Congenital myotonic dystrophy: prenatal ultrasound findings and pregnancy outcome

Multisystem Symptoms in Myotonic Dystrophy Type 1: A Management and Therapeutic Perspective

Myotonic dystrophy type 1 (DM1) is a complex, multisystemic neuromuscular disorder with several pathological phenotypes, disease severities and ages of onset. DM1 presents significant challenges in clinical management due to its multisystemic nature, affecting multiple organs and systems beyond skeletal muscle. Tackling this condition requires a comprehensive approach that goes beyond symptom management, particularly considering the complexity of its manifestations and in the delayed diagnosis. In this review we will discuss the multisystem symptoms of DM1 and how this understanding is guiding the development of potential therapies for the improvement of patient outcomes and quality of life. This review aims to explore the available treatments and potential novel disease-modifying therapies targeting DM1 molecular mechanisms to address the broad multisystem symptoms of DM1. Effective strategies to manage symptoms remain crucial, such as physical therapy, medications for myotonia and diligent cardiac care. Metabolic management and hormonal therapies play crucial roles in addressing endocrine and metabolic abnormalities. Nevertheless, promising targeted therapies that include antisense oligonucleotides (ASOs) for RNA degradation, small molecules to disrupt protein-RNA interactions and gene editing offer a prospective approach to the underlying mechanisms of DM1 and improve patient outcomes across the different organ systems.

Parental diagnostic delay and developmental outcomes in congenital and childhood-onset myotonic dystrophy type 1

AIM

To investigate the timing of type 1 myotonic dystrophy (DM1) diagnosis in parents of affected children and describe children's perinatal characteristics and developmental outcomes.

METHOD

This was a descriptive case series of children with congenital myotonic dystrophy (CDM) and childhood-onset myotonic dystrophy (ChDM). Parental timing of DM1 diagnosis and the perinatal, motor, and cognitive outcomes of paediatric patients were recorded.

RESULTS

A total of 139 children followed by 12 highly specialized tertiary care neuromuscular centres in Italy and one tertiary neuromuscular centre in the USA were included: 105 children with CDM and 34 children with ChDM (mean age 8 years 8 months and 12 years 2 months respectively; 49 males and 17 males respectively). Seventy (50%) parents were diagnosed with adult-onset DM1 after the affected child was diagnosed. Only 12 (17%) of the 69 parents known to be affected had prenatal testing. Of the 105 children with CDM, 98% had maternally inherited CDM, 36% were born preterm, 83% required a stay in the neonatal intensive care unit for more than 48 hours, 84% and 79% had ambulation and speech delay, and 84% had an IQ lower than 70. Of the 34 children with ChDM, 59% had paternally inherited ChDM, 91% were born at term, and 36% had an IQ lower than 70.

INTERPRETATION

Delay in diagnosing DM1 affects family planning. The prenatal and perinatal outcomes of the affected offspring emphasize the need for proactive counselling as parents may be reluctant to conduct prenatal testing.

Management of Maternal Genetic Conditions in Pregnancy, Part 1: Disorders of the Connective Tissue, Muscle, Vascular, and Skeletal Systems

Importance

The number of patients with various genetic syndromes who are or seek to become pregnant is increasing due to advances in medical care and assisted reproductive technologies. Management of these patients requires multidisciplinary care teams and knowledge of the risks of increased morbidity and mortality. In addition, many of these inheritance patterns are autosomal dominant, with a 50% risk of an offspring inheriting the disorder with each pregnancy.

Objectives

In this first of a 2-part series, common syndromes with connective tissue, muscle, vascular, or skeletal involvement will be discussed regarding surveillance and management of mother and fetus.

Evidence Acquisition

A literature search was performed for important updates in the literature regarding management of patients with genetic connective tissue disorders, aortopathies, muscular dystrophies, vascular disorders, and skeletal dysplasias.

Results

Updates have been incorporated since the last publication in 2011, including updated diagnostic criteria for several conditions (such as Marfan syndrome), international guidelines in management of aortopathies and achondroplasia, an expanded section on hypermobile Ehlers-Danlos syndrome, and a new section on familial cerebral cavernous malformation.

Conclusions

Since the last publication, many guidelines have been published or updated regarding management of pregnancies in patients with genetic disorders and are reviewed in this article.

Relevance

Clinicians who care for pregnant patients with genetic disorders should be aware of updated guidelines and recommendations in order to optimize their care during pregnancy.

Maternal health and obstetric complications of genetic neuromuscular disorders in pregnancy: A systematic review

BACKGROUND

Genetic neuromuscular disorders affect muscle function and control by the nervous system, presenting significant clinical challenges, particularly during pregnancy.

OBJECTIVES

To systematically review the literature on the obstetric outcomes and complications in women with genetic neuromuscular disorders.

SEARCH STRATEGY

We searched PubMed/Medline, Scopus, and CINAHL Ultimate from inception till June 2024 using terms like "pregnancy", "genetic neuromuscular disorder", "myotonic dystrophy", "maternal health" etc. SELECTION CRITERIA: Pregnant women with genetic neuromuscular disorders.

DATA COLLECTION AND ANALYSIS

Screening, selection, and data extraction were performed independently by two reviewers.

MAIN RESULTS

A total of 28 studies from 1978 to 2023 examined pregnancy outcomes in women with genetic neuromuscular disorders. The disorders included myotonic dystrophy, spinal muscular atrophy (SMA), Charcot-Marie-Tooth disease (CMT), and others. Common complications were polyhydramnios, preterm labor, miscarriages, and cesarean sections. Myotonic dystrophy type 1 (DM1) showed higher neonatal risks than type 2 (DM2). Women with SMA faced exacerbated muscle weakness, while CMT and limb-girdle muscular dystrophy were associated with preterm labor and cesarean deliveries. Pompe disease exacerbated symptoms, and GNE myopathy showed similar pregnancy outcomes to the general population. Non-dystrophic myotonias had higher fetal distress and postpartum complications.

CONCLUSIONS

Women with genetic neuromuscular disorders face increased pregnancy complications, including preterm labor, cesarean sections, and disease symptom exacerbation. Multidisciplinary care between neurologists and obstetricians is essential in managing these high-risk pregnancies effectively, ensuring better maternal and neonatal outcomes. Further research is needed to develop standardized care protocols and improve clinical management.

Fetal Brain MRI Findings in Myotonic Dystrophy and Considerations for Prenatal Genetic Testing

Background

Congenital myotonic dystrophy type 1 (DM1) is a rare congenital neuromuscular disorder associated with high morbidity and potential early mortality requiring lifelong symptomatic management. Prenatal presentations of DM1 have been associated with nonspecific ultrasound findings such as clubbed foot, polyhydramnios, ventriculomegaly, and decreased fetal movement, but many cases of DM1 have no ultrasound anomalies.

