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Neonatal and Pediatric Medicine | Volume: 04

October 25-26, 2018 | Prague, Czech Republic

World Neonatology and Child Care Meeting

Noise exposure in neonatal intensive care unit (NICU) and during neonatal transport: effects and

effectiveness of noise protection

Nurul H Aminudin

1,2

, Franta J

2

, Bowden A

2

, Corcoran D

1

, El-Khuffash A

1

and

McCallion N

3

1

Rotunda Hospital, Ireland

2

National Neonatal Transport Programme (NNTP), Ireland

3

Royal College of Surgeons in Ireland, (RCSI), Ireland

Aim:

Noise is a hazard and exposes sick neonates to potential hearing loss, autonomic disturbance and behavioural changes. Safe

environmental sound pressure levels (SPL) should not exceed 45 dB (decibel) in neonatal ICUs (NICU). Noise reduction strategies

are not routinely used. This study looked at SPLs in NICU and transport situations with mannequins, and the effects of noise levels

on real patients during inter-hospital transfer.

Methods:

For mannequin studies, a 4-channel sound level meter was connected to 3 microphones, measuring simultaneously

continuous SPL in decibels-A (dBA) from the patient ear, inside and outside the incubator and then repeated the measurements

with noise protective equipment (standard headphone or active noise cancelling). Similar methods were used for patient studies with

additional pulse oximetry recording. Data were analysed using specialist software and SPSS v.24®.

Results:

Noise levels represented in (dBA) were described as peak SPL (Lpeak) and total sound energy (Leq). In the NICU mean

Lpeak was 59.5 (at ear), 66.7 (incubator) and 73.8 (outside incubator) and the mean Leq was 44.1 (at ear), 52.8 (incubator) and 58.9

(outside incubator). During transport, mean Lpeak was 69.4 (at ear), 76.6 (incubator) and 83.1 (outside incubator) and mean Leq was

53.3 (at ear), 61.4 (incubator) and 66.2 (outside incubator). Mean (SD) environmental SPL (dBA) were 84.4 (6.9%), 76.1(8.6%) in the

incubator and 72.2(7.7%) at the infant ear. 80.8% of external noise was transmitted to the infant ear in the NICU simulation, reducing

to 78.1% with headphones and 74.8% with ANC protection. In transport, similar reductions were seen: 87.1% of environmental

SPL at the ear, reducing to 72.1% with ANC (p<0.05) but with an unexpected increase when standard headphones were used. 10%

of real patient recording time showed SPL >80, which is considered harmful. There was no clinical significant difference in oxygen

saturations with SPL>80. However, heart rate was significantly higher (139 vs. 148, p<0.001).

Conclusion:

SPLs detected at the neonatal ear in the NICU and during transport exceed recommended safe levels. 10% of SPLs

recorded exceed 80dBA and these episodes were associated with a raised heart rate. Active noise cancelling equipment reduces SPL

exposure for neonates during transfer. Further study is required.

Neonat Pediatr Med 2018, Volume: 04

10.4172/2572-4983-C2-006