Comparison of intergrowth-21<sup>st</sup> and Fenton curves for evaluation of premature newborns

Peixoto, Lorena Oliveira; Pinto, Mônica Raquel Chaves; Silva, Jéssica de Queiroz da; Meireles, Ana Vaneska Passos; Nobre, Raquel Guimarães; Frota, Julyanne Torres

doi:10.1590/1806-93042022000100005

Abstract

Objectives:

to compare the intrauterine and postnatal growth of preterm infants according to the Intergrowth-21^st and Fenton curves.

Methods:

study carried out in a maternity hospital, reference in high-risk pregnancy, with preterm infants born in 2018 who were hospitalized in the neonatal units of the institution. Preterm newborns weighed at least twice after birth were included in the sample and those that were syndromic, malformed or presented fluid retention were excluded. Proportions and means were compared using Pearson’s chi-square and Student’s t tests for paired samples, respectively. The McNemar test was used to compare categorical variables and the Kappa test to verify the degree of agreement between birth weight classifications obtained by the curves.

Results:

one hundred and fifty three infants with a median gestational age of 34.4 weeks were included. The incidences of the categories of nutritional status at birth did not differ between the curves. There was perfect agreement between the curves, except when newborns born under 33 weeks of gestational age were evaluated, in which case the agreement was substantial. About 21% of the babies classified as small for gestational age (SGA) by Intergrowth-21st were adequate for gestational age (AGA) according to Fenton and, on average, 20% of cases that had postnatal growth restriction (PNGR) according to Fenton standards were categorized as adequate weight by Intergrowth-21^st. Postnatal weight classifications obtained by the evaluated curves had perfect agreement.

Conclusions:

the differences in theclassifications found between the charts reveal the importance of choosing the growth curve for monitoring preterm infants since behaviors based on their diagnoses can impact the life of this population.

Key words
Growth charts; Premature newborn; Nutritional status

Resumo

Objetivos:

comparar o crescimento intrauterino e pós-natal de prematuros segundo as curvas de Intergrowth-21^st e Fenton.

Métodos:

estudo realizado em uma maternidade de referência em gestação de alto risco com prematuros nascidos em 2018 que ficaram internados nas unidades neonatais da instituição. Foram incluídos os pré-termos pesados em pelo menos dois momentos após o nascimento e excluídos aqueles sindrômicos, malformados ou com retenção hídrica. As proporções e médias foram comparadas a partir dos testes qui-quadrado de Pearson e t de student para amostras emparelhadas, respectivamente. Já o teste de McNemar foi utilizado para comparar as variáveis categóricas e teste Kappa para verificar o grau de concordância entre as classificações de peso ao nascer obtidos pelas curvas.

Resultados:

foram incluídos 153 lactentes com idade gestacional mediana de 34,4 semanas. As incidências das categorias de estado nutricional ao nascer não diferiram entre as curvas. Houve concordância perfeita entre as mesmas, exceto quando se avaliou os nascidos com menos de 33 semanas, onde a concordância foi substancial. Cerca de 21% dos bebês classificados como pequenos para a idade gestacional (PIG) por Intergrowth-21st foram adequados para idade gestacional (AIG) segundo Fenton e, em média, 20% dos casos que tiveram restrição de crescimento pós-natal (RCPN) de acordo aos padrões de Fenton foram categorizados com peso adequado por Intergrowth-21^st. As classificações de peso pós-natal obtidas pelas curvas avaliadas tiveram concordância perfeita.

Conclusões:

as diferenças de classificação encontradas revelam a importância da escolha da curva de crescimento para monitorização de prematuros visto que, condutas baseadas em seus diagnósticos, podem impactar na vida dessa população.

Palavras-chave
Gráficos de crescimento; Recém-nascido prematuro; Estado nutricional

Introduction

Growth is an excellent indicator of a child’s health, as it reflects a process resulting from intrinsic and extrinsic factors, including genetic, environmental, hormonal and nutritional factors.¹1 Cardoso-Demartini AA, Bagatin AC, Silva RPGVC, Boguszewski MCS. Crescimento de crianças nascidas prematuras. Arq Bras Endocrinol Metab. 2011 Nov; 55 (8): 534-40.,²2 Adair LS, Fall CH, Osmond C, Stein AD, Martorell R, Ramirez-Zea M, et al. Associations of linear growth and relative weight gain during early life with adult health and human capital in countries of low and middle income: findings from five birth cohort studies. Lancet. 2013 Aug; 382 (9891): 525-34. Birth-related characteristics such as weight or gestational age (GA) at birth, and especially small size for GA at birth, act directly on the individual’s growth and development.¹1 Cardoso-Demartini AA, Bagatin AC, Silva RPGVC, Boguszewski MCS. Crescimento de crianças nascidas prematuras. Arq Bras Endocrinol Metab. 2011 Nov; 55 (8): 534-40.

Several conditions place premature newborns (NB) at nutritional risk, among them the interruption of growth during the faster phase, low nutrient reserves at birth, and physiological immaturity and immaturity of the immune system.³3 Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5.,⁴4 Harding JE, Cormack BE, Alexander T, Alsweiler JM, Bloomfield FH. Advances in nutrition of the newborn infant. Lancet. 2017 Apr; 389 (10079): 1660-8. Thus, close monitoring of the growth of this population is necessaryin order to carry out early interventions aimed at stimulating optimal growth and reducing deficits associated with adverse long-term outcomes.⁵5 Ehrenkranz RA. Nutrition, growth and clinical outcomes. World Rev Nutr Diet. 2014; 110: 11-26.

