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Preterm Bebeklerde Oral Beslenmeyi Destekleyici Kanıta Dayalı Girişimler

Year 2017, Volume: 7 Issue: 4, 171 - 174, 15.12.2017

Abstract

Preterm bebeklerin oral beslenmesi, oral-motor, nörolojik, kardiyorespiratuar ve gastrointestinal sistemlerin etkileşiminden oluşan, karmaşık ve dinamik bir süreçtir. Preterm bebeklerin oral beslenmesi sırasında fizyolojik yönden stabil olmasını sağlayan bu sistemlerin birbirleri ile olan etkileşimleri bebeğin “bireysel organizasyonu” olarak adlandırılır. Bireysel organizasyon sağlanamadığında, beslenme ve solunumun koordinasyonu bozulur, solunumun olumsuz etkilenmesi bebeğin fizyolojik değerlerinde de değişim ve düzensizliğe neden olur. Bu duruma bağlı olarak beslenme sırasında bebekte erken dönemde fizyolojik stres ve yorgunluk belirtileri ortaya çıkar. Bebeğin beslenme yeteneğinin yetersiz olması hastaneden taburculuğu geciktirmekte, bu durum bebeğin yenidoğan yoğun bakım ünitesinin olumsuz çevresel koşullarından etkilenmesi ve enfeksiyon etkenlerine daha fazla maruz kalmasına neden olmaktadır. Ayrıca yetersiz beslenme bebeğin uzun vadede büyüme ve gelişmesinin gecikmesine neden olmaktadır. Preterm bebeklerin beslenme problemleri göz önünde bulundurularak başarılı ve güvenli bir oral beslenme deneyiminin oluşmasını sağlamak amacı ile yenidoğan hemşiresi bakımında terapötik girişimlere yer vermelidir. Bu derlemede preterm bebeklerde oral beslenmeyi destekleyici kanıta dayalı girişimler literatür bilgileri ışığında tartışılacaktır.

 

