Space for infant, family and staff: Fröst P Lighting: White R Acoustic environment: Sizun J Materials: Bambang Oetomo S Patient safety: Mohns T
Chair Team
Moen A, Hallberg B
Reviewers
Druart D, Ewald U, Ferrari F, Garzuly-Rieser T, Kuhn P
Click on the image to read the standard in brief.
Target group
Infants, parents, families, and unit staff
User group
Neonatal units, hospitals, health services, healthcare planners, architects, technical staff, manufacturers, and other relevant stakeholders
Statement of standard
A NICU is designed to support safety and healing through unrestricted parental presence, use of sensory supportive material and optimal working facilities, promoting close collaboration between families and staff in caring for the ill infant.
Rationale
NICU design comprises the built environment of a neonatal unit which aims at evidence-based design supporting family-centred care, safe and optimal working conditions for staff, and other relevant aspects of clinical practice, e.g. appropriate lighting and acoustic environment.
The optimal locus of care for most infants is in a room with their parents. (1) Evidence supports a NICU design with enough single-family rooms to accommodate all families who wish to stay with their infant(s). (1) Single-family rooms lead to better outcomes for the infant and reduced costs when the family is present for extended periods. (2) Single room care can reduce noise, ensure privacy for the infant and their family, is a better environment to prevent infections. (3–6) and may ameliorate or protect the infant from short- and long-term consequences of stress caused by intensive care treatment. (7–9) Parental presence is higher in NICUs providing facilities for overnight stay for the parents. (3,10) A “bed-in-a-unit” architecture for parent-infant closeness in NICUs is therefore important. (10) In settings where families are rarely present and staff resources are strictly limited, the NICU may also contain rooms with more than one patient-bed to accommodate those infants whose families are not present most of the time. (3,10) Also in these settings, enough space and facilities for parental presence and skin-to-skin care is a pre-requisite. (1,11) Each hospital planning team will use their demographics to determine the appropriate mix of beds in multi- and single-family rooms. (11) Other aspects of NICU design which should be taken into account concern lighting and acoustic performance. Appropriate lighting levels within the NICU that optimise the ability of staff to perform care while meeting the health needs of patients, their families, and their caregivers are required. The build environment should be designed to avoid auditory discomfort and adverse effects on development, and should absorb a high level of background noise (above the hourly Leq 45 dBA threshold). (12) All materials used for patients (including monitoring devices) should be designed to minimise discomfort.
Benefits
Short-term benefits
Improved medical outcomes (3,13–16)
Minimised separation between infants and parents (3,10)
24/7 skin-to-skin care and improved physiologic stability (17,18)
Improved comfort and sleep for infants (19–22)
More attractive environment for prolonged presence for parents (20)
Encouraged parent involvement from the first day since parents can participate in the infant’s care, both during intensive care and in a family room (consensus)
Supported physical and mental well-being of newborn infants, their families, and the hospital staff by lighting with appropriate intensity, spectrum, location, and diurnal cycling (23)
Improved family satisfaction (15,16)
Enhanced clinician’s abilities to perform direct and indirect patient care tasks accurately while minimising visual difficulties (24)
Reduced length of hospital stay by cycled lighting (10,25)
More attractive working environment for healthcare professionals (26)
Improved nurse satisfaction (15,16)
Long-term benefits
Improved neuro-development (27)
Facilitated parent-infant interaction and developmental care (28)
Components of the standard
Component
Grading of evidence
Indicator of meeting the standard
For parents and family
Parents and family are informed by healthcare professionals about principles of the general layout of the unit and are part of the planning process for NICU design.
B (High quality)
Guideline, parent feedback, patient information sheet1
Structural barriers to family presence and participation in the care of their infant are avoided. (10,19)
A (Moderate quality) B (High quality)
Guideline
For healthcare professionals and relevant stakeholders
The monitoring/workstation are designed so that the patient/family or vital parameters can easily be followed by healthcare professionals while maintaining privacy. (29)
A (Low quality)
Guideline
For neonatal unit and hospital
The principles of the general layout and facilities within a NICU are agreed between planners, hospital, NICU staff, and parent representatives before commencing the planning process.