Methods

We sought to compare the clinical course and prenatal imaging findings in two cases of DM1 using retrospective chart review.

Results

This report demonstrates potential expansion of the prenatal phenotype of DM1 including fetal SVT and frontal bossing. Both cases shared unique prenatal imaging features of lateral ventricle dilation involving the anterior bodies and frontal horns on fetal MRI.

Discussion

Because congenital DM1 is most often maternally inherited, attention to maternal symptoms, physical examination, and family history can be helpful in recognizing cases. Molecular diagnosis of DM1 requires specialized testing of the 3' untranslated region of the DMPK gene, and DM1 will not be detected by current standard prenatal genetic testing with microarray, karyotype, or exome sequencing.

Effectiveness and safety of mexiletine versus placebo in patients with myotonia: a systematic review and meta-analysis

BACKGROUND

The rare nature of dystrophic and non-dystrophic myotonia has limited the available evidence on the efficacy of mexiletine as a potential treatment. To address this gap, we conducted a systematic review and meta-analysis to evaluate the effectiveness and safety of mexiletine for both dystrophic and non-dystrophic myotonic patients.

METHODS

The search was conducted on various electronic databases up to March 2023, for randomized clinical trials (RCTs) comparing mexiletine versus placebo in myotonic patients. A risk of bias assessment was carried out, and relevant data was extracted manually into an online sheet. RevMan software (version 5.4) was employed for analysis.

RESULTS

A total of five studies, comprising 186 patients, were included in the meta-analysis. Our findings showed that mexiletine was significantly more effective than placebo in improving stiffness score (SMD =  - 1.19, 95% CI [- 1.53, - 0.85]), as well as in reducing hand grip myotonia (MD =  - 1.36 s, 95% CI [- 1.83, - 0.89]). Mexiletine also significantly improved SF-36 Physical and Mental Component Score in patients with non-dystrophic myotonia only. Regarding safety, mexiletine did not significantly alter ECG parameters but was associated with greater gastrointestinal symptoms (GIT) compared to placebo (RR 3.7, 95% CI [1.79, 7.64]). Other adverse events showed no significant differences.

CONCLUSION

The results support that mexiletine is effective and safe in myotonic patients; however, it is associated with a higher risk of GIT symptoms. Due to the scarcity of published RCTs and the prevalence of GIT symptoms, we recommend further well-designed RCTs testing various drug combinations to reduce GIT symptoms.

Main features and disease outcome of congenital myotonic dystrophy - experience from a single tertiary center

Congenital myotonic dystrophy type 1 (CDM1) is a rare neuromuscular disease. The aim of our study was to evaluate clinical variability of CDM1 and factors that may influence survival in CDM1. Research included 24 pediatric patients with CDM1. Most of our patients had some form of hypoxic ischemic encephalopathy (HIE) (74 %), from mild to severe. Prolonged and complicated deliveries (75 %), high percentage of children resuscitated at birth (57 %) and respiratory insufficiency (46 %) with consequent hypoxia were the main reasons that could explain high percentage of HIE. Therapeutic hypothermia was applied in three children with poor outcome. Median survival of all CDM1 was 14.2 ± 1.5 years. Six patients had a fatal outcome (25 %). Their mean age of death was 3.0 ± 2.8 years. Poor prognostic factors for the survival of our CDM1 patients were: preterm delivery, resuscitation at birth, severe HIE, hypothermia treatment and permanent mechanical ventilation. Respiratory insufficiency was the main life-threatening factor. Our data clearly indicates the need to develop natural history studies in CDM1 in order to enhance the standards of care and to develop clinical trials investigating causative therapies in pediatric patients with CDM1.

A couple of the first cousins born with hypotonia and maternal polyhydramnios

Congenital myotonic dystrophy should be considered in hypotonic infants with polyhydramniotic mothers with a positive history of myotonia.

Abstract

Congenital myotonic dystrophy (CDM) is a predominantly maternally inherited disease and results from increased numbers of cytosine, thymine, and guanine (CTG) repeats in the unstable DNA regions and presents as hypotonia in the neonatal period and myotonia in adulthood. This report aims to present two cases of CDM. A first-cousin couple was born and hospitalized due to hypotonia at birth and a maternal history of polyhydramnios during this pregnancy. The first-born baby girl was admitted to the NICU with tachypnea and hypotonia, clubfoot, and frog-like posture. The pregnancy was complicated by polyhydramnios. Interestingly, her first cousin was born the next day with a similar picture and history. Myotonia was detected in their mothers. The concurrent presence of hypotonia and polyhydramnios as well as maternal myotonia in a first cousin should be considered CDM until proven otherwise and this was confirmed by the EMG- NCV test.

Case report of congenital myotonic dystrophy with multiple prenatal sonographic findings

Objectives

Myotonic dystrophy 1 (DM1) is an autosomal dominant inherited neuromuscular disorder. The most severe form is congenital myotonic dystrophy (cDM). Prenatal diagnosis is complicated and sonographic findings of cDM that are not pathognomonic occur in the late second or early third trimester of pregnancy.

Case presentation

It is the case of prenatally diagnosed cDM. In 32 weeks of pregnancy multiple sonographic findings such as severe polyhydramnios, bilateral talipes, fetal legs akinesia, macrocephaly with mild bilateral ventriculomegaly, right-sided pleural effusion and diaphragmatic pathology were observed by fetal medicine specialist. As the patient complained of weakness in her limbs, she was consulted by a neurologist. The neurological examination revealed a pathognomonic sign of DM1 - grip myotonia. The amniotic fluid and the mother's blood sample were further tested for DM1. This identified >150 repeats in one copy of the DMPK gene of the both, which is consistent with the diagnosis DM1.

Conclusions

The sonographic findings of fetal limb abnormalities with progressive polyhydramnios is an indication for maternal neurological examination and genetic testing due to myotonic dystrophy.

Clinical and molecular analysis of nine fetal cases with clinically significant variants causing nemaline myopathy

OBJECTIVE

To present the prenatal features and postnatal outcomes of pregnancies with fetal nemaline myopathy (NM).

STUDY DESIGN

This was a retrospective study of nine cases with NM diagnosed by prenatal or postnatal clinical features and confirmed by genetic testing. Clinical and laboratory data were collected and reviewed for these cases, including maternal demographics, prenatal sonographic findings, exome sequencing (ES) results, and pregnancy outcomes.

