key: cord-0017621-9wjh8cjp authors: Pournami, Femitha title: The Neonatal Resuscitation Protocol: Keep It Simple? date: 2021-05-21 journal: Indian Pediatr DOI: 10.1007/s13312-021-2224-4 sha: 5c50651a57cdafa5f2859d43a5e008026ecd7f47 doc_id: 17621 cord_uid: 9wjh8cjp nan A one-year-old male child presented with complaints of fever, vomiting and loose stools for 4 days. After 6 days, symptoms subsided but child developed rapid worsening sensorium and hepatomegaly. Investigations revealed marked elevation in serum transaminases ( Magnetic resonance imaging (MRI) of brain showed hyperintensities in the bilateral caudate nuclei, putamen, globus pallidus and restricted diffusion in the bilateral basal ganglia suggestive of acute necrotizing encephalopathy. Child was treated with intravenous methyl prednisolone (30 mg/kg/day) for 3 days, followed by oral prednisolone at 2 mg/kg/day for 15 days, which was gradual tapered over next one month. On day 6 of hospitalisation, the child's sensorium improved and he was discharged with feeding tube in situ, with residual neurological deficit, and AST of 81 IU/L and ALT of 1250 IU/L. On followup after 45 days of illness, his liver function tests have normalized, he can feed without the feeding tube, can speak monosyllables and can recognize parents. Acute necrotizing encephalopathy is a para-infectious disease triggered by viral infections, most commonly by influenza and HHV 6 [1] [2] [3] . The most likely hypothesis for the pathogenesis of ANE is the exaggerated inflammatory response to viral infection leading to liver dysfunction, acute renal failure, shock, and disseminated intravascular coagulation. In nervous system, the permeability of vessels is altered without vessel wall disruption [3] . Our patient had a history of viral gastroenteritis and the stool rotavirus antigen was positive. Neurological manifestations associated with rotavirus have been described [4] . Thus, we consider rota virus as the possible etiology for ANE. Definitive treatment guidelines for ANE have not been formulated but antiviral therapy, immunomodulatory treatment, antithrombin III, therapeutic hypothermia and cyclosporin A have been variably used [1, 3] . ANE is associated with a high mortality and less than 10% of patients recover completely [3] . In conclusion, a high index of suspicion for ANE is needed in a previously healthy child with sudden onset neurological symptoms following acute febrile illness. Neonatal intensive care practice has its moments I would say; several actually. Sending a micropreemie home, watching a meconium aspiration pneumonia improve on high frequency ventilation and nitric oxide, managing to insert a life-saving central line catheter into a fine thread like vein, cherishing the normal neurodevelopment of a critically ill infant; all of these and more make the effort worth it. Why then, did the neonatologist in me decide to put myself at risk of criticism with this manuscript which could ripple some still waters? Albeit I am no virtuoso in the field of medical research, having faced the maelstrom of intensive care on my feet for over 10 years, I wish to comment on a guideline that makes a difference to every day practice. The neonatal resuscitation protocol (NRP) for the term newborn, can be described as "daily bread" to the genus of intensivists called neonatologists and has undergone several modifications over the last decades. Thyself followed, with great fervour, the 'reforms' made to the protocol [1] . Over the ensuing paragraphs I intend to raise my reservations on the tipping balance in NRP, between the quest for evidence based practices and pragmatism. VOLUME 58 __ MAY 15, 2021 CORRESPONDENCE Those who work with older children and adults know that their patients crash mainly due to cardiac reasons. Basic life support training hence focusses on pushing hard and fast to get the circulation going [2] . On the other hand, babies who do not seem fine at birth are typically so because of prior hypoxemia and all the problems that result: hence, the focus on 'breathing'. Either stimulate him (forgive the literal gender bias) to cry, or drive air in by positive pressure ventilation, and most of the other problems (bradycardia, poor tone) sort themselves out. There is a small proportion who need chest compressions and drugs, though [3] . Experiments on animals, and results from various clinical studies, apparently guided changes in the protocol and aimed at improving outcomes, which is indubitably the correct way forward. Did we outbid practicality in this quagmire of trying to add more and more boxes and branches to the resuscitation algorithm? Ab initio, everything seemed undeniably robust. Certain vital information was essential at birth (the first 'box' in the algorithm), and all it took to decide if the baby was fine was that he should cry with gusto and look all flexed and pink within minutes. But the contents of these so-called boxes kept changing, with its members moving in and out with every update. Even if you manage to let that pass, some of the additions that came in later further along the algorithm does want to make you sit up and roll your eyes. It sounded reasonable to attach a pulse oximeter probe for those who needed more supports; after all, we swear by primum nonnocere and oxygen does do harm [4] . But sticking ECG leads as time ticks on? And then staring at the monitor for precious seconds to get readings and act: now that is a tough one to comprehend in the chaos. Specifically when the evidence is tenuous at best; as slippery as the baby in fact [5] . Whatever happened to years of training listening to the lub-dub through the instrument we wield as the mark of a doctor? Let that go by too. What seemed completely overboard and actually made me gape incredulously was this. Suppose the little fellow needs chest compressions too (remember someone is already ventilating him from the head end by then); the 'compressor' who was on one side of the baby needs to move to the head end and nudge the 'ventilator' to swap positions. The picture that comes to mind is that of an entangled crochet of the operators' forearms and hands. Why not continue the twothumb chest compression from one side, allowing the airway person to continue his good work from the head end (especially considering the stability of the more important airway)? Seemingly to make way for a third person to insert the umbilical vein canula, if required. What happened to the other side of the baby, usually the left? Try telling me that clinical examination and procedures need to be done from the right side of the patient (one of the first 'rules' drilled into a medical student). The foundation for this custom is quite simply convention [6] . A right hander may do a better job while examining asymmetric organs like the liver, spleen or heart; but the umbilical stump? Try it on a mannequin, makes no difference at all-right or not right! I could go on and on. Adding to the angst is the concern that a student/ trainee is reprimanded; or worse-still, failed in the objective structured clinical examination stations, for not strictly adhering to the rule-book. Not to mention the ever looming medico-legal issues that can be pursued by those who go to court for 'errors' during resuscitation. At the end of the road, all we need to do most of the time, is to reverse the hypoxemia and hypercarbia by effectively ventilating the lung, and the heart and brain follow suit. But no, we like to complicate everything. I am reminded of the historical Rube Goldberg machine! On a more serious note, if we set aside a miniscule fortunate fraction of the population, our country's less privileged interiors are still grappling with bare minimum availability of equipment and trained personnel [7, 8] . With great efforts, the neonatal mortality has dropped from 38 to 23.5 per 1000 live births [9] . But we have miles to go. A close look at the vast differences in statistics within the country seems to indicate the need for very specific regional and local microplanning. In such conditions, we need to earnestly contemplate the practical applicability of the ever evolving NRP; and consider local, regional logistics and readiness before blanket recommendations are made. An additional section in the NRP guidelines on adoption of new guidelines at various levels of healthcare may be added to address similar issues. Acute necrotising encephalopathy in a child with H1N1 influenza infection: A clinicoradiological diagnosis and follow-up Encephalitis in a child with H1N1 infection: First case report from India Acute necrotizing encephalopathy an under recognized clinicoradiologic disorder Rotavirus associated acute encephalitis/encephalopathy and concurrent cerebellitis: report of two cases American Heart Association guidelines for Cardio-pulmonary resuscitation and Emergency Cardiovascular care American Heart Association guidelines for Cardio-Pulmonary Resuscitation and Emergency Cardiovascular Care Guidelines on basic neonatal resuscitation. 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