B (Moderate quality)
Guideline
The NICU is located in close proximity to the obstetric department to facilitate ease of transportation to the NICU. (30)
A (Moderate quality)
Audit report2
Space for infant, family and staff
Multiple-bed rooms have a minimal space of 18 m² per patient (10,19,31–33); single-family rooms have a minimal space of 24 m², taking into account family integrity and privacy and providing at least enough room for (10,13,32):
At least one comfortable and reclining chair (1)
Hospital bed
Lockable wardrobe
Easy access to rest-rooms and bathroom
Technical equipment
Ability for multiple care staff staying in the room at the same time
A (Moderate quality) B (High quality)
Guideline, parent feedback
The stationary medical equipment is arranged and mounted with flexibility to allow easy transfer of the patient from incubator/cot to parents’ chest for skin-to-skin care.
A (Low quality)
Guideline
An additional separate parent sleeping facility including easy access to rest-rooms and shower are located close to the neonatal unit.
B (Moderate quality)
Guideline, parent feedback
Family facilities including kitchen, laundry room, socialising lounge, and playroom for siblings close to the unit are available. (1)
A (Moderate quality) B (Moderate quality)
Guideline, parent feedback
A barrier-free room with window for expression is available within the NICU, providing:
Sinks with equipment (soap, towel and disinfectant dispenser)
Access to a human milk bank is ensured and a milk preparation room is integrated into the NICU.
B (Moderate quality)
Guideline
Bereavement space with window and space to stay with the infant after death, including a cooling facility, is provided in a culturally and spiritually appropriate design
B (High quality)
Guideline, parent feedback
The spatial organisation of the NICU is decentralised with distributed support spaces, medication, disinfection, and storage etc.
B (Moderate quality)
Guideline
Free opening dimension to patient room varies between 1600 mm-2000 mm depending on the turning radius of a caregiver’s bed and corridor width.
B (Moderate quality)
Guideline
Private rooms for parent counselling are available on the ward.
B (High quality)
Guideline
Acoustically separate rooms for professional, administrative and personal needs providing privacy and reducing noise in the NICU.
B (Moderate quality)
Guideline, healthcare professional feedback
Wall colors radiating comfort and homeliness are used adapted to cultural values.
B (High quality)
Guideline
Lighting
Lighting within a NICU are agreed between planners, hospital, NICU staff, and parent representatives before commencing the planning process, including the following principles: (see description)
Ambient lighting levels in infant spaces are adjustable
Separate procedure lighting is mounted at each infant bed
Illumination of support areas conforms to published specifications. (33)
B (High quality)
Guideline
Light sources have an appropriate color spectrum and are positioned in a way that will minimise glare, shadowing, and flicker. (35)
A (Moderate quality) B (Moderate quality)
Guideline
Switching and dimming options are provided to allow adjustment of lighting levels for utility, comfort, and circadian stimulus. (35)
A (Moderate quality) B (Moderate quality)
Guideline
Parents have ready access to daylight without having to leave the NICU. (1,32,36,37)
A (High quality)
Guideline
Accoustic environment
Sound-absorbing materials are used for building or renovating NICUs, e.g. wall and ceiling finishes; floor surface; furnishing; doors; windows. (32,38,39)
A (High quality)
Guideline
Appropriate ventilation, humidification, air conditioning and heating system with high-efficiency particle air (HEPA) filtration taking into account noise levels, is provided. (40)
A (High quality)
Guideline
Patient safety
In patient rooms, sinks with equipment (soap, towel, and disinfectant dispenser) and space for gloves, disposable apron/smock, visors and surface disinfectants are available. The sink is placed visibly by staff walking routes and with barrier-free access. In addition, equipment for hand disinfection are available at points of care. (32,41,42)
A (Moderate quality) B (Moderate quality)
Guideline
An antechamber/airlock (isolation room) is provided in at least one single-family room. It is equipped with a sink, facilities for hand disinfection, respiratory protection, apron and surface disinfectants and cabinet/shelf for nearby storage of textiles.
B (Moderate quality)
Guideline
In single-family room units, a high-level central monitoring system including a hand-held distributed alarm management system is implemented.
B (High quality)
Guideline
Materials
The whole NICU (e.g. wall and ceiling finishes; floor surface; furnishing; doors; windows) is designed so that it is:
Easy to clean
Can withstand cleaning and disinfection
Germ resistant
Free of harmful substances
B (High quality)
Guideline
For health service
A national guideline on the space and layout requirements for a new NICU is available and regularly updated.
B (High quality)
Guideline
1The indicator ‘patient information sheet’ is an example for written, detailed information, in which digital solutions are included, such as web-based systems, apps, brochures, information leaflets, and booklets.
