Vai ai contenuti. | Spostati sulla navigazione | Spostati sulla ricerca | Vai al menu | Contatti | Accessibilità

| Crea un account

Carli, Giovanna (2008) La risonanza magnetica cerebrale nel neonato pretermine di peso molto basso (VLBW): indicazioni cliniche e significato prognostico. [Tesi di dottorato]

Full text disponibile come:

[img]
Anteprima
Documento PDF
138Kb

Abstract (inglese)

The aim of this paper is comparing cerebral MRI and head US in predicting 1 year neurological outcome in a population of premature infant, VLBW, born between genuary 2005 and december 2006 in Camposampiero (PD) NICU.
in addiction, the head circunference growth velocity after birth has been considered in order to understand if it could be considered a prognostic factor for the neurological outcome.


Statistiche Download - Aggiungi a RefWorks
Tipo di EPrint:Tesi di dottorato
Relatore:Basso, Giuseppe
Correlatore:Chiandetti, Lino
Dottorato (corsi e scuole):Ciclo 19 > Corsi per il 19simo ciclo > SCIENZE DELLO SVILUPPO E DELLA PROGRAMMAZIONE
Data di deposito della tesi:Gennaio 2008
Anno di Pubblicazione:Gennaio 2008
Parole chiave (italiano / inglese):neonato prematuro, VLBW, RMN cerebrale, ecografia cerebrale, circonferenza cranica
Settori scientifico-disciplinari MIUR:Area 06 - Scienze mediche > MED/38 Pediatria generale e specialistica
Struttura di riferimento:Dipartimenti > Dipartimento di Pediatria
Codice ID:754
Depositato il:18 Set 2008
Simple Metadata
Full Metadata
EndNote Format

Bibliografia

I riferimenti della bibliografia possono essere cercati con Cerca la citazione di AIRE, copiando il titolo dell'articolo (o del libro) e la rivista (se presente) nei campi appositi di "Cerca la Citazione di AIRE".
Le url contenute in alcuni riferimenti sono raggiungibili cliccando sul link alla fine della citazione (Vai!) e tramite Google (Ricerca con Google). Il risultato dipende dalla formattazione della citazione.

1. Fanaroff AA, Stoll BJ, Wright LL et al. Trends in neonatal morbidity and mortality for very low birthweight infants. Am J Obstet Gynecol. 2007 Feb;196(2):147.e1-8. Cerca con Google

2. Perlman JM. Neurobehavioral deficit in premature graduates of intensive care-potential medical and neonatal environment risk factors. Pediatrics 2001; 108:1339-48. Cerca con Google

3. Hack M, Wilson-Costello D, Friedman H et al. Neurodevelopment and predictors of outcomes of children with birth weights of less than 1000 g. Arch Pediatr Adolesc Med 2000;154:725-731. Cerca con Google

4. Hack M, Fanaroff AA. Outcomes of children of extremely low birth weight and gestational age in the 1990's. Early Hum Dev 1999; 53:193-218. Cerca con Google

5. Volpe JJ. Neurology of the newborn. 4th ed. Philadelphia: WB Saunders 2001. Cerca con Google

6. Counsell SJ, Shen Y, Boardman JP et al. Axial and radial diffusivity in preterm infants who have diffuse white matter changes on magnetic resonance imaging at term-equivalent age. Pediatrics. 2006 eb;117(2):376-86. Cerca con Google

7. Volpe JJ. Cerebral white matter injury of the premature infant-more common than you think. Pediatrics;112:176-180. Cerca con Google

8. Volpe JJ. Brain injury in the premature infant: overview of clinical aspects, neuropathology and pathogenesis. Sem Pediatr Neurol. 1998;5:135-151. Cerca con Google

9. Murphy BP, Inder TE, Huppi PS et al. impaired cerebral cortical gray matter growth after treatment with dexamethasone for neonatal chronic lung disease. Pediatrics 2001;107:217-221. Cerca con Google

10. Borradori Tolsa C, Zimine S, Warfield SK et al. Early alteration of structural and functional brain development in premature infant born with intrauterine growth restriction. Pediatr Res 2004;56:132-138. Cerca con Google

11. Inder TE, WellsSJ, Mogridge NB et al. Defining the nature of the cerebral abnormalities in the premature infant: a qualitative magnetic resonance imaging study. J Pediatrics 2003;143:171-179. Cerca con Google

12. Maalouf EF, Duggan PJ, Counsell SJ. Comparison of findings on cranial ultrasound and magnetic resonance imaging in preterm infant. Pediatrics 2001;107:719-727. Cerca con Google

13. Inder TE, Anderson NJ, Spencer C et al. White matter injury in the premature infant: a comparison between serial cranial sonographic and MRI findings at term. Am J Neuroradiol 2003;24:805-809. Cerca con Google

