Anthropometric Measurements of Singleton Live Full-Term Newborns in Comparison to Who Standard at University of Gondar Comprehensive Specialised Hospital, Ethiopia
This work is licensed under the Creative Commons Attribution 4.0 International License.
Waitz T. Introduction to anthropology, vol. 1: Anthropological Society; 1863.WaitzTIntroduction to anthropology, vol. 1: Anthropological Society1863Search in Google Scholar
Kron G. Anthropometry, physical anthropology, and the reconstruction of ancient health, nutrition, and living standards. Historia: Zeitschrift fur Alte Geschichte. 2005;68–83.KronGAnthropometry, physical anthropology, and the reconstruction of ancient health, nutrition, and living standardsHistoria: Zeitschrift fur Alte Geschichte.20056883Search in Google Scholar
Pankaj S, Kanchan K. Correlation of birth weight with other anthropometric parameters of newborns in Himachal Pradesh. Int J Cur Res Rev. 2017;9:49–54.PankajSKanchanKCorrelation of birth weight with other anthropometric parameters of newborns in Himachal PradeshInt J Cur Res Rev.201794954Search in Google Scholar
Deia K. Khalaf YKA-RaMS. The anthropometric measurements in full term neonates in Baghdad. International Journal of Current Research. 2018;10(7):29–32.DeiaKKhalafYKA-RaMSThe anthropometric measurements in full term neonates in BaghdadInternational Journal of Current Research.20181072932Search in Google Scholar
Das JC, Afroze A, Khanam ST, Paul N. Mid-arm circumference: An alternative measure for screening low birth weight babies. Bangladesh Med Res Counc Bull. 2005;31(1):1–6.DasJCAfrozeAKhanamSTPaulNMid-arm circumference: An alternative measure for screening low birth weight babiesBangladesh Med Res Counc Bull.200531116Search in Google Scholar
Paulsen CB, Nielsen BB, Msemo OA, Møller SL, Ekmann JR, Theander TG, Bygbjerg IC, Lusingu JPA, Minja DTR, Schmiegelow C. Anthropometric measurements can identify small for gestational age newborns: A cohort study in rural Tanzania. BMC Pediatr. 2019;19(1):120.PaulsenCBNielsenBBMsemoOAMøllerSLEkmannJRTheanderTGBygbjergICLusinguJPAMinjaDTRSchmiegelowCAnthropometric measurements can identify small for gestational age newborns: A cohort study in rural TanzaniaBMC Pediatr.2019191120Search in Google Scholar
Garza C. Fetal, neonatal, infant, and child international growth standards: An unprecedented opportunity for an integrated approach to assess growth and development. Advances in Nutrition. 2015;6(4):383–390.GarzaCFetal, neonatal, infant, and child international growth standards: An unprecedented opportunity for an integrated approach to assess growth and developmentAdvances in Nutrition.201564383390Search in Google Scholar
Garza C, de Onis M. Symposium: A new 21st-century international growth standard for infants and young children-introduction. In: AMER SOCIETY NUTRITIONAL SCIENCE 9650 ROCKVILLE PIKE, RM L-2407A, BETHESDA …; 2007;137142–143.GarzaCde OnisMSymposium: A new 21st-century international growth standard for infants and young children-introductionIn:AMER SOCIETY NUTRITIONAL SCIENCE 9650 ROCKVILLE PIKE, RM L-2407A, BETHESDA …2007137142143Search in Google Scholar
Neyzi O, Saka H. Anthropometric studies in Turkish children. Istanbul Med Fac J. 2002;65:221–228.NeyziOSakaHAnthropometric studies in Turkish childrenIstanbul Med Fac J.200265221228Search in Google Scholar
Fryar CD, Gu Q, Ogden CL. Anthropometric reference data for children and adults; United States, 2007–2010. 2012.FryarCDGuQOgdenCLAnthropometric reference data for children and adultsUnited States200720102012Search in Google Scholar
Gavriilidou N, Pihlsgård M, Elmståhl S. Anthropometric reference data for elderly Swedes and its disease-related pattern. European J of Clin Nutr. 2015;69(9):1066–1075.GavriilidouNPihlsgårdMElmståhlSAnthropometric reference data for elderly Swedes and its disease-related patternEuropean J of Clin Nutr.201569910661075Search in Google Scholar
Battaglia FC, Lubchenco LO. A practical classification of newborn infants by weight and gestational age. J Pediatr. 1967;71(2): 159–163.BattagliaFCLubchencoLOA practical classification of newborn infants by weight and gestational ageJ Pediatr.1967712159163Search in Google Scholar