RESULTS

All of the nine cases were detected to have NM-causing variants, involving NEB gene in 2 cases, ACTA1 in 3 cases, KLHL40 in 3 cases, and TPM2 in 1 case. Almost all (8/9) had normal first-trimester ultrasound scans except one who had an increased nuchal translucency. Seven (7/9) cases had second-trimester abnormal ultrasounds with fetal akinesia and/or extremity anomalies. Two (2/9) had only third-trimester abnormal ultrasounds with fetal akinesia and polyhydramnios, with one combined with fetal growth restriction. Four pregnancies with a positive prenatal ES were terminated, while five having not receiving prenatal ES continued to term. Only one infant survived 1 year old, and four passed away within 12 months.

CONCLUSION

Prenatal ultrasound can detect clues that lead to the diagnosis of NM, such as reduced or absent fetal movements, polyhydramnios and extremity anomalies.

Acute leg pain and weakness in pregnancy: A new diagnosis of myotonic dystrophy

We present a unique case of a 44-year-old woman who presented at 29 weeks' gestation with proximal limb pain and elevated creatine kinase. This occurred in the background of premature cataracts, atrial fibrillation and abnormal liver function. Clinical, pathological and neurodiagnostic findings supported a diagnosis of myotonic dystrophy, confirmed by genetic testing which revealed dystrophia myotonica protein kinase gene expansion. Muscle biopsy found both recent necrotising and chronic myopathic processes. Following delivery, the mother's myalgia resolved and creatine kinase quickly declined. The fetus was diagnosed with congenital myotonic dystrophy. We review the impact of myotonic dystrophy on pregnancy and discuss potential explanations for this patient's clinical course. This case emphasises the importance of considering myotonic dystrophy as a differential diagnosis in the right clinical context and the need for pre-pregnancy assessment and genetic counselling in women with known myotonic dystrophy.

Congenital hypotonia: systematic approach for prenatal detection

OBJECTIVES

Congenital hypotonic conditions are rare and heterogeneous, and some are severely debilitating or lethal. Contrary to its prominent postnatal manifestation, the prenatal presentation of hypotonia is frequently subtle, inhibiting prenatal detection. We aimed to characterize the prenatal sonographic manifestation of congenital hypotonia throughout pregnancy, evaluate the yield of diagnostic tests and propose diagnostic models to increase its prenatal detection.

METHODS

This was a retrospective observational study of singleton pregnancies with congenital hypotonia, diagnosed either prenatally or immediately after birth, at a single tertiary center between the years 2012 and 2020. Prenatally, hypotonia was diagnosed if a fetus showed sonographic or clinical signs suggestive of hypotonia and had a confirmed underlying genetic condition, or in the absence of a known genetic abnormality if the fetus exhibited multiple prominent signs suggestive of hypotonia. Postnatally, it was diagnosed in neonates displaying reduced muscle tone leading to reduced spontaneous movement, reduced swallowing or feeding difficulty. We reviewed the medical records of pregnant patients carrying fetuses subsequently diagnosed with congenital hypotonia and assessed the yield of ultrasound scans, fetal magnetic resonance imaging, computed tomography and genetic tests. The detection rate of sonographic signs suggesting fetal hypotonia was calculated. The prevalence of non-specific signs, including polyhydramnios, persistent breech presentation, intrauterine growth restriction and maternal perception of reduced fetal movement, were compared between the study group and the local liveborn singleton population. Potential detection rates of different theoretical semiotic diagnostic models, differing in the threshold for referral for a targeted scan, were assessed based on the cohort's data.

RESULTS

The study group comprised 26 cases of congenital hypotonia, of which 10 (38.5%) were diagnosed prenatally, and the controls included 95 105 singleton live births, giving a prevalence of congenital hypotonia of 1:3658. Nuchal translucency thickness and the early anomaly scan at 13-17 weeks were normal in all 22 and 23 cases, respectively, in which this was performed. The mid-trimester scan performed at 19-25 weeks was abnormal in four of 24 (16.7%) cases. The overall prenatal detection rate of congenital hypotonic conditions in our cohort was 38.5%. Only cases which underwent a targeted scan were detected and, among the 16 cases which underwent this scan, the prenatal detection rate was 62.5% compared with 0% in pregnancies that did not undergo this scan (P = 0.003). An abnormal genetic diagnosis was obtained in 21 (80.8%) cases using the following modalities: chromosomal microarray analysis (CMA) in two (9.5%), whole-exome sequencing (WES) in 14 (66.7%) and methylation analysis in five (23.8%). CMA was abnormal in 8% (2/25) of the cases and WES detected a causative genetic mutation in 87.5% (14/16) of the cases in which these were performed. Comparison of non-specific signs in the study group with those in the local singleton population showed that hypotonic fetuses had significantly more polyhydramnios (64.0% vs 3.0%, P < 0.0001), persistent breech presentation (58.3% vs 4.2%, P < 0.0001), intrauterine growth restriction (30.8% vs 3.0%, P < 0.0001) and maternal perception of reduced fetal movement (32.0% vs 4.7%, P < 0.0001). Prenatally, the most commonly detected signs supporting a diagnosis of hypotonia were structural anomaly (62.5%, 10/16), reduced fetal movement (46.7%, 7/15), joint contractures (46.7%, 7/15) and undescended testes ≥ 30 weeks (42.9%, 3/7 males). Proposed diagnostic strategies that involved performing a targeted scan for a single non-specific ultrasound sign or two such signs, and then carrying out a comprehensive genetic evaluation for any additional sign, offered theoretical detection rates in our cohort of 88.5% and 57.7%, respectively.

CONCLUSIONS

Congenital hypotonic conditions are rare and infrequently detected prenatally. Sonographic signs are visible from the late second trimester. A targeted scan increases prenatal detection significantly. Comprehensive genetic testing, especially WES, is the cornerstone of diagnosis in congenital hypotonia. Theoretical diagnostic models which may increase prenatal detection are provided. © 2023 The Authors. Ultrasound in Obstetrics & Gynecology published by John Wiley & Sons Ltd on behalf of International Society of Ultrasound in Obstetrics and Gynecology.

Infection-Induced Rhabdomyolysis in a Pregnant Woman with Undiagnosed Myotonic Dystrophy: A Case Report

A 34-year-old nulliparous gravid female presented with acute bilateral pyelonephritis at 29 + 5 weeks gestation. The patient was relatively well until two weeks ago when a slight increase in amniotic fluid was noted. Further investigation revealed myoglobinuria and significantly elevated levels of creatine phosphokinase. The patient was subsequently diagnosed with rhabdomyolysis. Twelve hours after admission, the patient noted reduced fetal movements. A non-stress test revealed fetal bradycardia and non-reassuring variability in fetal heart rate. An emergency cesarean section was performed, and a "floppy" female child was delivered. Genetic testing revealed congenital myotonic dystrophy, and the mother was also diagnosed with myotonic dystrophy. Rhabdomyolysis has a very low incidence in pregnancy. Herein, we report a rare case of myotonic dystrophy with rhabdomyolysis in a gravid female with no history of myotonic dystrophy. Acute pyelonephritis is a causative agent of rhabdomyolysis that results in preterm birth.

