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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 鄭素芳 | zh_TW |
dc.contributor.advisor | Suh-Fang Jeng | en |
dc.contributor.author | 沈怡汝 | zh_TW |
dc.contributor.author | Yi-Ju Shen | en |
dc.date.accessioned | 2021-07-11T15:26:02Z | - |
dc.date.available | 2024-08-16 | - |
dc.date.copyright | 2019-03-11 | - |
dc.date.issued | 2018 | - |
dc.date.submitted | 2002-01-01 | - |
dc.identifier.citation | Aarnoudse-Moens, C. S., Weisglas-Kuperus, N., Duivenvoorden, H. J., van Goudoever, J. B., & Oosterlaan, J. (2013). Executive function and IQ predict mathematical and attention problems in very preterm children. PLoS One, 8(2), e55994.
Aarnoudse-Moens, C. S., Weisglas-Kuperus, N., van Goudoever, J. B., & Oosterlaan, J. (2009). Meta-analysis of neurobehavioral outcomes in very preterm and/or very low birth weight children. Pediatrics, 124(2), 717-728. Achenbach, T. M., & Rescorla, L. (2001). ASEBA school-age forms & profiles: Aseba Burlington, VT. Allotey, J., Zamora, J., Cheong-See, F., Kalidindi, M., Arroyo-Manzano, D., Asztalos, E., van der Post, J., Mol, B. W., Moore, D., Birtles, D., Khan, K. S., & Thangaratinam, S. (2018). Cognitive, motor, behavioural and academic performances of children born preterm: a meta-analysis and systematic review involving 64 061 children. Bjog, 125(1), 16-25. Als, H. (1982). Toward a synactive theory of development: Promise for the assessment and support of infant individuality. Infant Mental Health Journal, 3(4), 229-243. Als, H. (1986). A Synactive Model of Neonatal Behavioral Organization. Phys Occup Ther Pediatr, 6(3-4), 3-53. Als, H., Lawhon, G., Duffy, F. H., McAnulty, G. B., Gibes-Grossman, R., & Blickman, J. G. (1994). Individualized developmental care for the very low-birth-weight preterm infant. Medical and neurofunctional effects. Jama, 272(11), 853-858. Bader, D., Kugelman, A., Boyko, V., Levitzki, O., Lerner-Geva, L., Riskin, A., & Reichman, B. (2010). Risk factors and estimation tool for death among extremely premature infants: a national study. Pediatrics, 125(4), 696-703. Barnard, K. E., & Bee, H. L. (1983). The impact of temporally patterned stimulation on the development of preterm infants. Child Dev, 54(5), 1156-1167. Berbis, J., Einaudi, M. A., Simeoni, M. C., Brevaut-Malaty, V., Auquier, P., d'Ercole, C., & Gire, C. (2012). Quality of life of early school-age French children born preterm: a cohort study. Eur J Obstet Gynecol Reprod Biol, 162(1), 38-44. Bhutta, A. T., Cleves, M. A., Casey, P. H., Cradock, M. M., & Anand, K. J. (2002). Cognitive and behavioral outcomes of school-aged children who were born preterm: a meta-analysis. Jama, 288(6), 728-737. Blencowe, H., Cousens, S., Oestergaard, M. Z., Chou, D., Moller, A. B., Narwal, R., Adler, A., Vera Garcia, C., Rohde, S., Say, L., & Lawn, J. E. (2012). National, regional, and worldwide estimates of preterm birth rates in the year 2010 with time trends since 1990 for selected countries: a systematic analysis and implications. Lancet, 379(9832), 2162-2172. Bruininks, R. H. (2005). Bruininks-Oseretsky test of motor proficiency: AGS Publishing Circle Pines, MN. Buehler, D. M., Als, H., Duffy, F. H., McAnulty, G. B., & Liederman, J. (1995). Effectiveness of individualized developmental care for low-risk preterm infants: behavioral and electrophysiologic evidence. Pediatrics, 96(5 Pt 1), 923-932. Caçola, P. (2016). Physical and Mental Health of Children with Developmental Coordination Disorder. Front Public Health, 4. Cain, K. L., Sallis, J. F., Conway, T. L., Van Dyck, D., & Calhoon, L. (2013). Using