Health supervision for children and adolescents with 16p11.2 deletion syndrome.

Rare genetic conditions are challenging for the primary care provider to manage without proper guidelines. This clinical review is designed to assist the pediatrician, family physician, or internist in the primary care setting to manage the complexities of 16p11.2 deletion syndrome. A multidisciplinary medical home with the primary care provider leading the care and armed with up-to-date guidelines will prove most helpful to the rare genetic patient population. A special focus on technology to fill gaps in deficits, review of case studies on novel medical treatments, and involvement with the educational system for advocacy with an emphasis on celebrating diversity will serve the rare genetic syndrome population well.

Consensus recommendations on organization of care for individuals with Phelan-McDermid syndrome.

The manifestations of Phelan-McDermid syndrome (PMS) are complex, warranting expert and multidisciplinary care in all life stages. In the present paper we propose consensus recommendations on the organization of care for individuals with PMS. We indicate that care should consider all life domains, which can be done within the framework of the International Classification of Functioning, Disability and Health (ICF). This framework assesses disability and functioning as the outcome of the individual's interactions with other factors. The different roles within care, such as performed by a centre of expertise, by regional health care providers and by a coordinating physician are addressed. A surveillance scheme and emergency card is provided and disciplines participating in a multidisciplinary team for PMS are described. Additionally, recommendations are provided for transition from paediatric to adult care. This care proposition may also be useful for individuals with other rare genetic neurodevelopmental disorders.

Experiences surrounding the diagnostic process and care among parents of children diagnosed with Phelan-McDermid syndrome: A qualitative study.

AIM: To explore the experience of parents of children diagnosed with Phelan-McDermid syndrome (PMS) with regard to the diagnostic process, treatment, and medical care. METHOD: A qualitative descriptive study was conducted. Participants were recruited using non-probabilistic purposeful sampling. In total, 32 parents with children with PMS were included. In-depth interviews and researcher field notes were used. An inductive thematic analysis was performed. RESULTS: Five themes were identified: (1) the 'diagnostic process' describes the diagnostic process and how it is communicated to the parents; (2) 'treatment and expectations' describes the expectations and hopes placed on future treatment; (3) 'family planning' describes how parents deal with genetic counselling when planning to have more children after a diagnosis of PMS; (4) 'the world of disability' describes the entry of parents into an environment of dependency and disability after the diagnosis; (5) 'family's financial situation' highlights the financial difficulties due to the high cost of therapies and daily care products. INTERPRETATION: Our results provide insight on how a diagnosis of PMS and its consequences are experienced by parents of children with PMS. These results can be used by health professionals to help and support parents.

Clinical and Genetic Aspects of Phelan-McDermid Syndrome: An Interdisciplinary Approach to Management.

Phelan-McDermid syndrome (PMS) is a rare, heterogeneous, and complex neurodevelopmental disorder. It is generally caused by a heterozygous microdeletion of contiguous genes located in the distal portion of the long arm of chromosome 22, including the SHANK3 gene. Sequence variants of SHANK3, including frameshift, nonsense mutations, small indels and splice site mutations also result in PMS. Furthermore, haploinsufficiency in SHANK3 has been suggested as the main cause of PMS. SHANK3 is also associated with intellectual disability, autism spectrum disorder and schizophrenia. The phenotype of PMS is variable, and lacks a distinctive phenotypic characteristic, so the clinical diagnosis should be confirmed by genetic analysis. PMS is a multi-system disorder, and clinical care must encompass various specialties and therapists. The role of risperidone, intranasal insulin, insulin growth factor 1, and oxytocin as potential therapeutic options in PMS will be discussed in this review. The diagnosis of PMS is important to provide an appropriate clinical evaluation, treatment, and genetic counseling.

Applications of Genome Editing Technology in Research on Chromosome Aneuploidy Disorders.

