Core self-evaluations and individual strategies of coping with unemployment among displaced Spanish workers

Unemployment has negative but also positive effects on mental health and general well-being depending on which coping strategies the individual use. Our aim was to determine the contribution of core self-evaluations in explaining the coping strategies of job search and job devaluation, as well as to test the potential moderation effect of job search and mediation effect of job devaluation on the relationship between self core-evaluations and both positive and negative experience of unemployment. One hundred seventy-eight individuals who lost their jobs involuntarily for a longer period than one month completed a questionnaire while attending to employment office. Results show that there is a significant relation between core-self evaluations and job devaluation (.37**). Furthermore, core-self evaluations were positively related to positive experience of unemployment (r = .31; p < .01) and negatively related to negative experience of unemployment (r = .60; p < .01). Moreover, self-core evaluations predicted both coping with unemployment strategies (job devaluation; β = .26; p < .01 and job search β = .19; p < .05). However, job search did not moderate the relationship between core self-evaluations and experience of unemployment. But, individuals with a longer duration of the current period of unemployment and higher core self-evaluations had a more positive experience of unemployment, and job devaluation partially mediated this relation (SE = .002; p = .038). These results imply that programs interventions should include the improvement of core self-evaluations and the positive experience of unemployed people (AU)

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Prone positioning decreases cardiac output and increases systemic vascular resistance in neonates.

OBJECTIVE: To evaluate the cardiovascular response to short-term prone positioning in neonates. STUDY DESIGN: In this prospective study, we continuously monitored heart rate (HR), stroke volume (SV) and cardiac output (CO) by electrical velocimetry in hemodynamically stable neonates in each of the following positions for 10 min: supine, prone and back-to-supine position. Skin blood flow (SBF) was also continuously assessed on the forehead or foot using Laser Doppler technology. Systemic vascular resistance (SVR) index was calculated as mean blood pressure (BP)/CO. Data were analyzed using repeated measures analysis of variance. RESULTS: Thirty neonates (gestational age: 35±4 weeks; postmenstrual age: 36±3 weeks) were enrolled. HR did not change in response to positioning. However, in prone position, SV, CO and SBF decreased and SVR index increased from 1.5±0.3 to 1.3±0.3 ml kg(-1) (mean ±s.d., P<0.01), 206±44 to 180±41 ml kg(-1) min(-1) (P<0.01), 0.54±0.30 to 0.44±0.29 perfusion units (P<0.01) and 0.25±0.06 to 0.30±0.07 mm Hg ml(-1) kg(-1) min(-1) (P<0.01), respectively. After placing the infants back-to-supine position, SV, CO, SBF and SVR index returned to baseline. The above pattern of cardiovascular changes was consistent in vast majority of the studied neonates. CONCLUSIONS: Short-term prone positioning is associated with decreased SV, CO and SBF and increased calculated SVR index.

Does targeted neonatal echocardiography affect hemodynamics and cerebral oxygenation in extremely preterm infants?

OBJECTIVE: To investigate the effect of targeted neonatal echocardiography (TnEcho) on heart rate, arterial oxygen saturation (SPO2), cerebral regional oxygen saturation (CrSO2) and cerebral fractional oxygen extraction (CFOE) in extremely preterm infants during the first 3 postnatal days. STUDY DESIGN: s a nested study in a prospective observational study, we acquired continuous data on heart rate, SPO2, CrSO2 and CFOE. Data averaged for the duration of TnEcho study were compared with the data collected during a baseline period immediately before the start of echocardiography. The duration of the baseline and study periods was the same. TnEcho evaluation included assessment of preload, afterload, contractility, left and right ventricular output, patent ductus arteriosus and foramen ovale. RESULT: We analyzed 138 data pairs before and during TnEcho in 22 extremely preterm infants (gestational age 25.9 ± 1.2 weeks; range 23 to 27). There was no significant difference in heart rate between baseline and TnEcho period. There was a statistical, but clinically negligible, difference between baseline and TnEcho in SPO2 (median (quartile) 91.4% (88.9, 94.2) vs 91.3% (88.9, 94), P = 0.048), CrSO2 (76.8% (70.7, 81.5) vs 74.9% (69.5, 80.1), P<0.0001) and CFOE (15.8% (9.8, 23.6) vs 17.5% (11.3, 24.7), P<0.0001). The changes in the parameters monitored were similar in preterm infants who developed peri/intraventricular hemorrhage and in those who did not. CONCLUSION: Although there were statistically significant changes in SPO2, CrSO2 and CFOE, the alterations were minimal and unlikely of clinical relevance. Thus, cerebral hemodynamics and systemic and cerebral oxygenation are not perturbed during TnEcho and the procedure is well tolerated by the extremely preterm infants during the postnatal transitional period.