Pain and Motor Function in Myotonic Dystrophy Type 1: A Cross-Sectional Study

Pain is an underestimated finding in myotonic dystrophy type 1 (DM1). We provide a characterization of pain in terms of functional implications through a multidimensional assessment in patients with DM1, focusing on gender differences. We assessed pain through the Brief Pain Inventory (BPI) and its indexes (the Severity Index (SI) and the Interference Index (II)), balance/gait (the Tinetti Performance-Oriented Mobility Assessment (POMA)), functional abilities (the Functional Independence Measure (FIM)), and fatigue (the Fatigue Severity Scale (FSS)). We divided our sample into a mild (<4) and a moderate-severe group (≥4) based on BPI indexes. A between-group analysis was performed. We recruited 23 males and 22 females with DM1. A statistically significant difference was found for the FSS and the BPI-SI ≥ 4, and for all outcomes in the BPI-II ≥ 4 (p ≤ 0.003). In the female group, all outcomes except for the FIM were statistically significantly worse (p ≤ 0.004). Dividing our sample into four groups based on gender and the BPI, a statistically significant difference was found for FSS between the two groups with BPI-II ≥ 4 (with worsen score in the female one) (p < 0.002). Pain in DM1 patients is highly reported and gender related, with increased fatigue and poor balance/gait in the female group.

Congenital Myotonic Dystrophy: An Overlooked Diagnosis Not Amenable to Detection by Sequencing

OBJECTIVE

To increase the clinical awareness of the need for genetic evaluation for congenital myotonic dystrophy in cases of fetal akinesia sequence and idiopathic polyhydramnios.

METHODS

Retrospective case review.

RESULT

A 27 y.o. G1P0 with no significant family history presented for ultrasound at 25 weeks gestation. Notable findings included lack of extension of the fetal arms and legs with bilateral talipes consistent with fetal akinesia sequence. Polyhydramnios with an amniotic fluid index of 32.2cm was also present. Amniotic fluid obtained by amniocentesis revealed normal results for a chromosomal microarray and a next generation sequencing panel for arthrogryposis. The patient underwent serial amnioreductions for recurrent severe polyhydramnios with removal of a total of 9.3 L. Further amniotic fluid testing for CDM1 identified >200 repeats in one copy of the fetal DMPK gene, consistent with a diagnosis of congenital myotonic dystrophy type 1. The patient was delivered at 35 weeks gestation and neonatal demise occurred on the second day of life.

CONCLUSION

Congenital myotonic dystrophy should be a consideration for cases of severe polyhydramnios identified on ultrasound. Myotonic dystrophy is detected using PCR and southern blot and is not typically included on next generation sequencing panels that test for similar conditions. This article is protected by copyright. All rights reserved.

Chylothorax as a complication of congenital myotonic dystrophy: A retrospective cohort study

BACKGROUND

The association between congenital myotonic dystrophy (CMD) and chylothorax is poorly recognized.

AIMS

To evaluate the proportion of chylothorax in infants with CMD compared to its prevalence in infants without CMD.

STUDY DESIGN

Single-center, retrospective, cohort study.

SUBJECTS

Infants managed at a neonatal intensive care unit from 2003 to 2019.

OUTCOME MEASURES

CMD was diagnosed using Southern blot for the quantification of CTG repeats in the dystrophia myotonica protein kinase (DMPK) gene. Prenatal and postnatal data of eligible infants with CMD were collected from the patients' medical records. The primary outcome was the proportion of chylothorax.

RESULTS

While the proportion of chylothorax in eligible infants without CMD was 0.25% (27/10714), that in infants with CMD was 50% (5/10; odds ratio (OR), 386.3; 95% confidence interval (CI), 84.4-1850.8; P < 0.001). The variables that were significantly different between infants with CMD with chylothorax and those without chylothorax were as follows: maternal age (33.0 vs. 24.8; P = 0.005), polyhydramnios (5/5 vs 1/5; P = 0.034), number of CTG repeats (1980 vs. 1500; P = 0.038), duration of invasive mechanical ventilation (220 vs. 2, P = 0.009), and duration of hospitalization (217.2 vs 68.0; P = 0.014). The mortality rate of all eligible infants with CMD was 5/10 (50%). No variables were significantly associated with mortality.

CONCLUSIONS

The proportion of chylothorax in infants with CMD was significantly higher than that in infants without CMD. Furthermore, the proportion was higher than that reported in previous studies on congenital chylothorax. This suggests that chylothorax may be frequently experienced in the clinical course of CMD.

Fetal akinesia: The need for clinical vigilance in first trimester with decreased fetal movements

OBJECTIVE

We present two cases of fetal akinesia detected by first trimester ultrasound with noticing reduced fetal movements.

CASE REPORT

Both of the two cases presented with reduced fetal movements. Fetal microarray results were normal. Follow-up sonographic examinations showed that Case 1 had structural anomalies with reduced fetal movements, and Case 2 had findings of reduced fetal movements and olyhydramnios. Case 1 ended with termination of pregnancy, and was confirmed to suffer from distal arthrogryposis (DA) type 5D (DA5D) with two pathogenic ECEL1 variants, NM_004826: c.110_155del46 (p.F37Cfs∗151) and c.633G > C (p.W211C). Case 2 continued to term. However, the infant developed breathing problems and severe hypotonia after birth, and died at 3 months. Nemaline myopathy was diagnosed with two NEB variants, NM_001271208.1: c.3255+1G > T and c.7165delA (p.W211C) detected in the patient.

CONCLUSION

The first trimester ultrasound can detect clues that lead to the diagnosis of fetal akinesias presenting with reduced or absent fetal movements. Our results would be useful in counselling parents of affected pregnancies and in alerting physicians to plan the appropriate follow-up investigations for such cases.