One of the tools used for child health screening and pediatric clinical monitoring are growth charts. There are two types of charts available, namely, the reference and standard charts.⁶6 Schlaudecker EP, Munoz FM, Bardají A, Boghossian NS, Khalil A, Mousa H, et al. Small for gestational age: case definition & guidelines for data collection, analysis, and presentation of maternal immunisation safety data. Vaccine. 2017 Dec; 35 (48 Pt A): 6518-28.

In general, reference curves describe how a given population grows without considering the environmental, nutritional, socioeconomic and health conditions of this sample, not characterizing a normality pattern to be followed.⁷7 Rao SC, Tompkins J; World Health Organization (WHO). Growth curves for preterm infants. Early Hum Dev. 2007 Oct; 83 (10): 643-51. They include the birth weight curves by GA, such as Fenton⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. and Intergrowth-21st³3 Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5. charts for the assessment of very premature NB.⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59.,¹⁰10 Villar J, Knight HE, Onis M, Bertino E, Gilli G, Papageorghiou AT, et al. Conceptual issues related to the construction of prescriptive standards for the evaluation of postnatal growth of preterm infants. Arch Dis Child. 2010 Dec; 95 (12): 1034-8. Standard curves, on the other hand, are prescriptive, representing the monitoring of healthy prospective longitudinal growth and are intended to indicate how children should be born and growwhen submitted to optimal conditions of nutrition and health care.¹⁰10 Villar J, Knight HE, Onis M, Bertino E, Gilli G, Papageorghiou AT, et al. Conceptual issues related to the construction of prescriptive standards for the evaluation of postnatal growth of preterm infants. Arch Dis Child. 2010 Dec; 95 (12): 1034-8.,¹¹11 Giuliani F, Ismail LC, Bertino E, Bhutta ZA, Ohuma EO, Rovelli I, et al. Monitoring postnatal growth of preterm infants: present and future. Am J Clin Nutr. 2016 Feb; 103 (2): 635S-47S. As an example, there are the standard birth weight charts and postnatal growth resulting from the Intergrowth-21^st project.⁹9 Villar J, Ismail LC, Victora CG, Ohuma EO, Bertino E, Altman DG, et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the newborn cross-sectional study of the INTERGROWTH-21st project. Lancet. 2014 Sep; 384 (9946): 857-68.,¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91.

The standard curves of the Intergrowth-21st⁹9 Villar J, Ismail LC, Victora CG, Ohuma EO, Bertino E, Altman DG, et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the newborn cross-sectional study of the INTERGROWTH-21st project. Lancet. 2014 Sep; 384 (9946): 857-68.,¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91. project were produced through a prospective longitudinal study of a cohort of precisely dated, uncomplicated pregnancies which took place in ideal environmental and nutritional conditions, with prenatal care started early and fetuses properly developed.The study included the population of eight developed and underdeveloped countries, including Brazil, in order to create a pattern of international growth. They allow the assessment of intrauterine growth from 33 gestational weeks and postnatal growth from 27 gestational weeks.⁹9 Villar J, Ismail LC, Victora CG, Ohuma EO, Bertino E, Altman DG, et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the newborn cross-sectional study of the INTERGROWTH-21st project. Lancet. 2014 Sep; 384 (9946): 857-68.,¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91. However, this last study had an insignificant number of newborns born at less than 33 gestational weeks.¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91.

Due to the fact that very premature births result from pregnancies with some risk factor for intrauterine growth restriction (IUGR), which makes it impracticable to make prescriptive standard graphs for this population, the Intergrowth-21st³3 Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5. project built reference curves for monitoring preterm infants born before 33 weeks of gestation. In this case, the original sample was complemented with newborns followed in the same study, however born to mothers with some risk factors for IUGR, except smoking and severe obesity.³3 Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5.

Fenton’s curves⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. reflect intrauterine growth and were prepared based on a systematic review and meta-analysis of data from six large population studies carried out in developed countries, namely, Germany, the United States, Italy, Australia, Scotland and Canada. They allow the monitoring of premature growth from 22 weeks of gestation; however, these values are more robust after 24 weeks.⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59.

Even though the Brazilian Ministry of Health and the Brazilian Society of Pediatrics recommend the use of curves from the Intergrowth-21^st study to monitor the growth of preterm infants, Fenton charts are still widely used in Brazilian hospitals.

Considering that the two curves are used in the follow-up of Brazilian preterm infants and taking into account the scarcity of comparative studies on their use for this population, it is essential to know the differences and/or similarities between the types of curves for a better understanding and analysis of their data. Because weight is the most sensitive parameter to nutritional problems, the present study aimed to compare intrauterine and postnatal weight increase of preterm infants according to the Intergrowth-21^st and Fenton curves.

Methods

This is a retrospective observational study carried out at the Assis Chateaubriand Maternity School, a tertiary-level institution that is a reference for high-risk pregnancy in the city of Fortaleza, Ceará. Data collection was carried out between March and July 2019 and the study population consisted of premature NB born in the maternity and admitted to a neonatal unit of the institution during 2018.

Newborns with GA at birth equal to or greater than 27 weeks and less than 37 weeks and who had theirweight measuredat least twice after birth were included in the study. Newborns with malformations, chromosomal alterations or pathologies that caused water retention were excluded.

Information on the newborn such as sex, GA at birth, birth weight, weekly weight measurements, length of stay in neonatal unit, and maternal age were collected from a secondary data source provided by the institution’s Nutrition sector.

