Saturation Levels of Postnatal Live Babies between 0-48 Hours at Different Altitude Levels
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DOI:
https://doi.org/10.5281/zenodo.13624589Keywords:
Altitude, APGAR, Live baby, Saturation LevelAbstract
Objective: The objective of this study was to compare two different oxygen saturation levels of live newborn infants in the 0-48 hour period in the provinces of Ardahan (1900 m) and Adana (29 m), which are located at two different altitudes.
Methods: The subjects of the study consisted of 200 mothers who had just given birth in Adana and Ardahan provinces and agreed to participate in the study voluntarily and their newborn infants. Data were gathered using an APGAR score and a personal information form.
Results: Postnatal O2 saturation measurements by province were 90.94±2.78 for the 0th hour, 94.26 ± 1.78 for the 8th hour, 95.52 ± 1.70 for the 12th hour, 96.13 ± 1.46 for the 24th hour and 96.65±1.41 for the 48th hour in Ardahan province, 90.28±2.76 for the 0th hour, 93.71 ± 1.39 for the 8th hour, 95.05 ± 1.34 for the 12th hour, 95.84 ± 1.30 for the 24th hour and 96.15±1.27 for the 48th hour in Adana province. According to the results of the APGAR scoring, 53% of the infants born to mothers who resided in the province of Ardahan and 48% of the infants born to mothers who resided in the province of Adana each received 8 points.
Conclusion: According to the results of the APGAR scoring, 53% of the infants born to mothers who resided in the province of Ardahan and 48% of the infants born to mothers who resided in the province of Adana each received 8 points. As a result, it was determined that the saturation levels of infants born in Ardahan at 1900 m altitude between 0 and 48 hours were statistically higher than those of infants born in Adana province at 29 m altitude. Due to this reason, it is suggested that new studies be conducted at different time intervals to investigate how periodic altitude changes affect the saturation levels of postnatal live births.
References
Alderliesten, T., Dix, L., Baerts, W., Caicedo, A., Van Huffel, S., Naulaers, G. ve Lemmers, P. (2016). Reference Values of Regional Cerebral Oxygen Saturation During The First 3 Days of Life in Preterm Neonates. Pediatric Research, 79(1), 55-64.
Bakr, A. F. ve Habib, H. S. (2005). Normal Values of Pulse Oximetry in Newborns at High Altitude. Journal of tropical Pediatrics, 51(3), 170-173.
Binene, V., Panauwe, D., Kauna, R., Vince, J. D. ve Duke, T. (2021). Oxygen Saturation Reference Ranges and Factors Affecting SpO2 Among Children Living at Altitude. Archives of Disease in Childhood, 106(12), 1160-1164.
Bruckner, M., Pichler, G. ve Urlesberger, B. (2020). NIRS in The Fetal to Neonatal Transition and İmmediate Postnatal Period. In Seminars in Fetal and Neonatal Medicine, 25(2), 1-5.
Buzdağlı, Y. ve Mitat, K. O. Z. (2019). Yükseltide Spor ve Fizyolojik Etkileri. Beden Eğitimi ve Spor Bilimleri Dergisi, 21(4), 52-68.
Cartwright, S. M. ve Capa, F. (2020). An Altitude Adjustment: Implementing A Clinical Practice Guideline For Oxygen in The Newborn Nursery at Moderate Altitude. University of St Augustine for Health Sciences, 1(4), 48-65.
Ceyhan, M. A. ve Demır, G. G. (2020). Hava Yoluyla Seyahat Öncesi Yolcu Sağlığının Değerlendirilmesi. Phoenix Medical Journal, 2(3), 181-183.
Cüce, H., Kalıpcı, E., Taş, B. ve Yılmaz, M. (2020). Rakım Farklılığı Nedeniyle Oluşan Meteorolojik Değişimlerin Su Kalitesine Olan Etkilerinin CBS İle Değerlendirilmesi: Morfolojik Olarak Farklı İki Göl İçin Bir Karşılaştırma. Karadeniz Fen Bilimleri Dergisi, 10(1), 1-26.
Çelik, S. (2020). Pulse Oksimetre İle Oksijen Satürasyonu İzlemi ve Hemşirelik Yaklaşımları. Sağlık ve Toplum Dergisi, 30(2), 11-15.
Çevre ve Şehircilik Bakanlığı, Sanayi ve Hava Rehberi, Erişim adresi: https://webdosya.csb.gov.tr/db/sanayihavarehberi/.pdf.
Di Fiore, J. M., MacFarlane, P. M. ve Martin, R. J. (2019). Intermittent Hypoxemia in Preterm İnfants. Clinics in perinatology, 46(3), 553-565.
Gantz, M. G., Carlo, W. A., Finer, N. N., Rich, W., Faix, R. G., Yoder, B. A. ve Higgins, R. D. (2020). Achieved Oxygen Saturations and Retinopathy of Prematurity in Extreme Preterms. Archives of Disease in Childhood-Fetal and Neonatal Edition, 105(2), 138-144.
