Neurodevelopment of Very Low Birth Weight Infants in the First Two Years of Life in a Havana Tertiary Care Hospital

Gianny Cejas Yahima Gómez María del Carmen Roca Fernando Domínguez FAAP About the authors

Abstract

INTRODUCTION

Improved survival rates of neonates with very low birth weight (<1500 g) have led to a higher incidence of neurodevelopmental sequelae.

OBJECTIVE

Examine neurodevelopment outcomes over the first two years of life of infants who weighed <1500 g at birth, in relation to birth weight, gestational age and 1-minute and 5-minute Apgar scores, in a Havana tertiary care hospital.

METHODS

A case-series study was conducted to assess neurodevelopment outcomes of very low birth weight infants over their first two years of life. The study population comprised 116 surviving neonates with very low birth weight (<1500 g), born in the Dr Ramón González Coro University Maternity Hospital in Havana, Cuba, 2006–2010. A longitudinal, multidisciplinary and interdisciplinary follow up of all infants’ neurodevelopment was performed, from hospital discharge to age two years, corrected for gestational age at birth. Data on each infant’s perinatal variables were collected: birth weight in grams, gestational age at birth, and 1-minute and 5-minute Apgar scores. Patients were classified as having normal neurodevelopment, mild abnormalities and moderate-to-severe abnormalities. Pearson’s chi-square test was used to determine possible relationships between perinatal variables studied and neurodevelopment, with exact sampling distribution and 95% confidence level.

RESULTS

Normal neurodevelopment was observed in 69% of very low birth weight infants, 25.9% had mild abnormalities, and 5.2% displayed moderate-to-severe abnormalities. The results demonstrate a statistically significant relationship between gestational age and neurodevelopmental outcomes; more neurodevelopmental abnormalities were found in infants born at earlier gestational age (<30 weeks).

CONCLUSIONS

Surviving very low birth weight neonates with lower gestational age at birth face a higher risk of neurodevelopmental abnormalities.

Very low birth weight newborn; neurodevelopment; sequelae; Apgar score; Cuba


INTRODUCTION

Of the 130 million children born annually worldwide, an estimated 0.78 million to 3.9 million are preterm neonates weighing <1500 g and are thus considered very low birth weight (VLBW) infants.[11. Martin JA, Kung HC, Mathews TJ, Hoyert DL, Strobino DM, Guyer B, et al. Annual summary of vital statistics: 2006. Pediatrics. 2008 Apr;121(4):788–801.] Incidence of VLBW infants in developed countries is 0.6%–3%.[11. Martin JA, Kung HC, Mathews TJ, Hoyert DL, Strobino DM, Guyer B, et al. Annual summary of vital statistics: 2006. Pediatrics. 2008 Apr;121(4):788–801. 2. Galván BE, Villa GM, Villanueva GD, Murguíade Sierra T; Neosano’s Group. Very low birth weight (VLBW): Risk factors for incidence and mortality at eight different hospitals in Mexico. A regional experience. Ped Acad Societies’ Meeting. 2005;57:308.33. Rodríguez BL, Udaeta ME, Cardiel ML. Sobrevida en recién nacidos de muy bajo peso al nacer (menores de 1500 g) con relación a la ventilación mecánica convencional. Bol Med Hosp Infant Mex. 1992;49:26–31. Spanish.]

Unprecedented international advances in technology and pharmacology have transformed neonatal intensive care, particularly in recent decades, leading to increases in VLBW infants survival at levels that seem harder and harder to exceed. Survival rate for very low birth weight infants in developed countries ranges between 80% and 85%,[44. Shim JW, Kim MJ, Kim EK, Park HK, Song ES, Lee SM, et al. The impact of neonatal care resources on regional variation in neonatal mortality among very low birthweight infants in Korea. Paediatr Perinat Epidemiol. 2013 Mar;27(2):216–25.] which coincides with Cuba’s VLBW neonatal survival rate in 1989–2004.[55. Gessesse M. Incidencia, supervivencia y neurodesarrollo del recién nacido muy bajo peso [thesis]. [Havana]: Dr Ramón González Coro Hospital (CU); 2006. Spanish.] Morbidity and sequelae over time, however, mainly related to neurodevelopment, remain a challenge for clinical neonatology.[66. Wilson Costello D, Friedman H, Minich N, Fanaroff AA, Hack M. Improved survival with increased neurodevelopmental disabilities for ELBW infants 1990s. Pediatrics. 2005 Apr;115(4):997–1003.,6,77. Rogido M. El desafío de mejorar la evolución del recién nacido de muy bajo peso mediante la nutrición enteral. Algunas respuestas a tantas preguntas. In: Sola A, editor. Cuidados Neonatales. Buenos Aires: Edimed-Ediciones Médicas; 2011. p. 421–50. Spanish.] It is increasingly important to study VLBW infants and provide longitudinal followup after hospital discharge, to ensure early diagnosis of neurodevelopment abnormalities, enabling timely intervention for better quality of life.[88. Porto AS, González MV, Santurio MA, Domínguez F. Recién nacido de alto riesgo. In: Pediatría. Tomo 1. Havana: ECIMED; 2006. p. 34, 348. Spanish.,99. Murguía-de Sierra T, Vázquez-Solano E. El recién nacido de muy bajo peso. Bol Med Hosp Infant Mex. 2006;63(1):4–7. Spanish.]