World Health Organization. Neonatal and perinatal mortality: country, regional and global estimates. World Health Organization, 2006.World Health OrganizationNeonatal and perinatal mortality: country, regional and global estimatesWorld Health Organization2006Search in Google Scholar
Mayer C, Joseph K. Fetal growth: A review of terms, concepts and issues relevant to obstetrics. Ultrasound in Obstetrics & Gynecology. 2013;41(2):136–145.MayerCJosephKFetal growth: A review of terms, concepts and issues relevant to obstetricsUltrasound in Obstetrics & Gynecology.2013412136145Search in Google Scholar
Uthman OA. Effect of low birth weight on infant mortality: Analysis using Weibull hazard model. Int J of Epidemiol. 2008;6(1):8.UthmanOAEffect of low birth weight on infant mortality: Analysis using Weibull hazard modelInt J of Epidemiol.2008618Search in Google Scholar
Lucas AO, Stoll BJ, Bale JR. Improving birth outcomes: Meeting the challenge in the developing world. 2003.LucasAOStollBJBaleJRImproving birth outcomes: Meeting the challenge in the developing world2003Search in Google Scholar
Zarrati M, Shidfar F, Razmpoosh E, Nezhad FN, Keivani H, Hemami MR, Asemi Z. Does low birth weight predict hypertension and obesity in schoolchildren? Annals of Nutr and Metab. 2013;63(1–2):69–76.ZarratiMShidfarFRazmpooshENezhadFNKeivaniHHemamiMRAsemiZDoes low birth weight predict hypertension and obesity in schoolchildren?Annals of Nutr and Metab.2013631–26976Search in Google Scholar
White SL, Perkovic V, Cass A, Chang CL, Poulter NR, Spector T, Haysom L, Craig JC, Al Salmi I, Chadban SJ. Is low birth weight an antecedent of CKD in later life? A systematic review of observational studies. American Journal of Kidney Diseases. 2009;54(2):248–261.WhiteSLPerkovicVCassAChangCLPoulterNRSpectorTHaysomLCraigJCAl SalmiIChadbanSJIs low birth weight an antecedent of CKD in later life? A systematic review of observational studiesAmerican Journal of Kidney Diseases.2009542248261Search in Google Scholar
Huxley R, Owen CG, Whincup PH, Cook DG, Rich-Edwards J, Smith GD, Collins R. Is birth weight a risk factor for ischemic heart disease in later life? The American J of Clin Nutr. 2007;85(5):1244–1250.HuxleyROwenCGWhincupPHCookDGRich-EdwardsJSmithGDCollinsRIs birth weight a risk factor for ischemic heart disease in later life?The American J of Clin Nutr.200785512441250Search in Google Scholar
Haas G-M, Liepold E, Schwandt P. Low birth weight as a predictor of cardiovascular risk factors in childhood and adolescence? The PEP Family Heart Study. Int J of Prev Med. 2015; 6.HaasG-MLiepoldESchwandtPLow birth weight as a predictor of cardiovascular risk factors in childhood and adolescence? The PEP Family Heart StudyInt J of Prev Med.20156Search in Google Scholar
Boney CM, Verma A, Tucker R, Vohr BR. Metabolic syndrome in childhood: Association with birth weight, maternal obesity, and gestational diabetes mellitus. Pediatrics. 2005;115(3):e290–e296.BoneyCMVermaATuckerRVohrBRMetabolic syndrome in childhood: Association with birth weight, maternal obesity, and gestational diabetes mellitusPediatrics.20051153e290e296Search in Google Scholar
Status WP. The use and interpretation of anthropometry. WHO Tech Rep series 1995;854(9).StatusWPThe use and interpretation of anthropometryWHO Tech Rep series19958549Search in Google Scholar
Janssen PA, Thiessen P, Klein MC, Whitfield MF, MacNab YC, Cullis-Kuhl SC. Standards for the measurement of birth weight, length and head circumference at term in neonates of European, Chinese and South Asian ancestry. Open Med. 2007;1(2):e74.JanssenPAThiessenPKleinMCWhitfieldMFMacNabYCCullis-KuhlSCStandards for the measurement of birth weight, length and head circumference at term in neonates of European, Chinese and South Asian ancestryOpen Med.200712e74Search in Google Scholar
