Electrocardiography detects the heart rate faster and more accurately than a pulse oximeter. High-quality observational studies of large populations may also add to the evidence. In one RCT and one observational study, there were no reports of technical difficulties with ECG monitoring during neonatal resuscitation, supporting its feasibility as a tool for monitoring heart rate during neonatal resuscitation. As mortality and severe morbidities decline with biomedical advancements and improvements in healthcare delivery, there is decreased ability to have adequate power for some clinical questions using traditional individual patient randomized trials. Two observational studies found an association between hyperthermia and increased morbidity and mortality in very preterm (moderate quality) and very low-birth-weight neonates (very low quality). Routine suctioning, whether oral, nasal, oropharyngeal, or endotracheal, is not recommended because of a lack of benefit and risk of bradycardia. One RCT in resource-limited settings found that plastic coverings reduced the incidence of hypothermia, but they were not directly compared with uninterrupted skin-to-skin care. A nonrandomized trial showed that endotracheal suctioning did not decrease the incidence of meconium aspiration syndrome or mortality. The heart rate should be re- checked after 1 minute of giving compressions and ventilations. Current resuscitation guidelines recommend that epinephrine should be used if the newborn remains bradycardic with heart rate <60 bpm after 30 s of what appears to be effective ventilation with chest rise, followed by 30 s of coordinated chest compressions and ventilations (1, 8, 9). How deep should the catheter be inserted? For participants who have been trained in neonatal resuscitation, individual or team booster training should occur more frequently than every 2 yr at a frequency that supports retention of knowledge, skills, and behaviors. If the infant's heart rate is less than 60 beats per minute after adequate positive pressure ventilation and chest compressions, intravenous epinephrine at 0.01 to 0.03 mg per kg (1:10,000 solution) is recommended. For newly born infants who are unintentionally hypothermic (temperature less than 36C) after resuscitation, it may be reasonable to rewarm either rapidly (0.5C/h) or slowly (less than 0.5C/h). Establishing ventilation is the most important step to correct low heart rate. In preterm newly born infants, the routine use of sustained inflations to initiate resuscitation is potentially harmful and should not be performed. Pulse oximetry with oxygen targeting is recommended in this population.3, Most newborns who are apneic or have ineffective breathing at birth will respond to initial steps of newborn resuscitation (positioning to open the airway, clearing secretions, drying, and tactile stimulation) or to effective PPV with a rise in heart rate and improved breathing. What is true about a pneumothorax in the newborn? Uncrossmatched type O, Rh-negative blood (or crossmatched, if immediately available) is preferred when blood loss is substantial.4,5 An initial volume of 10 mL/kg over 5 to 10 minutes may be reasonable and may be repeated if there is inadequate response. There is a history of acute blood loss around the time of delivery. Naloxone and sodium bicarbonate are rarely needed and are not recommended during neonatal resuscitation. Limited observational studies suggest that tactile stimulation may improve respiratory effort. Physicians who provide obstetric care should be aware of maternal-fetal risk factors1 and should assess the risk of respiratory depression with each delivery.19 The obstetric team should inform the neonatal resuscitation team of the risk status for each delivery and continue to focus on obstetric care. Administer epinephrine, preferably intravenously, if response to chest compressions is poor. Positive end-expiratory pressure of up to 5 cm of water may be used to maintain lung volumes based on low-quality evidence of reduced mortality in preterm infants. For infants born at less than 28 wk of gestation, cord milking is not recommended. Most newly born infants do not require immediate cord clamping or resuscitation and can be evaluated and monitored during skin-to-skin contact with their mothers after birth. The most important priority for newborn survival is the establishment of adequate lung inflation and ventilation after birth. In addition, specific recommendations about the training of resuscitation providers and systems of care are provided in their respective guideline Parts.9,10. Pulse oximetry tended to underestimate the newborn's heart rate. A meta-analysis of 5 randomized and quasirandomized trials enrolling term and late preterm newborns showed no difference in rates of hypoxic-ischemic encephalopathy (HIE). Variables to be considered may include whether the resuscitation was considered optimal, availability of advanced neonatal care (such as therapeutic hypothermia), specific circumstances before delivery, and wishes expressed by the family.3,6, Some babies are so sick or immature at birth that survival is unlikely, even if neonatal resuscitation and intensive care are provided. The impact of therapeutic hypothermia on infants less than 36 weeks gestational age with HIE is unclear and is a subject of ongoing research trials. Short, frequent practice (booster training) has been shown to improve neonatal resuscitation outcomes.5 Educational programs and perinatal facilities