Cor pulmonale due to congenital central hypoventilation syndrome presenting in adolescence

Case Report: A novel PHOX2B p.Ala248_Ala266dup variant causing congenital central hypoventilation syndrome

INTRODUCTION

Congenital central hypoventilation syndrome (CCHS) is a rare disease characterized by central alveolar hypoventilation and impaired autonomic regulation, caused by pathogenic variants of PHOX2B gene. More than 90% of patients have a polyalanine repeat mutation (PARM) in the heterozygous state, characterized by the expansion of GCN repeats and an increase in the number of alanine repeats, so that genotypes 20/24-20/33 are formed (the normal genotype is 20/20). The remaining 10% of patients harbor non-PARMs.

CASE DESCRIPTION

We present a clinical case of a girl with a novel PHOX2B heterozygous genetic variant in the exon 3: NM_003924.4: c.735_791dup, p.Ala248_Ala266dup. The duplication includes 16 GCN (alanine) repeats and 3 adjacent amino acids. Both clinically healthy parents demonstrated a normal PHOX2B sequence. In addition, the girl has a variant of unknown significance in RYR1 gene and a variant of unknown significance in NKX2-5 gene. The child's phenotype is quite special. She needs ventilation during sleep, and has Hirschsprung's disease type I, arteriovenous malformation S4 of the left lung, ventricular and atrium septal defects, coronary right ventricular fistula, hemodynamically nonsignificant, episodes of sick sinus and atrioventricular dissociation with bradycardia, divergent alternating strabismus, and oculus uterque (both eyes) (OU) retinal angiopathy. Two episodes of hypoglycemic seizures were also registered. Severe pulmonary hypertension resolved after appropriate ventilation adjustment. Diagnostic odyssey was quite dramatic.

CONCLUSION

Detection of a novel PHOX2B variant expands the understanding of molecular mechanisms of CCHS and genotype-phenotype correlations.

Adolescent Congenital Central Hypoventilation Syndrome: An Easily Overlooked Diagnosis

Congenital central hypoventilation syndrome (CCHS), also known as Ondine’s curse, is a rare, potentially fatal genetic disease, manifesting as a lack of respiratory drive. Most diagnoses are made in pediatric patients, however late-onset cases have been rarely reported. Due to the milder symptoms at presentation that might easily go overlooked, these late-onset cases can result in serious health consequences later in life. Here, we present a case report of late-onset CCHS in an adolescent female patient. In this review we summarize the current knowledge about symptoms, as well as clinical management of CCHS, and describe in detail the molecular mechanism responsible for this disorder.

Adult-onset congenital central hypoventilation syndrome due to PHOX2B mutation

Central hypoventilation in adult patients is a rare life-threatening condition characterised by the loss of automatic breathing, more pronounced during sleep. In most cases, it is secondary to a brainstem lesion or to a primary pulmonary, cardiac or neuromuscular disease. More rarely, it can be a manifestation of congenital central hypoventilation syndrome (CCHS). We here describe a 25-year-old woman with severe central hypoventilation triggered by analgesics. Genetic analysis confirmed the diagnosis of adult-onset CCHS caused by a heterozygous de novo poly-alanine repeat expansion of the PHOX2B gene. She was treated with nocturnal non-invasive ventilation. We reviewed the literature and found 21 genetically confirmed adult-onset CCHS cases. Because of the risk of deleterious respiratory complications, adult-onset CCHS is an important differential diagnosis in patients with central hypoventilation.

Pregnancy in congenital central hypoventilation syndrome

BACKGROUND

Congenital central hypoventilation syndrome is a rare genetic disorder of autonomic regulation of breathing resulting from mutations in the paired-like homeobox gene. Individuals with congenital central hypoventilation syndrome demonstrate an absent or diminished physiological response to hypercapnia and hypoxia that is most severe during sleep and depend on mechanical ventilation to maintain normal gas exchange. Increased disease awareness and availability of paired-like homeobox gene testing has improved congenital central hypoventilation syndrome morbidity and mortality, and patients are now living into adulthood. During pregnancy, delivery, and the postpartum period, women with congenital central hypoventilation syndrome are vulnerable to developing respiratory insufficiency. Currently, there is no standardized approach to monitoring ventilatory status and anticipating the need for changes to existing ventilatory support for women with congenital central hypoventilation syndrome during pregnancy, labor, and delivery.