Since all surviving VLBW infants will grow up in their social environment, these children’s performance should be examined in their family and social settings. Various factors (such as prematurity, very low birth weight, maternal morbidity, and neonatal morbidity with associated intensive care) can adversely influence their neurodevelopment; hence the importance of studying longterm neurologic prognosis.[55. Gessesse M. Incidencia, supervivencia y neurodesarrollo del recién nacido muy bajo peso [thesis]. [Havana]: Dr Ramón González Coro Hospital (CU); 2006. Spanish.] In addition to IQ and severe disorders (cerebral palsy, epilepsy, severe neurosensory impairments), incidence of more minor abnormalities, such as attention deficit and mild behavioral disorders, should also be assessed.[99. Murguía-de Sierra T, Vázquez-Solano E. El recién nacido de muy bajo peso. Bol Med Hosp Infant Mex. 2006;63(1):4–7. Spanish.]

Havana’s Dr Ramón González Coro University Maternity Hospital (HMURGC) is a reference center for care of VLBW infants in Cuba’s capital. Traditionally, pregnant women at high risk for giving birth to infants weighing <1500 g have sought treatment there because, in addition to personnel specialized in perinatology, HMURGC also has the necessary resources to provide comprehensive care. These factors explain why, in the five-year period 2006–2010, proportion of VLBW births at HMURGC (1%)[1010. Dr Ramón González Coro Hospital Statistics Records. Havana: Dr Ramón González Coro Hospital Medical Records and Statistics Department (CU); 2011. Spanish.] was higher than in the rest of the country (0.6%).[1111. National Health Statistics and Medical Records Division (CU). Anuarios Estadísticos de Salud, publicación seriada de 1995–2012 [Internet]. Havana: Ministry of Public Health (CU); 2012 [cited 2012 May]. Available from: www.sld.cu/sitios/dne/.Spanish.
www.sld.cu/sitios/dne/...
]

During recent decades we have focused on providing care for these children and meeting the challenge of their survival and quality of life. This study was undertaken to review neurodevelopment outcomes over the first two years of life of a group of VLBW infants born at HMURGC in 2006–2010, and to correlate abnormalities detected with the children’s weight, gestational age, and Apgar scores (both 1-minute and 5-minute) at birth.

METHODS

Type of study and patients

A case-series study was conducted to assess neurodevelopment of VLBW infants in Havana’s HMURGC during 2006–2010. Over the study period, 132 VLBW infants were born, of whom 87.9% (116) survived to age two years, conforming the study population. The surviving infants’ neurodevelopment was monitored, concluding with a final examination at corrected age of 2 years, defined as the age the child would be if he/she had been born full term (40 weeks of gestational age). This is the method commonly used to monitor this type of patient up to 24 months.[88. Porto AS, González MV, Santurio MA, Domínguez F. Recién nacido de alto riesgo. In: Pediatría. Tomo 1. Havana: ECIMED; 2006. p. 34, 348. Spanish.]

Variables

Birth weight

Each infant’s birth weight (in the first hour of life) was recorded using a scale (Atom, Japan) with weighing error of 5 g; absolute values were used and the subjects were grouped in three categories: <1000 g, 1000–1249 g, and 1250–1499 g.

Gestational age at birth

Gestational age at birth (in weeks) was recorded, starting from the first day of the mother’s last menstrual cycle. Two groups were formed: <30 weeks and >30 weeks.

