PLoS ONE (Jan 2022)

Tactile sensitivity and motor coordination in infancy: Effect of age, prior surgery, anaesthesia & critical illness.

  • Laura Cornelissen,
  • Ellen Underwood,
  • Laurel J Gabard-Durnam,
  • Melissa Soto,
  • Alice Tao,
  • Kimberly Lobo,
  • Takao K Hensch,
  • Charles B Berde

DOI
https://doi.org/10.1371/journal.pone.0279705
Journal volume & issue
Vol. 17, no. 12
p. e0279705

Abstract

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BackgroundTactile sensitivity in the infant period is poorly characterized, particularly among children with prior surgery, anaesthesia or critical illness. The study aims were to investigate tactile sensitivity of the foot and the associated coordination of lower limb motor movement in typically developing infants with and without prior hospital experience, and to develop feasible bedside sensory testing protocols.Materials and methodsA prospective, longitudinal study in 69 infants at 2 and 4 months-old, with and without prior hospital admission. Mechanical stimuli were applied to the foot at graded innocuous and noxious intensities. Primary outcome measures were tactile and nociceptive threshold (lowest force required to evoke any leg movement, or brisk leg withdrawal, respectively), and specific motor flexion threshold (ankle-, knee-, hip-flexion). Secondary analysis investigated (i) single vs multiple trials reliability, and (ii) the effect of age and prior surgery, anaesthesia, or critical illness on mechanical threshold.ResultsMagnitude of evoked motor activity increased with stimulus intensity. Single trials had excellent reliability for knee and hip flexion at age 1-3m and 4-7m (ICC range: 0.8 to 0.98, p >0.05). Nociceptive threshold varied as a function of age. Tactile sensitivity was independent of age, number of surgeries, general anaesthesia and ICU stay.ConclusionsThis brief sensory testing protocol may reliably measure tactile and nociceptive reactivity in human infants. Age predicts nociceptive threshold which likely reflects ongoing maturation of spinal and supraspinal circuits. Prior hospital experience has a negligible global effect on sensory processing demonstrating the resilience of the CNS in adverse environments.