14. Debillon T, N'Ghyen S, Muet A et al. Limitation of ultrasonography for diagnosing white matter damage in preterm infants. Arch Dis Child Fetal Neonatal Ed 2003;88:F275-F279. Cerca con Google

15. de Vries LS, Rademaker KJ, Groenendaal F et al. Correlation between neonatal cranial ultrasound, MRI in infancy and neurodevelopmental outcome in infant with a large intraventricular haemorrhage with or without unilateral parenchimal involvement. Neuropediatrics 1998;29:180-188. Cerca con Google

16. Mirmiran M, Barnes PD, Keller K et al. Neonatal brain magnetic resonance imaging before discharge is better then serial cranial ultrasound in predicting cerebral palsy in very low birth weight preterm infants. Pediatrics 2004;114:992-998. Cerca con Google

17. Rademaker KJ, Uiterwaal CSP, Beek FJA et al. Neonatal cranial ultrasound versus MRI and neurodevelopmental outcome at school age in children born preterm. Arch Dis Child Fetal Neonatal Ed 2005;90:F489-F493. Cerca con Google

18. Arnaud C, Daubisse-Marliac L, White-Koning M et al. Prevalence and associated factors of minor neuromotor dysfunctions at age 5 years in prematurely born children: the EPIPAGE Study. Arch Pediatr Adolesc Med. 2007 Nov;161(11):1053-61 Cerca con Google

19. Abernethy LJ, Klafkowski G, Foulder-Hughes L et al. Magnetic resonance imaging and T2 relaxometry of cerebral white matter and hippocampus in children born preterm. Pediatr Res. 2003 Dec;54(6):868-74. Cerca con Google

20. Constantinou JC, Adamson-Macedo EN, Mirmiran M et al. Movement, imaging and neurobehavioral assessment as predictors of cerebral palsy in preterm infants. J Perinatol. 2007 Apr;27(4):225-9. Cerca con Google

21. Dobbing J, Sands J. Quantitative growth and development of human brain. Arch Dis Child 1973;48:757-767. Cerca con Google

22. Cooke RW, Lucas A, Yudkin PL et al. Head circumference as an index of brain weight in the fetus and newborn. Early Hum Dev 1977;1:145-149. Cerca con Google

23. Kitchen WH, Doyle LW, Ford GW. Very low birth weight and growth to 8 years. Head dimension and intelligence. Am J Dis Child 1992;146:46-50. Cerca con Google

24. Brennan TL, Funk SG, Frothingham TE. Disproportionate intra-huterine head growth and developmental outcome. Dev Med Child Neurol1985;27:746-750. Cerca con Google

25. Cooke RWI. Are there critical periods for brain growth in children born preterm? Arch Dis Child Fetal Ed 2006;91:F17-F20. Cerca con Google

26. Peterson BS, Anderson AW, Ehrenkranz R et al. Regional brain volumes and their later neurodevelopmental correlates in term and preterm infants. Pediatrics 2003;111:939-948. Cerca con Google

27. Dyet LE, Kennea N, Counsell S et al. Natural history of brain lesions in extremely preterm infants studied with serial magnetic resonance imaging from birth and neurodevelopmental assessment. Pediatrics 2006;118:536-548. Cerca con Google

28. Fenton TR. BMC Pediatr 2003; 3 (1): 13 Cerca con Google

29. CDC growth chart 2000; http://www.cdc.gov/growthcharts/ Vai! Cerca con Google

30. Griffiths R. The Abilities of Babies. London, United Kingdom: University of London Press; 1954 Cerca con Google

31. Griffiths R. The Abilities of Young Children. London, United Kingdom: Child Development Research Centre; 1970 Cerca con Google

32. Wilson-Costello D, Friedman H, Minich N et al. Improved Survival Rates With Increased Neurodevelopmental Disability for Extremely Low Birth Weight Infants in the 1990s. Pediatrics 2005;115:997-1003; Cerca con Google

33. Rosenbaum P, Paneth N, Leviton A et al. Definition and Classification of CP April 2006. Cerca con Google

34. Amiel-Tison C, Grenier A. Neurologic Assessment Within the First Year of Life. New York, NY: Oxford University Press; 1986. Cerca con Google

35. Volpe JJ. Neurology of the newborn. 4th ed. Phiòadelphia, PA: WB Saunders; 2001: 45-47. Cerca con Google

36. Vasileiadis GT, Gelman N, Han VKM et al. uncomplicated intraventricular hemorrage is followed by reduced cortical volume at near-term age. Pediatrics 2004;114:e367-e372. Cerca con Google

Download statistics

Solo per lo Staff dell Archivio: Modifica questo record