Chromosomal segregation errors in germ cells and early embryonic development underlie aneuploidies, which are numerical chromosomal abnormalities causing fetal absorption, developmental anomalies, and carcinogenesis. It has been considered that human aneuploidy disorders cannot be resolved by radical treatment. However, recent studies have demonstrated that aneuploidies can be rescued to a normal diploid state using genetic engineering in cultured cells. Here, we summarize a series of studies mainly applying genome editing to eliminate an extra copy of human chromosome 21, the cause of the most common constitutional aneuploidy disorder Down syndrome. We also present findings on induced pluripotent stem cell reprogramming, which has been shown to be one of the most promising technologies for converting aneuploidies into normal diploidy without the risk of genetic alterations such as genome editing-mediated off-target effects.

Clinical epigenetics: a primer for the practitioner.

Disruption of epigenetic modifications and the factors that maintain these modifications is rapidly emerging as a cause of developmental disorders. Here we summarize some of the major principles of epigenetics including how epigenetic modifications are: (1) normally reset in the germ line, (2) form an additional layer of interindividual variation, (3) are environmentally sensitive, and (4) change over time in humans. We also briefly discuss the disruption of growth and intellect associated with the Mendelian disorders of the epigenetic machinery and the classical imprinting disorders (such as Beckwith-Wiedemann syndrome, Silver-Russell syndrome, Prader-Willi syndrome, and Angelman syndrome), as well as suggesting some diagnostic considerations for the clinicians taking care of these patients. Finally, we discuss novel therapeutic strategies targeting epigenetic modifications, which may offer a safe alternative to up and coming genome editing strategies for the treatment of genetic diseases. This review provides a starting point for clinicians interested in epigenetics and the role epigenetic disruption plays in human disease. WHAT THIS PAPER ADDS: Clinicians are introduced to four main principles of epigenetics. Clinical features of imprinting disorders and Mendelian disorders of epigenetic machinery are presented.

Hematopoietic stem cell transplantation in a patient with type 1 mosaic variegated aneuploidy syndrome.

BACKGROUND: Mosaic variegated aneuploidy (MVA) syndrome is a chromosomal instability disorder that leads to aneuploidies of different chromosomes in various tissues. Type 1 MVA (MVA1) is caused by mutations in the budding uninhibited by benzimidazoles 1 homolog beta (BUB1B) gene. The main clinical features of MVA1 syndrome are growth and mental retardation, central nervous system anomalies, microcephaly, and predisposition to cancers. There have been no reports of hematopoietic stem cell transplantation (HSCT) in MVA patients. RESULTS: We report an 11-year old boy diagnosed with MVA1 syndrome. The BUB1B gene mutations c.498_505delAAACTTTA and c.1288 + 5G > A were detected using the next generation sequencing (NGS) method. The patient presented with cytopenia soon after birth, but remained stable until 9 years of age, when he developed myelodysplastic syndrome associated with monosomy of chromosome 7. Due to severe dependence on blood transfusions, a TCRαß+/CD19+ depleted HSCT was performed from a matched unrelated donor (MUD) using a treosulfan-based reduced intensity conditioning (RIC) regimen. The engraftment occurred, and no severe toxicity was observed soon after the HSCT, but on day + 47, graft rejection was detected. It was followed by prolonged pancytopenia and sepsis with multi-organ Enterococcus faecium infection, which led to the patient's death on day + 156 after HSCT. CONCLUSIONS: In conclusion, we demonstrate that RIC HSCT with TCRαß+/CD19+ depletion was well tolerated and resulted in complete hematologic recovery in our MVA1 patient, but, unfortunately, it was followed by rapid graft rejection. This fact needs to be taken into consideration for HSCT in other MVA patients.

Long-term remission of bilateral Wilms tumors that developed from premature separation of chromatids/mosaic variegated aneuploidy syndrome due to bilateral nephrectomy and peritoneal dialysis.

We report a 38-month-old Japanese male with premature chromatid separation/mosaic variegated aneuploidy syndrome bearing biallelic BUB1B germline mutations who suffered from bilateral Wilms tumor. After right nephrectomy, dactinomycin monotherapy was administered for the left Wilms tumor; however, severe adverse reaction prevented the patient from receiving further chemotherapy. Left nephrectomy was then performed without postoperative chemotherapy. The patient survived for 15 months after bilateral nephrectomy without peritoneal relapse, metastasis of Wilms tumor, or the occurrence of rhabdomyosarcoma and maintained a good quality of life while receiving peritoneal dialysis at home.