accelerometers in youth physical activity studies: a review of methods. J Phys Act Health, 10(3), 437-450. Cairney, J., Hay, J. A., Faught, B. E., Wade, T. J., Corna, L., & Flouris, A. (2005). Developmental coordination disorder, generalized self-efficacy toward physical activity, and participation in organized and free play activities. J Pediatr, 147(4), 515-520. Chan, E., & Quigley, M. A. (2014). School performance at age 7 years in late preterm and early term birth: a cohort study. Arch Dis Child Fetal Neonatal Ed, 99(6), F451-457. Chen, L. C., Wu, Y. C., Hsieh, W. S., Hsu, C. H., Leng, C. H., Chen, W. J., Chiu, N. C., Lee, W. T., Yang, M. C., Fang, L. J., Hsu, H. C., & Jeng, S. F. (2013). The effect of in-hospital developmental care on neonatal morbidity, growth and development of preterm Taiwanese infants: a randomized controlled trial. Early Hum Dev, 89(5), 301-306. Chien, L. Y., Chou, Y. H., Ko, Y. L., & Lee, C. F. (2006). Health-related quality of life among 3--4-year-old children born with very low birthweight. J Adv Nurs, 56(1), 9-16. Deitz, J. C., Kartin, D., & Kopp, K. (2007). Review of the Bruininks-Oseretsky Test of Motor Proficiency, Second Edition (BOT-2). Phys Occup Ther Pediatr, 27(4), 87-102. Department of Health and Human Services. (2008). Physical Activity Guidelines for Americans. Hyattsville, MD, US. Donohue, P. K. (2002). Health-related quality of life of preterm children and their caregivers. Ment Retard Dev Disabil Res Rev, 8(4), 293-297. Dunn, M. S., Reilly, M. C., Johnston, A. M., Hoopes, R. D., & Abraham, M. R. (2006). Development and Dissemination of Potentially Better Practices for the Provision of Family-Centered Care in Neonatology: The Family-Centered Care Map. Pediatrics, 118(Supplement 2), S95-S107. Early Childhood Center (2005). Family and Child Outcomes for Early Intervention and Early Childhood Special Education. Eiser, C., Eiser, J. R., Mayhew, A. G., & Gibson, A. T. (2005). Parenting the premature infant: balancing vulnerability and quality of life. J Child Psychol Psychiatry, 46(11), 1169-1177. Faebo Larsen, R., Hvas Mortensen, L., Martinussen, T., & Nybo Andersen, A. M. (2013). Determinants of developmental coordination disorder in 7-year-old children: a study of children in the Danish National Birth Cohort. Dev Med Child Neurol, 55(11), 1016-1022. Fleisher, B. E., VandenBerg, K., Constantinou, J., Heller, C., Benitz, W. E., Johnson, A., Rosenthal, A., & Stevenson, D. K. (1995). Individualized developmental care for very-low-birth-weight premature infants. Clin Pediatr (Phila), 34(10), 523-529. George, D., & Mallery, P. (2010). SPSS for Windows Step by Step: A Simple Guide and Reference 17.0 Update. (10th Edition ed.). Boston: Pearson. Goyen, T. A., & Lui, K. (2009). Developmental coordination disorder in "apparently normal" schoolchildren born extremely preterm. Arch Dis Child, 94(4), 298-302. Gray, R. F., Indurkhya, A., & McCormick, M. C. (2004). Prevalence, stability, and predictors of clinically significant behavior problems in low birth weight children at 3, 5, and 8 years of age. Pediatrics, 114(3), 736-743. Grisaru-Granovsky, S., Reichman, B., Lerner-Geva, L., Boyko, V., Hammerman, C., Samueloff, A., & Schimmel, M. S. (2014). Population-based trends in mortality and neonatal morbidities among singleton, very preterm, very low birth weight infants over 16 years. Early Hum Dev, 90(12), 821-827. Hack, M. (2009). Adult outcomes of preterm children. J Dev Behav Pediatr, 30(5), 460-470. Hack, M., Flannery, D. J., Schluchter, M., Cartar, L., Borawski, E., & Klein, N. (2002). Outcomes in young adulthood for very-low-birth-weight