Apgar score at one minute

The Apgar score at one minute after birth was recorded and data separated into two groups: <7 points and >7 points.

Apgar score at five minutes

The Apgar score at five minutes after birth was recorded and data separated into two groups: <7 points and >7 points.

Independent variable: neurodevelopment

At age two years corrected, patients were classified (neurologic examination described below) according to HMURGC neurodevelopment unit followup protocol.

Normal. No neurodevelopmental abnormality.

Mild abnormalities. Mild or transient muscular hypotonia, mild motor impairment with hypertonia, mild or transient reflex abnormalities, transient or mild psychomotor delay, discrete or transient hypertonia, mild mental delay, hyperactivity, mild language delay.

Moderate-to-severe abnormalities. Moderate-to-severe hypotonia without personal or social adjustment problems, moderate-to-severe psychomotor delay, moderate-to-severe mental delay, moderate-to-severe language delay, hyperkinetic syndrome, spastic cerebral palsy or chronic cerebral motor or sensory impairment, hydrocephaly, microcephaly, epilepsy, severe retinopathy of prematurity. A diagnosis of cerebral palsy was considered confirmed if characteristic clinical signs (such as motor impairment of cerebral origin) were present at the end of one year corrected age.

Neurologic examination

Each patient underwent a traditional neurologic assessment at 40±2 weeks of corrected age, as well as a polysomnography with an electroencephalograph (Medicid 5, Neuronic SA, Cuba) with electrodes placed according to the international system for a standard bipolar montage. [1212. Fernández T, González AA. EEG y cognición. In: Alcaráz Romero VM, Gumá Díaz E, editors. Texto de Neurociencias Cognitivas. México DF: Editorial El Manual Moderno; 2001. p. 351–70. Spanish.] Multidisciplinary neurodevelopmental monitoring of all subjects was conducted from hospital discharge to two years corrected age with at least six checkups. The HMURGC neurodevelopment unit protocol was applied, which includes clinical signs (the Amiel-Tison neurologic assessment[1313. Amiel-Tison C. Cerebral damage in full-term new-born. Aetiological factors, neonatal status and long-term follow-up. Biol Neonat. 1969;14(3):234–50.] in the first year and classic neurologic examination in the second year), psychological tests (Bayley scales of mental and motor development),[1414. Bayley N. Bayley Scales of Infant and Toddler Development. Socio-Emotional Scale. 3rd ed. San Antonio (US): Psych Corp; 2005.] morphological tests (imaging studies such as transfontanellar ultrasound series, ALOKA equipment, Japan), and cranial computed axial tomography (Phillips tomography, Netherlands) as needed, as well as various neurophysiological tests (brainstem auditory evoked potentials and visual evoked potentials) to examine electrocerebral activity and neurosensory functioning.

Data collection and analysis

A general data collection form for each subject was designed and completed with updated data on the variables studied. This information was then entered into a Microsoft Excel 2010 database. Descriptive measures such as absolute values, percentages and arithmetic means were used.

To identify possible relationships between perinatal variables and neurodevelopment, Pearson’s chi-square test of independence was applied, using the exact sampling distribution and a significance threshold of p <0.05. Variables were grouped by categories; that is, patients with normal neurodevelopment and patients with abnormalities (which included mild and moderate-to-severe). All data were processed using Microsoft Excel 2010 and Windows SPSS 11.5. The database used a Windows 7 platform.

Ethices

Written informed consent was obtained from each patient’s parents. Patient anonymity was maintained in data analysis. The HMURGC ethics committee approved the study.

RESULTS

One hundred sixteen (116) surviving patients were assessed, with zero attrition. Average gestational age at birth was 31.5 weeks, and average birth weight was 1295.1 g.

Of the 116 VLBW infants, 69% developed normally, 25.9% showed mild neurodevelopmental abnormalities, and 5.2% displayed moderate-to-severe neurodevelopmental abnormalities (Table 1). Of the 36 neonates with neurodevelopmental abnormalities (31% of total), 6 had moderate or severe abnormalities and 30 mild abnormalities; 18 children (15.5% of total) had mild or transient abnormalities of muscle tone and 16 (13.8%) showed mild delays in language or psychomotor development (Table 1).

Table 1
Neurodevelopment and abnormalities detected in the first two years of life of VLBW infants (n = 116)

There was a statistically significant relationship between gestational age at birth and neurodevelopment in the first two years of corrected age (p = 0.006). Of children born at <30 weeks’ gestation, 22.2% presented moderate-to-severe abnormalities vs. 2% of children born at ≥30 weeks (Table 2).