References

  • 1. Goldfield EC. A dynamical systems approach to infant oral feeding and dysphagia: From model system to therapeutic medical device. Ecol Psychol 2007; 19: 21-48. [Crossref] 2. Blackburn ST. Maternal, Fetal, & Neonatal Physiology: A Clinical Perspective. 3rd ed. St Louis: Saunders Elseiver; 2007. 3. Park J, Thoyre S, Knafl GJ, Hodges EA, Nix WB. Efficacy of semielevated side-lying positioning during bottle-feeding of very preterm infants. J Perinat Neonatal Nurs 2014; 28: 69-79. [Crossref] 4. Kirkby S, Greenspan JS, Kornhauser M, Schneiderman R. Clinical outcomes and cost of moderately preterm infant. Adv Neonatal Care 2007; 7: 80-7. [Crossref] 5. Thoyre SM. Feeding outcomes of extremely premature infants after neonatal care. J Obstet Gynecol Neonatal Nurs 2007; 36: 366-75. [Crossref] 6. Kirk AT, Alder SC, King JD. Cue-based oral feeding clinical pathway results in earlier attainment of full oral feeding in premature infants. J Perinatol 2007; 27: 572-8. [Crossref] 7. Dougherty D, Luther M. Birth to breast- a feeding care map for the NICU: Helping the extremely low birth weight infant navigate the course. Neonatal Netw 2008; 27: 371-7. [Crossref] 8. Thoyre S, Holditch-Davis D, Schwartz TA, Melendez Roman CR, Nix WB. Coregulated approach to feeding preterm infants with lung disease: Effects during feeding. Nurs Res 2012; 61: 242-51. [Crossref] 9. White A, Parnell K. The transition from tube to full oral feeding (breast or bottle): A cue-based developmental approach. J Neonatal Nurs 2013; 19: 189-97. [Crossref] 10. Fucile S, Gisel EG, McFarland DH, Lau C. Oral and non-oral sensorimotor interventions enhance oral feeding performance in preterm infants. Dev Med Child Neurol 2011; 53: 829-35. [Crossref] 11. Younesian S, Yadegari F, Soleimani F. Impact of oral sensory motor stimulation on feeding performance, length of hospital stay, and weight gain of preterm infants in NICU. Iran Red Crescent Med J 2015; 17: e13515. 12. Arvedson J, Clark H, Lazarus C, Schooling T, Frymark T. Evidence-based systematic review: Effects of oral motor interventions on feeding and swallowing in preterm infants. Am J Speech Lang Pathol 2010; 19: 321-40. [Crossref] 13. Pinelli J, Symington A. Non-nutritive sucking for promoting physiologic stability and nutrition in preterm infants. Cochrane Database Syst Rev 2010; 6: 1-34. 14. Clark J, Kennedy G, Pring T, Hird M. Improving bottle feeding in preterm infants: Investigating the elevated side-lying position. Infant 2007; 3: 154-8. 15. Ludwig SM, Waitzman KA. Changing feeding documentation to reflect infant-driven feeding practice. Newborn Infant Nurs Rev 2007; 7: 155-60. [Crossref] 16. Puckett B, Grover VK, Holt T, Sankaran K. Cue-based feeding for preterm infants: A prospective trial. Am J Perinatol 2008; 25: 623-8. [Crossref] 17. Shaker CS. Feed me only when I’m cueing: Moving away from a volume-driven culture in the NICU. Neonatal Intensive Care 2012; 25: 27-32. 18. Mizuno K, Nishida Y, Taki M, Hibino S, Murase M, Sakurai M, et al. Infants with bronchopulmonary dysplasia suckle with weak pressures to maintain breathing during feeding. Pediatrics 2007; 120: 1035-42. [Crossref] 19. Chang YJ, Lin CP, Lin YJ, Lin CH. Effects of single hole and cross-cut nipple units on feeding efficiency and physiological parameters in premature infants. J Nurs Res 2007; 15: 215-23. [Crossref] 20. Shaker CS. Improving feeding outcomes in the NICU: Moving from the volume-driven to infant-driven feeding. ASJA Journal 2009; 19: 68-74. 21. Shaker CS. Cue-based feeding in the NICU: Using the infant’s communication as a guide. Neonatal Netw 2013; 32: 404-8. [Crossref] 22. Morris AC, Gardner SL. Cue-based feeding: Evidence-based practice. Nurse Currents 2011; 5: 1-8. 23. Ross ES, Philbin MK. Supporting oral feeding in fragile infants: An evidence-based method for quality bottle-feedings of preterm, ill, and fragile infants. J Perinat Neonatal Nurs 2011; 25: 349-57. [Crossref] 24. Crosson DD, Pickler RH. An integrated review of the literature on demand feedings for preterm infants. Adv Neonatal Care 2004; 4: 216-25. [Crossref] 25. Holloway EM. The dynamic process of assessing infant feeding readiness. Newborn Infant Nurs Rev 2014; 14: 119-23. [Crossref] 26. Gewolb IH, Vice FL. Abnormalities in the coordination of respiration and swallow in preterm infants with bronchopulmonary dysplasia. Dev Med Child Neurol 2006; 48: 595-9. [Crossref] 27. Delaney AL, Arvedson JC. Development of swallowing and feeding: Prenatal through first year of life. Dev Disabil Res Rev 2008; 14: 105-17. [Crossref] 28. Fucile S, McFarland D, Gisel E, Lau C. Oral and nonoral sensorimotor interventions facilitate suck-swallow-respiration functions and their coordination in preterm infants. Early Hum Dev 2012; 88: 345-50. [Crossref] 29. Pimenta HP, Moreira ME, Rocha AD, Gomes SC, Pinto LW, Lucena SL. Effects of non-nutritive sucking and oral stimulation on breast-feeding rates for preterm, low-birth-weight infants: A randomized clinical trial. J Pediatr Rio 2008; 84: 423-7. [Crossref] 30. Fucile S, Gisel EG, Lau C. Effect of an oral stimulation program on sucking skill maturation of preterm infants. Dev Med Child Neurol 2005; 47: 158- 62. [Crossref] 31. Boiron M, Da Nobrega L, Roux S, Henrot A, Saliba E. Effects of oral stimulation and oral support on non-nutritive sucking and feeding performance in preterm infants. Dev Med Child Neurol 2007; 49: 439-44. [Crossref] 32. Lau C, Sheena HR, Shulman RJ, Schanler RJ. Oral feeding in low birth weight infants. J Pediatr 1997; 130: 561-9. [Crossref] 33. Hill AS. The effects of nonnutritive sucking and oral support on the feeding efficiency of preterm infants. Newborn Infant Nurs Rev 2005; 5: 133-41. [Crossref] 34. Harding C. An evaluation of the benefits of non-nutritive sucking for premature infants as described in the literature. Arch Dis Child 2009; 94: 636-40. [Crossref] 35. Yıldız A, Arıkan D. The effects of giving pacifiers to premature infants and making them listen to lullabies on their transition period for total oral feeding and sucking success. J Clin Nurs 2010; 21: 644-56. [Crossref] 36. White-Traut RC, Nelson MN, Silvestrini JM. Effect of auditory, tactile, visual and vestibular intervention on length of stay, alertness and feeding progression in preterm infants. Dev Med Child Neurol 2002; 44: 91-7. [Crossref] 37. Pickler RH, Chiaranai C, Reyna BA. Relationship of the first suck burst to feeding outcomes in preterm infants. J Perinat Neonatal Nurs 2006; 20: 157-62. [Crossref] 38. Thoyre S, Carlson J. Occurrence of oxygen desaturation events during preterm infant bottle feeding near discharge. Early Hum Dev 2003; 72: 25-36. [Crossref] 39. Dawson JA, Myers LR, Moorhead A, Jacobs SE, Ong K, Salo F, et al. A randomized trial of two techniques for bottle feeding preterm infants. J Paediatr Child Health 2013; 49: 462-6. [Crossref] 40. Litman RS, Wake N, Chan LM, McDonough JM, Sin S, Mahboubi S, et al. Effects of lateral positioning on upper airway size and morphology in sedated children. Anesthesiology 2005; 103: 484-8. [Crossref] 41. Aykanat Girgin B, Gözen D. Comparison of the effect of feeding method of preterm ınfants at two different positions on some physiological characteristics: A randomized controlled study. Eur J Pediatr Supp EAPS Congress 2016; 0408: 355.