infants. N Engl J Med, 346(3), 149-157. Hack, M., Forrest, C. B., Schluchter, M., Taylor, H. G., Drotar, D., Holmbeck, G., & Andreias, L. (2011). Health status of extremely low-birth-weight children at 8 years of age: child and parent perspective. Arch Pediatr Adolesc Med, 165(10), 922-927. Hack, M., Wright, L. L., Shankaran, S., Tyson, J. E., Horbar, J. D., Bauer, C. R., & Younes, N. (1995). Very-low-birth-weight outcomes of the National Institute of Child Health and Human Development Neonatal Network, November 1989 to October 1990. Am J Obstet Gynecol, 172(2 Pt 1), 457-464. Himpens, E., Van den Broeck, C., Oostra, A., Calders, P., & Vanhaesebrouck, P. (2008). Prevalence, type, distribution, and severity of cerebral palsy in relation to gestational age: a meta-analytic review. Dev Med Child Neurol, 50(5), 334-340. Huhtala, M., Korja, R., Rautava, L., Lehtonen, L., Haataja, L., Lapinleimu, H., & Rautava, P. (2016). Health-related quality of life in very low birth weight children at nearly eight years of age. Acta Paediatr, 105(1), 53-59. Husby, I. M., Skranes, J., Olsen, A., Brubakk, A. M., & Evensen, K. A. (2013). Motor skills at 23 years of age in young adults born preterm with very low birth weight. Early Hum Dev, 89(9), 747-754. Jacobs, S. E., Sokol, J., & Ohlsson, A. (2002). The Newborn Individualized Developmental Care and Assessment Program is not supported by meta-analyses of the data. J Pediatr, 140(6), 699-706. Kaaresen, P. I., Ronning, J. A., Ulvund, S. E., & Dahl, L. B. (2006). A randomized, controlled trial of the effectiveness of an early-intervention program in reducing parenting stress after preterm birth. Pediatrics, 118(1), e9-19. Kagawa-Singer, M., Padilla, G. V., & Ashing-Giwa, K. (2010). Health-related quality of life and culture. Semin Oncol Nurs, 26(1), 59-67. Kerr-Wilson, C. O., Mackay, D. F., Smith, G. C., & Pell, J. P. (2012). Meta-analysis of the association between preterm delivery and intelligence. J Public Health (Oxf), 34(2), 209-216. Klassen, A. F., Landgraf, J. M., Lee, S. K., Barer, M., Raina, P., Chan, H. W. P., Matthew, D., & Brabyn, D. (2003). Health related quality of life in 3 and 4 year old children and their parents: preliminary findings about a new questionnaire. Health Qual Life Outcomes, 1, 81. Koldewijn, K., van Wassenaer, A., Wolf, M. J., Meijssen, D., Houtzager, B., Beelen, A., Kok, J., & Nollet, F. (2010). A neurobehavioral intervention and assessment program in very low birth weight infants: outcome at 24 months. J Pediatr, 156(3), 359-365. Kotecha, S. J., Edwards, M. O., Watkins, W. J., Henderson, A. J., Paranjothy, S., Dunstan, F. D., & Kotecha, S. (2013). Effect of preterm birth on later FEV1: a systematic review and meta-analysis. Thorax, 68(8), 760-766. Kovachy, V. N., Adams, J. N., Tamaresis, J. S., & Feldman, H. M. (2015). Reading abilities in school-aged preterm children: a review and meta-analysis. Dev Med Child Neurol, 57(5), 410-419. Landsem, I. P., Handegård, B. H., Ulvund, S. E., Kaaresen, P. I., & Rønning, J. A. (2015). Early intervention influences positively quality of life as reported by prematurely born children at age nine and their parents; a randomized clinical trial. Health Qual Life Outcomes, 13. Lindstrom, K., Lindblad, F., & Hjern, A. (2011). Preterm birth and attention-deficit/hyperactivity disorder in schoolchildren. Pediatrics, 127(5), 858-865. Lowe, J., Cousins, M., Kotecha, S. J., & Kotecha, S. (2017). Physical activity outcomes following preterm birth. Paediatr Respir Rev, 22, 76-82. Lowe, J., Watkins, W. J., Kotecha, S. J., Edwards, M. O., Henderson, A. J., & Kotecha, S. (2015). Physical