No statistically significant relationship was observed between any of the variables of birth weight (p = 0.448), 1-minute Apgar score (p = 0.42) and 5-minute Apgar score (p = 0.999) and neurodevelopment (Table 2).

DISCUSSION

The survival rate of VLBW infants (87.9%) was higher than that observed by Tsou in similar patients in Taiwan (76.2%)[1515. Tsou KI, Tsao PN; Taiwan Infant Development Collaborative Study Group. The morbidity and survival of very-low-birth-weight infants in Taiwan. Acta Paediatr Taiwan. 2003 Nov-Dec;44(6):349–55.] or Fernández-Carrocera in Mexico City (50%).[1616. Fernán dez-Carrocera LA, Guevara-Fuentes CA, Salinas-Ramírez V. Factores de riesgo asociados a mortalidad en neonatos menores de 1500 g utilizando la escala CRIB II. Bol Med Hosp Infant Mex. 2011 Sep–Oct;68(5):356–62. Spanish.] In contrast, Kono reported an even higher rate (almost 92%) in Japan, a highly developed country.[1717. Kono Y, Mishina J, Yonemoto N, Kusuda S, Fujimura M. Outcomes of very-low-birthweight infants at 3 years of age born in 2003–2004 in Japan. Pediatr Int. 2011 Dec;53(6):1051–8.]

In her 15-year comprehensive followup study (1989–2004) of 200 surviving neonates discharged from HMURGC, Gessesse found only 47.5% of VLBW children had completely normal neurodevelopment,[55. Gessesse M. Incidencia, supervivencia y neurodesarrollo del recién nacido muy bajo peso [thesis]. [Havana]: Dr Ramón González Coro Hospital (CU); 2006. Spanish.] compared with 69% in our study. A combination of factors may have contributed to this improvement: the maternal/fetal medical service set up in our center for providing enhanced perinatal care for at-risk pregnancies; the purchase of modern neonatal respiratory equipment for neonatal care, and ongoing professional development of the staff in charge of VLBW neonatal care. We found several studies with similar results in the international literature reviewed. In Germany, Moll reported 75% of VLBW neonates had normal neurological development[1818. Moll M, Schöning M, Gölz R, Döbler-Neumann M, Arand J, Krägeloh-Mann I, et al. [2-year follow-up examinations (Bayley II) in infants born at 32 weeks in a German perinatal center]. Klin Padiatr. 2011 Jul;223(4):251–4. German.] and, in Italy, Orcesi reported that 83.4% of his patients developed normally during the first 24 months of corrected age, a higher figure than that found in our study.[1919. Orcesi S, Olivieri I, Longo S, Perotti G, La Piana R, Tinelli C, et al. Neurodevelopmental outcome of preterm very low birth weight infants born from 2005 to 2007. Eur J Paediatr Neurol. 2012 Nov;16(6):716–23.]

Table 2
Neurodevelopment in the first two years of life of VLBW infants related to perinatal variables

The level of moderate-to-severe abnormalities reported by Gessesse was twice that of our study (11% vs. 5.2%), and incidence of mild abnormalities was substantially higher (41.5% vs. 25.9%).[55. Gessesse M. Incidencia, supervivencia y neurodesarrollo del recién nacido muy bajo peso [thesis]. [Havana]: Dr Ramón González Coro Hospital (CU); 2006. Spanish.] These differences may be explained by the institutional improvements already mentioned. On the other hand, Orcesi reported lower incidence of mild alterations (10.9%) compared with our study, but similar incidence (5.1%) of moderate-to-severe abnormalities.[1919. Orcesi S, Olivieri I, Longo S, Perotti G, La Piana R, Tinelli C, et al. Neurodevelopmental outcome of preterm very low birth weight infants born from 2005 to 2007. Eur J Paediatr Neurol. 2012 Nov;16(6):716–23.]

Our results differ from other studies with respect to the most common type of mild abnormalities found (mild or transient muscle tone abnormalities and slight delays in language and psychomotor development). For example, Gessesse reported hyperactivity to be the most common,[55. Gessesse M. Incidencia, supervivencia y neurodesarrollo del recién nacido muy bajo peso [thesis]. [Havana]: Dr Ramón González Coro Hospital (CU); 2006. Spanish.] and Sangtawesin (Thailand) reported psychomotor development disorders as the predominant mild abnormality.[2020. Sangtawesin V, Singarj Y, Kanjanapattanakul W. Growth and development of very low birth weight infants aged 18–24 months at Queen Sirikit National Institute of Child Health. J Med Assoc Thai. 2011 Aug;94 Suppl 3:S101–6.]