The use of mobile robotic telemedicine technology in the neonatal intensive care unit.

OBJECTIVE: To describe the use of a wireless, mobile, robotic telecommunications system in the Neonatal Intensive Care Unit (NICU). STUDY DESIGN: In this prospective study utilizing 304 patient encounters on 46 preterm and term neonates in a level IIIa NICU, a bedside neonatologist ('on-site neonatologist'; ONSN) and a neonatologist at a distant location ('off-site neonatologist'; OFFSN) evaluated selected demographic information, laboratory data and clinical and radiological findings of the subjects. The OFFSN used a commercial wireless, mobile, robotic telecommunications system controlled from a remote site. The two physicians were blinded to each other's findings and agreement rates of the evaluations between the ONSN and the OFFSN were compared using kappa statistics. Agreement rates between two ONSNs using the same protocol with 39 patient encounters served as the reference standard. The dependability and timeliness of data transmission were also assessed. RESULT: Excellent or intermediate-to-good agreements were noted for all but a few physical examination assessments between both the ONSN and OFFSN and the two ONSNs. Poor agreements were found for certain physical examination parameters (breath-, heart- and bowel-sounds and capillary refill time) with or without the use of telemedicine. The median duration of the encounters by the ONSN and OFFSN and the two ONSNs was similar. Five encounters were excluded from the analysis because of technical difficulties. No complications associated with the use of the mobile robot were noted. CONCLUSION: Our findings indicate that the use of mobile robotic telemedicine technology is feasible for neonates in the NICU.

A meta-analysis of dopamine use in hypotensive preterm infants: blood pressure and cerebral hemodynamics.

OBJECTIVE: Dopamine administration results in variable effects on blood pressure in hypotensive preterm infants. The clinical benefits of dopamine administration in increasing cerebral blood flow (CBF) and reducing adverse neurological outcomes in hypotensive preterm neonates are unclear. The objective of this study was to examine the efficacy of dopamine for treatment of hypotension and investigate the changes in cerebral hemodynamics and central nervous system injury in hypotensive preterm infants following dopamine administration. STUDY DESIGN: Standard meta-analytic techniques, including random and fixed effects models, were used to calculate combined effect size correlations and significance levels. RESULT: Random effects meta-analysis found that dopamine increases mean arterial blood pressure (12 studies; N=163; r=0.88, 95% confidence interval (CI)=0.76 to 0.94) and systolic blood pressure (8 studies; N=142; r=0.81, 95% CI=0.42 to 0.94). For the increase in blood pressure, dopamine administration was associated with a significantly greater overall efficacy than dobutamine (seven studies; N=251; r=0.26; 95% CI=0.20 to 0.32), colloid (two studies; N=67; r=0.60; 95% CI=0.41 to 0.74) and hydrocortisone (one study; N=28; r=0.40; 95% CI=0.034 to 0.67). CBF increased following dopamine administration (five studies; N=75; r=0.36; 95% CI=-0.059 to 0.67) and the increase in CBF was greater in hypotensive than normotensive preterm infants (eight studies; N=153; r=0.16; 95% CI=-0.0080 to 0.32). There were no statistically significant differences in adverse neurological outcome between dopamine and dobutamine (three studies; N=118; r=-0.13; 95% CI=-0.31 to 0.059), epinephrine (two studies; N=46; r=0.06; 95% CI=-0.23 to 0.34), colloid (two studies; N=80; r=0.0070; 95% CI=-0.218 to 0.23) or hydrocortisone administration (one study; N=40; r=-0.10; 95% CI=-0.40 to 0.22). CONCLUSION: Dopamine administration increases mean and systolic blood pressure in hypotensive preterm infants, and is more effective than dobutamine, colloid or hydrocortisone alone. Dopamine administration is associated with increased CBF, with greater increases in CBF in hypotensive than in normotensive preterm infants. Dopamine is not associated with a greater incidence of adverse effects than other therapies used to treat hypotension.