OBJECTIVE

This study aimed to characterize current practices for monitoring ventilatory status and managing ventilatory needs in women with congenital central hypoventilation syndrome during pregnancy; identify specific circumstances through which ventilation may be compromised during pregnancy, delivery, and postpartum; evaluate utilization of prenatal congenital central hypoventilation syndrome testing; and report any adverse pregnancy outcomes.

STUDY DESIGN

We conducted an anonymous cross-sectional survey of women with congenital central hypoventilation syndrome with current or prior pregnancy. The 26-item electronic questionnaire included questions on congenital central hypoventilation syndrome genotype; number and outcome of pregnancies; use of mechanical ventilation; and issues with or adjustments made to ventilation during pregnancy, delivery, and the postpartum period.

RESULTS

We received 10 responses. Three patients were not diagnosed with congenital central hypoventilation syndrome until after pregnancy and delivery. The 7 patients with a preexisting congenital central hypoventilation syndrome diagnosis reported information on 10 total pregnancies. At baseline, patients relied on various types of ventilatory support including positive pressure ventilation via tracheostomy, bilevel noninvasive positive pressure ventilation, and diaphragm pacing by phrenic nerve stimulation. Polysomnography for objective assessment of nocturnal ventilation was not consistently utilized. Changes to baseline ventilatory support were required during 3 out of 10 pregnancies. In addition, 2 patients using diaphragm pacing reported discomfort with pacing during the third trimester or after cesarean delivery, prompting discontinuation of diaphragm pacing. In 1 instance, discontinuation of diaphragm pacing and lack of recognition of need for an alternative support method led to respiratory arrest and need for emergent resuscitation. All patients who were offered prenatal congenital central hypoventilation syndrome testing chose to undergo testing. Of note, 9 out of 10 pregnancies were carried successfully to term and 5 infants were diagnosed with congenital central hypoventilation syndrome.

CONCLUSION

Women with congenital central hypoventilation syndrome may experience issues maintaining adequate ventilation during pregnancy, necessitating an adjustment of ventilator settings or use of an alternative type of ventilation. Objective assessment of nocturnal ventilation by means of polysomnography is an important part of congenital central hypoventilation syndrome pregnancy care to optimize maintenance of adequate gas exchange. Patients who rely on diaphragm pacing may experience discomfort with pacing during the later stages of pregnancy and after cesarean delivery. Anticipatory guidance and contingency planning for changing ventilatory needs should be discussed early in pregnancy. Prenatal congenital central hypoventilation syndrome testing should be offered to pregnant patients with congenital central hypoventilation syndrome to inform delivery decisions and prepare for the provision of advanced neonatal care.

Guidelines for diagnosis and management of congenital central hypoventilation syndrome

BACKGROUND

Congenital Central Hypoventilation Syndrome (CCHS) is a rare condition characterized by an alveolar hypoventilation due to a deficient autonomic central control of ventilation and a global autonomic dysfunction. Paired-like homeobox 2B (PHOX2B) mutations are found in most of the patients with CCHS. In recent years, the condition has evolved from a life-threatening neonatal onset disorder to include broader and milder clinical presentations, affecting children, adults and families. Genes other than PHOX2B have been found responsible for CCHS in rare cases and there are as yet other unknown genes that may account for the disease. At present, management relies on lifelong ventilatory support and close follow up of dysautonomic progression. BODY: This paper provides a state-of-the-art comprehensive description of CCHS and of the components of diagnostic evaluation and multi-disciplinary management, as well as considerations for future research.