Telatar B, Comert S, Vitrinel A, Erginoz E. Anthropometric measurements of term neonates from a state hospital in Turkey. East Mediterr Health J. 2009;15(6):1412–1419.TelatarBComertSVitrinelAErginozEAnthropometric measurements of term neonates from a state hospital in TurkeyEast Mediterr Health J.200915614121419Search in Google Scholar
Group WMGRS, de Onis M. Enrolment and baseline characteristics in the WHO Multicentre Growth Reference Study. Acta Paediatrica. 2006;95:7–15.GroupWMGRSde OnisMEnrolment and baseline characteristics in the WHO Multicentre Growth Reference StudyActa Paediatrica.200695715Search in Google Scholar
Sørensen HT, Sabroe S, Rothman KJ, Gillman M, Steffensen FH, Fischer P, Serensen TI. Birth weight and length as predictors for adult height. American J of Epidem. 1999;149(8):726–729.SørensenHTSabroeSRothmanKJGillmanMSteffensenFHFischerPSerensenTIBirth weight and length as predictors for adult heightAmerican J of Epidem.19991498726729Search in Google Scholar
Berngard SC, Berngard JB, Krebs NF, Garcés A, Miller LV, Westcott J, Wright LL, Kindem M, Hambidge KM. Newborn length predicts early infant linear growth retardation and disproportionately high weight gain in a low-income population. Early Human Dev. 2013;89(12):967–972.BerngardSCBerngardJBKrebsNFGarcésAMillerLVWestcottJWrightLLKindemMHambidgeKMNewborn length predicts early infant linear growth retardation and disproportionately high weight gain in a low-income populationEarly Human Dev.20138912967972Search in Google Scholar
Kubota K, Itoh H, Tasaka M, Naito H, Fukuoka Y, Muramatsu Kato K, Kohmura YK, Sugihara K, Kanayama N, Team HBCS. Changes of maternal dietary intake, bodyweight and fetal growth throughout pregnancy in pregnant Japanese women. Journal of Obstetrics and Gynaecology Research. 2013;39(9): 1383–1390.KubotaKItohHTasakaMNaitoHFukuokaYMuramatsu KatoKKohmuraYKSugiharaKKanayamaNTeamHBCSChanges of maternal dietary intake, bodyweight and fetal growth throughout pregnancy in pregnant Japanese womenJournal of Obstetrics and Gynaecology Research.201339913831390Search in Google Scholar
Sniderman A. Abnormal head growth. In.: American Academy of Pediatr; 2010.SnidermanAAbnormal head growth.In.:American Academy of Pediatr2010Search in Google Scholar
World Health Organization. WHO child growth standards: head circumference-for-age, arm circumference-for-age, triceps skinfold-for-age and subscapular skinfold-for-age: Methods and development. World Health Organization; 2007.World Health OrganizationWHO child growth standards: head circumference-for-age, arm circumference-for-age, triceps skinfold-for-age and subscapular skinfold-for-age: Methods and developmentWorld Health Organization2007Search in Google Scholar
Haksari EL, Lafeber HN, Hakimi M, Pawirohartono EP, Nyström L. Reference curves of birth weight, length, and head circumference for gestational ages in Yogyakarta, Indonesia. BMC Ped. 2016;16(1):1–14.HaksariELLafeberHNHakimiMPawirohartonoEPNyströmLReference curves of birth weight, length, and head circumference for gestational ages in Yogyakarta, IndonesiaBMC Ped.2016161114Search in Google Scholar
Bach CC, Henriksen TB, Larsen RT, Aagaard K, Matthiesen NB. Head circumference at birth and school performance: A nationwide cohort study of 536,921 children. Pediatr Res. 2020;87(6):1112–1118.BachCCHenriksenTBLarsenRTAagaardKMatthiesenNBHead circumference at birth and school performance: A nationwide cohort study of 536,921 childrenPediatr Res.202087611121118Search in Google Scholar
Egashira T, Hashimoto M, Shiraishi T-A, Shichijo A, Egashira M, Mizukami T, Takayanagi T. A longer body length and larger head circumference at term significantly influences a better subsequent psychomotor development in very-low-birth-weight infants. Brain and Dev. 2019;41(4):313–319.EgashiraTHashimotoMShiraishiT-AShichijoAEgashiraMMizukamiTTakayanagiTA longer body length and larger head circumference at term significantly influences a better subsequent psychomotor development in very-low-birth-weight infantsBrain and Dev.2019414313319Search in Google Scholar