activity in school-age children born preterm. J Pediatr, 166(4), 877-883. Lowe, J., Watkins, W. J., Kotecha, S. J., & Kotecha, S. (2016). Physical Activity and Sedentary Behavior in Preterm-Born 7-Year Old Children. PLoS One, 11(5), e0155229. Lundqvist-Persson, C., Lau, G., Nordin, P., Bona, E., & Sabel, K. G. (2012). Preterm infants' early developmental status is associated with later developmental outcome. Acta Paediatr, 101(2), 172-178. Mamopoulos, A., Petousis, S., Tsimpanakos, J., Masouridou, S., Kountourelli, K., Margioula-Siarkou, C., Papouli, M., & Rousso, D. (2015). Birth weight independently affects morbidity and mortality of extremely preterm neonates. J Clin Med Res, 7(7), 511-516. Melnyk, B. M., Feinstein, N. F., Alpert-Gillis, L., Fairbanks, E., Crean, H. F., Sinkin, R. A., Stone, P. W., Small, L., Tu, X., & Gross, S. J. (2006). Reducing premature infants' length of stay and improving parents' mental health outcomes with the Creating Opportunities for Parent Empowerment (COPE) neonatal intensive care unit program: a randomized, controlled trial. Pediatrics, 118(5), e1414-1427. Miller, M. R., Hankinson, J., Brusasco, V., Burgos, F., Casaburi, R., Coates, A., Crapo, R., Enright, P., van der Grinten, C. P., Gustafsson, P., Jensen, R., Johnson, D. C., MacIntyre, N., McKay, R., Navajas, D., Pedersen, O. F., Pellegrino, R., Viegi, G., & Wanger, J. (2005). Standardisation of spirometry. Eur Respir J, 26(2), 319-338. Missiuna, C. (2003). Children with Developmental Coordination Disorder: At Home and in the Classroom. Hamilton, Ontario, Canada. Moreira, P. A. S., Dias, P., Vaz, F. M., & Vaz, J. M. (2013). Predictors of academic performance and school engagement — Integrating persistence, motivation and study skills perspectives using person-centered and variable-centered approaches. Learning and Individual Differences, 24, 117-125. Nepomnyaschy, L., Hegyi, T., Ostfeld, B. M., & Reichman, N. E. (2012). Developmental outcomes of late-preterm infants at 2 and 4 years. Matern Child Health J, 16(8), 1612-1624. Nordhov, S. M., Ronning, J. A., Ulvund, S. E., Dahl, L. B., & Kaaresen, P. I. (2012). Early intervention improves behavioral outcomes for preterm infants: randomized controlled trial. Pediatrics, 129(1), e9-e16. Orchinik, L. J., Taylor, H. G., Espy, K. A., Minich, N., Klein, N., Sheffield, T., & Hack, M. (2011). Cognitive outcomes for extremely preterm/extremely low birth weight children in kindergarten. J Int Neuropsychol Soc, 17(6), 1067-1079. Palta, M., Sadek-Badawi, M., Madden, K., & Green, C. (2007). Pulmonary testing using peak flow meters of very low birth weight children born in the perisurfactant era and school controls at age 10 years. Pediatr Pulmonol, 42(9), 819-828. Perez-Roche, T., Altemir, I., Gimenez, G., Prieto, E., Gonzalez, I., Pena-Segura, J. L., Castillo, O., & Pueyo, V. (2016). Effect of prematurity and low birth weight in visual abilities and school performance. Res Dev Disabil, 59, 451-457. Petrou, S., Abangma, G., Johnson, S., Wolke, D., & Marlow, N. (2009). Costs and health utilities associated with extremely preterm birth: evidence from the EPICure study. Value Health, 12(8), 1124-1134. Poggioli, M., Minichilli, F., Bononi, T., Meghi, P., Andre, P., Crecchi, A., Rossi, B., Carboncini, M. C., Ottolini, A., & Bonfiglio, L. (2016). Effects of a Home-Based Family-Centred Early Habilitation Program on Neurobehavioural Outcomes of Very Preterm Born Infants: A Retrospective Cohort Study. Neural Plast, 2016, 4323792. Puyau, M. R., Adolph, A. L., Vohra, F. A., & Butte, N. F. (2002). Validation and calibration of