CONCLUSION

Awareness and knowledge of the diagnosis and management of this rare disease should be brought to a large health community including adult physicians and health carers.

Ondine’s curse: the origin of the myth

ABSTRACT Central alveolar hypoventilation syndrome has been known for decades as Ondine’s curse. It was named as such after a German myth. Although most of the stories resemble one another, word of mouth has led to misinterpretation of this tale among the medical community. The present paper reviews the original narrative, its characters, and how it is linked to the most relevant aspects of the disease.

The genetics of congenital central hypoventilation syndrome: clinical implications

Congenital central hypoventilation syndrome (CCHS) is a rare genetic disorder of the autonomic nervous system (ANS) and respiratory control. This disorder, formerly referred to as Ondine’s curse, is due to a mutation in the PHOX2B gene that affects the development of the neural crest cells. CCHS has an autosomal dominant pattern of inheritance. Majority of the patients have a polyalanine repeat mutation (PARM) of the PHOX2B, while a small group has non-PARM (NPARM). Knowledge of the patient’s PHOX2B gene mutation helps predict a patient’s clinical presentation and outcome and aids in anticipatory management of the respiratory and ANS dysfunction.

Congenital central hypoventilation syndrome mimicking mitochondrial disease

Later-onset congenital central hypoventilation syndrome (LO-CCHS) does not present only breathing problems but can be present as episodic multiple organs involvement. Our unique case demonstrated LO-CCHS should be considered in the differential diagnosis of mitochondrial diseases and having nontypical polysomnography result.

Novel mutation-deletion in the PHOX2B gene of the patient diagnosed with Neuroblastoma, Hirschsprung's Disease, and Congenital Central Hypoventilation Syndrome (NB-HSCR-CCHS) Cluster

INTRODUCTION

Neuroblastoma (NB), Hirschsprung disease (HSCR), Congenital Central Hypoventilation Syndrome (CCHS), clinically referred as the NB-HSCR-CCHS cluster, are genetic disorders linked to mutations in the PHOX2B gene on chromosome 4p12.

SPECIFIC AIM

The specific aim of this project is to define the PHOX2B gene mutations as the genomic basis for the clinical manifestations of the NB-HSCR-CCHS cluster.

PATIENT

A one day old male patient presented to the Jagiellonian University Medical College (JUMC), American Children Hospital, neonatal Intensive Care Unit (ICU) due to abdominal distention, vomiting, and severe apneic episodes. With the preliminary diagnosis of the NB-HSCR-CCHS, the blood and tissue samples were acquired from the child, as well as from the child's parents. All procedures were pursued in accordance with the Declaration of Helsinki, with the patient's Guardian Informed Consent and the approval from the Institutional Review Board.

GENETIC/GENOMIC METHODS

Karyotyping was analyzed based upon Giemsa banding. The patient's genomic DNA was extracted from peripheral blood and amplified by polymerase chain reaction. Direct microfluidic Sanger sequencing was performed on the genomic DNA amplicons. These procedures were pursued in addition to the routine clinical examinations and tests.

RESULTS

G-banding showed the normal 46 XY karyotype. However, genomic sequencing revealed a novel, heterozygous deletion (8 nucleotides: c.699-706, del8) in exon 3 of the PHOX2B gene on chromosome 4. This led to the frame-shift mutation and malfunctioning gene expression product.

CONCLUSION

Herein, we report a novel PHOX2B gene mutation in the patient diagnosed with the NB-HSCR-CCHS cluster. The resulting gene expression product may be a contributor to the clinical manifestations of these genetic disorders. It adds to the library of the mutations linked to this syndrome. Consequently, we suggest that screening for the PHOX2B mutations becomes an integral part of genetic counseling, genomic sequencing of fetal circulating nucleic acids and / or genomes of circulating fetal cells prenatally, while preparing supportive therapy upon delivery, as well as on neonates' genomes of intubated infants, when breathing difficulties occur upon extubation. Further, we hypothesize that PHOX2B may be considered as a potential target for gene therapy.