Evidence-Based Interventions Supporting Oral Feeding in Preterm Infants

Year 2017, Volume: 7 Issue: 4, 171 - 174, 15.12.2017

Abstract

The oral feeding of preterm infants is a complicated and dynamic process involving interactions of the oral motor, neurological, cardiorespiratory, and gastrointestinal systems. Interactions of these systems, which allow preterm infants to become physiologically stable during oral feeding, are called as “self-organization” of infants. When self-organization could not be ensured, feeding and respiratory coordination is disrupted and the negatively affected respiration also causes change and irregularity in physiological values of infants. Based on this situation, infants have physiological stress and fatigue symptoms in the early period during feeding. The insufficient feeding ability of infants delays their discharge from hospital, and this causes infants to be influenced by the negative environmental conditions of neonatal intensive care units and be more exposed to infectious agents. Insufficient feeding also results in delayed growth and development of infants in the long term. Neonatal nurses should involve therapeutic interventions in infant care to establish a successful and safe oral feeding experience by considering feeding problems of preterm infants. In this review, evidence-based interventions supporting oral feeding in preterm infants will be discussed in light of the literature.

References

  • 1. Goldfield EC. A dynamical systems approach to infant oral feeding and dysphagia: From model system to therapeutic medical device. Ecol Psychol 2007; 19: 21-48. [Crossref] 2. Blackburn ST. Maternal, Fetal, & Neonatal Physiology: A Clinical Perspective. 3rd ed. St Louis: Saunders Elseiver; 2007. 3. Park J, Thoyre S, Knafl GJ, Hodges EA, Nix WB. Efficacy of semielevated side-lying positioning during bottle-feeding of very preterm infants. J Perinat Neonatal Nurs 2014; 28: 69-79. [Crossref] 4. Kirkby S, Greenspan JS, Kornhauser M, Schneiderman R. Clinical outcomes and cost of moderately preterm infant. Adv Neonatal Care 2007; 7: 80-7. [Crossref] 5. Thoyre SM. Feeding outcomes of extremely premature infants after neonatal care. J Obstet Gynecol Neonatal Nurs 2007; 36: 366-75. [Crossref] 6. Kirk AT, Alder SC, King JD. Cue-based oral feeding clinical pathway results in earlier attainment of full oral feeding in premature infants. J Perinatol 2007; 27: 572-8. [Crossref] 7. Dougherty D, Luther M. Birth to breast- a feeding care map for the NICU: Helping the extremely low birth weight infant navigate the course. Neonatal Netw 2008; 27: 371-7. [Crossref] 8. Thoyre S, Holditch-Davis D, Schwartz TA, Melendez Roman CR, Nix WB. Coregulated approach to feeding preterm infants with lung disease: Effects during feeding. Nurs Res 2012; 61: 242-51. [Crossref] 9. White A, Parnell K. The transition from tube to full oral feeding (breast or bottle): A cue-based developmental approach. J Neonatal Nurs 2013; 19: 189-97. [Crossref] 10. Fucile S, Gisel EG, McFarland DH, Lau C. Oral and non-oral sensorimotor interventions enhance oral feeding performance in preterm infants. Dev Med Child Neurol 2011; 53: 829-35. [Crossref] 11. Younesian S, Yadegari F, Soleimani F. Impact of oral sensory motor stimulation on feeding performance, length of hospital stay, and weight gain of preterm infants in NICU. Iran Red Crescent Med J 2015; 17: e13515. 12. Arvedson J, Clark H, Lazarus C, Schooling T, Frymark T. Evidence-based systematic review: Effects of oral motor interventions on feeding and swallowing in preterm infants. Am J Speech Lang Pathol 2010; 19: 321-40. [Crossref] 13. Pinelli J, Symington A. Non-nutritive sucking for promoting physiologic stability and nutrition in preterm infants. Cochrane Database Syst Rev 2010; 6: 1-34. 14. Clark J, Kennedy G, Pring T, Hird M. Improving bottle feeding in preterm infants: Investigating the elevated side-lying position. Infant 2007; 3: 154-8. 15. Ludwig SM, Waitzman KA. Changing feeding documentation to reflect infant-driven feeding practice. Newborn Infant Nurs Rev 2007; 7: 155-60. [Crossref] 16. Puckett B, Grover VK, Holt T, Sankaran K. Cue-based feeding for preterm infants: A prospective trial. Am J Perinatol 2008; 25: 623-8. [Crossref] 17. Shaker CS. Feed me only when I’m cueing: Moving away from a volume-driven culture in the NICU. Neonatal Intensive Care 2012; 25: 27-32. 