should develop strategies to ensure that individual and team training is frequent enough to sustain knowledge and skills. If the infant's heart rate is less than 100 beats per minute and/or the infant has apnea or gasping respiration, positive pressure ventilation via face mask should be initiated with 21 percent oxygen (room air) or blended oxygen using a self-inflating bag, flow-inflating bag, or T-piece device while monitoring the inflation pressure. Alternative compression-to-ventilation ratios to 3:1, as well as asynchronous PPV (administration of inflations to a patient that are not coordinated with chest compressions), are routinely utilized outside the newborn period, but the preferred method in the newly born is 3:1 in synchrony. However, the concepts in these guidelines may be applied to newborns during the neonatal period (birth to 28 days). For nonvigorous newborns with meconium-stained fluid, endotracheal suctioning is indicated only if obstruction limits positive pressure ventilation, because suctioning does not improve outcomes. Every healthy newly born baby should have a trained and equipped person assigned to facilitate transition. In term and late preterm newborns (35 wk or more of gestation) receiving respiratory support at birth, the initial use of 21% oxygen is reasonable. In term and late preterm newborns (35 wk or more of gestation) receiving respiratory support at birth, 100% oxygen should not be used because it is associated with excess mortality. Pulse oximetry is used to guide oxygen therapy and meet oxygen saturation goals. Although this flush volume may . A randomized trial showed that endotracheal suctioning of vigorous. - 14446398 When the heart rate increases to more than 100 bpm, PPV may be discontinued if there is effective respiratory effort.5 Oxygen is decreased and discontinued once the infant's oxygen saturation meets the targeted levels (Figure 1).5, If there is no heartbeat after 10 minutes of adequate resuscitative efforts, the team can cease further resuscitation.1,5,6 A member of the team should keep the family informed during the resuscitation process. Normal saline (0.9% sodium chloride) is the crystalloid fluid of choice. The guidelines form the basis of the AAP/American Heart Association (AHA) Neonatal Resuscitation Program (NRP), 8th edition, which will be available in June 2021. With the symptoms of The dose of epinephrine is .5-1ml/kg by ETT or .1-.3ml/kg in the concentration of 1:10,000 (0.1mg/ml), which is to be followed by 0.5-1ml flush of normal saline. All Rights Reserved. This content is owned by the AAFP. If the infant needs PPV, the recommended approach is to monitor the inflation pressure and to initiate PPV using a peak inspiratory pressure (PIP) of 20 cm H2O for the first few breaths; however, a PIP of 30 to 40 cm H2O (in some term infants) may be required at a rate of 40 to 60 breaths per minute.5,6 The best measure of adequate ventilation is prompt improvement in heart rate.24 Auscultation of the precordium is the primary means of assessing heart rate, but for infants requiring respiratory support, pulse oximetry is recommended.5,6 However, if the heart rate does not increase with mask PPV and there is no chest rise, ventilation should be optimized by implementing the following six steps: (1) adjust the mask to ensure a good seal; (2) reposition the airway by adjusting the position of the head; (3) suction the secretions in the mouth and nose; (4) open the mouth slightly and move the jaw forward; (5) increase the PIP enough to move the chest; and (6) consider an alternate airway (endotracheal intubation or laryngeal mask airway).5 PIP may be decreased when the heart rate increases to more than 60 bpm, and PPV may be discontinued once the heart rate is more than 100 bpm and there is spontaneous breathing. Tactile stimulation should be limited to drying an infant and rubbing the back and soles of the feet.21,22 There may be some benefit from repeated tactile stimulation in preterm babies during or after providing PPV, but this requires further study.23 If, at initial assessment, there is visible fluid obstructing the airway or a concern about obstructed breathing, the mouth and nose may be suctioned. Newly born infants who breathe spontaneously need to establish a functional residual capacity after birth.8 Some newly born infants experience respiratory distress, which manifests as labored breathing or persistent cyanosis. When do chest compressions stop NRP? Researchers studying these gaps may need to consider innovations in clinical trial design; examples include pragmatic study designs and novel consent processes. Therefore, identifying a rapid and reliable method to measure the newborn's heart rate is critically important during neonatal resuscitation. There were only minor changes to the NRP algorithm and recommended practices. There was no difference in neonatal intubation performance after weekly booster practice for 4 weeks compared with daily booster practice for 4 consecutive days. The following knowledge gaps require further research: For all these gaps, it is important that we have information on outcomes considered critical or important by both healthcare providers and families of newborn infants. Once the heart rate increases to more than 60 bpm, chest compressions are stopped. When feasible, well-designed multicenter randomized clinical trials are still optimal to generate the highest-quality evidence. CPAP, a form of respiratory support, helps newly born infants