An Update on Common Chromosome Microdeletion and Microduplication Syndromes.

This review summarizes common microdeletion and microduplication syndromes and highlights important updates in patient-care needs for people with these conditions (22q11.2, 7q11.23, 17p11.2, and 16p11.2). These conditions are in chromosomal "hotspots" and have an estimated prevalence of 1 in 1,000 to 1 in 25,000. Some conditions have possible increased or decreased genetic risk of schizophrenia (22q11.2 deletion and duplication), or risk of aortic dilation (7q11.23 duplication) versus aortic stenosis (7q11.23 deletion). Many of these conditions are associated with developmental delay, autism, and/or multiple congenital anomalies and would not be detected with a karyotype. Chromosomal microarray analysis will detect all these conditions with a single screening test, allowing for the appropriate diagnosis and management of these patients. [Pediatr Ann. 2018;47(5):e198-e203.].

Neuroimaging findings in Pallister-Killian syndrome.

Pallister-Killian syndrome (PKS) is a rare chromosomal duplication disorder caused by additional copies of the short arm of chromosome 12 (12p). Clinically PKS is characterized by craniofacial dysmorphism with neonatal frontotemporal alopecia, hypertelorism, and low-set ears as well as kyphoscoliosis, severe intellectual disability, epilepsy, and abnormal muscle tone. Comprehensive high-resolution brain MR findings of PKS in childhood have not been previously illustrated in the medical literature. We present detailed neuroimaging findings from a child with PKS and thoroughly review previously reported structural brain abnormalities in this patient population. MRI abnormalities common to PKS include cerebral volume loss, malformations of cortical development, corpus callosum dysgenesis, white matter disease, and craniofacial malformations. In our patient, new findings of perisylvian with occipital polymicrogyria, vermian dysplasia, brachium pontis signal abnormality, dural anomalies, and unilateral atlas assimilation were noted. Micrencephaly and cortical dysplasia provide a likely explanation for severe intellectual disability and epilepsy in this patient population.

Engineering of Systematic Elimination of a Targeted Chromosome in Human Cells.

Embryonic trisomy leads to abortion or congenital genetic disorders in humans. The most common autosomal chromosome abnormalities are trisomy of chromosomes 13, 18, and 21. Although alteration of gene dosage is thought to contribute to disorders caused by extra copies of chromosomes, genes associated with specific disease phenotypes remain unclear. To generate a normal cell from a trisomic cell as a means of etiological analysis or candidate therapy for trisomy syndromes, we developed a system to eliminate a targeted chromosome from human cells. Chromosome 21 was targeted by integration of a DNA cassette in HeLa cells that harbored three copies of chromosome 21. The DNA cassette included two inverted loxP sites and a herpes simplex virus thymidine kinase (HSV-tk) gene. This system causes missegregation of chromosome 21 after expression of Cre recombinase and subsequently enables the selection of cells lacking the chromosome by culturing in a medium that includes ganciclovir (GCV). Cells harboring only two copies of chromosome 21 were efficiently induced by transfection of a Cre expression vector, indicating that this approach is useful for eliminating a targeted chromosome.

The outcomes of 31 cases of trisomy 13 diagnosed in utero with various management options.

There are few reports on the prognosis of prenatally diagnosed trisomy 13 in relation to postnatal management. The aim of this study was to report on the prenatal and postnatal outcomes and postnatal management of trisomy 13 fetuses that were prenatally diagnosed at our center between 2003 and 2015. The data were retrospectively reviewed from medical records. Of the 31 cases of trisomy 13, 12 patients were diagnosed before 22 weeks of gestation, and 19 were diagnosed at or after 22 weeks of gestation. Nine families opted for termination of the pregnancy, 14 fetuses died, and 8 were born alive. Aggressive treatment was requested in two of the live births, with one patient achieving long-term survival (7 years). The other died during infancy (Day 61). One out of four who received palliative treatment is alive at two years of age with only nutrition supplementation. These three patients who achieved neonatal survival had few structural anomalies. Fetal death and early neonatal death are common in trisomy 13; however, fetuses that receive medical treatment for cases without major ultrasound abnormalities may achieve neonatal survival. Therefore, it is useful to provide comprehensive information, including precise ultrasound findings and treatment options, to parents with trisomy 13 fetuses during genetic counseling.

