Due to the developmental immaturity of the lungs and other organs, the premature newborns are more prone to develop respiratory distress syndrome (RDS) and other problems of prematurity. The prevention of heat and water loses improves survival. Intolerance to excessive fluids and electrolytes in the transitional period may affect urine and sodium excretion together with maladaptation of cardiovascular system, the development of heart failure, and deterioration of RDS due to patent ductus arteriosus (PDA) and further development of bronchopulmonary dysplasia (BPD). Closure of PDA is frequently needed. The "trophic feeding" and intensive nutrition as soon as possible prevent weight loss and further growth restriction. Greater sensitivity to pain, short- and long-term effects of inappropriately treated pain, use of opioids and sedatives are of concern in the short- and long-term outcomes. Cardiovascular stability and adequate perfusion of the brain both affect the neurological outcome. Delayed cord clamping and erythropoietin help maintaining adequate levels of circulating hemoglobin which might affect later cognitive outcomes. In the following sections, detailed descriptions of non-pulmonary management will be presented. We conducted electronic searches of articles on supportive (non-pulmonary) management of newborns with RDS. Consensus guidelines on newborns with respiratory distress have been reviewed.

Sick neonates are often hemodynamically unstable, hence their organs are inadequately supplied with oxygen. In order to maintain blood flow to vital organs, a number of compensatory mechanisms divert the blood flow away from the non-vital organs. If hemodynamic changes are detected early, the cardiovascular compromise can be recognized in compensated phase and thereby the escalation to decompensated phase of low cardiac output syndrome might be prevented. In the treatment of hemodynamically unstable neonate venous filling, contractility of the heart muscle, blood pressure in the aorta, systemic blood flow, and regional distribution of blood flow should be evaluated. There are many evaluation and measurement methods based on different physical basis, each of them having their advantages and disadvantages. For most of them, it has not been demonstrated that they improve outcomes of sick neonates. Using these methods, useful hemodynamic data for the treatment of sick neonates can be obtained. Using new techniques will clarify the pathophysiology of cardiovascular failure in sick neonates, assess the effects of drugs on blood pressure and perfusion of the heart and other organs.