keep their lungs open. CPAP indicates continuous positive airway pressure; ECG, electrocardiographic; ETT, endotracheal tube; HR, heart rate; IV, intravenous; O2, oxygen; Spo2, oxygen saturation; and UVC, umbilical venous catheter. Teams and individuals who provide neonatal resuscitation are faced with many challenges with respect to the knowledge, skills, and behaviors needed to perform effectively. For nonvigorous newborns delivered through MSAF who have evidence of airway obstruction during PPV, intubation and tracheal suction can be beneficial. Consider pneumothorax. When providing chest compressions with the 2 thumbencircling hands technique, the hands encircle the chest while the thumbs depress the sternum.1,2 The 2 thumbencircling hands technique can be performed from the side of the infant or from above the head of the newborn.1 Performing chest compressions with the 2 thumbencircling hands technique from above the head facilitates placement of an umbilical venous catheter. Once the infant is brought to the warmer, the head is kept in the sniffing position to open the airway. In babies who appear to have ineffective respiratory effort after birth, tactile stimulation is reasonable. Positive-pressure ventilation should be started in newborns who are gasping, apneic, or with a heart rate below 100 beats per minute by 60 seconds of life. This guideline is designed for North American healthcare providers who are looking for an up-to-date summary for clinical care, as well as for those who are seeking more in-depth information on resuscitation science and gaps in current knowledge. The science of neonatal resuscitation applies to newly born infants transitioning from the fluid-filled environment of the womb to the air-filled environment of the birthing room and to newborns in the days after birth. Suction should also be considered if there is evidence of airway obstruction during PPV, Direct laryngoscopy and endotracheal suctioning are not routinely required for babies born through MSAF but can be beneficial in babies who have evidence of airway obstruction while receiving PPV.7. Hyperthermia should be avoided.1,2,6, Delivery room temperature should be set at at least 78.8F (26C) for infants less than 28 weeks' gestation.6. No studies have examined PEEP vs. no PEEP when positive pressure ventilation is used after birth. A systematic review (low to moderate certainty) of 6 RCTs showed that early skin-to-skin contact promotes normothermia in healthy neonates. Reviews in 2021 and later will address choice of devices and aids, including those required for ventilation (T-piece, self-inflating bag, flow-inflating bag), ventilation interface (face mask, laryngeal mask), suction (bulb syringe, meconium aspirator), monitoring (respiratory function monitors, heart rate monitoring, near infrared spectroscopy), feedback, and documentation. Intravenous epinephrine is preferred because plasma epinephrine levels increase much faster than with endotracheal administration. The wet cloth beneath the infant is changed.5 Respiratory effort is assessed to see if the infant has apnea or gasping respiration, and the heart rate is counted by feeling the umbilical cord pulsations or by auscultating the heart for six seconds (e.g., heart rate of six in six seconds is 60 beats per minute [bpm]). Circulation. Provide chest compressions if the heart rate is absent or remains <60 bpm despite adequate assisted ventilation for 30 seconds. This can usually be achieved with a peak inflation pressure of 20 to 25 cm water (H. In newly born infants receiving PPV, it may be reasonable to provide positive end-expiratory pressure (PEEP). Copyright 2023 American Academy of Family Physicians. Birth Antenatal counseling Team briefing and equipment check Neonatal Resuscitation Algorithm. The ILCOR task force review, when comparing PPV with sustained inflation breaths, defined PPV to have an inspiratory time of 1 second or less, based on expert opinion. Before using epinephrine, tell your doctor if any past use of epinephrine injection caused an allergic reaction to get worse. Breathing: Assist breathing with PPV if baby apneic, gasping, or bradycardic. For term infants who do not require resuscitation at birth, it may be reasonable to delay cord clamping for longer than 30 seconds. Compared with term infants receiving early cord clamping, term infants receiving delayed cord clamping had increased hemoglobin concentration within the first 24 hours and increased ferritin concentration in the first 3 to 6 months in meta-analyses of 12 and 6 RCTs. . Endotracheal suctioning may be useful in nonvigorous infants with respiratory depression born through meconium-stained amniotic fluid. Reduce the inflation pressure if the chest is moving well. Attaches oxygen set at 10-15 lpm. Oximetry is used to target the natural range of oxygen saturation levels that occur in term babies. Another barrier is the difficulty in obtaining antenatal consent for clinical trials in the delivery room. The neonatal epinephrine dose is 0.01 to 0.03 mg per kg (1:10,000 solution) given intravenously (via umbilical venous catheter).1,2,5,6 If there is any delay in securing venous access, epinephrine can be given via endotracheal tube at a higher dose of 0.05 to 0.10 mg per kg (1:10,000 solution), followed by intravenous dosing, if necessary, as soon as access is established.5, Naloxone is not recommended during neonatal resuscitation in the delivery room; infants with respiratory depression should be resuscitated