2The indicator ‘audit report” can also be defined as a benchmarking report.
Where to go
Further development
Grading of evidence
For parents and family
Couplet Care: the post-partum mother and the infant are cared for in the same room after birth.
B (Moderate quality)
Electronic links with their infant and healthcare professionals are provided for parents when they are unable to be at the bedside.
B (Moderate quality)
For healthcare professionals
N/A
For neonatal unit
Closely monitor developments in research on NICU design and operation and incorporate new evidence into existing structures whenever feasible.
B (Moderate quality)
Closely monitor new developments on unobtrusive and wireless monitoring, paying respect to avoid pain and stress caused by adhesive electrodes.
B (Moderate quality)
For hospital
Monitor design standards of the NICU not being inferior to similar care areas in a hospital for infants/children and adults.
B (Moderate quality)
Provide readily-accessible, protected outside garden, balcony, or atrium for families and staff to use without leaving the hospital grounds.
B (Moderate quality)
For health service
Plan design standards and resources covering the care needs of all newborn infants needing intensive care in the administrative uptake area, limiting unnecessary transfers to other levels/hospitals of pregnant women or their infant.
B (Moderate quality)
Getting started
Initial steps
For parents and family
Parents are involved from the earliest steps in the process of re-design/re-arrangement of the NICU in order to ensure that their needs are met.
Furniture that supports family presence (foldable beds, chairs for skin-to-skin care and breastfeeding) is provided.
Interior design is used to promote comfort and stress reduction.
A room for parents to relax and to prepare food and drinks is provided.
Parents are encouraged to form a support group that identifies shortcomings of the current NICU and advocates for change-in-place wherever possible.
For healthcare professionals
Be aware of new concepts of NICU design through site visits, literature review, and conference presentations to begin thinking beyond the current situation and imagine the NICU of the future to be able to create a design that is not obsolete soon after completion.
Protect newborn infants from bright, direct lighting by use of an incubator cover and by shielding the eyes during a procedure.
Assure diurnal cycled lighting by exposure to 250-600 lux light levels during the day, <100 lux at night.
For neonatal unit
Provide hygiene-alcohol dispensers at point of use.
Evaluate and improve the acoustic environment, if needed.
For hospital
Secure close and safe transportation paths to and from obstetric department.
Improve signage for orientation of parents and families.
Benchmark and visit units that have already gone through a re(building) process.
Use sound-absorbing materials for renovating or building NICUs.
Improve acoustics with absorbing material in ceiling, on walls etc.
For health service
Develop and implement a national guideline on the space, layout, lighting, and acoustic requirements for a new NICU.
Space for infant, family and staff
Depending on the NICU department size, it is important how to organise support spaces, medication, disinfection, storage, parent’s kitchen etc. By decentralising the department so that the necessary resources are added within delimited units, personnel thus not need to walk unnecessarily long distances.
The bed/cot are placed so that the patient/parent can see who enters the room. This can support the feeling of control.
Placing the patient in single rooms reduces the spread of infection between patients. Single patient rooms with anteroom can prevent droplet infection, contact infection and airborne infection between patients. Single rooms with airlock can prevent airborne infections. The lock should be such that air is prevented from passing between patient room and corridor and conversely so that the room can serve as both isolations of and from infectious patients. The lock must be dense.
It also contains easily adjustable workstations, tables and chairs. Materials and medicines, that are often used for patient care, are easily accessible from the patient/parent room and/or workstation.
It is important to have good view into the patient/parent room towards the patient. But the patient’s/parent´s privacy needs to be protected when the wall is transparent into the room.
A significant number of studies suggest that the ability to view nature from the built environment has a positive impact. It helps to reduce stress, promote more positive emotions and support recovery. The ability to look towards nature in the NICU can affect staff performance and increase their well-being. Informal, spontaneous meetings with nature views act as a positive diversion and stress reduction.
Humidity and temperature are important for the perception of the environment in the department and thereby affect patients. Undesirable or unpleasant odours can increase the stress levels of patients/family. This can be reduced by good ventilation and access to fresh air from the outside.
Lighting
The following principles regarding lighting should be taken into account in NICU planning:
Ambient lighting levels in infant spaces are adjustable through a range of at least 10 to no more than 600 lux. A color rendering index of no less than 80 and a gamut area of no less than 80 and no greater than 100 is available. Unnecessary ultraviolet or infrared radiation is avoided by the use of appropriate lamps, lens or filters. (11) Lighting fixtures are easily cleaned.