As this is a retrospective study, we chose to use the weight parameter as it is the first to reflect changes in nutritional status, as well as it is the only parameter routinely measured in the neonatal units of the maternity hospital.

A scale from the Filizolabrand, model BP15, was used to measure birth weight and a scale from the Balmak brand, model ELP 25BBA, was usedfor postnatal weight; both scales are produced in the national territory, in the state of São Paulo, and are submitted to periodicpreventive maintenance. The newborns were weighed naked, covered with a previously weighed cloth which wasdeducted from the total weight. The procedure was performed by professionals with a technical or higher nursing degrees or by physicians immediately after birth or daily at night.

Gestational age at birth was estimated by early prenatal ultrasound or, in the absence of this information, using the New Ballard method.

In order to characterize the sample, the newborns were classified according to gestational age at birth as proposed by the American Academy of Pediatrics (2017), the same categorization used in the maternity hospital: late preterm (34 weeks ≤ GA ≤ 36 weeks and 6 days), moderate preterm (32 weeks ≤ GA ≤33 weeks and 6 days), very preterm, (28 weeks ≤ GA ≤ 31 weeks and 6 days), extreme preterm (GA < 28 weeks).¹³13 Kilpatrick SJ, Papile LA, Macones GA. Guidelines for perinatal care. 8ª ed. Washington, DC: American Academy of Pediatrics (AAP)/American College of Obstetricians and Gynecologists (ACOG); 2017.

For classification of birth weight, the following criteria were used: extremely low weight (weight < 1000 g), very low weight (1000 g ≤ weight < 1500 g), low weight (1500 g ≤ weight < 2500 g), insufficient weight (2500 g ≤ weight < 3000 g), adequate weight (3000 g ≤ weight < 4000 g), and overweight (weight ≥ 4000 g).¹⁴14 Puffer RR, Serrano CV. Patterns of birthweights. Washington, DC: Pan American Health Organization (PAHO); 1987.,¹⁵15 WHO (World Health Organization). International statistical classification of diseases and related health problems (ICD-10). Geneva: WHO; 2010.

The adequacy of weight for gestational age at birth was assessed using the Fenton premature growth curve⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. and reference or standard birth weight charts for preterms from the Intergrowth-21^st project,³3 Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5.,⁹9 Villar J, Ismail LC, Victora CG, Ohuma EO, Bertino E, Altman DG, et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the newborn cross-sectional study of the INTERGROWTH-21st project. Lancet. 2014 Sep; 384 (9946): 857-68. depending on the NB’ GA. For categorization of intrauterine growth, NB with birth weight between the 10^th and 90^th percentiles were considered adequate for gestational age (AGA), those below the 10^th percentile were considered small for gestational age (SGA), and those above the 90^th percentile of these curves were considered large for gestational age (LGA).¹⁶16 Battaglia FC, Lubchenco LO. A practical classification of newborn infants by weight and gestational age. J Pediatr (Rio J). 1967 Aug; 71 (2): 159-63. Newborns were divided into three groups (total sample, born with less than 33 gestational weeks, and born at an age equal to or greater than 33 weeks of gestational age) for further analysis.

Postnatal growth was evaluated using the Fenton premature growth curve⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. and the Intergrowth-21^st preterm postnatal growth standard curve.¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91. The weight obtained in the last weekly anthropometric assessment prior to hospital discharge or when the NB completed 40 weeks of corrected gestational age was used to investigate the existence of postnatal growth restriction (PNGR). Those whose weightwas in a percentile ≤ 10^th for the expected growth were considered to present PNGR.

Percentiles were calculated electronically using tools available from the above-cited growth charts (http://www.ucalgary.ca/fenton https://intergrowth21.tghn.org)

Data normality was assessed using the Kolmogorov-Smirnov test. To compare the proportions and means between the methods of assessment of nutritional status, the Pearson’s chi-square test and Student’s t test were performed for paired samples, respectively. Categorical variables were compared using the McNemar test, as the groups were dependent. Data were presented as frequency and percentage or means and standard deviations. A p value less than 0.05 was considered statistically significant. The Kappa coefficient was calculated to verify the degree of agreement between birth weight classifications according to the different curves. Kappa values were interpreted to indicate: insignificant (Kappa = 0 to 0.20), intermediate (0.21 to 0.40), moderate (0.41 to 0.60), substantial (0. 61 to 0.80), and perfect (0.81 to 1.00) agreement.¹⁸18 Landis JR, Koch GG. A medição da concordância do observador para dados categóricos. Biometria. 1977 Mar; 33 (1): 159-74. The analyses were performed using the SPSS softwareversion 22.

This study was approved by the Research Ethics Committee of the Assis Chateaubriand Maternity School /MEAC/UFC, on July 31, 2020, and followed the Resolution number 466/12 of the National Health Council, being approved under Opinion 3.484.483 and CAEE 17811419.1.0000.5050.

Results

The study population consisted of 213 preterm infants, of which 60 were excluded due to genetic syndrome (8.3%), fetal malformation (11.7%), GA at birth lower than 27 weeks (10%), presence of edema (3.3%), microcephaly (5%), or because theirweight was measured only at birth (61.7%). The sample consisted of 153 NB, 77 (50.3%) male and 76 (49.7%) female.

The median maternal age was 26 years, with a minimum of 14 years and a maximum of 46 years (n=153). Most mothers (70%) were aged between 18 and 35 years, 13% were under 18 years and 17% were 35 years old or older.

