Chasecarr6100

Congenital diarrheal disorders are heterogeneous conditions characterized by diarrhea with onset in the first years of life. They range from simple temporary conditions, such as cow's milk protein intolerance to irreversible complications, such as microvillous inclusion disease with significant morbidity and mortality. Advances in genomic medicine have improved our understanding of these disorders, leading to an ever-increasing list of identified causative genes. The diagnostic approach to these conditions consists of establishing the presence of diarrhea by detailed review of the history, followed by characterizing the composition of the diarrhea, the response to fasting, and with further specialized testing. Severe combined immunodeficiency (SCID) encompasses a group of genetic defects. T cell development is universally affected and has alteration of B and/or NK cells. We present the case of a 5-day-old boy with combined heterozygous frame shift (c.256_257del, p.(Lys86Valfs*33)) and missense (c.1186C>T, p.(Arg396Cys)) variations in the RAG1 gene. check details He was admitted to our institution because of 0 TREC on Newborn Screen and worsening rash. Initially thought to have Omenn syndrome versus maternal engraftment with graft versus host disease, DNA analysis identified the noted mutations and he subsequently received a bone marrow transplant from a matched sibling. Numerous disorders present with vesiculopustular eruptions in the neonatal period, ranging from benign to life-threatening. Accurate and prompt diagnosis is imperative to avoid unnecessary testing and treatment for benign eruptions, while allowing for adequate treatment of potentially fatal disorders. In this review, we highlight several rare blistering diseases of the newborn. A diagnostic approach is outlined to provide clinicians with a framework for approaching a neonate with vesicles, pustules, or ulcers. Autoinflammatory disorders are rare genetic defects that result in inflammation in the absence of an infectious or autoimmune disease. Although very rare, these disorders can occur in the perinatal period, and recognizing their presentation is important because there are often long-term complications and effective targeted therapies for these disorders. Most of these disorders present with rash, fevers, and laboratory evidence of inflammation. Importantly, these disorders can now be separated into their pathophysiologic mechanisms of action, which can also guide therapies. The article reviews the different mechanisms of autoinflammatory disorders and highlights those disorders that can present in the newborn period. Neonatal acute liver failure (NALF) is a rare disease with a few known primary causes gestational alloimmune liver disease (GALD), viral infections, metabolic diseases, and ischemic injury. Many cases still do not have a known cause. Laboratory evaluation may suggest a diagnosis. Most of the known causes have disease-specific treatments that improve outcomes. Survival is improving with better knowledge about and treatment options for GALD; however, overall mortality for NALF is still 24%. Liver transplant remains an important option for neonates with an indeterminate cause of NALF and those who do not respond to established treatments. The congenital muscular dystrophies and congenital myopathies are a heterogenous group of diseases with a wide variety of presentations and outcomes. With the growing understanding of genetic involvement, and developing therapies, having a genetically confirmed diagnosis with phenotype correlation is essential. To achieve this, a structured approach is warranted to each child to ensure that mimickers are excluded. By structuring the evaluation appropriately, the clinician can help expedite the evaluation of these infants in a cost-effective manner. Understanding the pitfalls of each step of testing will allow the clinician to better understand variants in presentation and avoid cognitive errors in the process. Neonatal appendicitis is a rare disease with a high mortality rate. Appendicitis is difficult to diagnose in neonatal and infant populations because it mimics other more common conditions in these age groups. Furthermore, signs and symptoms of appendicitis are often nonspecific in nonverbal patients and a high index of suspicion is necessary to initiate the appropriate diagnostic work-up. The keys to successful management of appendicitis in infants include keeping the diagnosis on the differential in the setting of unexplained intra-abdominal sepsis, following a diagnostic algorithm in the work-up of infant abdominal pathology, and performing appendectomy once the diagnosis is confirmed. Heterotaxy is a generalized term for patients who have an abnormality of laterality that cannot be described as situs inversus. Infants with heterotaxy can have significant anatomic and medical complexity and require personalized, specialized care, including comprehensive anatomic assessment. Common and rare anatomic findings are reviewed by system to help guide a thorough phenotypic evaluation. General care guidelines and considerations unique to this patient population are included. Future directions for this unique patient population, particularly in light of improved neonatal survival, are discussed. Metabolic disorders are disruptions in nutrient metabolism or basic cellular processes that can result in severe neonatal crisis. Basic laboratory findings may reveal hypoglycemia, acidosis, or hyperammonemia, but may also be normal even in infants with severe metabolic decompensation. Breast milk or milk-based formulas often contain the nutrient that precipitates the metabolic crisis and may need to be held during acute illness. Instead, infants with suspected metabolic disorders should be administered a high glucose infusion rate with isotonic fluids to reverse catabolism. Combined advanced biochemical and molecular testing is often needed to identify specific metabolic disorders and guide ongoing treatment. Dysmorphology is the practice of defining the morphologic phenotype of syndromic disorders. Genomic sequencing has advanced our understanding of human variation and molecular dysmorphology has evolved in response to the science of relating embryologic developmental implications of abnormal gene signaling pathways to the resultant phenotypic presentation. Machine learning has enabled the application of deep convoluted neural networks to recognize the comparative likeness of these phenotypes relative to the causal genotype or disrupted gene pathway.