Comparing incidence of some moderate-to-severe abnormalities (cerebral palsy, retinopathy of prematurity, and deafness) with results reported by Gessesse,[55. Gessesse M. Incidencia, supervivencia y neurodesarrollo del recién nacido muy bajo peso [thesis]. [Havana]: Dr Ramón González Coro Hospital (CU); 2006. Spanish.] Moll,[1818. Moll M, Schöning M, Gölz R, Döbler-Neumann M, Arand J, Krägeloh-Mann I, et al. [2-year follow-up examinations (Bayley II) in infants born at 32 weeks in a German perinatal center]. Klin Padiatr. 2011 Jul;223(4):251–4. German.] Mukhopadhyay[2121. Mukhopadhyay K, Malhi P, Mahajan R, Narang A. Neurodevelopmental and behavioral outcome of very low birth weight babies at corrected age of 2 years. Indian J Pediatr. 2010 Sep;77(9):963–7.] and Ballot,[2222. Ballot DE, Potterton J, Chirwa T, Hilburn N, Cooper PA. Developmental outcome of very low birth weight infants in a developing country. BMC Pediatr. 2012 Feb 1;12:11.] we found very similar rates for infantile cerebral palsy, varying from 1% to 4% (2.6% in our study). Concerning neurosensory auditory impairment, Moll reports an incidence of <1%,[1818. Moll M, Schöning M, Gölz R, Döbler-Neumann M, Arand J, Krägeloh-Mann I, et al. [2-year follow-up examinations (Bayley II) in infants born at 32 weeks in a German perinatal center]. Klin Padiatr. 2011 Jul;223(4):251–4. German.] compared with 0.9% in our study. In contrast, Sangtawesin[2020. Sangtawesin V, Singarj Y, Kanjanapattanakul W. Growth and development of very low birth weight infants aged 18–24 months at Queen Sirikit National Institute of Child Health. J Med Assoc Thai. 2011 Aug;94 Suppl 3:S101–6.] reported 3.3% severe auditory impairment. With regard to retinopathy of prematurity, the 1.7% rate we observed was well below the 25.4% reported by Ali in Brunei[2323. Ali NA, George J, Joshi N, Chong E. Prevalence of retinopathy of prematurity in Brunei Darussalam. Int J Ophthalmol. 2013 Jun 18;6(3):381–4.] but similar to the 1.1% reported by Reyes in Mexico.[2424. Reyes A, Campuzano A, Pardo M. Prevalencia de retinopatía en el prematuro. Arch Inv Materno Inf. 2011;III(3):132–7. Spanish.]

The statistically significant relationship that we found between gestational age and neurodevelopment (the younger the gestational age at birth, the greater the probability of neurodevelopmental abnormalities) coincides with Serenius’s findings in Sweden;[2525. Serenius F, Källén K, Blennow M, Ewald U, Fellman V, Holmström G, et al. Neurodevelop-mental outcome in extremely preterm infants at 2.5 years after active perinatal care in Sweden. JAMA [Internet]. 2013 May 1 [cited 2013 Mar 18];309(17):1810–20. Available from: http://jama.jamanetwork.com/article.aspx?doi=10.1001/jama.2013.3786
http://jama.jamanetwork.com/article.aspx...
] he reported that patients born at >30 weeks’ gestational age had higher rates of normal neurodevelopment than those born at <30 weeks. Filipouski in Brazil and Zoban in the Czech Republic show similar results.[2626. Filipouski GR, Silveira RC, Procianoy RS. Influence of perinatal nutrition and gestational age on neurodevelopment of very low-birth-weight preterm infants. Am J Perinatol. 2013 Sep;30(8):673–80.,2727. Zoban P, Borek I, Cvejnová T, Dortová E, Fisárková B, Hálek J, et al. [Developmental impairment of children with very low and extremely low birth weight at 24 months corrected age, born in the Czech Republic in 2000–2009]. Ceska Gynekol. 2012 Dec;77(6):572–8. Czech.]