Investigating gene methylation signatures for fetal intolerance prediction

Pregnancy is a complicated and long procedure during one or more offspring development inside a woman. A short period of oxygen shortage after birth is quite normal for most babies and does not threaten their health. However, if babies have to suffer from a long period of oxygen shortage, then this condition is an indication of pathological fetal intolerance, which probably causes their death. The identification of the pathological fetal intolerance from the physical oxygen shortage is one of the important clinical problems in obstetrics for a long time. The clinical syndromes typically manifest five symptoms that indicate that the baby may suffer from fetal intolerance. At present, liquid biopsy combined with high-throughput sequencing or mass spectrum techniques provides a quick approach to detect real-time alteration in the peripheral blood at multiple levels with the rapid development of molecule sequencing technologies. Gene methylation is functionally correlated with gene expression; thus, the combination of gene methylation and expression information would help in screening out the key regulators for the pathogenesis of fetal intolerance. We combined gene methylation and expression features together and screened out the optimal features, including gene expression or methylation signatures, for fetal intolerance prediction for the first time. In addition, we applied various computational methods to construct a comprehensive computational pipeline to identify the potential biomarkers for fetal intolerance dependent on the liquid biopsy samples. We set up qualitative and quantitative computational models for the prediction for fetal intolerance during pregnancy. Moreover, we provided a new prospective for the detailed pathological mechanism of fetal intolerance. This work can provide a solid foundation for further experimental research and contribute to the application of liquid biopsy in antenatal care.

Fetal akinesia: The application of clinical exome sequencing in cases with decreased fetal movement

OBJECTIVE

To determine monogenic syndromes in cases of fetal akinesia in order to understand the genetic aetiology.

STUDY DESIGN

Clinical trio exome sequencing (ES) was performed on DNA extracted from postnatal samples in 12 cases with fetal akinesia identified by prenatal ultrasound and a normal chromosomal micro-array analysis result. This test targets coding exons for 4200 clinically relevant disease-causing genes. The interpretation of variants was performed according to the guidelines of the American College of Medical Genetics.

RESULTS

A definite molecular diagnosis was achieved in six (50 %) of the 12 cases using clinical trio ES. In five cases, the pathogenic variants were located in known fetal-akinesia-associated genes. In one case, the underlying pathogenic variants were in known disease genes that had not been linked to fetal akinesia previously. Six pregnancies were terminated by the parents, and six pregnancies were continued to term.

CONCLUSION

Genetic defects leading to fetal akinesia were found in half of the study cases using clinical trio ES. This information will be useful in genetic counselling with regard to prognosis and risk of recurrence.

Ultrasonographic evidence of persistent hyperextension of the fetal neck: is it a true sign? A diagnostic and prognostic challenge

OBJECTIVE

The purpose of this study was to evaluate the clinical evolution, structural anomalies associated and neonatal outcomes of fetal neck hyperextension in two cases with prenatal ultrasound diagnosis in two different gestational ages.

METHODS

In 2019, two cases of fetal hyperextension came to our attention. Follow-up information was obtained from hospital medical records and obstetrical care providers.

RESULTS

Two woman were investigated in our institution for the presence of fetal abnormalities in the II and III trimester, respectively. In both cases, fetal attitude presented persistent fetal neck hyperextension. One of the two fetuses had a mild ventriculomegaly and suspected for micrognathia. Both had an amniotic fluid increase. One of two had no movement in the lower and upper limbs in ultrasound scans associated with club foot and suspected scoliosis. Both were born by cesarean section with pretty different prognosis: one healthy baby had a retarded psychomotor development and the other one died after 6 months. A precise diagnosis was possible only in one case.

CONCLUSION

The early identification of a fetus with persistent hyperextension of the fetal head should require a detailed ultrasound exam for structural abnormalities and a careful prenatal counseling due to possible postnatal outcome.

Genetic diagnosis and clinical evaluation of severe fetal akinesia syndrome

Objective

In this retrospective study, we describe the clinical course, ultrasound findings and genetic investigations of fetuses affected by fetal akinesia.

Materials and Methods

We enrolled 22 eukaryotic fetuses of 18 families, diagnosed with fetal akinesia between 2008 and 2016 at the Department of Obstetrics and Feto‐Maternal Medicine at the Medical University of Vienna. Routine genetic evaluation included karyotyping and chromosomal microarray analysis. Retrospectively, exome sequencing was performed in the index case of 11 families, if stored DNA was available. Confirmation analyses and genetic diagnosis of siblings were performed by using Sanger sequencing.

Results

Whole exome sequencing identified pathogenic variants of CNTN1, RYR1, NEB, GLDN, HRAS and TNNT3 in six cases of 11 families. In three of these families, the variants were confirmed in the respective sibling.

Conclusions

The present study demonstrates a high diagnostic yield of exome sequencing in fetuses affected by akinesia syndrome, especially if family history is positive. Still, in a large part the underlying genetic cause remained unknown, whereas precise clinical evaluation in combination with exome sequencing shows to be the best tool to find the disease causing variants.

Fetal Macrocephaly: A Novel Sonographic Finding in Congenital Myotonic Dystrophy

Objective  Sonographic clues to the diagnosis of congenital myotonic dystrophy (CDM) are limited, particularly in the absence of family history of myotonic dystrophy (DM). We reviewed cases of CDM for unique prenatal findings. Study Design  A single-center case series of fetuses with CMD with characteristic prenatal findings confirmed postnatally. Results  Four fetuses with pre- or postnatally diagnosed CDM presented with macrocephaly in utero. While head measurements were appropriate for gestational age until midgestation, third-trimester head circumference and biparietal diameter were both >2 standard deviation (SD) above the mean in all. Abdominal and femur measurements were otherwise appropriate for gestation. Postnatally, the occipitofrontal circumference was >2 SD above the mean in all, confirming the diagnosis of macrocephaly. Conclusion  CDM should be included in the differential diagnosis of third-trimester macrocephaly, especially in the presence of additional sonographic clues and when maternal medical history and physical examination are suggestive of DM.

Congenital Myotonic Dystrophy and Brugada Syndrome: A Report of Two Cases

BACKGROUND Congenital myotonic dystrophy is a subtype of type 1 myotonic dystrophy presenting in the neonatal period. Cardiac involvement is commonly seen in patients with type 1 myotonic dystrophy beyond the neonatal period. Brugada syndrome is a conduction abnormality associated with a mutation in the sodium voltage-gated channel alpha subunit 5 (SCN5A) gene and has been described in adult patients with type 1 myotonic dystrophy. Two cases are presented of type 1 myotonic dystrophy in neonates, one who had family members with a confirmed diagnosis of Brugada syndrome. CASE REPORT Case 1: A female infant at 40 weeks gestational age, birth weight of 3,395 grams was born to a 40-year-old gravida 4, para 3 (G4P3) mother. The mother had previously been diagnosed with Brugada syndrome. Multiple family members were identified and diagnosed with type 1 myotonic dystrophy and Brugada syndrome. The infant is being monitored closely with a plan to perform genetic testing for Brugada syndrome if she develops cardiac conduction abnormalities. Case 2: A male infant at 37 weeks gestational age, with a birth weight of 2,900 grams, was born to a 24-year-old gravida 2, para 1 (G2P1) mother. He was admitted to the neonatal intensive care unit (NICU) secondary to poor respiratory effort and generalized hypotonia. Severe polyhydramnios was diagnosed during pregnancy. The mother had previously been diagnosed with type 1 myotonic dystrophy. CONCLUSIONS Infants with congenital myotonic dystrophy should be carefully monitored for both structural and conduction abnormalities of the heart, supported by genetic testing.