At birth, the NB had a mean weight of 2148g (±623g) and a median GA of 34.4 weeks, with 31.1 and 34.7 weeks being the median GA of those younger and older than 33 weeks, respectively. Most preterm infants were classified as having low birth weight, late prematurity, and adequate weight for gestational age (AGA) in the different growth curves used in the study (Table 1). The mean length of stay was 29 days, with a minimum of 7 days and a maximum of 178 days.

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Table 1
Classification of newborns at birth. Fortaleza, 2018.

There was no significant difference (p < 0.05) in the distribution of birth weight/gestational age of NB according to the Fenton and Intergrowth-21^st curves. The Kappa test revealed perfect agreement (Kappa=0.870 and standard error=0.063; Kappa=0.921 and standard error=0.039) between the two growth curves for the total sample and for NB born with GA greater than or equal to 33 weeks, respectively, and substantial agreement (Kappa=0.622 and standard error=0.165) for NB born with GA lower than 33 weeks. A higher incidence of SGA and LGA newborns was observed when evaluated using the Intergrowth-21^st (Table 1).

After crossing the categories of birth weight by GA from the assessment of NB using the growth curves chosen in our research, 22 (14.4%), 111 (72.5%) and 12 (7.8%) NB were classified as SGA, AGA, and LGA, respectively, in both charts. However, 6 (21.4%) NB classified as SGA in the Intergrowth-21^st growth tables were classified as AGA according to Fenton’s chart (p < 0.03) (Table 2). The other changes in the classification of nutritional status perceived between the different charts, both for the total sample and for the smaller groups, were not significant.

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Table 2
Analysis of SGA and LGA proportions according to Fenton and Intergrowth-21^st. Fortaleza, 2018.

When comparing the percentiles from the follow-up of postnatal growth, significant differences (p < 0.05) were found between almost all gestational ages observed (91%), except for weeks 47 and 49. Fenton curves were below the percentiles verified in the analysis by the intergrowth-21^st for the same gestational age. The mean difference observed between the means of the percentiles was 9, with a minimum of 2 and a maximum of 22 (Figure 1).

Figure 1
Association between the means of percentiles verified in the Fenton and Intergrowth-21^st curves. Fortaleza, 2018.

The incidence of postnatal growth restriction (PNGR) was 46.4% and 37.3% as assessed by the Fenton and Intergrowth-21^st curves, respectively;however the values did not show any statistical difference (p = 0.11). The Kappa test revealed perfect agreement between postnatal weight classifications (k=0.814 and standard error=0.047). About 20% of the newborns considered to have PNGR according to Fenton standards were categorized as having adequate weight when evaluated by Intergrowth-21^st (p < 0.001) (Table 3).

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Table 3
PNGR incidence rates according to Fenton and Intergrowth-21^st. Fortaleza, 2018.

Discussion

The results of the present study did not show a significant difference in the incidence of SGA, AGA and LGA NB at birth assessed by the Fenton⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. and Intergrowth-21st³3 Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5.,⁹9 Villar J, Ismail LC, Victora CG, Ohuma EO, Bertino E, Altman DG, et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the newborn cross-sectional study of the INTERGROWTH-21st project. Lancet. 2014 Sep; 384 (9946): 857-68. reference growth charts. The agreement between the two curves was considered perfect.

In a study with 221 late preterm infants, Barreto et al.¹⁹19 Barreto CM, Pereira MAL, Rolim ACB, Abbas SA, Langhi JDM, Santos AMN. Incidência de recém-nascidos pequenos para a idade gestacional segundo curva de Fenton e Intergrowth-21st em uma maternidade de nível secundário. Rev Paul Pediatr. 2021; 39: e2019245. found significant differences when comparing the nutritional status at birth assessed with the same charts used in the present study. However, their research showed a greater diagnosis of SGA NB according to Fenton⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. chart and of LGA NB according toIntergrowth-21^st chart.⁹9 Villar J, Ismail LC, Victora CG, Ohuma EO, Bertino E, Altman DG, et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the newborn cross-sectional study of the INTERGROWTH-21st project. Lancet. 2014 Sep; 384 (9946): 857-68. This was also seen by Marques et al.²⁰20 Marques B, Martins R, Rodrigues T, Oliveira G, Abrantes M. Performance of Intergrowth 21st growth charts in the diagnosis of small and large for gestational age in term and preterm newborns. Acta Med Port. 2020 Jun; 33 (1): 1-7. in an assessment of 617 NB with a median GA of 35 weeks. Barreto et al.¹⁹19 Barreto CM, Pereira MAL, Rolim ACB, Abbas SA, Langhi JDM, Santos AMN. Incidência de recém-nascidos pequenos para a idade gestacional segundo curva de Fenton e Intergrowth-21st em uma maternidade de nível secundário. Rev Paul Pediatr. 2021; 39: e2019245. found substantial agreement between the curves in their study, however the authors considered only preterm infants classified as SGA.

