Considerando los estudios e investigaciones presentados y evaluando el contexto comercial, se propuso los siguientes criterios y su respectiva valoración, los cuáles debería usarse en nuestra propuesta de solución.
Agrawal G, Garg K, Sitaraman S, Sarna A. “Comparison of Diagnostic Accuracy of Different Sites for Transcutaneous Bilirubin Measurement in Early Preterm Infants”. Indian Journal of Pediatrics. July 2018;86(1):32-37. doi: 10.1007/s12098-018-2739-4. Epub 2018 Jul 18. PMID: 30022429.
Jnah A, Newberry DM, Eisenbeisz E. “Comparison of Transcutaneous and Serum Bilirubin Measurements in Neonates 30 to 34 Weeks' Gestation Before, During, and After Phototherapy”. Adv Neonatal Care. April 2018; vol. 18, no. 0, pp. 1-10. doi: 10.1097/ANC.0000000000000469. PMID: 29498944.
Johnson, S. M., Vasu, V., Marseille, C., Hill, C., Janvier, L., Toussaint, P., & Battersby, C. . “Validation of transcutaneous bilirubinometry during phototherapy for detection and monitoring of neonatal jaundice in a low-income setting”. Paediatrics and international child health, Feb 2020, vol. 40, no. 1, 25-29.doi: 10.1080/20469047.2019.1598126
Gothwal, S., Singh, N., Sitaraman, S., Choudhary, R., Meena, K. K., Bairwa, G. S., ... & Jeevan, A. (2021). “Efficacy of transcutaneous bilirubinometry as compared to serum bilirubin in preterm newborn during phototherapy”. European Journal of Pediatrics, 1-8.
Chokemungmeepisarn P, Tantiprabha W, Kosarat S, Manopunya S. “Accuracy of the Bilicare™ transcutaneous bilirubinometer as the predischarge screening tool for significant hyperbilirubinemia in healthy term and late preterm neonates”. J Matern Fetal Neonatal Med. 2020 Jan;33(1):57-61. doi: 10.1080/14767058.2018.1484098. Epub 2018 Jul 18. PMID: 29860925.
Costa-Posada U, Concheiro-Guisán A, Táboas-Ledo MF, González-Colmenero E, González-Durán ML, Suarez-Albo M, Duran Fernández-Feijoo C, Pumarada-Prieto M, Martínez-Reglero C, Fernández-Lorenzo JR. “Accuracy of transcutaneous bilirubin on covered skin in preterm and term newborns receiving phototherapy using a JM-105 bilirubinometer”. J Perinatol. 2020 Feb;40(2):226-231. doi: 10.1038/s41372-019-0557-9. Epub 2019 Nov 25. PMID: 31767979; PMCID: PMC6985020.
Kawano, S., Zin, T. T., & Kodama, Y. (2018, October). “A Study on Non-contact and Non-invasive Neonatal Jaundice Detection and Bilirubin Value Prediction”. In 2018 IEEE 7th Global Conference on Consumer Electronics (GCCE) (pp. 401-402). IEEE.
Montealegre, A., Charpak, N., Parra, A., Devia, C., Coca, I., & Bertolotto, A. M. (2020). Effectiveness and safety of two phototherapy devices for the humanised management of neonatal jaundice. Anales de Pediatría (English Edition), 92(2), 79-87.
De Greef, L., Goel, M., Seo, M. J., Larson, E. C., Stout, J. W., Taylor, J. A., & Patel, S. N. (2014, September). “Bilicam: using mobile phones to monitor newborn jaundice”. In Proceedings of the 2014 ACM International Joint Conference on Pervasive and Ubiquitous Computing (pp. 331-342).
Taylor, J. A., Patel, S. N., Stout, J. W., De Greef, L., Goel, M., & Larson, E. C. (2019) “Systems, devices, and methods for estimating bilirubin levels”. U.S. Patent No. 10,285,624. Washington, DC: U.S. Patent and Trademark Office.
C. Chong; J. Minghua; L. Binjing; L. Weibiao; N. Siqi; S. Yuan; Z. Yingxiang; Z. Jianjun,”Domestic jaundice body temperature detection device”, China patent CN207734158U. Aug 17, 2018. https://worldwide.espacenet.com/patent/search?q=pn%3DCN207734158U
T. Xianjun; Z. Huimin, “Blue light child jaundice treatment optic fibre blanket”, China patent number CN207270572U, April 27, 2018 https://worldwide.espacenet.com/patent/search?q=pn%3DCN207270572U
Inamori, G., Kamoto, U., Nakamura, F., Isoda, Y., Uozumi, A., Matsuda, R., ... & Ota, H. (2021). “Neonatal wearable device for colorimetry-based real-time detection of jaundice with simultaneous sensing of vitals”. Science Advances, 7(10), eabe3793.
Zabetta, C. C., Iskander, I. F., Greco, C., Bellarosa, C., Demarini, S., Tiribelli, C., & Wennberg, R. P. (2013). “Bilistick: a low-cost point-of-care system to measure total plasma bilirubin”. Neonatology, 103(3), 177-181.
Shahroni, N., & Addi, M. M. (2018, October). “An Automatic and Portable Phototherapy Garment (APPG) with Integrated Non-Invasive Bilirubin Detector”. In TENCON 2018-2018 IEEE Region 10 Conference (pp. 1999-2004). IEEE.
Gibbins, S. (2015). Philips - BiliChek Sistema Dispositivo no invasivo de evaluación de ictericia.Recuperado el 21 de Septiembre de 2021, Disponible en : https://www.philips.es/healthcare/product/HC989805644871/bilichek-sistema-dispositivo-no-invasivo-de-evaluacin-de-ictericia
Radfar, M., Hashemieh, M., Shirvani, F., & Madani, R. (2016). Transcutaneous Bilirubinometry in Preterm and Term Newborn Infants before and during Phototherapy. Archives of Iranian medicine, 19(5), 323–328.
A. S. M. Uz Zaman, M.H. Y. Wong, A. Ehtesham, S. Maniam, S. J. Oon, E. Hajimohammadhosseinmemar. ”An Intelligent System For Automated Diagnosis And Treatment Of Neonatal Jaundice”, International patent WO/2019/070116, April 11, 2019. https://patentscope.wipo.int/search/en/detail.jsf?docId=WO2019070116&_cid=P10-KTIA33-19602-1