Hemodynamic monitoring in neonates: advances and challenges.

Continuous, reliable and real-time assessment of major determinants of cardiovascular function in preterm and term neonates has long been an elusive aim in neonatal medicine. Accordingly, aside from continuous assessment of heart rate, blood pressure and arterial oxygen saturation, bedside monitoring of major determinants of cardiovascular function of significant clinical relevance such as cardiac output, systemic vascular resistance, organ blood flow distribution and tissue oxygen delivery and coupling has only recently become available. Without obtaining reliable information on the changes in and interactions among these parameters in the neonatal patient population during postnatal transition and later in the neonatal period, development of effective and less harmful treatment approaches to cardiovascular compromise is not possible. This paper briefly reviews the recent advances in our understanding of developmental cardiovascular physiology and discusses the methods of bedside assessment of cardiovascular function in general and organ perfusion, tissue oxygen delivery and brain function in particular in preterm and term neonates. The importance of real-time data collection and the need for meticulous validation of the methods recently introduced in the assessment of neonatal cardiovascular function such as echocardiography, electrical impedance cardiometry, near infrared spectroscopy, visible light and laser-Doppler technology are emphasized. A clear understanding of the accuracy, feasibility, reliability and limitations of these methods through thorough validation will result in the most appropriate usage of these methods in clinical research and patient care.

Hydrocortisone for hypotension and vasopressor dependence in preterm neonates: a meta-analysis.

BACKGROUND: A full consensus has not been reached about the hemodynamic efficacy of hydrocortisone administration in hypotensive and vasopressor-dependent preterm neonates. OBJECTIVE: To examine the efficacy of hydrocortisone for treatment of hypotension and reduction of vasopressor requirements in preterm infants. METHOD: Standard meta-analytic techniques, including random and fixed effects models, were used to calculate combined effect size correlations and significance levels. RESULT: Random effects meta-analysis showed that hydrocortisone increases blood pressure (seven studies; N=144; r=0.71, 95%CI=0.18 to 0.92) and reduces vasopressor requirement (five studies; N=93; r=0.74, 95%CI=0.0084 to 0.96). The number of new or unretrieved studies averaging null results required to increase the overall p to 0.05 is k=78 for blood pressure increase and k=47 for vasopressor requirement reduction. CONCLUSION: The effects of hydrocortisone on increasing blood pressure and decreasing vasopressor requirements in preterm infants are robust with a large tolerance for future null results. Actual clinical benefits of increasing blood pressure and decreasing vasopressor requirements, however, remain unknown. Long-term sequelae of hydrocortisone administration have yet to be fully elucidated.

Effects of low oxygen saturation limits on the ductus arteriosus in extremely low birth weight infants.