18. Mizuno K, Nishida Y, Taki M, Hibino S, Murase M, Sakurai M, et al. Infants with bronchopulmonary dysplasia suckle with weak pressures to maintain breathing during feeding. Pediatrics 2007; 120: 1035-42. [Crossref] 19. Chang YJ, Lin CP, Lin YJ, Lin CH. Effects of single hole and cross-cut nipple units on feeding efficiency and physiological parameters in premature infants. J Nurs Res 2007; 15: 215-23. [Crossref] 20. Shaker CS. Improving feeding outcomes in the NICU: Moving from the volume-driven to infant-driven feeding. ASJA Journal 2009; 19: 68-74. 21. Shaker CS. Cue-based feeding in the NICU: Using the infant’s communication as a guide. Neonatal Netw 2013; 32: 404-8. [Crossref] 22. Morris AC, Gardner SL. Cue-based feeding: Evidence-based practice. Nurse Currents 2011; 5: 1-8. 23. Ross ES, Philbin MK. Supporting oral feeding in fragile infants: An evidence-based method for quality bottle-feedings of preterm, ill, and fragile infants. J Perinat Neonatal Nurs 2011; 25: 349-57. [Crossref] 24. Crosson DD, Pickler RH. An integrated review of the literature on demand feedings for preterm infants. Adv Neonatal Care 2004; 4: 216-25. [Crossref] 25. Holloway EM. The dynamic process of assessing infant feeding readiness. Newborn Infant Nurs Rev 2014; 14: 119-23. [Crossref] 26. Gewolb IH, Vice FL. Abnormalities in the coordination of respiration and swallow in preterm infants with bronchopulmonary dysplasia. Dev Med Child Neurol 2006; 48: 595-9. [Crossref] 27. Delaney AL, Arvedson JC. Development of swallowing and feeding: Prenatal through first year of life. Dev Disabil Res Rev 2008; 14: 105-17. [Crossref] 28. Fucile S, McFarland D, Gisel E, Lau C. Oral and nonoral sensorimotor interventions facilitate suck-swallow-respiration functions and their coordination in preterm infants. Early Hum Dev 2012; 88: 345-50. [Crossref] 29. Pimenta HP, Moreira ME, Rocha AD, Gomes SC, Pinto LW, Lucena SL. Effects of non-nutritive sucking and oral stimulation on breast-feeding rates for preterm, low-birth-weight infants: A randomized clinical trial. J Pediatr Rio 2008; 84: 423-7. [Crossref] 30. Fucile S, Gisel EG, Lau C. Effect of an oral stimulation program on sucking skill maturation of preterm infants. Dev Med Child Neurol 2005; 47: 158- 62. [Crossref] 31. Boiron M, Da Nobrega L, Roux S, Henrot A, Saliba E. Effects of oral stimulation and oral support on non-nutritive sucking and feeding performance in preterm infants. Dev Med Child Neurol 2007; 49: 439-44. [Crossref] 32. Lau C, Sheena HR, Shulman RJ, Schanler RJ. Oral feeding in low birth weight infants. J Pediatr 1997; 130: 561-9. [Crossref] 33. Hill AS. The effects of nonnutritive sucking and oral support on the feeding efficiency of preterm infants. Newborn Infant Nurs Rev 2005; 5: 133-41. [Crossref] 34. Harding C. An evaluation of the benefits of non-nutritive sucking for premature infants as described in the literature. Arch Dis Child 2009; 94: 636-40. [Crossref] 35. Yıldız A, Arıkan D. The effects of giving pacifiers to premature infants and making them listen to lullabies on their transition period for total oral feeding and sucking success. J Clin Nurs 2010; 21: 644-56. [Crossref] 36. White-Traut RC, Nelson MN, Silvestrini JM. Effect of auditory, tactile, visual and vestibular intervention on length of stay, alertness and feeding progression in preterm infants. Dev Med Child Neurol 2002; 44: 91-7. [Crossref] 37. Pickler RH, Chiaranai C, Reyna BA. Relationship of the first suck burst to feeding outcomes in preterm infants. J Perinat Neonatal Nurs 2006; 20: 157-62. [Crossref] 38. Thoyre S, Carlson J. Occurrence of oxygen desaturation events during preterm infant bottle feeding near discharge. Early Hum Dev 2003; 72: 25-36. [Crossref] 39. Dawson JA, Myers LR, Moorhead A, Jacobs SE, Ong K, Salo F, et al. A randomized trial of two techniques for bottle feeding preterm infants. J Paediatr Child Health 2013; 49: 462-6. [Crossref] 40. Litman RS, Wake N, Chan LM, McDonough JM, Sin S, Mahboubi S, et al. Effects of lateral positioning on upper airway size and morphology in sedated children. Anesthesiology 2005; 103: 484-8. [Crossref] 41. Aykanat Girgin B, Gözen D. Comparison of the effect of feeding method of preterm ınfants at two different positions on some physiological characteristics: A randomized controlled study. Eur J Pediatr Supp EAPS Congress 2016; 0408: 355.
There are 1 citations in total.

