immaturity, in this case at the pulmonary level, plays an important role in the use of invasive methods or mechanical ventilation that can lead to complications extending the stay in the neonatal ICU.

Anemia is a silent but very common factor in the neonatal ICU due to the population of preterm neonates admitted, thus achieving significance as a risk factor for PS. The authors present results that also express its influence on HS. Li Jinrong et al. (2021) in a meta-analysis conducted in 1807 preterm infants to assess the efficacy and safety of cord clamping at birth, found that late clamping reduces anemia and HS¹⁸. Anemia in preterm infants is a common event that often prolongs and affects the oxygen quality, impacting the functional status of various organs and systems. The transfusion of blood packs to stabilize the neonate is not rare and responds to the consequences of blood monitoring and other factors such as hemorrhages, immaturity, or of a nutritional nature. Usually as a PS factor, it overlaps others and affects the neonate's condition.

Neonatal malnutrition is related to birth weight conditions but also to the ability to adapt to feeding and its progress rate. We evaluated this factor in a population of 223 preterm infants and identified its influence on PS (Adjusted OR: 10.23, CI 4.73-22.12). Macuartú Amanda (2017), studying 37 very low birth weight neonates, found an average HS of 43.8 days. Weight (37.8%), head circumference (40.6%), and discharge weight (54.1%) in <3 percentile.¹⁹. Thabet Amina 2021, studied 60 preterm infants (30 - 34 weeks) and found that oral motor intervention reduces the HS of these patients by improving their feeding and weight gain²⁰. Maintaining adequate nutritional intake and developing conditions for successful breastfeeding are a significant challenge faced daily by neonatal units. Preterm infants, due to their immaturity and complications, require special attention in this regard, and their progress may require more days of hospitalization.

In this study, the factors of SGA and NEC were analyzed with the following risk values (OR 3.097, CI 1.77-5.4 and OR 7.29, CI 2.19-24.31 respectively), but with the adjusted OR in logistic regression, they did not achieve significance, possibly due to the number of cases and the small difference between cases and controls. Kurek, Meryem et al. (2017), identified NEC as a factor²¹. Murki, Srinivas et al. (2020)¹⁵, on the other hand, found significance in the SGA and NEC cases.

When cardiovascular disease was assessed as a group, a risk value was found (OR 6.55, CI 3.21-13.34), but congenital heart disease was not identified as a significant factor, as the OR 2.184, 0.676-7.06, could not be confirmed in the adjusted OR (aOR: 1.41, CI 0.38-5.19, p > 0.05). The same happened with the PDA (OR, 10.108 CI 3.848-26.552) that in the adjusted OR (1.411, CI 0.384-5.5.192) did not achieve significance. Kurek, Meryem et al. (2017), on the contrary, obtained a significant risk for congenital heart disease and PDA. Individually, PPHN found significance with an adjusted OR value: 32.17 (CI 1.852-559.016) and p = 0.017 (< 0.05)²¹. Lowe, Calvin et al. (2007), in a study conducted in 94 neonates with PPHN, in which they evaluated the use of Nitric Oxide during transport to the referral hospital to reduce the HS (38 days), found a reduction of the same in 17 days²². This coincides with our pointing it out as an important factor.

When assessing respiratory distress as a group, we found a risk value (OR: 2.561, 1.43-4.58), but individually these factors (NN: OR 0.92, CI 0.32-2.59; TTN: OR 0.11, CI 0.052-0.26; BPD: OR: 0.22. CI 0.189-0.22; PNX: OR 1.68, CI 0.55-5.16) did not show the same pattern.

The most relevant factors found in different studies regarding their influence on neonatal PHS were: birth weight, gestational age, sepsis, and RDS; the same ones were also identified in this study. Reference values for PS were very variable, as well as the methodology of the studies. Few studies focused on the anemia of the preterm and neonatal malnutrition since they usually have a chronic course and their impact is projected in the long term.

The strengths of this study can be observed in the period of the collected data since a review of clinical records was conducted over 5 years, obtaining a significant number of neonates that exceeded the selection criteria. With the exclusion criteria, it was intended to eliminate confounding factors such as genetic syndromes, referrals (received or sent), deceased or surgically intervened. The review of records and clinical histories was meticulous to ensure the fidelity of the information.

Among the limitations of the study, it is worth noting that the diagnoses recorded in the histories were accepted as such since the study did not intend to apply specific criteria for such diagnoses. The number of cases of certain diagnoses such as extremely low birth weight and BPD are insufficient for a good analysis and may be absent in the results. Administrative, logistical, equipment, and personnel factors, among others, are not part of the study, but they can impact the stay of neonates. The patient selection was not optimal in that adequate matching was not achieved, but all available cases were taken.

CONCLUSIONS

Neonatal PHS is significantly associated with perinatal risk factors: birth weight (from 1000gr to <1500gr) and gestational age (28 to 31 weeks and 32 to 33 weeks).

Neonatal PHS is significantly associated with postnatal risk factors: Neonatal respiratory distress syndrome, persistent pulmonary hypertension, neonatal sepsis, neonatal malnutrition, and prematurity anemia.

The selected factors: asphyxia, transient tachypnea of the newborn, pneumonia, pneumothorax, bronchopulmonary dysplasia, meconium aspiration syndrome, persistent ductus arteriosus, congenital heart disease, hyperbilirubinemia, hypoglycemia, necrotizing enterocolitis, and prematurity apnea; did not achieve significant association with PHS in this study.

The identified risk factors are neonatal pathologies or conditions that require highly complex care. These accumulate over the days of hospitalization and demand considerable resources from the institution. In light of this, it is essential to delve into each factor, breaking down the various stages of their evolution and the processes involved, to implement any required changes or improvements, be they administrative or medical in nature. These should involve the various stakeholders in charge of the established or to-be-established processes for preventive or recuperative neonatal care, refining logistical and technological processes as well as human potential development.

ACKNOWLEDGEMENTS

We give thanks to God above all. Additionally, we appreciate the support provided by the OADI Office and the Neonatology Service of Hospital Santa Rosa.