Maternal genetic diseases: potential concerns for mother and baby

With advances in medical care, many women with genetic conditions previously known to decrease life expectancy are reaching childbearing age. Thus, it is important to understand the management of patients in the preconception, antepartum, and postpartum periods as they pose a unique challenge to the obstetrician. Most rare disorders lack well-established clinical guidelines for management in pregnancy. Existing data stem from case reports, case series, and expert opinion. We aim to summarize these recommendations and develop a clinical reference for managing reproductive age women with these conditions. We review recommendations for women with inborn errors in metabolism, connective tissue disorders, skeletal dysplasia, and selected single gene disorders. In all cases, it is crucial to employ a multidisciplinary team to optimize care for patients with rare disease before, during, and immediately after their pregnancies. The emphasis on expert consensus recommendations in the guidance of obstetric care is a signal that more studies are needed to determine best practices.

Patient-reported study of the impact of pediatric-onset myotonic dystrophy

INTRODUCTION

The prevalence and impact of symptoms affecting individuals with pediatric forms of myotonic dystrophy type-1 (DM1) are not well understood.

METHODS

Patients from the United States, Canada, and Sweden completed a survey that investigated 20 themes associated with pediatric-onset DM1. Participants reported the prevalence and importance of each theme affecting their lives. Surveys from participants were matched with surveys from their caregivers for additional analysis.

RESULTS

The most prevalent symptomatic themes included problems with hands or fingers (79%) and gastrointestinal issues (75%). Problems with urinary/bowel control and gastrointestinal issues were reported to have the greatest impact on patients' lives. Responses from participants and their caregivers had varying levels of agreement among symptomatic themes.

DISCUSSION

Many symptoms have meaningful impact on disease burden. The highest levels of agreement between caregivers and individuals with pediatric forms of myotonic dystrophy were found for physical activity themes.

White Matter Lesions Detected by Magnetic Resonance Imaging in Neonates and Children With Congenital Myotonic Dystrophy

BACKGROUND

Congenital myotonic dystrophy (CDM1) is an autosomal dominant genetic disorder caused by abnormal cytosine-thymine-guanine trinucleotide repeat expansion that results in weakness and cognitive deficits. Studies detailing brain magnetic resonance imaging (MRI) findings in neonates and children with this condition are limited.

OBJECTIVE

We evaluated the brain MRI findings in children, including neonates with CDM1, to assess the nature of central nervous system involvement and progression of MRI lesions over time.

METHODS

The Cincinnati Children's Hospital neuromuscular disease database was used to identify 16 patients with CDM1 with genetically proven CDM1 who had undergone brain MRI. Hospital charts were reviewed to collect clinical information.

RESULTS

Ninety-four percent of patients had an abnormal MRI showing injury to the white matter. Nine patients underwent imaging before eight days of life, and eight of these patients showed signs of injury to the white matter. Three neonates had follow-up MRI scans, and all showed progression of injury. Seven patients had the first MRI between age 29 days and 22 years, and all had abnormalities involving the white matter. Two patients had additional congenital brain malformations, and one patient also harbored a mutation in CDKL5 with resultant epilepsy.

CONCLUSIONS

White matter abnormalities are found in patients with CDM1, even in the neonatal period. Many patients present with hypoxia and receive a diagnosis of hypoxic-ischemic encephalopathy and may even undergo therapeutic hypothermia. If MRI findings of white matter injury do not correlate with hypotonia and weakness, further evaluation for CDM1 should be considered.

Antenatal Indomethacin Treatment for Congenital Myotonic Dystrophy

Myotonic dystrophy is an autosomal-dominant disorder. Its congenital type is the most severe form, with respiratory failure that can be a life-threatening event after birth. There are no antenatal treatments that can improve neonatal outcomes of myotonic dystrophy. We treated a fetus with congenital myotonic dystrophy by administering indomethacin to the 31-year-old Japanese mother affected by myotonic dystrophy and polyhydramnios. We observed increased fetal breathing movement and a reduction of the amniotic fluid volume. The baby was born at 37 weeks and discharged from the neonatal intensive care unit with a favorable outcome. Indomethacin treatment is likely to improve fetal lung function and to control the amniotic fluid volume. This report emphasizes the importance of further investigations regarding the optimal management of congenital myotonic dystrophy.

Myotonic Dystrophy and Developmental Regulation of RNA Processing

Myotonic dystrophy (DM) is a multisystemic disorder caused by microsatellite expansion mutations in two unrelated genes leading to similar, yet distinct, diseases. DM disease presentation is highly variable and distinguished by differences in age-of-onset and symptom severity. In the most severe form, DM presents with congenital onset and profound developmental defects. At the molecular level, DM pathogenesis is characterized by a toxic RNA gain-of-function mechanism that involves the transcription of noncoding microsatellite expansions. These mutant RNAs disrupt key cellular pathways, including RNA processing, localization, and translation. In DM, these toxic RNA effects are predominantly mediated through the modulation of the muscleblind-like and CUGBP and ETR-3-like factor families of RNA binding proteins (RBPs). Dysfunction of these RBPs results in widespread RNA processing defects culminating in the expression of developmentally inappropriate protein isoforms in adult tissues. The tissue that is the focus of this review, skeletal muscle, is particularly sensitive to mutant RNA-responsive perturbations, as patients display a variety of developmental, structural, and functional defects in muscle. Here, we provide a comprehensive overview of DM1 and DM2 clinical presentation and pathology as well as the underlying cellular and molecular defects associated with DM disease onset and progression. Additionally, fundamental aspects of skeletal muscle development altered in DM are highlighted together with ongoing and potential therapeutic avenues to treat this muscular dystrophy. © 2018 American Physiological Society. Compr Physiol 8:509-553, 2018.

A premature baby with bilateral pleural effusions, Turner syndrome (monosomy X) and myotonic dystrophy

Respiratory distress in the premature neonate has a variety of causes, some more common than others. Sometimes it may not be apparent that rare underlying conditions may be associated with common clinical presentations. In this case report, we describe an extremely premature neonate presenting with severe respiratory distress who was subsequently diagnosed with both myotonic dystrophy and Turner syndrome (monosomy X; 45, X0). A literature review correlating this neonate’s particular presentation with these diagnoses has been included.