with PPV.1,2,5,6 Volume expansion (using crystalloid or red blood cells) is recommended when blood loss is suspected (e.g., pale skin, poor perfusion, weak pulse) and when the infant's heart rate continues to be low despite effective resuscitation.5,6 Sodium bicarbonate is not recommended during neonatal resuscitation in the delivery room, because it does not improve survival or neurologic outcome.6,39, Approximately 7 to 20 percent of deliveries are complicated by meconium-stained amniotic fluid; these infants have a 2 to 9 percent risk of developing meconium aspiration syndrome.50 Oral and nasopharyngeal suction on the perineum is not recommended, because it has not been shown to reduce the risk of meconium aspiration syndrome.20 In the absence of randomized controlled trials, there is insufficient evidence to recommend changing the current practice of intubation and endotracheal suction in nonvigorous infants (as defined by decreased heart rate, respiratory effort, or muscle tone) born through meconium-stained amniotic fluid.1,2,5 However, if attempted intubation is prolonged or unsuccessful, and bradycardia is present, bag and mask ventilation is advised.5,6 Endotracheal suctioning of vigorous infants is not recommended.1,2,5,6, Withholding resuscitation and offering comfort care is appropriate (with parental consent) in certain infants, such as very premature infants (born at less than 23 weeks' gestation or weighing less than 400 g) and infants with anencephaly or trisomy 13 syndrome.5 If there is no detectable heart rate after 10 minutes of resuscitation, it is appropriate to consider discontinuing resuscitation.5,6, Intravenous glucose infusion should be started soon after resuscitation to avoid hypoglycemia.5,6 In addition, infants born at 36 weeks' gestation or later with evolving moderate to severe hypoxic-ischemic encephalopathy should be offered therapeutic hypothermia, using studied protocols, within six hours at a facility with capabilities of multidisciplinary care and long-term follow-up.57. When chest compressions are initiated, an ECG should be used to confirm heart rate. Team training remains an important aspect of neonatal resuscitation, including anticipation, preparation, briefing, and debriefing. Epinephrine is indicated if the infant's heart rate continues to be less than 60 bpm after 30 seconds of adequate PPV with 100 percent oxygen and chest compressions. minutes, and 80% at 5 minutes of life. However, free radicals are generated when successful resuscitation results in reperfusion and restoration of oxygen delivery to organs.44 Use of 100 percent oxygen may increase the load of oxygen free radicals, which can potentially lead to end-organ damage. If the response to chest compressions is poor, it may be reasonable to provide epinephrine, preferably via the intravenous route. The intravenous dose of epinephrine is 0.01 to 0.03 mg/kg, followed by a normal saline flush.4 If umbilical venous access has not yet been obtained, epinephrine may be given by the endotracheal route in a dose of 0.05 to 0.1 mg/kg. Epinephrine use in the delivery room for resuscitation of the newborn is associated with significant morbidity and mortality. If the heart rate is less than 60 bpm, begin chest compressions. A large multicenter RCT found higher rates of intraventricular hemorrhage with cord milking in preterm babies born at less than 28 weeks gestational age. This is partly due to the challenges of performing large randomized controlled trials (RCTs) in the delivery room. For preterm infants who do not require resuscitation at birth, it is reasonable to delay cord clamping for longer than 30 seconds. Immediate, unlimited access to all AFP content, Immediate, unlimited access to this issue's content. Other important goals include establishment and maintenance of cardiovascular and temperature stability as well as the promotion of mother-infant bonding and breast feeding, recognizing that healthy babies transition naturally. While vascular access is being obtained, it may be reasonable to administer endotracheal epinephrine at a larger dose (0.05 to 0.1 mg/kg). The effect of briefing and debriefing on longer-term and critical outcomes remains uncertain. When vascular access is required in the newly born, the umbilical venous route is preferred. A person viewing it online may make one printout of the material and may use that printout only for his or her personal, non-commercial reference. Newly born infants with abnormal glucose levels (both low and high) are at increased risk for brain injury and adverse outcomes after a hypoxic-ischemic insult. 0.5 mL In preterm infants, delaying clamping reduces the need for vasopressors or transfusions. If the heart rate remains less than 60/min despite 60 seconds of chest compressions and adequate PPV, epinephrine should be administered, ideally via the intravenous route. 1. Chest compressions are a rare event in full-term newborns (approximately 0.1%) but are provided more frequently to preterm newborns.11When providing chest compressions to a newborn, it may be reasonable to deliver 3 compressions before or after each inflation: providing 30 inflations and 90 compressions per minute (3:1 ratio for 120 total events per minute). The dose of epinephrine can be re-peated after 3-5 minutes if the initial dose is ineffective or can be repeated immediately if initial dose is given by endo-tracheal tube in the absence of an intravenous access.

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