However, in an evaluation of 248 preterm infants born with GA less than 32 weeks, Tuzun et al.²¹21 Tuzun F, Yucesoy E, Baysal B, Kumral A, Duman N, Ozkan H. Comparison of INTERGROWTH-21 and Fenton growth standards to assess size at birth and extrauterine growth in very preterm infants. J Matern Fetal Neonatal Med. 2018 Sep; 31 (17): 2252-7. noticed a significantly greater difference in SGA NB using the Intergrowth-21st³3 Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5. curve than using Fenton’s curve,⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. and the same was found by Marques et al.²⁰20 Marques B, Martins R, Rodrigues T, Oliveira G, Abrantes M. Performance of Intergrowth 21st growth charts in the diagnosis of small and large for gestational age in term and preterm newborns. Acta Med Port. 2020 Jun; 33 (1): 1-7. when analyzing 240 preterm infants born with GA of 24 to 33 weeks. Marques et al.²⁰20 Marques B, Martins R, Rodrigues T, Oliveira G, Abrantes M. Performance of Intergrowth 21st growth charts in the diagnosis of small and large for gestational age in term and preterm newborns. Acta Med Port. 2020 Jun; 33 (1): 1-7. believe that this finding may be related to the age of the sample, as in studies where most of the sample is composed of moderate or late preterm infants, the result is different.

In the present study, only 14.4% of the sample was represented by extremely premature or very premature NB. The participation of these NB in the total sample may be the reason why we found different result from those of the studies by Barreto et al.¹⁹19 Barreto CM, Pereira MAL, Rolim ACB, Abbas SA, Langhi JDM, Santos AMN. Incidência de recém-nascidos pequenos para a idade gestacional segundo curva de Fenton e Intergrowth-21st em uma maternidade de nível secundário. Rev Paul Pediatr. 2021; 39: e2019245. and Marques et al.,²⁰20 Marques B, Martins R, Rodrigues T, Oliveira G, Abrantes M. Performance of Intergrowth 21st growth charts in the diagnosis of small and large for gestational age in term and preterm newborns. Acta Med Port. 2020 Jun; 33 (1): 1-7. in the assessment of predominantly late preterm NB, where we found a greater number of SGA NB according to Intergrowth-21st.³3 Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5.,⁹9 Villar J, Ismail LC, Victora CG, Ohuma EO, Bertino E, Altman DG, et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the newborn cross-sectional study of the INTERGROWTH-21st project. Lancet. 2014 Sep; 384 (9946): 857-68.. When the Kappa test wasapplied only between the curves for monitoring NB born with less than 33 weeks, it revealed a lower agreement, although the weight to GA ratio at birth did not show significant differences.

Furthermore, six NB classified as SGA by Intergrowth-21st³3 Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5.,⁹9 Villar J, Ismail LC, Victora CG, Ohuma EO, Bertino E, Altman DG, et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the newborn cross-sectional study of the INTERGROWTH-21st project. Lancet. 2014 Sep; 384 (9946): 857-68. were considered to have AGA according to Fenton’s curve.⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. This may have occurred because the sample in the present study did not meet the same selection criteria of the Intergrowth-21^st research,³3 Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5.,⁹9 Villar J, Ismail LC, Victora CG, Ohuma EO, Bertino E, Altman DG, et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the newborn cross-sectional study of the INTERGROWTH-21st project. Lancet. 2014 Sep; 384 (9946): 857-68. which sought a population without risk for IUGR or, at the very least, with limited risk factors, in the case of NB under 33 weeks at birth. On the other hand, Fenton⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. only excluded babies already diagnosed with growth restriction in routine ultrasound evaluation.

In the follow-up of postnatal growth, significantly lower percentile values were found for NB when evaluated by the Fenton⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. charts than by Intergrowth-21^st charts.¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91. Regarding the PNGR rates, there was a trend towards reduction when analyzed according to Intergrowth-21^st,¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91. but without statistical difference. However, the result of this change in the classification was significant, in which 20% of the NB considered to have PNGR by Fenton⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. were above the 10^th percentile by Intergrowth-21^st.¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91. Similar data were observed by Tuzun et al.²¹21 Tuzun F, Yucesoy E, Baysal B, Kumral A, Duman N, Ozkan H. Comparison of INTERGROWTH-21 and Fenton growth standards to assess size at birth and extrauterine growth in very preterm infants. J Matern Fetal Neonatal Med. 2018 Sep; 31 (17): 2252-7. who evaluated the rates of PNGR during hospital discharge or the 36^th week of corrected GA and verified that 22% of NB with PNGR according to Fenton⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. did not present growth restriction when analyzed by the Intergrowth-21^st curve.¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91.

The fact that Fenton⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. used birth weight data demonstrates that the physiological water loss that occurs after birth was not taken into account for the construction of thechart.²²22 Pereira-da-Silva L, Virella D. Is intrauterine growth appropriate to monitor postnatal growth of preterm neonates? BMC Pediatr. 2014 Jan; 14: 14. However, the same did not occur in the construction of the Intergrowth-21^st curves,¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91. as weights were collected prospectively and longitudinally.

Another distinct point among the charts used in the research is related to the diet of the selected sample. The Intergrowth-21st¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91. project included in its sample only NB fed with the gold standard, human milk, while in the research by Fenton,⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. this was not an exclusion criterion adopted. However, Ziegler et al.²³23 Ziegler EE. Growth of breast-fed and formula-fed infants. Nestle Nutr Workshop Ser Pediatr Program. 2006; 58: 51-9. state that babies fed exclusively with breast milk gain less weight in the first year of life than those fed with artificial milk.

These questions may be related to the lowest percentiles observed according to Fenton⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. in comparison to Intergrowth-21st,¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91. since the nutritional diagnosis of NB varies according to the curve selected for evaluation and according to the adequacy criteria adopted. It is noted that the differences between the Fenton⁸8 Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59. and Intergrowth-21st¹²12 Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91. curves are due to the different methodologies used in the construction of these curves.