Clinical characteristics of pregnancies complicated by congenital myotonic dystrophy

Objective

Although the conventional prevalence of myotonic dystrophy is 1:8,000, the prevalence in Korean population was recently reported as 1:1,245. With higher domestic result than expected, we aimed to investigate the clinical characteristics of pregnancies complicated by congenital myotonic dystrophy in our institution.

Methods

We have reviewed 11 paired cases of neonates diagnosed with congenital myotonic dystrophy and their mothers between July 2004 and May 2014, with clinical features including maternal history of infertility, prenatal ultrasonographic findings, and neonatal outcomes. Cytosine-thymine-guanine (CTG) repeat expansion in the myotonic dystrophy protein kinase gene of both neonates and their mothers was also examined.

Results

None of mother was aware of their myotonic dystrophy traits before pregnancy. History of infertility followed by assisted reproductive technology accounted for 57.1% (4/7). Distinctive prenatal ultrasonographic finding was severe idiopathic polyhydramnios (66.7%, 4/6) with median amniotic fluid index of 43 (range, 37 to 66). In 37.5% (3/8) cases, decreased fetal movement was evident during prenatal ultrasound examination. For neonatal outcomes, more than half (6/11) were complicated with preterm birth and the proportion of 1-minute Apgar score <4 and 5-minute Apgar score <7 was 44.4% (4/9) and 66.7% (6/9), respectively. Most of neonates were admitted to the neonatal intensive care unit (9/10) because of hypotonia with respiratory problems and there was one infant death. Median number of cytosine-thymine-guanine repeats in mothers and neonates was 400 (range, 166 to 1,000) and 1,300 (range, 700 to 2,000), respectively.

Conclusion

Our data suggest that severe idiopathic polyhydramnios with decreased fetal movement in pregnant women, especially with a history of infertility, requires differential diagnosis of congenital myotonic dystrophy.

CpG Methylation, a Parent-of-Origin Effect for Maternal-Biased Transmission of Congenital Myotonic Dystrophy

CTG repeat expansions in DMPK cause myotonic dystrophy (DM1) with a continuum of severity and ages of onset. Congenital DM1 (CDM1), the most severe form, presents distinct clinical features, large expansions, and almost exclusive maternal transmission. The correlation between CDM1 and expansion size is not absolute, suggesting contributions of other factors. We determined CpG methylation flanking the CTG repeat in 79 blood samples from 20 CDM1-affected individuals; 21, 27, and 11 individuals with DM1 but not CDM1 (henceforth non-CDM1) with maternal, paternal, and unknown inheritance; and collections of maternally and paternally derived chorionic villus samples (7 CVSs) and human embryonic stem cells (4 hESCs). All but two CDM1-affected individuals showed high levels of methylation upstream and downstream of the repeat, greater than non-CDM1 individuals (p = 7.04958 × 10⁻¹²). Most non-CDM1 individuals were devoid of methylation, where one in six showed downstream methylation. Only two non-CDM1 individuals showed upstream methylation, and these were maternally derived childhood onset, suggesting a continuum of methylation with age of onset. Only maternally derived hESCs and CVSs showed upstream methylation. In contrast, paternally derived samples (27 blood samples, 3 CVSs, and 2 hESCs) never showed upstream methylation. CTG tract length did not strictly correlate with CDM1 or methylation. Thus, methylation patterns flanking the CTG repeat are stronger indicators of CDM1 than repeat size. Spermatogonia with upstream methylation may not survive due to methylation-induced reduced expression of the adjacent SIX5, thereby protecting DM1-affected fathers from having CDM1-affected children. Thus, DMPK methylation may account for the maternal bias for CDM1 transmission, larger maternal CTG expansions, age of onset, and clinical continuum, and may serve as a diagnostic indicator.

Myotonic dystrophy: disease repeat range, penetrance, age of onset, and relationship between repeat size and phenotypes

Myotonic dystrophy (DM) is an autosomal dominant neuromuscular disease primarily characterized by myotonia and progressive muscle weakness. The pathogenesis of DM involves microsatellite expansions in noncoding regions of transcripts that result in toxic RNA gain-of-function. Each successive generation of DM families carries larger repeat expansions, leading to an earlier age of onset with increasing disease severity. At present, diagnosis of DM is challenging and requires special genetic testing to account for somatic mosaicism and meiotic instability. While progress in genetic testing has been made, more rapid, accurate, and cost-effective approaches for measuring repeat lengths are needed to establish clear correlations between repeat size and disease phenotypes.

Parent-reported multi-national study of the impact of congenital and childhood onset myotonic dystrophy

AIM

The frequency and impact of symptoms experienced by patients with congenital, childhood, and juvenile-onset myotonic dystrophy (CDM/ChDM/JDM) is not documented. This report identifies symptomatic areas with the greatest disease burden in an international population of patients with early-onset myotonic dystrophy type-1 (DM1).

METHOD

We distributed surveys to parents of patients with CDM/ChDM/JDM. Patients with CDM/ChDM/JDM were members of the US National Registry of DM1 Patients and Family Members, the Canadian Neuromuscular Disease Registry, or the Swedish Health System. Surveys inquired about 325 symptoms and 20 themes associated with CDM/ChDM/JDM. Parents identified the importance of each symptom and theme to their affected child. The prevalence of each symptom and theme were compared across subgroups of patients. The statistical analysis was performed using Fisher's exact and Kruskal-Wallis tests.

RESULTS

One hundred and fifty parents returned surveys. The most frequently reported symptomatic themes in children were issues involving communication (81.7%) and problems with hands or fingers (79.6%). Problems with communication and fatigue were the issues that were reported to have the greatest impact on childrens' lives, while 24.1% of children reported cardiac disorders and 15.8% had problems with anesthesia.

INTERPRETATION

A range of symptoms contribute to the burden of disease faced by children with DM1. Many of these symptoms are under-recognized.

Prenatal diagnosis of congenital myopathies and muscular dystrophies

Congenital myopathies and muscular dystrophies constitute a genetically and phenotypically heterogeneous group of rare inherited diseases characterized by muscle weakness and atrophy, motor delay and respiratory insufficiency. To date, curative care is not available for these diseases, which may severely affect both life-span and quality of life. We discuss prenatal diagnosis and genetic counseling for families at risk, as well as diagnostic possibilities in sporadic cases.