OBJECTIVE: Postnatal increase in oxygen promotes constriction of the patent ductus arteriosus (PDA). According to the findings of prospective observational studies, the clinical practice of targeting lower fractional oxygen saturation between 70 and 90% has been associated with a reduced incidence of severe retinopathy of prematurity (ROP) without affecting survival or neurodevelopmental disability at 1 year of age. Our objective was to investigate the impact of the use of a lower oxygen saturation target range on the incidence of early hemodynamically significant PDA (hsPDA) and the need for ductal ligation in extremely low birth weight (ELBW, <1000 g) infants. STUDY DESIGN: In this retrospective study, we analyzed data from 263 ELBW infants managed 4 years before (episode I: target oxygen saturation 89 to 94%) and after (episode II: target oxygen saturation 83 to 89%) implementation of the use of lower oxygen saturation limits in two neonatal intensive care units. Infants with a birth weight of 1000 to 1500 g were managed with the same oxygen saturation target range (89 to 94%) during both episodes, and they served as controls. Parametric and nonparametric tests were used as appropriate and multivariate logistic regression models were used to correct for confounders. RESULTS: There was an increase in the incidence of hsPDA (63.2 vs 74.8%, P=0.043), without an increase in the need for surgical ligation (24.2 vs 29.9%, P=0.3) after implementation of the lower oxygen saturation target range policy. After adjusting for confounders, there was an increase in the odds of having an hsPDA (odds ratio (OR) 1.77, 95% confidence interval (CI) (1.03 to 3.06), P=0.04) but the odds for ductal ligation did not change in episode II (OR 1.25, 95% CI (0.70 to 2.25), P=0.4). The incidence of ROP > or = stage III (50.7 vs 15.7%; P<0.0001) and the need for laser ablation (33.8% vs 8.7%; P<0.0001) were significantly reduced. There was no change in the incidence of hsPDA or ductal ligation in the control group. CONCLUSION: Targeting lower oxygen saturation limits to minimize periods of hyperoxemia in ELBW infants reduced the incidence of severe ROP and the need for laser ablation. The incidence of early hsPDA was increased; however, final closure rate and the incidence of surgical ligation of the ductus arteriosus were not affected.

Definition of hypotension and assessment of hemodynamics in the preterm neonate.

The complexity of postnatal cardiovascular transition has only recently been better appreciated in the very low birth weight neonate. As blood pressure in itself poorly represents systemic blood flow, especially when the fetal channels are open and the developmentally regulated vital organ assignment may not have been completed, efforts to measure systemic blood flow have resulted in a novel, yet incomplete, understanding of the principles and clinical relevance of cardiovascular adaptation during postnatal transition in this patient population. This article describes the definition of hypotension based on the principles of cardiovascular physiology, and reviews the tools available to the clinician and researcher at the bedside to examine the complex relationship among blood pressure, systemic and organ blood flow, and tissue oxygen delivery and oxygen demand in vital and non-vital organs in the very low birth weight neonate. Only after gaining an insight into these complex relationships and processes will we be able to design clinical trials of selected treatment modalities targeting relevant patient sub-populations for the management of neonatal cardiovascular compromise. Only clinical trials based on a solid understanding of developmental cardiovascular physiology tailored to the appropriate patient sub-population hold the promise of being effective and practical, and can lead to improvements in both hemodynamic parameters and clinically relevant outcome measures.

Increased carotid artery intima-media thickness following venoarterial extracorporeal membrane oxygenation in the neonatal period.

OBJECTIVE: To compare left carotid intima-media thickness (CIMT) and biochemical markers for atherogenesis in neonatal venoarterial extracorporeal membrane oxygenation (ECMO) survivors with normal controls during childhood. METHODS: Venoarterial ECMO survivors and healthy patients between 12 and 18 years of age were enrolled in a matched control prospective study. ECMO survivors were matched to controls based on chronological age and percentage of body mass index (BMI). Measured CIMT of the posterior left carotid artery and CIMT values corrected for carotid artery size were used for data analysis. RESULTS: Thirty-one neonatal venoarterial ECMO survivors were matched to 31 healthy controls. No significant differences were found between ECMO survivors and controls for age, weight, percentage of BMI, total fat composition, lipid profiles, ultrasensitive C-reactive protein or homocysteine levels. Significant differences between ECMO and controls patients were found in systolic, diastolic and mean left CIMT. CONCLUSION: Compared with controls, the thickness of the left carotid intima media is significantly increased at the age of 12 to 18 years in neonatal venoarterial ECMO survivors. The clinical significance of this increased CIMT is unknown. ECMO centers may want to incorporate assessment of CIMT in their follow-up protocols.