Heterozygous 24-polyalanine repeats in the PHOX2B gene with different manifestations across three generations

Congenital central hypoventilation syndrome (CCHS) is an uncommon genetic disorder that is characterized by alveolar hypoventilation and autonomic dysregulation. More than 90% of the patients are heterozygous for polyalanine repeat expansion mutations in the paired-like homeobox 2b (PHOX2B) gene. The normal genotype has a 20-polyalanine sequence whereas expanded alleles are usually 25-33. Heterozygous 24-polyalanine repeat expansion mutation in the PHOX2B gene has rarely been reported. We report three consecutive generations harboring heterozygous 24-polyalanine repeats in the PHOX2B gene with manifestations ranging from apparently asymptomatic to alveolar hypoventilation and apnea requiring mechanical ventilation. The 3-year-old proband developed cor pulmonale and central hypoventilation following an upper respiratory tract infection. Our findings add to the accumulating evidence that the 24-polyalanine repeat in the PHOX2B is a disease-causing mutation. In addition, a high index of suspicion and careful monitoring after anesthesia, sedation, or respiratory illnesses should be exercised when evaluating asymptomatic family members with this genotype.

Congenital central hypoventilation syndrome and the PHOX2B gene: a model of respiratory and autonomic dysregulation

The paired-like homeobox 2B gene (PHOX2B) is the disease-defining gene for congenital central hypoventilation syndrome (CCHS). Individuals with CCHS typically present in the newborn period with alveolar hypoventilation during sleep and often during wakefulness, altered respiratory control including reduced or absent ventilatory responses to hypercarbia and hypoxemia, and autonomic nervous system (ANS) dysregulation; however, a subset of individuals present well into adulthood. Thermoregulation is altered and perception of shortness of breath is absent, but voluntary breathing is retained. Structural and functional magnetic resonance imaging (MRI) and limited post-mortem studies in subjects with CCHS reveal abnormalities in both forebrain and brainstem. MRI changes appear in the hypothalamus (responsible for thermal drive to breathing), posterior thalamus and midbrain (mediating O(2) and oscillatory motor patterns), caudal raphé and locus coeruleus (regulating serotonergic and noradrenergic systems), the lateral medulla, parabrachial pons, and cerebellum (coordinating chemoreceptor and somatic afferent activity with breathing), and insular and cingulate cortices (mediating shortness of breath perception). Structural and functional alterations in these sites may result from PHOX2B mutations or be secondary to hypoxia/perfusion alterations from suboptimal management/compliance. The study of CCHS, with collaboration between physician-scientists and basic scientists, offers a rare opportunity to investigate control of breathing within the complex physiological network of the ANS.

Carbon dioxide chemoreception and hypoventilation syndromes with autonomic dysregulation

Respiratory and autonomic disorders of infancy, childhood, and adulthood are a group of disorders that have varying presentation, combined with a range of severity of respiratory control and autonomic nervous system dysfunction. Within this group, congenital central hypoventilation syndrome and rapid onset obesity with hypothalamic dysfunction, hypoventilation, and autonomic dysregulation, exhibit the greatest respiratory control deficits, requiring supported ventilation as a mainstay of care. The discovery of the key role of the paired-like homeobox 2B gene in autonomic nervous system development, along with the identification of paired-like homeobox 2B gene mutations causing congenital central hypoventilation syndrome, has led to a fruitful dialog between basic scientists and physician-scientists, producing an explosion of knowledge regarding genotype-phenotype correlations in this disorder, as well as important animal models of chemosensory regulation deficit. Though the etiology of rapid onset obesity with hypothalamic dysfunction, hypoventilation, and autonomic dysregulation is still to be determined, recent studies have begun to carefully delineate the phenotype, suggesting that it too may provide fertile ground for research that both advances our knowledge and improves patient care.