Our study did not find direct relationship between birth weight and normal neurodevelopment expected according to the international literature, including research by Stoinska, which found lower birth weight associated with higher incidence of abnormalities,[2828. Stoinska B, Gadzinowski J. Neurological and developmental disabilities in ELBW and VLBW: follow-up at 2 years of age. J Perinatol. 2011 Feb;31(2):137–42.] and Kwinta’s study, which associated birth weight of <1000 g with more severe neurodevelopmental disorders.[2929. Kwinta P, Klimek M, Grudzień A, Nitecka M, Profus K, Gasmska M, et al. [Intellectual and motor development of extremely low birth weight (<1000 g) children in the 7th year of life; a multicenter, cross-sectional study of children born in the Malopolskavoivodship between 2002 and 2004]. Med Wieku Rozwoj. 2012 Jul–Sep;16(3):222–31. Polish.] It is worth noting that the latter was a followup study up to age seven years, while ours was up to age two years.

This short time limited our research since patients must be followed over a longer period to confirm or rule out longterm neuro-developmental abnormalities—for example, those noticeable only after children start school.

Our results did not support the generally held view that sustained lower Apgar scores are associated with increased risk of neurodevelopmental abnormalities.[3030. Pedersen L, Grijota M, Nielsen GL, Rothman KJ, Sorensen HT. Association of Apgar score at five minutes with long-term neurologic disability and cognitive function in a prevalence study of Danish conscripts. BMC Pregnancy Childbirth. 2009 Apr 2;9:14.,3131. Moster D, Lie RT, Irgens LM, Bjerkedal T, Markestad T. The association of Apgar score with subsequent death and cerebral palsy: A population-based study in term infants. J Pediatr. 2001 Jun;138(6):798–803.] None of our patients with low Apgar scores at either one or five minutes showed more than mild neurodevelopmental abnormalities. In his study, Ehrenstein proposed that absolute risk of neurologic abnormalities in low-Apgar-score survivors is low and that low Apgar score alone is a poor clinical predictor of longterm neu-rodevelopment.[3232. Ehrenstein V. Association of Apgar scores with death and neurologic disability. Clin Epidemiol. 2009 Aug 9;1:45–53.]

Although other Cuban institutions have made isolated efforts to examine the magnitude of neurodevelopmental sequelae in VLBW infants, national statistics are still unavailable. Multicenter studies are urgently needed, given the rising incidence of VLBW (0.6%-1%) in national reference hospitals caring for such neonates,[1010. Dr Ramón González Coro Hospital Statistics Records. Havana: Dr Ramón González Coro Hospital Medical Records and Statistics Department (CU); 2011. Spanish.,3333. “Dr Eusebio Hernández” Maternity Hospital Statistics Records. Havana: “Dr Eusebio Hernández” Maternity Hospital Medical Records and Statistics Department; 2011 Spanish.,3434. “10 de Octubre” Maternity Hospital Statistics Records. Havana: “10 de Octubre” Maternity Hospital Medical Records and Statistics Department; 2011. Spanish.] and in recent international publications, which report incidence rates up to 1.26%.[3535. Tavosnanska J, Carreras IM, Fariña D, Luchtenberg G, Celadilla ML, Celotto M, et al. Mortality and morbidity of very low birth weight newborn infants assisted in Buenos Aires public hospitals. Arch Argent Pediatr. 2012 Oct;110(5):394–403. English, Spanish.,3636. Vazirinejad R, Masoodpour N, Puyanfar A. Survival rate of low and very low birth weight neonates in an Iranian community. Iran J Public Health. 2012;41(2):87–93.]

A further limitation of our study was the small number of patients, which could have influenced results. However, although the population was not very large, the strength of our study is that 100% of survivors underwent a thorough assessment, which is rare in the published literature. These results could provide a useful baseline for a similar but larger-scale longer study continuing through school age. It is critically important to understand VLBW infants’ neurodevelopment and to conduct early interventions to ensure better quality of life in this steadily-growing patient group.

CONCLUSION

Very low birth weight infants born at <30 weeks gestational age who survive face a higher risk for developing neurodevelopmental abnormalities.