Separate procedure lighting is mounted at each infant bed. The luminaire is capable of providing no less than 2000 lux and is framed so that no more than 2% of the light output of the luminaire extends beyond its illumination field. This lighting is adjustable so that lighting at less than maximal levels can be provided.
Illumination of support areas within the NICU, including the charting areas, medication preparation area, the reception desk and handwashing areas is conformed to published specifications. (34)
Ready access to daylight and nature without having to leave the NICU is ensured: At least one source of natural daylight is visible from an infant space or room, either from an exterior window or exterior clerestory located at each infant space or in each room, or from an exterior window or exterior clerestory in the staff work area adjacent to the infant space or room. Exterior window(s) located at an infant space or room are glased with insulating glass to minimise heat gain or loss, and situated at least 0.6 m away from any part of an infant’s bed to minimise radiant heat gain or loss. All external windows are equipped with shading devices that are neutral color to minimise color distortion from transmitted light.
Acoustic environment
The impact of sound reduction on short term medical outcomes, on sleep patterns at three months of age, on staff performance and on parents’ satisfaction with the care needs to be evaluated in large and well-designed trials. (43) However, such trials are difficult to conduct for practical and ethical reasons. Thus, recommendations are based on the precautionary principle, as is common in environmental science. (44)
The US standards on NICU design (11) recommend that in newborn infant rooms, the sound level shall not exceed an hourly equivalent sound level (Leq) of 45 dBA, sounds should not exceed 50 dBA more than 10% of the time (L10) with transient maximum sounds (Lmax) below 65 dBA. In staff work areas and family areas, and staff lounge areas, the sound level should not exceed an hourly Leq of 50 dB, an hourly L10 of 55 dB, or with transient sounds (Lmax) not over 70 dB.
Strategies to reach these recommended levels have not been studied in depth. Using high-performance sound-absorbing materials to build or renovate the NICU has been suggested. (32,39) Single rooms seem to be quieter than open-bay rooms except for respiratory support equipment. (45,46) The continuous use of sound-monitoring equipment leads to reduction in the sound level for 2 months, but no longer. (47) Changing the behaviour of staff members and the culture of the NICU team is complex. Implementing a “quiet hour” could be a feasible first step. (22) Developmental care training could have an impact on the NICU environment. Providing an adequate acoustic environment to hospitalised newborn infants is not only based on protecting them from the deleterious effect of noise but also to offer them a nurturing environment enabling the access to biologically meaningful sensory stimuli (see Infant- & family-centred developmental care)
White RD. Single-Family Room Design in the Neonatal Intensive Care Unit—Challenges and Opportunities. Newborn Infant Nurs Rev. 2010 Jun;10(2):83–6.
Vohr B, McGowan E, McKinley L, Tucker R, Keszler L, Alksninis B. Differential Effects of the Single-Family Room Neonatal Intensive Care Unit on 18- to 24-Month Bayley Scores of Preterm Infants. J Pediatr. 2017 Jun;185:42-48.e1.
Ortenstrand A, Westrup B, Broström EB, Sarman I, Akerström S, Brune T, et al. The Stockholm Neonatal Family Centered Care Study: effects on length of stay and infant morbidity. Pediatrics. 2010 Feb;125(2):e278-285.
van Pul C, V D Mortel HPME, V D Bogaart JJL, Mohns T, Andriessen P. Safe patient monitoring is challenging but still feasible in a neonatal intensive care unit with single family rooms. Acta Paediatr Oslo Nor 1992. 2015 Jun;104(6):e247-254.
Shields L, Zhou H, Pratt J, Taylor M, Hunter J, Pascoe E. Family-centred care for hospitalised children aged 0-12 years. Cochrane Database Syst Rev. 2012 Oct 17;10:CD004811.
Saunders RP, Abraham MR, Crosby MJ, Thomas K, Edwards WH. Evaluation and development of potentially better practices for improving family-centered care in neonatal intensive care units. Pediatrics. 2003 Apr;111(4 Pt 2):e437-449.
Coughlin M. Trauma-informed, neuroprotective care for hospitalised newborns and infants. Infant. 2017;13(5):176–9.
Fumagalli M, Provenzi L, De Carli P, Dessimone F, Sirgiovanni I, Giorda R, et al. From early stress to 12-month development in very preterm infants: Preliminary findings on epigenetic mechanisms and brain growth. Baud O, editor. PLOS ONE. 2018 Jan 5;13(1):e0190602.