Echocardiography and the neonatologist.

Pediatric echocardiography as performed and interpreted by pediatric cardiologists provides details of cardiac structure and function as well as hemodynamic data. Functional echocardiography, in contrast to echocardiography as performed by the cardiologist, is the bedside use of cardiac ultrasound to follow functional and hemodynamic changes longitudinally. Data reflecting cardiac function and systemic and pulmonary blood flow in critically ill preterm and term neonates can be monitored using this method. Functional echocardiography is being developed and driven by neonatologists as an extension of their clinical skills. A wealth of hemodynamic information can be derived from functional echocardiography used for the sick neonate, which provides clinical information different from the assumed underlying physiology. Lack of access to appropriate training programs and interdisciplinary politics is limiting the use of this potentially valuable clinical information. Without the use of functional echocardiography, clinicians are left to speculate as to the underlying pathophysiology of circulatory compromise, and the assumptions they make often are incorrect. For functional echocardiography to fulfill its clinical potential, it needs to be available at any time and at short notice in the neonatal intensive care unit (NICU). Because most NICUs do not have external diagnostic services to provide longitudinal hemodynamic follow-up assessment at the bedside, neonatologists should be able to develop appropriate echocardiographic skills in close collaboration with their cardiologist colleagues.

Limits of viability: definition of the gray zone.

INTRODUCTION: As survival and long-term morbidity of very preterm infants have improved over the past decade, the limits of infant viability, the level of maturity below which survival and/or acceptable neurodevelopmental outcome are extremely unlikely, have also decreased. STUDY DESIGN: In an effort to define the current limits of infant viability, the data in the literature on survival and long-term neurodevelopmental outcome in very preterm neonates have been reviewed. RESULT: The gestational age and birth weight below which infants are too immature to survive, and thus provision of intensive care is unreasonable, appears to be at <23 weeks and <500 g, respectively. Infants born at > or =25 weeks' gestation and with a birth weight of > or =600 g are mature enough to warrant initiation of intensive care, as the majority of these patients survive, and at least 50% do so without severe long-term disabilities. Finally, for infants born between 23(0/7) and 24(6/7) weeks' gestation and with a birth weight of 500 to 599 g, survival and outcome are extremely uncertain. For these infants born in the so-called 'gray zone' of infant viability, the line between patient autonomy and medical futility is blurred, and medical decision-making becomes even more complex and needs to embrace careful consideration of several factors. These factors include appraisal of prenatal data and the information obtained during consultations with the parents before delivery; evaluation of the patient's gestational age, birth weight and clinical condition upon delivery; ongoing reassessment of the patient's response to resuscitation and intensive care and continued involvement of the parents in the decision-making process after delivery. CONCLUSION: Based on these findings an algorithm is offered for consideration for neonatologists managing infants born in the 'gray zone' of infant viability. However, caution must be exercised when one considers incorporating this guideline into clinical practice because the algorithm is based on the analysis of the findings in the literature and the authors' experience rather than direct evidence.

Concurrent use of indomethacin and dexamethasone increases the risk of spontaneous intestinal perforation in very low birth weight neonates.

BACKGROUND: Dexamethasone or indomethacin predisposes very low birth weight (VLBW) neonates to spontaneous intestinal perforation (SIP). However, no study has specifically investigated the role of the concurrent use of indomethacin and dexamethasone in SIP. OBJECTIVE: To test whether the concurrent use of indomethacin and dexamethasone increases the risk of SIP. METHODS: In this single center, retrospective, 2:1 matched, case-control study, the odds of SIP were assessed using univariate and multivariate logistic regression analysis in < or =14-day old VLBW infants. RESULTS: Sixteen VLBW infants with SIP were matched to 32 controls by birth weight. After adjusting for clinically relevant variables, patients who received > or =3 doses of indomethacin for ductal closure or intraventricular hemorrhage prophylaxis and > or =3 doses of low-dose dexamethasone (0.3 mg/kg cumulative dose over 3 days) for refractory hypotension during the first postnatal week, were 9.6 times more likely to develop SIP [95% CI 1.22, 75.71]. CONCLUSIONS: The combined use of indomethacin and dexamethasone increases the risk of SIP in VLBW neonates.