physical activity monitors in children. Obes Res, 10(3), 150-157. Quitmann, J., Rohenkohl, A., Sommer, R., Bullinger, M., & Silva, N. (2016). Explaining parent-child (dis)agreement in generic and short stature-specific health-related quality of life reports: do family and social relationships matter? Health Qual Life Outcomes, 14. Rajmil, L., Lopez, A. R., Lopez-Aguila, S., & Alonso, J. (2013). Parent-child agreement on health-related quality of life (HRQOL): a longitudinal study. Health Qual Life Outcomes, 11, 101. Ramey, C. T., Bryant, D. M., Sparling, J. J., & Wasik, B. H. (1984). A biosocial systems perspective on environmental interventions for low birth weight infants. Clin Obstet Gynecol, 27(3), 672-692. Ramey, C. T., & Ramey, S. L. (1998). Early intervention and early experience. Am Psychol, 53(2), 109-120. Ravn, I. H., Smith, L., Smeby, N. A., Kynoe, N. M., Sandvik, L., Bunch, E. H., & Lindemann, R. (2012). Effects of early mother-infant intervention on outcomes in mothers and moderately and late preterm infants at age 1 year: a randomized controlled trial. Infant Behav Dev, 35(1), 36-47. Reijneveld, S. A., de Kleine, M. J., van Baar, A. L., Kollee, L. A., Verhaak, C. M., Verhulst, F. C., & Verloove-Vanhorick, S. P. (2006). Behavioural and emotional problems in very preterm and very low birthweight infants at age 5 years. Arch Dis Child Fetal Neonatal Ed, 91(6), F423-428. Salas, A. A., Carlo, W. A., Ambalavanan, N., Nolen, T. L., Stoll, B. J., Das, A., & Higgins, R. D. (2016). Gestational age and birthweight for risk assessment of neurodevelopmental impairment or death in extremely preterm infants. Arch Dis Child Fetal Neonatal Ed. Singer, L. T., Davillier, M., Bruening, P., Hawkins, S., & Yamashita, T. S. (1996). Social support, psychological distress, and parenting strains in mothers of very low birthweight infants. Fam Relat, 45(3), 343-350. Spittle, A., Anderson, P. J., Lee, K. J., Ferretti, C., Eeles, A., Orton, J., Boyd, R. N., Inder, T., & Doyle, L. W. (2010). Preventive care at home for very preterm infants improves infant and caregiver outcomes at 2 years. Pediatrics, 126(1), e171-178. Spittle, A., Barton, S., Treyvaud, K., Molloy, C. S., Doyle, L. W., & Anderson, P. J. (2016). School-Age Outcomes of Early Intervention for Preterm Infants and Their Parents: A Randomized Trial. Pediatrics, 138(6). Spittle, A., Orton, J., Anderson, P., Boyd, R., & Doyle, L. W. (2012). Early developmental intervention programmes post-hospital discharge to prevent motor and cognitive impairments in preterm infants. Cochrane Database Syst Rev, 12, Cd005495. Spittle, A., Orton, J., Anderson, P. J., Boyd, R., & Doyle, L. W. (2015). Early developmental intervention programmes provided post hospital discharge to prevent motor and cognitive impairment in preterm infants. Cochrane Database Syst Rev(11), Cd005495. Stahlmann, N., Rapp, M., Herting, E., & Thyen, U. (2009). Outcome of extremely premature infants at early school age: health-related quality of life and neurosensory, cognitive, and behavioral outcomes in a population-based sample in northern Germany. Neuropediatrics, 40(3), 112-119. Stoll, B. J., Hansen, N. I., Bell, E. F., Shankaran, S., Laptook, A. R., Walsh, M. C., Hale, E. C., Newman, N. S., Schibler, K., Carlo, W. A., Kennedy, K. A., Poindexter, B. B., Finer, N. N., Ehrenkranz, R. A., Duara, S., Sanchez, P. J., O'Shea, T. M., Goldberg, R. N., Van Meurs, K. P., Faix, R. G., Phelps, D. L., Frantz, I. D., 3rd, Watterberg, K. L., Saha, S., Das, A., & Higgins, R. D. (2010). Neonatal outcomes of extremely preterm infants from the NICHD Neonatal Research