Abdulkader Huda M, Freer Yvonne, Fleetwood-Walker Susan M, McIntosh Neil
Department of Child Life and Health, University of Edinburgh, Edinburgh, UK.
Neonatology. 2008;94(1):38-44. doi: 10.1159/000112948. Epub 2008 Jan 9.
The newborn infant's response to stimulation with von Frey filaments has previously been examined only at the spinal level as the flexion withdrawal response or abdominal reflex. The threshold for the spinal responses has been shown to be lower following skin damage and visceral pathology. Higher forces of mechanical stimulation elicit other body responses, which are likely to arise from higher levels in the nervous system: these have not been investigated before.
To investigate the newborn infants' responses to increasing forces of mechanical (von Frey filament) stimulation and whether their progression is affected by repeated heel prick.
The study was performed in 31 full term and 77 preterm infants. Graded mechanical forces (using von Frey filaments) were applied to the heels and the abdominal skin. The thresholds for the flexion withdrawal reflex or abdominal reflex and other body responses were recorded.
The thresholds for the flexion withdrawal reflex and other body movements to graded mechanical force on the heel were significantly lower in preterm infants compared to full term infants. The threshold for the abdominal reflex and other body responses from graded mechanical stimulation of the abdomen was also significantly lower in preterm infants. In all infants thresholds were further reduced following sensitisation from previous heel pricks. The progression of the responses is independent of gestation or prior sensitisation.
Both preterm and full term newborn infants respond to graded mechanical stimuli by a series of body responses, which progress in response to increasing force from a simple spinal withdrawal reflex to more complex responses involving higher levels of the central nervous system.
此前仅在脊髓水平研究过新生儿对用von Frey细丝进行刺激的反应,即屈曲退缩反应或腹壁反射。已表明在皮肤损伤和内脏病变后,脊髓反应的阈值会降低。更高强度的机械刺激会引发其他身体反应,这些反应可能源于神经系统的更高水平:此前尚未对此进行研究。
研究新生儿对逐渐增加强度的机械(von Frey细丝)刺激的反应,以及其进展是否受重复足跟采血的影响。
该研究对31名足月儿和77名早产儿进行。将分级机械力(使用von Frey细丝)施加于足跟和腹部皮肤。记录屈曲退缩反射或腹壁反射以及其他身体反应的阈值。
与足月儿相比,早产儿足跟对分级机械力的屈曲退缩反射和其他身体运动的阈值显著更低。早产儿腹部分级机械刺激引起的腹壁反射和其他身体反应的阈值也显著更低。在所有婴儿中,先前足跟采血致敏后阈值进一步降低。反应的进展与孕周或先前致敏无关。
足月儿和早产儿对分级机械刺激均通过一系列身体反应做出反应,这些反应随着力量增加从简单的脊髓退缩反射发展为涉及中枢神经系统更高水平的更复杂反应。