Details

Primary Language Turkish
Subjects Health Care Administration
Journal Section Articles
Authors

Duygu Gözen This is me

Burcu Aykanat Girgin

Publication Date December 15, 2017
Submission Date January 19, 2017
Published in Issue Year 2017 Volume: 7 Issue: 4

Cite

APA Gözen, D., & Aykanat Girgin, B. (2017). Preterm Bebeklerde Oral Beslenmeyi Destekleyici Kanıta Dayalı Girişimler. Clinical and Experimental Health Sciences, 7(4), 171-174.
AMA Gözen D, Aykanat Girgin B. Preterm Bebeklerde Oral Beslenmeyi Destekleyici Kanıta Dayalı Girişimler. Clinical and Experimental Health Sciences. December 2017;7(4):171-174.
Chicago Gözen, Duygu, and Burcu Aykanat Girgin. “Preterm Bebeklerde Oral Beslenmeyi Destekleyici Kanıta Dayalı Girişimler”. Clinical and Experimental Health Sciences 7, no. 4 (December 2017): 171-74.
EndNote Gözen D, Aykanat Girgin B (December 1, 2017) Preterm Bebeklerde Oral Beslenmeyi Destekleyici Kanıta Dayalı Girişimler. Clinical and Experimental Health Sciences 7 4 171–174.
IEEE D. Gözen and B. Aykanat Girgin, “Preterm Bebeklerde Oral Beslenmeyi Destekleyici Kanıta Dayalı Girişimler”, Clinical and Experimental Health Sciences, vol. 7, no. 4, pp. 171–174, 2017.
ISNAD Gözen, Duygu - Aykanat Girgin, Burcu. “Preterm Bebeklerde Oral Beslenmeyi Destekleyici Kanıta Dayalı Girişimler”. Clinical and Experimental Health Sciences 7/4 (December 2017), 171-174.
JAMA Gözen D, Aykanat Girgin B. Preterm Bebeklerde Oral Beslenmeyi Destekleyici Kanıta Dayalı Girişimler. Clinical and Experimental Health Sciences. 2017;7:171–174.
MLA Gözen, Duygu and Burcu Aykanat Girgin. “Preterm Bebeklerde Oral Beslenmeyi Destekleyici Kanıta Dayalı Girişimler”. Clinical and Experimental Health Sciences, vol. 7, no. 4, 2017, pp. 171-4.
Vancouver Gözen D, Aykanat Girgin B. Preterm Bebeklerde Oral Beslenmeyi Destekleyici Kanıta Dayalı Girişimler. Clinical and Experimental Health Sciences. 2017;7(4):171-4.

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