REFERENCES

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    Martin JA, Kung HC, Mathews TJ, Hoyert DL, Strobino DM, Guyer B, et al. Annual summary of vital statistics: 2006. Pediatrics. 2008 Apr;121(4):788–801.
  • 2
    Galván BE, Villa GM, Villanueva GD, Murguíade Sierra T; Neosano’s Group. Very low birth weight (VLBW): Risk factors for incidence and mortality at eight different hospitals in Mexico. A regional experience. Ped Acad Societies’ Meeting. 2005;57:308.
  • 3
    Rodríguez BL, Udaeta ME, Cardiel ML. Sobrevida en recién nacidos de muy bajo peso al nacer (menores de 1500 g) con relación a la ventilación mecánica convencional. Bol Med Hosp Infant Mex. 1992;49:26–31. Spanish.
  • 4
    Shim JW, Kim MJ, Kim EK, Park HK, Song ES, Lee SM, et al. The impact of neonatal care resources on regional variation in neonatal mortality among very low birthweight infants in Korea. Paediatr Perinat Epidemiol. 2013 Mar;27(2):216–25.
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    Gessesse M. Incidencia, supervivencia y neurodesarrollo del recién nacido muy bajo peso [thesis]. [Havana]: Dr Ramón González Coro Hospital (CU); 2006. Spanish.
  • 6
    Wilson Costello D, Friedman H, Minich N, Fanaroff AA, Hack M. Improved survival with increased neurodevelopmental disabilities for ELBW infants 1990s. Pediatrics. 2005 Apr;115(4):997–1003.
  • 7
    Rogido M. El desafío de mejorar la evolución del recién nacido de muy bajo peso mediante la nutrición enteral. Algunas respuestas a tantas preguntas. In: Sola A, editor. Cuidados Neonatales. Buenos Aires: Edimed-Ediciones Médicas; 2011. p. 421–50. Spanish.
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    » www.sld.cu/sitios/dne/
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    Fernández T, González AA. EEG y cognición. In: Alcaráz Romero VM, Gumá Díaz E, editors. Texto de Neurociencias Cognitivas. México DF: Editorial El Manual Moderno; 2001. p. 351–70. Spanish.
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    Amiel-Tison C. Cerebral damage in full-term new-born. Aetiological factors, neonatal status and long-term follow-up. Biol Neonat. 1969;14(3):234–50.
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    Tsou KI, Tsao PN; Taiwan Infant Development Collaborative Study Group. The morbidity and survival of very-low-birth-weight infants in Taiwan. Acta Paediatr Taiwan. 2003 Nov-Dec;44(6):349–55.
  • 16
    Fernán dez-Carrocera LA, Guevara-Fuentes CA, Salinas-Ramírez V. Factores de riesgo asociados a mortalidad en neonatos menores de 1500 g utilizando la escala CRIB II. Bol Med Hosp Infant Mex. 2011 Sep–Oct;68(5):356–62. Spanish.
  • 17
    Kono Y, Mishina J, Yonemoto N, Kusuda S, Fujimura M. Outcomes of very-low-birthweight infants at 3 years of age born in 2003–2004 in Japan. Pediatr Int. 2011 Dec;53(6):1051–8.
  • 18
    Moll M, Schöning M, Gölz R, Döbler-Neumann M, Arand J, Krägeloh-Mann I, et al. [2-year follow-up examinations (Bayley II) in infants born at 32 weeks in a German perinatal center]. Klin Padiatr. 2011 Jul;223(4):251–4. German.
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    Orcesi S, Olivieri I, Longo S, Perotti G, La Piana R, Tinelli C, et al. Neurodevelopmental outcome of preterm very low birth weight infants born from 2005 to 2007. Eur J Paediatr Neurol. 2012 Nov;16(6):716–23.
  • 20
    Sangtawesin V, Singarj Y, Kanjanapattanakul W. Growth and development of very low birth weight infants aged 18–24 months at Queen Sirikit National Institute of Child Health. J Med Assoc Thai. 2011 Aug;94 Suppl 3:S101–6.
  • 21
    Mukhopadhyay K, Malhi P, Mahajan R, Narang A. Neurodevelopmental and behavioral outcome of very low birth weight babies at corrected age of 2 years. Indian J Pediatr. 2010 Sep;77(9):963–7.
  • 22
    Ballot DE, Potterton J, Chirwa T, Hilburn N, Cooper PA. Developmental outcome of very low birth weight infants in a developing country. BMC Pediatr. 2012 Feb 1;12:11.
  • 23
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  • Disclosures: None

Publication Dates

  • Publication in this collection
    Jan-Mar 2015

History

  • Received
    29 Apr 2013
  • Accepted
    15 Nov 2014
Medical Education Cooperation with Cuba Oakland - California - United States
E-mail: editors@medicc.org