Network. Pediatrics, 126(3), 443-456. Su, Y. Y., Wang, S. H., Chou, H. C., Chen, C. Y., Hsieh, W. S., Tsao, P. N., & Tsou, K. I. (2016). Morbidity and mortality of very low birth weight infants in Taiwan-Changes in 15 years: A population based study. J Formos Med Assoc, 115(12), 1039-1045. Svien, L. R. (2003). Health-related fitness of seven- to 10-year-old children with histories of preterm birth. Pediatr Phys Ther, 15(2), 74-83. Symington, A., & Pinelli, J. (2003). Developmental care for promoting development and preventing morbidity in preterm infants. Cochrane Database Syst Rev(4), Cd001814. Symington, A., & Pinelli, J. (2006). Developmental care for promoting development and preventing morbidity in preterm infants. Cochrane Database Syst Rev(2), Cd001814. Theunissen, N. C., Veen, S., Fekkes, M., Koopman, H. M., Zwinderman, K. A., Brugman, E., & Wit, J. M. (2001). Quality of life in preschool children born preterm. Dev Med Child Neurol, 43(7), 460-465. Thunqvist, P., Gustafsson, P. M., Schultz, E. S., Bellander, T., Berggren-Brostrom, E., Norman, M., Wickman, M., Melen, E., & Hallberg, J. (2016). Lung Function at 8 and 16 Years After Moderate-to-Late Preterm Birth: A Prospective Cohort Study. Pediatrics, 137(4). Tsai, M. C., Jeng, M. J., Chang, H. L., Tsao, P. C., Yang, C. F., Peng, Y. Y., Lee, Y. S., Soong, W. J., & Tang, R. B. (2010). Spirometric Reference Equations for Healthy Children Aged 6 to 11 Years in Taiwan. Journal of the Chinese Medical Association, 73(1), 21-28. Van Hus, J. W., Jeukens-Visser, M., Koldewijn, K., Geldof, C. J., Kok, J. H., Nollet, F., & Van Wassenaer-Leemhuis, A. G. (2013). Sustained developmental effects of the infant behavioral assessment and intervention program in very low birth weight infants at 5.5 years corrected age. J Pediatr, 162(6), 1112-1119. Varni, J. W., Seid, M., & Kurtin, P. S. (2001). PedsQL 4.0: reliability and validity of the Pediatric Quality of Life Inventory version 4.0 generic core scales in healthy and patient populations. Med Care, 39(8), 800-812. Varni, J. W., Seid, M., & Rode, C. A. (1999). The PedsQL: measurement model for the pediatric quality of life inventory. Med Care, 37(2), 126-139. Varni, J. W., Sherman, S. A., Burwinkle, T. M., Dickinson, P. E., & Dixon, P. (2004). The PedsQL™ Family Impact Module: Preliminary reliability and validity. Health Qual Life Outcomes, 2, 55-55. Voigt, B., Pietz, J., Pauen, S., Kliegel, M., & Reuner, G. (2012). Cognitive development in very vs. moderately to late preterm and full-term children: can effortful control account for group differences in toddlerhood? Early Hum Dev, 88(5), 307-313. Voss, W., Neubauer, A. P., Wachtendorf, M., Verhey, J. F., & Kattner, E. (2007). Neurodevelopmental outcome in extremely low birth weight infants: what is the minimum age for reliable developmental prognosis? Acta Paediatr, 96(3), 342-347. Welsh, L., Kirkby, J., Lum, S., Odendaal, D., Marlow, N., Derrick, G., & Stocks, J. (2010). The EPICure study: maximal exercise and physical activity in school children born extremely preterm. Thorax, 65(2), 165-172. Westrup, B., Bohm, B., Lagercrantz, H., & Stjernqvist, K. (2004). Preschool outcome in children born very prematurely and cared for according to the Newborn Individualized Developmental Care and Assessment Program (NIDCAP). Acta Paediatr, 93(4), 498-507. Wu, Y. C., Hsieh, W. S., Hsu, C. H., Chang, J. H., Chou, H. C., Hsu, H. C., Chiu, N. C., Lee, W. T., Chen, W. J., Ho, Y. W., & Jeng, S. F. (2016). Intervention effects on emotion regulation in preterm infants with very low birth weight: A randomize controlled trial. Res Dev Disabil, 48, 1-12. Wu, Y. C., Leng, C. H., Hsieh, W. S., Hsu, C. H., Chen, W. J., Gau, S. S., Chiu, N. C., Yang, M. C., Li-Jung, F., Hsu, H. C., Yu, Y. T., Wu, Y. T., Chen, L. C., & Jeng, S. F. (2014). A randomized controlled trial of clinic-based and home-based interventions in comparison with usual care for preterm infants: effects and mediators. Res Dev Disabil, 35(10), 2384-2393. 