Ochoa Ramirez A, Kuhn EM, Sirinit J, Mikhailov T. Head circumference as an indicator of nutritional status in critically Ill children under 2 years of age. OBM Integr and Complement Med. 2022;7(1):1–11.Ochoa RamirezAKuhnEMSirinitJMikhailovTHead circumference as an indicator of nutritional status in critically Ill children under 2 years of ageOBM Integr and Complement Med.202271111Search in Google Scholar
Sankilampi U, Hannila ML, Saari A, Gissler M, Dunkel L. New population-based references for birth weight, length, and head circumference in singletons and twins from 23 to 43 gestation weeks. Ann Med. 2013;45(5–6):446–454.SankilampiUHannilaMLSaariAGisslerMDunkelLNew population-based references for birth weight, length, and head circumference in singletons and twins from 23 to 43 gestation weeksAnn Med.2013455–6446454Search in Google Scholar
Ba-Saddik IA, Al-Asbahi TO. Anthropometric measurements of singleton live full-term newborns in Aden, Yemen. Int J of Pediatr and Adolesc Med. 2020;7(3):121–126.Ba-SaddikIAAl-AsbahiTOAnthropometric measurements of singleton live full-term newborns in Aden, YemenInt J of Pediatr and Adolesc Med.202073121126Search in Google Scholar
Ulijaszek S. Between-population variation in pre-adolescent growth. European J of Clin Nutr. 1994;48:S5–13; discussion S13.UlijaszekSBetween-population variation in pre-adolescent growthEuropean J of Clin Nutr.199448S513discussion S13Search in Google Scholar
Sakata H, Yoshioka H, Fujita K. Development of the intestinal flora in very low birth weight infants compared to normal full-term newborns. European J of Pediatr. 1985;144:186–190.SakataHYoshiokaHFujitaKDevelopment of the intestinal flora in very low birth weight infants compared to normal full-term newbornsEuropean J of Pediatr.1985144186190Search in Google Scholar
Neggers Y, Goldenberg RL, Cliver SP, Hoffman HJ, Cutter GR. The relationship between maternal and neonatal anthropometric measurements in term newborns. Obstet and Gynecol. 1995;85(2):192–196.NeggersYGoldenbergRLCliverSPHoffmanHJCutterGRThe relationship between maternal and neonatal anthropometric measurements in term newbornsObstet and Gynecol.1995852192196Search in Google Scholar
Hassan N, Shalaan A, El Mosry S. Relationship between maternal characteristics and neonatal birth size in Egypt. East Mediterr Health J.2011;17(4), 281–289.HassanNShalaanAEl MosrySRelationship between maternal characteristics and neonatal birth size in EgyptEast Mediterr Health J.2011174281289Search in Google Scholar
Rahman SEMKA, Ibrahim GO. Recent intrauterine growth parameters of term Sudanese neonates in Khartoum compared to the findings three decades earlier. Sudan J of Paediatr. 2011, 11(1):29.RahmanSEMKAIbrahimGORecent intrauterine growth parameters of term Sudanese neonates in Khartoum compared to the findings three decades earlierSudan J of Paediatr.201111129Search in Google Scholar
Das JC. Anthropometric Parameters of newborn infants. J of Chittagong Med College Teach Assoc. 2012;23(2):38–41.DasJCAnthropometric Parameters of newborn infantsJ of Chittagong Med College Teach Assoc.20122323841Search in Google Scholar
Shastry C, Bhat B. Anthropometric measurements of newborns. Int J Contemp Pediatr. 2015;2(2):85.ShastryCBhatBAnthropometric measurements of newbornsInt J Contemp Pediatr.20152285Search in Google Scholar
de Onis M, Garza C, Victora CG, Onyango AW, Frongillo EA, Martines J. The WHO Multicentre Growth Reference Study: Planning, study design, and methodology. Food and Nutr Bull. 2004;25(1 Suppl):S15–26.de OnisMGarzaCVictoraCGOnyangoAWFrongilloEAMartinesJThe WHO Multicentre Growth Reference Study: Planning, study design, and methodologyFood and Nutr Bull.2004251 SupplS1526Search in Google Scholar
Amare EB, Idsøe M, Wiksnes M, Moss T, Roelants M, Shimelis D, Júlíusson PB, Kiserud T, Wester K. Reference ranges for head circumference in Ethiopian children 0–2 years of age. World Neurosurg. 2015;84(6):1566–1571, e1562.AmareEBIdsøeMWiksnesMMossTRoelantsMShimelisDJúlíussonPBKiserudTWesterKReference ranges for head circumference in Ethiopian children 0–2 years of ageWorld Neurosurg.201584615661571e1562Search in Google Scholar