The Impact of Pregnancy on Myotonic Dystrophy: A Registry-Based Study

BACKGROUND

The rate of symptom progression during pregnancy in myotonic dystrophy (DM) is not currently known. Further, there is little data regarding the rate of pregnancy complications and neonatal outcomes in DM.

OBJECTIVE

This study assesses symptom progression and complication rates during pregnancy in women with DM.

METHODS

DM women completed surveys regarding their prior pregnancies. Participants identified complications during their pregnancies and completed the Myotonic Dystrophy Health Index-Short Form (MDHI-SF) to measure their disease burden and identify the severity of select symptoms six-months prior to, during, and six-months after their first pregnancy.

RESULTS

152 women with DM reported on 375 pregnancies. Among these pregnancies, there was a 32.5% miscarriage rate. Some complications were common including: pre-term labor (27.8%), pre-eclampsia (10.4%), and peripartum hemorrhage (13.9%). Participants' perception of their mobility and ability to perform activities, as measured by the MDHI-SF, worsened during pregnancy and did not recover during the post-partum period.

DISCUSSION

Miscarriage, maternal disease progression during pregnancy, and other pregnancy related complications may occur in DM. Women with DM should be counseled on these potential risks prior to considering pregnancy.

Myotonic dystrophy

Myotonic dystrophy (dystrophia myotonica, DM) is one of the most common lethal monogenic disorders in populations of European descent. DM type 1 was first described over a century ago. More recently, a second form of the disease, DM type 2 was recognized, which results from repeat expansion in a different gene. Both disorders have autosomal dominant inheritance and multisystem features, including myotonic myopathy, cataract, and cardiac conduction disease. This article reviews the clinical presentation and pathophysiology of DM and discusses current management and future potential for developing targeted therapies.

The genetics and implications of neuromuscular diseases in pregnancy

Neuromuscular diseases can have a tremendous impact on pregnant women and affect offspring. Healthcare providers need to have a firm understanding of the genetics involved as well as the potential complications that can arise when treating pregnant women who have been diagnosed with a neuromuscular disease or have an increased risk for delivering an infant affected by one of these disorders. This article provides a comprehensive synopsis of genetics, including the strategies for obtaining a detailed patient and family genetic history through construction of a pedigree, as well as imparting some key knowledge for providing appropriate counseling and treatment to affected individuals and families. It addresses the genetic testing, diagnosis, impact, and medical considerations for both patients and offspring affected by myotonic dystrophy, Duchenne and Becker muscular dystrophies, limb-girdle muscular dystrophy, Charcot-Marie-Tooth disease, and spinal muscular atrophy.

Management of pregnancy in women with genetic disorders, Part 1: Disorders of the connective tissue, muscle, vascular, and skeletal systems

Due to early diagnosis and increasingly effective medical advances, the number of women with various genetic syndromes who are undergoing pregnancy is increasing, and this represents an important issue for providers of obstetric care. Each year more women with genetic disease reach childbearing age. Advances in assisted reproductive technology have enabled pregnancy in a cohort of woman who may experience impaired fertility due to their underlying diagnosis. Management of these women requires coordination of care by healthcare providers from multiple specialties to optimize outcomes. Potentially serious medical issues specific to each diagnosis often exist in the preconception, antepartum, intrapartum, and postpartum periods, all of which must be recognized to allow timely diagnosis and treatment. The fetus may also face issues related to risk for inheritance of the genetic disorder itself, as well as risks related to the chronic disease status of the mother. This article will explore the issues faced by women with various genetic disorders that may affect connective tissue, muscular, vascular, and skeletal systems.

TARGET AUDIENCE

Obstetricians & Gynecologists and Family Physicians.

LEARNING OBJECTIVES

After the completing the CME activity, physicians should be better able to classify the cardiovascular manifestations observed in Marfan syndrome and Ehlers-Danlos, evaluate prenatal diagnostic options and limitations for various genetic syndromes, assess the risks to the fetus in women with various genetic syndromes. Determine whether there is a preferred mode of delivery for pregnant patients with various genetic syndromes described in this paper.

Myotonic dystrophy types 1 and 2

Myotonic dystrophies (dystrophia myotonica, or DM) are inherited disorders characterized by myotonia and progressive muscle degeneration, which are variably associated with a multisystemic phenotype. To date, two types of myotonic dystrophy, type 1 (DM1) and type 2 (DM2), are known to exist; both are autosomal dominant disorders caused by expansion of an untranslated short tandem repeat DNA sequence (CTG)(n) and (CCTG)(n), respectively. These expanded repeats in DM1 and DM2 show different patterns of repeat-size instability. Phenotypes of DM1 and DM2 are similar but there are some important differences, most conspicuously in the severity of the disease (including the presence or absence of the congenital form), muscles primarily affected (distal versus proximal), involved muscle fiber types (type 1 versus type 2 fibers), and some associated multisystemic phenotypes. The pathogenic mechanism of DM1 and DM2 is thought to be mediated by the mutant RNA transcripts containing expanded CUG and CCUG repeats. Strong evidence supports the hypothesis that sequestration of muscle-blind like (MBNL) proteins by these expanded repeats leads to misregulated splicing of many gene transcripts in corroboration with the raised level of CUG-binding protein 1. However, additional mechanisms, such as changes in the chromatin structure involving CTCN-binding site and gene expression dysregulations, are emerging. Although treatment of DM1 and DM2 is currently limited to supportive therapies, new therapeutic approaches based on pathogenic mechanisms may become feasible in the near future.

Current status of prenatal diagnosis, operative management and outcome of esophageal atresia/tracheo-esophageal fistula

Ultrasonographic features suggestive of esophageal atresia with or without tracheo-esophageal fistula (EA/TEF) are only in a small minority of fetuses with EA/TEF (<10%) identifiable on prenatal scans.The prenatal diagnosis of EA/TEF relies in principle, on two nonspecific signs: polyhydramnios and absent or small stomach bubble. Polyhydramnios is associated with a wide range of fetal abnormalities, but most commonly it pursues a benign course. Similarly the sonographic absence of a stomach bubble may point to a variety of fetal anomalies.The combination of polyhydramnios and absent stomach bubble in two small series offers a modest positive predictive value of 44 and 56% respectively. Prenatal scanning for EA/TEF identifies a larger proportion of fetuses with Edwards syndrome; there is also a higher proportion of isolated EA in comparison to postnatal studies.Current ultrasound technology does not allow for a definite diagnosis of EA/TEF and therefore, counseling of parents should be guarded.Postnatal diagnosis of EA is confirmed by the failure to pass a firm nasogastric tube into the stomach; on chest X-ray, the tube is seen curling in the upper esophageal pouch. Corrective surgery for EA/TEF is well established and survival rates of over 90% can be expected.