衛生福利部國民健康署. (2017). 中華民國105年出生通報統計年報. Retrived October 17, 2017, from https://www.hpa.gov.tw/Pages/Detail.aspx?nodeid=649&pid=7658. | - |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/78877 | - |
dc.description.abstract | 背景與目的:早產兒是神經發展疾患的高危險群,可能伴隨負面的長期健康狀況。過去許多研究顯示早期介入對於早產兒有短期及中期的療效,不僅可以降低早產兒在新生兒時期的併發症並增加其生理穩定與成長,也有助於提升其在嬰幼兒時期的認知、動作發展與行為表現,然而目前對於長期療效的文獻則仍十分缺乏。本團隊過去建立一個臨床隨機試驗計劃,探討不同的早期介入計劃(以門診為基礎照護計劃、以家訪為基礎照護計劃、常規性照護計劃)對於極低出生體重(出生體重 < 1500公克)早產兒的療效。本篇計畫延續先前的研究,目的是要探討早期介入對於極低出生體重早產兒在學齡期的動作功能、肺功能、身體活動量、行為與健康生活品質之長期療效,並比較早產兒和足月兒在以上預後之差異。方法:本研究計劃徵召過去參與介入計畫的178名極低出生體重早產兒及62名足月兒,於9-10歲時加入追縱研究。本研究使用布魯茵克斯-歐西瑞斯基動作量表第二版評估兒童的動作功能,使用肺功能測試儀以評估兒童的肺功能,使用三維加速規紀錄器紀錄兒童在連續7日的身體活動量,使用兒童行為檢核表評量兒童的問題行為,並使用兒童健康生活品質問卷評估兒童的整體健康狀況以及對家庭的衝擊。結果:本研究共收錄62名極低出生體重早產兒,包括44名早期介入組與18名常規性照護組,以及17名足月兒。研究結果發現常規性照護組的極低出生體重早產兒在學齡期時與足月兒相比有較差的動作協調、肺功能、注意力與社交生活品質,並且其父母對於兒童有較多的擔憂。過去接受早期介入的極低體重早產兒在學齡期時則與足月兒有相似的動作功能、行為表現與健康生活品質,父母也無顯著較多的擔憂。早期介入組比常規組早產兒呈現較佳的整體動作功能(adjusted p=.002)、身體協調(adjusted p=.006) 、雙側協調(adjusted p=.01)以及平衡(adjusted p=.048)的表現,並且也改善父母對兒童的擔憂程度(adjusted p=.04)。結論:學齡期的極低出生體重兒比起足月兒童仍有較差的生理及心理健康預後,合併住院期與出院後的早期介入計畫對於極低出生體重兒的身心健康以及家庭衝擊上都有長期效益。針對早產兒的早期介入應以家庭為中心作為計畫內容設計之基礎,並於住院期間及早實施以利後續長期療效。 | zh_TW |
dc.description.abstract | Background and Purpose:Infants born preterm are at risk for neurodevelopmental disorders and adverse long-term health outcomes. Previous studies have shown short- to mid-term effects of early intervention for preterm children, however, the investigation of longer-term effects was rare. Our research team designed family-centered early intervention programs for preterm infants with very low birth weight (VLBW, birth weight <1,500 g) lasting from hospitalization to one year of corrected age and demonstrated their short-term developmental benefits compared to a usual care program in a randomized controlled trial. The purpose of the present study was to examine the long-term effects of these intervention programs on motor function, lung function, physical activity, problem behaviors and health-related quality of life (HRQoL) in VLBW preterm children at school age. A group of term children served as the normative reference. Methods: One hundred and seventy-eight VLBW preterm children and 62 full-term children who had participated in our previous intervention study were recruited at 9-10 years of age. Children’s motor function was examined using the Bruininks-Oseretsky Test of Motor Proficiency, Second Edition; lung function was measured by pulmonary function test with a computerized spirometer; physical activity was recorded for seven consecutive days using an accelerometer; behaviors were assessed using the Child Behavior Checklist; HRQoL was assessed using self-report and parent-proxy report of Pediatric Quality of Life Inventory (PedsQL). In addition, family impacts due to the child’s condition was assessed using the PedsQL- Family Impact Module (version 2.0). Results: Sixty-two VLBW preterm children (44 received early intervention, 18 received usual care) and 17 full-term children completed follow-up in this study. Compared to full-term children, VLBW preterm children who received usual care programs had significantly poorer motor performance, lung function, attention and social functioning (all adjusted p<.05). VLBW preterm children under early intervention were comparable with full-term children in most outcome measures and exhibited significantly better body coordination (adjusted p=.006), bilateral coordination (adjusted p=.01), balance (adjusted p=.048) and total motor performance (adjusted p=.002) than those under usual care programs. Tendencies of intervention favoring children’s lung function, emotional behaviors and social functioning were also noted. In addition to child outcomes, positive effect of early intervention was also revealed in reducing parental distress (adjusted p=.04). Conclusion: VLBW preterm children remained to show adverse outcomes in motor performance, lung function, behaviors and social functioning at school age. Family-centered early intervention including both in-hospital and after-discharge developmental care programs was effective to enhance both physical and psychosocial health of VLBW preterm children and to reduce parental distress at school age. Family-centered early intervention programs should be provided with comprehensive child-, parent, and dyad-focused services for preterm infants to enhance long-term outcomes of children and their families. | en |
dc.description.provenance | Made available in DSpace on 2021-07-11T15:26:02Z (GMT). No. of bitstreams: 1 ntu-107-R05428016-1.pdf: 3421471 bytes, checksum: 5c9f33474a902e0f7691d421c821b854 (MD5) Previous issue date: 2018 | en |
dc.description.tableofcontents | 論文口試委員審定書 i
致謝 ii 中文摘要 iii English Abstract v Chapter 1: Introduction 1 1.1 Lifelong Consequences of Preterm Birth 2 1.2 Health outcomes of children born preterm during school age 6 1.3 Early intervention for preterm children 9 1.4 Our previous early intervention study in VLBW preterm children in Taiwan 13 1.5 Research purposes, questions and hypotheses 15 Chapter 2: Methods 17 2.1 Participants 17 2.2 Measures and Testing Procedures 18 2.2.1 Motor performance 19 2.2.2 Lung function 20 2.2.3 Physical activity 21 2.2.4 Behaviors 23 2.2.5 Health-related quality of life 24 2.3 Statistical analysis 26 Chapter 3: Results 27 3.1 Participants 27 3.2 Motor performance of children during school age 28 3.3 Lung function of children during school age 28 3.4 Physical activity of children during school age 29 3.5 Problem behaviors of children during school age 29 3.6 HRQoL of children during school age 30 Chapter 4: Discussion 32 4.1 Outcomes of VLBW preterm children during school age 32 4.2 Effects of early intervention for VLBW preterm children during school age 35 4.2 Limitations 40 Chapter 5: Conclusion 42 References 43 Appendix 69 | - |
dc.language.iso | en | - |
dc.title | 早期介入對於早產兒在學齡期的動作功能、肺功能、身體活動量、行為與健康生活品質之療效 | zh_TW |
dc.title | Effects of Early Intervention for Preterm Infants at School Age: Motor Function, Lung Function, Physical Activity, Behavior and Health-Related Quality of Life | en |
dc.type | Thesis | - |
dc.date.schoolyear | 107-1 | - |
dc.description.degree | 碩士 | - |
dc.contributor.oralexamcommittee | 陳麗秋;王儷穎;曹伯年 | zh_TW |
dc.contributor.oralexamcommittee | Li-Chiou Chen;Li-Ying Wang;Po-Nien Tsao | en |
dc.subject.keyword | 早產,極低出生體重,早期介入,學齡期,成效, | zh_TW |
dc.subject.keyword | Preterm,Very low birth weight,Early intervention,school age,effectiveness, | en |
dc.relation.page | 78 | - |
dc.identifier.doi | 10.6342/NTU201803594 | - |
dc.rights.note | 未授權 | - |
dc.date.accepted | 2018-11-08 | - |
dc.contributor.author-college | 醫學院 | - |
dc.contributor.author-dept | 物理治療學研究所 | - |
dc.date.embargo-lift | 2024-03-11 | - |
顯示於系所單位: | 物理治療學系所 |
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