Management of hypotension and low systemic blood flow in the very low birth weight neonate during the first postnatal week.

Systemic hypotension during the first postnatal week is associated with increased mortality and morbidity in the very low birth weight (VLBW) neonate. Hypotension is generally defined as blood pressure below the fifth percentile of the gestational- and postnatal-age dependent blood pressure norms. Recent studies indicate that in most VLBW neonates, cerebral blood flow autoregulation is indeed lost when blood pressure reaches the fifth percentile. Treatment of the circulatory compromise should address the primary pathogenic factor(s) of the condition (hypovolemia, myocardial compromise, failure of vasoregulation or a combination of factors). Recent findings also suggest that vasopressor resistance can be treated with a brief course of low-dose hydrocortisone. However, due to the short- and potential long-term side effects of early hydrocortisone treatment, its use should be restricted to neonates with vasopressor-resistant hypotension. Finally, concomitant administration of hydrocortisone with indomethacin should be avoided due to the increased incidence of gastrointestinal perforations.

Meningitis in a newborn infant with urosepsis, negative blood cultures and initially normal cerebrospinal fluid findings.

This case presentation supports the observation that initial cerebrospinal fluid findings can be normal in newborn infants with sepsis syndrome who then develop evidence for meningeal involvement. Therefore, if initial lumbar puncture results are negative, a repeat lumbar puncture is recommended to look for meningitis in newborns that are critically ill with sepsis syndrome.

Use of high-frequency jet ventilation in neonates with hypoxemia refractory to high-frequency oscillatory ventilation.

OBJECTIVE: To describe the response to high-frequency jet ventilation in infants with hypoxemic respiratory failure unresponsive to high-frequency oscillatory ventilation. METHODS: This was a retrospective analysis of chart records on demographics, ventilator settings, blood gas analysis and calculated oxygenation index prior to and during the first 7 days of high-frequency jet ventilation in ten consecutive infants. RESULTS: Before the initiation of high-frequency jet ventilation, the ventilatory mean airway pressure (MAP; cmH2O), fraction of inspired oxygen (FiO2) and oxygenation index on high-frequency oscillatory ventilation were 14.3 +/- 1.3, 0.97 +/- 0.02 and 29 +/- 5, respectively. Three hours after the initiation of high-frequency jet ventilation, the oxygenation index improved to 18 +/- 4 (p < 0.001) and the improvement was sustained during the study period. By 6 h of high-frequency jet ventilation, the FiO2 decreased to 0.62 +/- 0.09 (p < 0.01) and, by 1-3 h of ventilation, the MAP decreased to 10.9 +/- 1.3 (p < 0.01). The improvement in FiO2 persisted for 7 days while, although the MAP remained lower throughout the study, the improvement in MAP failed to reach statistical significance after 72 h. No significant changes in pH, pCO2, or pO2 before or during high-frequency jet ventilation were noted. CONCLUSION: High-frequency jet ventilation improves hypoxemic respiratory failure unresponsive to high-frequency oscillatory ventilation in infants. These findings suggest that not all high-frequency ventilatory devices yield the same clinical results.

Cardiovascular effects of hydrocortisone in preterm infants with pressor-resistant hypotension.