Groves A, Traube C, Silver G. Detection and Management of Delirium in the Neonatal Unit: A Case Series. Pediatrics. 2016 Mar;137(3):e20153369.
Raiskila S, Axelin A, Toome L, Caballero S, Tandberg BS, Montirosso R, et al. Parents’ presence and parent-infant closeness in 11 neonatal intensive care units in six European countries vary between and within the countries. Acta Paediatr Oslo Nor 1992. 2017 Jun;106(6):878–88.
White RD, Smith JA, Shepley MM, Committee to Establish Recommended Standards for Newborn ICU Design. Recommended standards for newborn ICU design, eighth edition. J Perinatol Off J Calif Perinat Assoc. 2013 Apr;33 Suppl 1:S2-16.
Lasky RE, Williams AL. Noise and light exposures for extremely low birth weight newborns during their stay in the neonatal intensive care unit. Pediatrics. 2009 Feb;123(2):540–6.
Lester BM, Hawes K, Abar B, Sullivan M, Miller R, Bigsby R, et al. Single-Family Room Care and Neurobehavioral and Medical Outcomes in Preterm Infants. PEDIATRICS. 2014 Oct 1;134(4):754–60.
Lester BM, Salisbury AL, Hawes K, Dansereau LM, Bigsby R, Laptook A, et al. 18-Month Follow-Up of Infants Cared for in a Single-Family Room Neonatal Intensive Care Unit. J Pediatr. 2016 Oct;177:84–9.
Stevens DC, Helseth CC, Thompson PA, Pottala JV, Khan MA, Munson DP. A Comprehensive Comparison of Open-Bay and Single-Family-Room Neonatal Intensive Care Units at Sanford Children’s Hospital. HERD. 2012;5(4):23–39.
Domanico R, Davis DK, Coleman F, Davis BO. Documenting the NICU design dilemma: comparative patient progress in open-ward and single family room units. J Perinatol. 2011 Apr;31(4):281–8.
Mitchell AJ, Yates C, Williams K, Hall RW. Effects of daily kangaroo care on cardiorespiratory parameters in preterm infants. J Neonatal-Perinat Med. 2013;6(3):243–9.
Scher MS, Ludington-Hoe S, Kaffashi F, Johnson MW, Holditch-Davis D, Loparo KA. Neurophysiologic assessment of brain maturation after an 8-week trial of skin-to-skin contact on preterm infants. Clin Neurophysiol Off J Int Fed Clin Neurophysiol. 2009 Oct;120(10):1812–8.
Heinemann A-B, Hellström-Westas L, Hedberg Nyqvist K. Factors affecting parents’ presence with their extremely preterm infants in a neonatal intensive care room. Acta Paediatr Oslo Nor 1992. 2013 Jul;102(7):695–702.
Bertelle V, Mabin D, Adrien J, Sizun J. Sleep of preterm neonates under developmental care or regular environmental conditions. Early Hum Dev. 2005 Jul;81(7):595–600.
Thomas KA, Martin PA. NICU sound environment and the potential problems for caregivers. J Perinatol Off J Calif Perinat Assoc. 2000 Dec;20(8 Pt 2):S94-99.
Strauch C, Brandt S, Edwards-Beckett J. Implementation of a quiet hour: effect on noise levels and infant sleep states. Neonatal Netw NN. 1993 Mar;12(2):31–5.
Joseph A. The Impact of Light on Outcomes in Healthcare Settings. Cent Health Des. 2007;
White RD. Lighting design in the neonatal intensive care unit: practical applications of scientific principles. Clin Perinatol. 2004 Jun;31(2):323–30, viii.
Morag I, Ohlsson A. Cycled light in the intensive care unit for preterm and low birth weight infants. Cochrane Database Syst Rev. 2011 Jan 19;(1):CD006982.
Westrup B, Stjernqvist K, Kleberg A, Hellström-Westas L, Lagercrantz H. Neonatal individualized care in practice: a Swedish experience. Semin Neonatol SN. 2002 Dec;7(6):447–57.
Schneider C, Charpak N, Ruiz-Peláez JG, Tessier R. Cerebral motor function in very premature-at-birth adolescents: a brain stimulation exploration of kangaroo mother care effects. Acta Paediatr Oslo Nor 1992. 2012 Oct;101(10):1045–53.
