Hypoxic gas therapy in neonatology, considerations in practice.

Q3 Pharmacology, Toxicology and Pharmaceutics Current drug discovery technologies Pub Date : 2022-05-20 DOI:10.2174/1570163819666220520112220
A. S. Luis, Theurel Martin Delia Edith, Manrique Hernández Edgar Fabian
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Abstract

BACKGROUND Adequate oxygenation is essential in sick newborns. Each disease determines the target of oxygenation. Nevertheless, hyperoxia and hypoxia are related to adverse outcomes. Most studies about this had been made in preterm infants or term babies with pulmonary pathology. INTRODUCTION Congenital heart diseases may also require careful oxygenation control and management of oxygen supply. PROBLEM Presurgical stabilization of complex heart diseases (CHD) may be difficult, especially after the physiological decrease of pulmonary resistance, which generates pulmonary edema (due to over-circulation) and systemic hypoperfusion. Several strategies have been described to avoid this phenomenon, such as prostaglandin, vasodilators, inotropes, positive airway pressure, and even hypoxic mixture (Inspired fraction of oxygen (FiO2) below 21%). DISCUSSION The last therapy is mainly used in single ventricular physiology heart diseases, such as the hypoplasic left heart syndrome (HLHS) or systemic ductus dependent flow CHD (interruption of the aortic arch and coarctation of the aorta). Alveolar oxygen affects pulmonary vascular resistance modifying lung flow. This modification could help the stabilization during the presurgical period of complex CDH. Many centers use hypoxic therapy to avoid hypotension, metabolic acidosis, coronary-cerebral ischemia, and liver, renal and intestinal injury. Despite the theoretical benefits, there are doubts about how tissue oxygen supply would change during hypoxic gas ventilation. It is worrisome that FiO2 < 21% causes a decrease in brain oxygenation, adding neurological injury to the already established because of CHD and other not modifiable factors. Brain monitoring through near-infrared spectroscopy (NIRS) during hypoxic gas therapy is mandatory. Recent studies have shown that hypoxic gas ventilation therapy in patients with HLHS in the preoperative period decreases the ratio between systemic and pulmonary circulation (Qp/Qs) but does not improve regional oxygenation delivery. The use of hypoxic gas ventilation therapy continues to be controversial. It could be an option in some complex CHD, mainly HLHS.
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新生儿缺氧气体治疗的实践思考。
背景:对生病的新生儿来说,充足的氧合是必不可少的。每种疾病决定了氧合的目标。然而,高氧和低氧与不良结局有关。大多数关于这方面的研究都是在早产儿或有肺部病理的足月婴儿中进行的。先天性心脏病也可能需要仔细的氧合控制和氧气供应管理。复杂心脏病(CHD)的手术前稳定可能是困难的,特别是在肺阻力生理下降后,这会产生肺水肿(由于循环过度)和全身灌注不足。有几种策略可以避免这种现象,如前列腺素、血管扩张剂、收缩性药物、气道正压,甚至低氧混合(吸入氧分数(FiO2)低于21%)。最后一种治疗方法主要用于单心室生理性心脏病,如左心发育不全综合征(HLHS)或全身导管依赖性血流冠心病(主动脉弓中断和主动脉缩窄)。肺泡氧影响肺血管阻力,改变肺血流。这种改良有助于手术前复杂CDH的稳定。许多中心使用低氧治疗来避免低血压、代谢性酸中毒、冠状动脉脑缺血和肝、肾和肠道损伤。尽管理论上有好处,但在低氧气体通气过程中组织氧供应会如何变化仍存在疑问。令人担忧的是,FiO2 < 21%会导致脑氧合减少,在已经建立的由冠心病和其他不可改变因素引起的神经损伤基础上增加神经损伤。在缺氧气体治疗期间,通过近红外光谱(NIRS)对大脑进行监测是强制性的。近期研究表明,术前对HLHS患者进行低氧气体通气治疗可降低体循环与肺循环之比(Qp/Qs),但不能改善局部氧合输送。使用低氧气体通气治疗仍有争议。对于一些复杂的冠心病,主要是HLHS,它可能是一种选择。
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来源期刊
Current drug discovery technologies
Current drug discovery technologies Pharmacology, Toxicology and Pharmaceutics-Drug Discovery
CiteScore
3.70
自引率
0.00%
发文量
48
期刊介绍: Due to the plethora of new approaches being used in modern drug discovery by the pharmaceutical industry, Current Drug Discovery Technologies has been established to provide comprehensive overviews of all the major modern techniques and technologies used in drug design and discovery. The journal is the forum for publishing both original research papers and reviews describing novel approaches and cutting edge technologies used in all stages of drug discovery. The journal addresses the multidimensional challenges of drug discovery science including integration issues of the drug discovery process.
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