The choice of curve used for this follow-up will influence the nutritional care offered to these individuals, where NB with growth restriction will receive hypercaloric nutrition in order to compensate for this deviation.²⁴24 Samarani M, Restom G, Mardini J, Fares GA, Hallit S, Khalife MCF. Comparative study between Fenton and intergrowth 21 charts in a sample of Lebanese premature babies. BMC Pediatr. 2020 Feb; 20: 74. In this context, it is important to bear in mind that studies demonstrate the association between prematurity, accelerated weight gain in the first months of life and the occurrence of chronic diseases in adulthood.²⁵25 Nuyt AM, Lavoie JC, Mohamed I, Paquette K, Luu TM. Adult consequences of extremely preterm birth: cardiovascular and metabolic diseases risk factors, mechanisms, and prevention avenues. Clin Perinatol. 2017 Jun; 44 (2): 315-32.

Therefore, growth graphs are important tools that need to be selected with discretion, as information about the individual’s nutritional status will guide health professionals to define nutritional paths to be adopted and that will impact the health of the infants.

The time factor stands outamong the limitations of the current research, since only the year 2018 was considered and this meant that NB hospitalized for a minimum period of 7 days were accepted in the research, as their exclusion would compromise the size of the sample, as the sample was mainly composed of late preterm infants who are often hospitalized for shorter periods. Another limitation was the absence of maternal data, as the information used in thestudy was collected from an existing database.

The agreement between the curves was considered perfect, except when NB born with less than 33 gestational weeks were evaluated, in which case the agreement found was substantial. About 20% of the NB were classified as SGA by Intergrowth-21^st and with PNGR according to Fenton’s standards; however the weight classification changed to adequate when analyzed by Fenton and Intergrowth-21^st, respectively. Approximately 90% of the percentiles from the Fenton analyses were statistically lower than those from Intergrowth-21^st. These findings demonstrate the importance of choosing the growth chart to be used for the assessment of premature infants, as approaches based on its diagnoses can have an impact in the short and long term on the lives of this population.

However, studies are needed to assess whether NB classified as having growth restriction according to one of the curves are under an increased risk of presenting morbidities. The more we understand about the existing graphs, the more confident health professionals will be in their clinical practices and there will begreater assurance regarding the health of the infants.

References

¹
Cardoso-Demartini AA, Bagatin AC, Silva RPGVC, Boguszewski MCS. Crescimento de crianças nascidas prematuras. Arq Bras Endocrinol Metab. 2011 Nov; 55 (8): 534-40.
²
Adair LS, Fall CH, Osmond C, Stein AD, Martorell R, Ramirez-Zea M, et al. Associations of linear growth and relative weight gain during early life with adult health and human capital in countries of low and middle income: findings from five birth cohort studies. Lancet. 2013 Aug; 382 (9891): 525-34.
³
Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5.
⁴
Harding JE, Cormack BE, Alexander T, Alsweiler JM, Bloomfield FH. Advances in nutrition of the newborn infant. Lancet. 2017 Apr; 389 (10079): 1660-8.
⁵
Ehrenkranz RA. Nutrition, growth and clinical outcomes. World Rev Nutr Diet. 2014; 110: 11-26.
⁶
Schlaudecker EP, Munoz FM, Bardají A, Boghossian NS, Khalil A, Mousa H, et al. Small for gestational age: case definition & guidelines for data collection, analysis, and presentation of maternal immunisation safety data. Vaccine. 2017 Dec; 35 (48 Pt A): 6518-28.
⁷
Rao SC, Tompkins J; World Health Organization (WHO). Growth curves for preterm infants. Early Hum Dev. 2007 Oct; 83 (10): 643-51.
⁸
Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59.
⁹
Villar J, Ismail LC, Victora CG, Ohuma EO, Bertino E, Altman DG, et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the newborn cross-sectional study of the INTERGROWTH-21st project. Lancet. 2014 Sep; 384 (9946): 857-68.
¹⁰
Villar J, Knight HE, Onis M, Bertino E, Gilli G, Papageorghiou AT, et al. Conceptual issues related to the construction of prescriptive standards for the evaluation of postnatal growth of preterm infants. Arch Dis Child. 2010 Dec; 95 (12): 1034-8.
¹¹
Giuliani F, Ismail LC, Bertino E, Bhutta ZA, Ohuma EO, Rovelli I, et al. Monitoring postnatal growth of preterm infants: present and future. Am J Clin Nutr. 2016 Feb; 103 (2): 635S-47S.
¹²
Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91.
¹³
Kilpatrick SJ, Papile LA, Macones GA. Guidelines for perinatal care. 8ª ed. Washington, DC: American Academy of Pediatrics (AAP)/American College of Obstetricians and Gynecologists (ACOG); 2017.
¹⁴
Puffer RR, Serrano CV. Patterns of birthweights. Washington, DC: Pan American Health Organization (PAHO); 1987.
¹⁵
WHO (World Health Organization). International statistical classification of diseases and related health problems (ICD-10). Geneva: WHO; 2010.
¹⁶
Battaglia FC, Lubchenco LO. A practical classification of newborn infants by weight and gestational age. J Pediatr (Rio J). 1967 Aug; 71 (2): 159-63.
¹⁷
Ehrenkranz RA. Extrauterine growth restriction: is it preventable? J Pediatr (Rio J). 2014; 90 (1): 1-3.
¹⁸
Landis JR, Koch GG. A medição da concordância do observador para dados categóricos. Biometria. 1977 Mar; 33 (1): 159-74.
¹⁹
Barreto CM, Pereira MAL, Rolim ACB, Abbas SA, Langhi JDM, Santos AMN. Incidência de recém-nascidos pequenos para a idade gestacional segundo curva de Fenton e Intergrowth-21st em uma maternidade de nível secundário. Rev Paul Pediatr. 2021; 39: e2019245.
²⁰
Marques B, Martins R, Rodrigues T, Oliveira G, Abrantes M. Performance of Intergrowth 21st growth charts in the diagnosis of small and large for gestational age in term and preterm newborns. Acta Med Port. 2020 Jun; 33 (1): 1-7.
²¹
Tuzun F, Yucesoy E, Baysal B, Kumral A, Duman N, Ozkan H. Comparison of INTERGROWTH-21 and Fenton growth standards to assess size at birth and extrauterine growth in very preterm infants. J Matern Fetal Neonatal Med. 2018 Sep; 31 (17): 2252-7.
²²
Pereira-da-Silva L, Virella D. Is intrauterine growth appropriate to monitor postnatal growth of preterm neonates? BMC Pediatr. 2014 Jan; 14: 14.
²³
Ziegler EE. Growth of breast-fed and formula-fed infants. Nestle Nutr Workshop Ser Pediatr Program. 2006; 58: 51-9.
²⁴
Samarani M, Restom G, Mardini J, Fares GA, Hallit S, Khalife MCF. Comparative study between Fenton and intergrowth 21 charts in a sample of Lebanese premature babies. BMC Pediatr. 2020 Feb; 20: 74.
²⁵
Nuyt AM, Lavoie JC, Mohamed I, Paquette K, Luu TM. Adult consequences of extremely preterm birth: cardiovascular and metabolic diseases risk factors, mechanisms, and prevention avenues. Clin Perinatol. 2017 Jun; 44 (2): 315-32.

