Custom-made 3D Printed Mask for Neonates with Non-invasive Ventilation
           References                                              J Nurs Care Qual, 27:28–34.
                                                                   http://doi.org/10.1097/NCQ.0b013e31822b1fd9
           1.   Choong YY, Tan HW, Patel DC, et al., 2020, The Global Rise   11.  Murray  JS,  Noonan  C,  Quigley  S,  et  al.,  2013,  Medical
               of  3D  Printing  During  the  COVID-19  Pandemic.  Nat Rev   Device-related  Hospital-acquired  Pressure  Ulcers  in
               Mater, 5:637–9.                                     Children: An Integrative Review. J Pediatr Nurs, 28:585–95.
           2.   Aufieri R, Picone S, Gente M, et al., 2015, 3D Printing in      http://doi: 10.1016/j.pedn.2013.05.004
               Neonatal Care. Ital J Pediatr, 41:A1.           12.  Gracia  MC,  Muñoz  A,  Vidal  M, et al.,  2021,  Incidence
               http://doi.org/10.1186/1824-7288-41-s1-a1           and risk factors associated with the appearance of pressure
           3.   Morrison RJ, VanKoevering  KK, Nasser HB,  et  al.,  2015,   injuries in premature less than 34 weeks with non-invasive
               Personalized  3D-Printed  CPAP Masks Improve  CPAP   ventilation. Rev Enferm, 44:23–9.
               Effectiveness  in  Children  with  OSA  and  Craniofacial   13.  Instituto Nacional de Estadística, 2020, Estadística de Nacimientos.
               Anomalies Robert’. Conference: Combined Otolaryngology   Available  from:  https://www.ine.es/dyngs/INEbase/es/
               Spring Meetings, Boston.                            operacion.htm?c=Estadistica_C&cid=1254736177007
               http://doi.org/10.13140/RG.2.1.2328.1687            &menu=ultiDatos&idp=1254735573002  [Last  accessed  on
           4.   Hsu DY, Cheng YL, Bien MY, et al., 2015, Development of a   2020 Jul 03].
               Method for Manufacturing Customized Nasal Mask Cushion   14.  Pittman J, Beeson T, Kitterman J, et al., 2015, Medical Device-
               for CPAP Therapy. Australas Phys Eng Sci Med, 38:657–66.  related  Hospital-Acquired  Pressure  Ulcers:  Development
               http://doi.org/10.1007/s13246-015-0383-0            of an Evidence-based Position Statement. J Wound Ostomy
           5.   Sela M, Toledo N, Honen Y, et al., 2016, Customized Facial   Continence Nurs, 42:151–4.
               Constant Positive Air Pressure (CPAP) Masks. Available from:      http://doi.org/10.1097/WON.0000000000000113
               http://arxiv.org/abs/1609.07049 [Last accessed on 2021 Sep 23].  15.  Ma Z, Drinnan M, Hyde P, et al., 2018, Mask Interface for
           6.   Shikama  M,  Nakagami  G,  Noguvhi  H,  et al.,  2018,   Continuous Positive Airway Pressure Therapy: Selection and
               Development  of Personalized  Fitting  Device  with   Design Considerations. Exp Rev Med Dev, 15:725–33.
               3-Dimensional  Solution  for  Prevention  of  Niv  Oronasal      http://doi.org/10.1080/17434440.2018.1525291
               Mask-Related Pressure Ulcers. Respir Care, 63:1024–32.  16.  Santos J, Pearce SE, Stroustrup A, 2015, Impact of Hospital-
               http://doi.org/10.4187/respcare.05691               based  Environmental  Exposures  on  Neurodevelopmental
           7.   Makowski K, Okrasa M, 2019, Application of 3D Scanning   Outcomes of Preterm Infants. Curr Opin Pediatr, 27:254–60.
               and 3D Printing for Designing and Fabricating Customized      http://doi.org/10.1097/MOP.0000000000000190
               Half-mask Facepieces: A Pilot Study. Work, 63:125–35.  17.  Celik H K, Kose O, Ulmeanu M, et al, 2020, Design and Additive
               http://doi.org/10.3233/WOR-192913                   Manufacturing of Medical Face Shield for Healthcare Workers
           8.   Willox M, Metherall P, Jeays-Ward K, et al., 2020, Custom-  Battling Coronavirus (COVID-19). Int J Bioprint, 6:286.
               made  3D Printed  Masks for Children  Using Non-invasive      http://doi.org/10.18063/ijb.v6i4.286
               Ventilation: A Feasibility Study of Production Method and   18.  Sherborne  C,  Claeyssens  F,  2021,  Considerations  Using
               Testing of Outcomes in Adult Volunteers. J Med Eng Technol,   Additive  Manufacture  of Emulsion Inks to  Produce
               44:213–23.                                          Respiratory Protective Filters Against Viral Respiratory Tract
               http://doi.org/10.1080/03091902.2020.1769759        Infections Such as the COVID-19 Virus. Int J Bioprint, 7:316.
           9.   Barker N, Willox M, Elphick H, 2018, A Review of the Benefits,      http://doi.org/10.18063/ijb.v7i1.316
               Challenges and the Future for Interfaces for Long Term Non-  19.  Bishop  EG,  Leigh  SJ,  2020,  Using  Large-Scale  Additive
               Invasive Ventilation in Children. Int J Respir Pulm Med, 5:77.  Manufacturing  as a Bridge  Manufacturing  Process in
               http://doi: 10.23937/2378-3516/1410077              Response  to  Shortages  in  Personal  Protective  Equipment
           10.  Apold  J,  Rydrych  D,  2012,  Preventing  Device-related   during the COVID-19 Outbreak. Int J Bioprint, 6:281.
               Pressure  Ulcers:  Using  Data  to  Guide  Statewide  Change.      http://doi.org/10.18063/ijb.v6i4.281


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           30                          International Journal of Bioprinting (2022)–Volume 8, Issue 2