OBJECTIVE: To study the cardiovascular effects of hydrocortisone in preterm infants with hypotension unresponsive to volume and pressor administration. STUDY DESIGN: Retrospective review of the cardiovascular response to 23 courses of hydrocortisone administration during the first day of treatment in 21 preterm infants (gestational age: 26.9 +/- 3.9 weeks; postnatal age: 11.3 +/- 13.1 days). Hydrocortisone (2 mg/kg/d in 16 patients and 3-6 mg/kg/d in 5 patients) was administered when dopamine (22.2 +/- 11 microg/kg/min, range: 8-60) alone (n = 16) or in combination with dobutamine (8.4 +/- 4.9 microg/kg/min, range: 5-20, n = 7) and/or epinephrine (0.38 +/- 0.56 microg/kg/min, range: 0.01-1.2, n = 4) failed to normalize blood pressure. RESULTS: Mean blood pressure increased from 29.3 +/- 4.1 to 34.1 +/- 5.2, 38.0 +/- 8.0, and 41.8 +/- 6.6 mm Hg by 2, 4, and 6 hours of hydrocortisone administration, respectively, and remained stable thereafter. Urine output increased despite a decrease in fluid administration during the first day of hydrocortisone treatment. The dose of dopamine and the number of patients receiving dobutamine and/or epinephrine also decreased during the same period. Eighteen of the 21 patients survived. CONCLUSIONS: Preterm infants with volume- and pressor-resistant hypotension respond to hydrocortisone with rapid normalization of the cardiovascular status and sustained decreases in volume and pressor requirement.

Controversies in the diagnosis and management of hypotension in the newborn infant.

Although close to half of the newborns admitted to neonatal intensive care units receive treatment for "hypotension," the normal physiologic blood pressure range ensuring appropriate organ perfusion in the neonate is unknown. Thus, the decision to treat hypotension in the newborn is based on statistically defined gestational and postnatal age-dependent normative blood pressure values and physicians' beliefs rather than on data bearing physiologic reference. Dopamine is the most widely used sympathomimetic amine in the treatment of neonatal hypotension, and it is more effective than dobutamine in raising blood pressure. Volume administration is less effective in the immediate postnatal period, and its extensive use is associated with significant untoward effects, especially in preterm infants. During the course of their disease, some of the sickest hypotensive newborns become unresponsive to volume and pressor administration. This phenomenon is caused by the desensitization of the cardiovascular system to catecholamines by the critical illness and relative or absolute adrenal insufficiency. The findings that steroids rapidly up-regulate cardiovascular adrenergic receptor expression and serve as hormone substitution in cases of adrenal insufficiency explain their effectiveness in stabilizing the cardiovascular status and decreasing the requirement for pressor support in the critically ill newborn with volume-and pressor-resistant hypotension. Finally, despite recent advances in our understanding of the pathophysiology and management of neonatal hypotension, there are few data on the impact of the treatment on organ blood flow and tissue perfusion and on neonatal morbidity and mortality.

Circulatory support of the sick preterm infant.

In the majority of preterm infants, especially during the immediate postnatal period, hypotension is primarily caused by abnormal peripheral vasoregulation and/or myocardial dysfunction and not by absolute hypovolemia. Therefore, aggressive volume resuscitation is not warranted and is potentially harmful. Volume support should be limited to 10-20 ml/kg of isotonic saline administration and, if sustained normalization of the blood pressure cannot be achieved, early initiation of cardiovascular pharmacological support is recommended. However, in preterm infants who present with an identifiable volume loss, the kind of fluid lost should first be replaced. Due to its beneficial cardiovascular and renal actions, dopamine is the drug of choice in the treatment of neonatal hypotension. Dobutamine may be added if myocardial dysfunction persists or develops during dopamine treatment. In some critically ill preterm infants, escalation of dopamine therapy or addition of epinephrine is necessary yet not always effective indicating the development of pressor resistant hypotension. Downregulation of cardiovascular adrenergic receptors and some degree of adrenal insufficiency may explain this phenomenon. In these patients, a brief course of steroid treatment may be successful in stabilizing the cardiovascular status and decreasing the requirement for pressor/inotrope support. However, well-designed randomized and controlled clinical trials are needed in the future to determine the effectiveness and potential short- and long-term side effects of steroid administration in preterm infants with pressor-resistant hypotension. In summary, management of the critically ill hypotensive preterm infant remains challenging and requires a better understanding of the pathophysiology of neonatal shock and improvements in our ability to evaluate cardiac output, organ blood flow, and tissue perfusion at the bedside.