Publication Dates

Publication in this collection
09 May 2022
Date of issue
Jan-Mar 2022

History

Received
21 Jan 2021
Reviewed
05 Nov 2021
Accepted
30 Nov 2021

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ¹
Cardoso-Demartini AA, Bagatin AC, Silva RPGVC, Boguszewski MCS. Crescimento de crianças nascidas prematuras. Arq Bras Endocrinol Metab. 2011 Nov; 55 (8): 534-40.

[2] ²
Adair LS, Fall CH, Osmond C, Stein AD, Martorell R, Ramirez-Zea M, et al. Associations of linear growth and relative weight gain during early life with adult health and human capital in countries of low and middle income: findings from five birth cohort studies. Lancet. 2013 Aug; 382 (9891): 525-34.

[3] ³
Villar J, Giuliani F, Fenton TR, Ismail LC, Kennedy SH; for the Intergrowth-21st Consortium. Intergrowth-21st very preterm size at birth reference charts. Lancet. 2016 Feb; 387 (10021): 844-5.

[4] ⁴
Harding JE, Cormack BE, Alexander T, Alsweiler JM, Bloomfield FH. Advances in nutrition of the newborn infant. Lancet. 2017 Apr; 389 (10079): 1660-8.

[5] ⁵
Ehrenkranz RA. Nutrition, growth and clinical outcomes. World Rev Nutr Diet. 2014; 110: 11-26.

[6] ⁶
Schlaudecker EP, Munoz FM, Bardají A, Boghossian NS, Khalil A, Mousa H, et al. Small for gestational age: case definition & guidelines for data collection, analysis, and presentation of maternal immunisation safety data. Vaccine. 2017 Dec; 35 (48 Pt A): 6518-28.

[7] ⁷
Rao SC, Tompkins J; World Health Organization (WHO). Growth curves for preterm infants. Early Hum Dev. 2007 Oct; 83 (10): 643-51.

[8] ⁸
Fenton TR, Kim JH. A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants. BMC Pediatr. 2013 Apr; 13: 59.

[9] ⁹
Villar J, Ismail LC, Victora CG, Ohuma EO, Bertino E, Altman DG, et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the newborn cross-sectional study of the INTERGROWTH-21st project. Lancet. 2014 Sep; 384 (9946): 857-68.

[10] ¹⁰
Villar J, Knight HE, Onis M, Bertino E, Gilli G, Papageorghiou AT, et al. Conceptual issues related to the construction of prescriptive standards for the evaluation of postnatal growth of preterm infants. Arch Dis Child. 2010 Dec; 95 (12): 1034-8.

[11] ¹¹
Giuliani F, Ismail LC, Bertino E, Bhutta ZA, Ohuma EO, Rovelli I, et al. Monitoring postnatal growth of preterm infants: present and future. Am J Clin Nutr. 2016 Feb; 103 (2): 635S-47S.

[12] ¹²
Villar J, Giuliani F, Bhutta ZA, Bertino E, Ohuma EO, Ismail LC, et al. Postnatal growth standards for preterm infants: the preterm postnatal follow-up study of the INTERGROWTH-21st project. Lancet. 2015 Nov; 3 (11): e681-91.

[13] ¹³
Kilpatrick SJ, Papile LA, Macones GA. Guidelines for perinatal care. 8ª ed. Washington, DC: American Academy of Pediatrics (AAP)/American College of Obstetricians and Gynecologists (ACOG); 2017.

[14] ¹⁴
Puffer RR, Serrano CV. Patterns of birthweights. Washington, DC: Pan American Health Organization (PAHO); 1987.

[15] ¹⁵
WHO (World Health Organization). International statistical classification of diseases and related health problems (ICD-10). Geneva: WHO; 2010.

[16] ¹⁶
Battaglia FC, Lubchenco LO. A practical classification of newborn infants by weight and gestational age. J Pediatr (Rio J). 1967 Aug; 71 (2): 159-63.