Gaur, P., Prasad, S., Kumar, B., Sharma, S. K. ve Vats, P. (2021). High-Altitude Hypoxia İnduced Reactive Oxygen Species Generation, Signaling, and Mitigation Approaches. International Journal of Biometeorology, 65(4), 601-615.
Gonzales, G. F. ve Salirrosas, A. (2005). Arterial Oxygen Saturation in Healthy Newborns Delivered at Term in Cerro de Pasco (4340 m) and Lima (150 m). Reproductive Biology and Endocrinology, 3(1), 1-8.
Işık, G., Yeşilçınar, İ., Avcı, S. Ç., Topaloğlu, E., Öçal, S. E. ve Cetişli, N. E. (2020). COVID-19 Enfeksiyonunun Antenatal, İntrapartum ve Postpartum Yönetimi. İzmir Katip Çelebi Üniversitesi Sağlık Bilimleri Fakültesi Dergisi, 5(2), 93-98.
Kayton, A., Timoney, P., Vargo, L. ve Perez, J. A. (2018). A Review of Oxygen Physiology And Appropriate Management of Oxygen Levels in Premature Neonates. Advances in Neonatal Care, 18(2), 98-104.
Morgan, M. C., Maina, B., Waiyego, M., Mutinda, C., Aluvaala, J., Maina, M. Ve English, M. (2017). Oxygen Saturation Ranges for Healthy Newborns Within 24 Hours at 1800 M. Archives Of Disease in Childhood-Fetal and Neonatal Edition, 102(3), 266-268.
Murray, A. J., Montgomery, H. E., Feelisch, M., Grocott, M. P. Ve Martin, D. S. (2018). Metabolic Adjustment to High-Altitude Hypoxia: From Genetic Signals to Physiological İmplications. Biochemical Society Transactions, 46(3), 599-607.
Nicholas, K., Campbell, L., Paul, E., Skeltis, G., Wang, W. ve Gray, C. (2021). Climate Anomalies and Childhood Growth in Peru. Population And Environment, 43, 39-60.
Niermeyer, S., Andrade, P. ve Moore, L. G. (2016) Postnatal Changes in The Pulmonary Circulation At 3700-4000 M. VIII Congreso de la Sociedad Española de Medicina y Auxilio en Montaña, Barcelona, Spain.
Pajuelo-Ramírez, J., Torres-Aparcana, H., Agüero-Zamora, R. ve Quispe, A. M. (2019). Altitude and İts İnverse Association With Abdominal Obesity in An Andean Country: A Cross-Sectional Study. F1000Research, 8(1738), 17-38
Suzan, Ö. K. ve Cinar, N. (2019). Pediatride Pulse Oksimetre Takibi Ve Hemşirenin Rolü. Hemşirelikte Eğitim ve Araştırma Dergisi, 16(2), 166-169.
Tekleab, A. M. ve Sewnet, Y. C. (2019). Role of Pulse Oximetry in Detecting Critical Congenital Heart Disease Among Newborns Delivered at A High Altitude Setting in Ethiopia. Pediatric Health, Medicine and Therapeutics, 1(3), 83-88.
Tezel, A., Özkan, H. ve Çelebioğlu, A. (2005). Ebeler “Apgar Değerlendirmesi” ni Ne Kadar Biliyorlar?. Sağlık Bilimleri Dergisi, 14(3), 163-171.
Tosepu, R. (2022). Epidemiology of Anemia in Pregnant Women in The Coastal Region of The North Buton Regency, Southeast Sulawesi. Kne Life Sciences, 195-201.
Türkiye İl Göç İdaresi Müdürlüğü, Türkiye yılık Göç Raporları, Erişim adresi:https://www.goc.gov.tr/kurumlar/goc.gov.tr/YillikGocRaporlari/pdf.
Yeagle, K. P., O’brien, J. M., Curtin, W. M. ve Ural, S. H. (2018). Are Gestational and Type II Diabetes Mellitus Associated With The Apgar Scores of Full-Term Neonates?. International Journal of Women's Health, 10(1), 603-607.
Yilmaz, M. (2019) Yenidoğan Yoğunbakım Ünitesinde İzlenen Prematüre Bebeklerde Post-Natal Büyüme ve Etki Eden Faktörlerin Değerlendirilmesi. Süleyman Demirel Üniversitesi, Tıp Fakültesi, Uzmanlık Tezi, Isparta.
Zang, H., Cheng, H., Song, W., Yang, M., Han, P., Chen, C. ve Ding, R. (2019). Ambient Air Pollution and The Risk of Stillbirth: A Population-Based Prospective Birth Cohort Study İn The Coastal Area of China. Environmental Science and Pollution Research, 26(1), 6717-6724.
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