Feldman R, Rosenthal Z, Eidelman AI. Maternal-preterm skin-to-skin contact enhances child physiologic organization and cognitive control across the first 10 years of life. Biol Psychiatry. 2014 Jan 1;75(1):56–64.
O’Neill M, Evans G. Effects of workstation adjustability and training on stress and motivational performance. In: Proceedings of the 31st Conference of the Environmental Design Research Association. Edmond; 2000. p. 60–6.
Reijula J, Karvonen S, Petäjä H, Reijula K, Lehtonen L. Participative Facility Planning for Obstetrical and Neonatal Care Processes: Beginning of Life Process. J Healthc Eng. 2016;2016.
Blomqvist YT, Frölund L, Rubertsson C, Nyqvist KH. Provision of Kangaroo Mother Care: supportive factors and barriers perceived by parents. Scand J Caring Sci. 2013 Jun;27(2):345–53.
Ulrich RS, Zimring C, Zhu X, DuBose J, Seo H-B, Choi Y-S, et al. A review of the research literature on evidence-based healthcare design. HERD. 2008;1(3):61–125.
Hignett S, Lu J, Fray M. Observational study of treatment space in individual neonatal cot spaces. J Perinat Neonatal Nurs. 2010 Sep;24(3):267–73.
lluminating Engineering Society. Lighting for Hospitals and Healthcare Facilities. New York, NY; 2017.
Rea M. Lighting for caregivers in the neonatal intensive care unit. Clin Perinatol. 2004 Jun;31(2):229–42, vi.
Whitehouse S, Varni JW, Seid M, Cooper-Marcus C, Ensberg MJ, Jacobs JR, et al. EVALUATING A CHILDREN’S HOSPITAL GARDEN ENVIRONMENT: UTILIZATION AND CONSUMER SATISFACTION. J Environ Psychol. 2001 Sep;21(3):301–14.
Devlin AS, Arneill AB. Health Care Environments and Patient Outcomes: A Review of the Literature. Environ Behav. 2003 Sep;35(5):665–94.
Hagerman I, Rasmanis G, Blomkvist V, Ulrich R, Eriksen CA, Theorell T. Influence of intensive coronary care acoustics on the quality of care and physiological state of patients. Int J Cardiol. 2005 Feb 15;98(2):267–70.
Philbin MK. Planning the acoustic environment of a neonatal intensive care unit. Clin Perinatol. 2004 Jun;31(2):331–52, viii.
Holmdahl T, Lanbeck P. Design for the post-antibiotic era: experiences from a new building for infectious diseases in malmö, sweden. HERD. 2013;6(4):27–52.
Vernon MO, Trick WE, Welbel SF, Peterson BJ, Weinstein RA. Adherence with hand hygiene: does number of sinks matter? Infect Control Hosp Epidemiol. 2003 Mar;24(3):224–5.
Cohen B, Saiman L, Cimiotti J, Larson E. Factors associated with hand hygiene practices in two neonatal intensive care units: Pediatr Infect Dis J. 2003 Jun;22(6):494–8.
Almadhoob A, Ohlsson A. Sound reduction management in the neonatal intensive care unit for preterm or very low birth weight infants. Cochrane Database Syst Rev. 2015 Jan 30;1:CD010333.
Kriebel D, Tickner J, Epstein P, Lemons J, Levins R, Loechler EL, et al. The precautionary principle in environmental science. Environ Health Perspect. 2001 Sep;109(9):871–6.
Davidson JE, Aslakson RA, Long AC, Puntillo KA, Kross EK, Hart J, et al. Guidelines for Family-Centered Care in the Neonatal, Pediatric, and Adult ICU. Crit Care Med. 2017 Jan;45(1):103–28.
Shahheidari M, Homer C. Impact of the design of neonatal intensive care units on neonates, staff, and families: a systematic literature review. J Perinat Neonatal Nurs. 2012 Sep;26(3):260–6; quiz 267–8.
Degorre C, Ghyselen L, Barcat L, Dégrugilliers L, Kongolo G, Leké A, et al. [Noise level in the NICU: Impact of monitoring equipment]. Arch Pediatr Organe Off Soc Francaise Pediatr. 2017 Feb;24(2):100–6.
November 2018 / 1st edition / next revision: 2023
Recommended citation
EFCNI, Moen A, Hallberg B et al., European Standards of Care for Newborn Health: General layout of the unit. 2018.