[17] ¹⁷
Ehrenkranz RA. Extrauterine growth restriction: is it preventable? J Pediatr (Rio J). 2014; 90 (1): 1-3.

[18] ¹⁸
Landis JR, Koch GG. A medição da concordância do observador para dados categóricos. Biometria. 1977 Mar; 33 (1): 159-74.

[19] ¹⁹
Barreto CM, Pereira MAL, Rolim ACB, Abbas SA, Langhi JDM, Santos AMN. Incidência de recém-nascidos pequenos para a idade gestacional segundo curva de Fenton e Intergrowth-21st em uma maternidade de nível secundário. Rev Paul Pediatr. 2021; 39: e2019245.

[20] ²⁰
Marques B, Martins R, Rodrigues T, Oliveira G, Abrantes M. Performance of Intergrowth 21st growth charts in the diagnosis of small and large for gestational age in term and preterm newborns. Acta Med Port. 2020 Jun; 33 (1): 1-7.

[21] ²¹
Tuzun F, Yucesoy E, Baysal B, Kumral A, Duman N, Ozkan H. Comparison of INTERGROWTH-21 and Fenton growth standards to assess size at birth and extrauterine growth in very preterm infants. J Matern Fetal Neonatal Med. 2018 Sep; 31 (17): 2252-7.

[22] ²²
Pereira-da-Silva L, Virella D. Is intrauterine growth appropriate to monitor postnatal growth of preterm neonates? BMC Pediatr. 2014 Jan; 14: 14.

[23] ²³
Ziegler EE. Growth of breast-fed and formula-fed infants. Nestle Nutr Workshop Ser Pediatr Program. 2006; 58: 51-9.

[24] ²⁴
Samarani M, Restom G, Mardini J, Fares GA, Hallit S, Khalife MCF. Comparative study between Fenton and intergrowth 21 charts in a sample of Lebanese premature babies. BMC Pediatr. 2020 Feb; 20: 74.

[25] ²⁵
Nuyt AM, Lavoie JC, Mohamed I, Paquette K, Luu TM. Adult consequences of extremely preterm birth: cardiovascular and metabolic diseases risk factors, mechanisms, and prevention avenues. Clin Perinatol. 2017 Jun; 44 (2): 315-32.

		%	p^ * p = McNemar Test.*
Total sample	SGA (IG21) to AGA (F2013)	21.4	0.031
Total sample	SGA (IG21) to AGA (F2013)	14.3	0.500
Sample	LGA (IG21) to AGA (F2013)	12.5	0.250
GA ≥ 33 weeks	SGA (IG21) to AGA (F2013)	10.0	>0.999
Sample	LGA (IG21) to AGA (F2013)	75.0	0.250
GA < 33 weeks	SGA (IG21) to AGA (F2013)	25.0	>0.999

		Fenton
		PNGR, % (n)	> 10^th percentile, % (n)
Intergrowth-21^st	PNGR, % (n)	80.3 (57)	0.0 (0)
Intergrowth-21^st	> 10^th percentile, % (n)	19.7 (14)	100.0 (82)
Total, % (n)		100.0 (71)	100.0 (82)

Brasil

Brasil

Comparison of intergrowth-21^st and Fenton curves for evaluation of premature newborns

Abstract

Objectives:

Methods:

Results:

Conclusions:

Resumo

Objetivos:

Métodos:

Resultados:

Conclusões:

Introduction

Methods

Results

Discussion

References

Publication Dates

History

Classification	N	%	p^ * p = Pearson’s chi-square test;*	Kappa^* ** Kappa coefficient = 0.61 to 0.80: substantial; 0.81-1.00: perfect.*
Birth weight			-	-
Extreme low weight	4	2.6
Very low weight	16	10.5
Low weight	93	60.8
Insufficient weight	31	20.3
Adequate weight	8	5.2
Overweight	1	0.7

Gestational age at birth			-	-
Extreme preterm	3	2.0
Very preterm	19	12.4
Moderate preterm	34	22.2
Late preterm	97	63.4

Weight for Gestational Age at Birth
Total Sample (N=153)			-	0.870
SGA			0.36	-
Fenton	22	14.4
Intergrowth-21^st	28	18.3
AGA			0.29	-
Fenton	119	77.8
Intergrowth-21^st	111	72.55
LGA			0.67	-
Fenton	12	7.8
Intergrowth-21^st	14	9.15
Sample GA ≥ 33 weeks (N=119)			-	0.921
SGA			0.61	-
Fenton	21	17.6
Intergrowth-21^st	24	20.2
AGA			0.56	-
Fenton	89	74.8
Intergrowth-21^st	85	71.4
LGA			0.82	-
Fenton	9	7.6
Intergrowth-21^st	10	8.4
Sample GA<33 weeks (N=34)			-	0.622
SGA			0.16	-
Fenton	1	2.9
Intergrowth-21^st	4	11.8
AGA			0.21	-
Fenton	30	88.2
Intergrowth-21^st	26	76.5
LGA			0.69	-
Fenton	3	8.8
Intergrowth-21^st	4	11.8

Brasil

Brasil

Comparison of intergrowth-21st and Fenton curves for evaluation of premature newborns

Abstract

Objectives:

Methods:

Results:

Conclusions:

Resumo

Objetivos:

Métodos:

Resultados:

Conclusões:

Introduction

Methods

Results

Discussion

References

Publication Dates

History

Comparison of intergrowth-21^st and Fenton curves for evaluation of premature newborns