Practices and Attitudes of Canadian Cardiologists Caring for Patients With Trisomy 18.

Trisomy 18 (T18) is a genetic disorder with cardiac lesions in up to 90% of patients. Cardiac surgery is not frequently offered because of the overall poor prognosis, although this has recently been challenged. Our study aimed to explore the practices and attitudes of Canadian pediatric cardiologists managing T18 patients. We administered a survey to pediatric cardiologists attending the Canadian Cardiovascular Congress, Canadian Pediatric Cardiology Association Business Meeting. There were 30 respondents. Most (67%) supported comfort care for affected patients with a heart lesion. None supported palliative surgery for those with complex heart lesions. Of 30 respondents, 16 (53%) counsel families prenatally, and none would present the option of a single ventricle surgical track for complex heart disease. In a hypothetical situation in which their own child was born with T18, 67% would choose comfort care with medical treatment of heart failure, and none would choose palliative surgery. Being a parent was associated with a higher likelihood of choosing termination (14 of 20 vs 6 of 9; P = 0.046) or comfort care (14 of 20 vs 6 of 9; P = 0.036). Qualitative data suggest support for comfort care, while recognizing the need for individualization and shared decision-making, within the context of institution-specific policies. Canadian pediatric cardiologists surveyed support comfort care and medical treatment but not surgical treatment for T18 patients with cardiac lesions. They place primacy on nonmaleficence, yet also recognize the emerging need for individualized shared decision-making in these cases.

Electroclinical features of epilepsy in patients with InvDup(15).

PURPOSE: InvDup(15) syndrome is one of the most common chromosomal abnormalities associated with epilepsy. Here we review the seizure types described in InvDup(15) patients and the main electroclinical, therapeutic, and prognostic aspects of the syndrome. METHODS: A literature search of PubMed, MEDLINE, and EMBASE was performed to identify papers examining InvDup(15) syndrome and epilepsy. RESULTS: About 65% of the InvDup(15) patients described in the literature had multiple seizure types with a predominance (40.4%) of tonic-clonic seizures. Age at seizure onset was before 10 years in more than half of them. Patients suffered from a variety of EEG abnormalities, generalized spike activity being the most frequent. Brain MRI was unremarkable in the majority of patients. Treatment was with several anticonvulsant drugs used as mono- or polytherapy. Valproic acid was the most common treatment against generalized seizures and was often effective, although drug resistance was a major concern in a large number of cases. Finally, more than 30% of the children suffered from infantile spasms, and status epilepticus was described in nearly 20% of patients, occasionally resulting in death. CONCLUSION: Seizures are very common in InvDup(15) patients, who suffer from a variety of seizure types. Information about EEG and brain MRI findings, seizure treatment, and prognosis is often poor. The overall prognosis is fair. Prospective studies of larger samples are needed, to gain further insights into the natural history of InvDup(15) syndrome.

Phelan-McDermid Syndrome.

Phelan-McDermid syndrome is a rare neurodevelopmental syndrome associated with severe intellectual disability, motor delay, and autistic traits. This article reviews a case of a complicated presentation of Phelan-McDermid syndrome and addresses etiology, diagnosis, and management.

Surviving with trisomy 13: Provider and parent perspectives and the role of the pediatric palliative care program.

Trisomy 13 typically denotes an overall poor prognosis in the setting of multisystem anomalies. Through a provider and parent perspective, this case illustrates the benefit of hope, communication, and teamwork through the integration of a palliative care team in the care of a medically complex child with trisomy 13, resulting in enhance survival and perceived quality of life for patient and family. © 2016 Wiley Periodicals, Inc.

Chromosome therapy: Potential strategies for the correction of severe chromosome aberrations.

Large chromosomal aberrations occur commonly during development, resulting in complex and multisystem diseases. In spite of this high frequency, there are currently no means for correcting these disorders due to their complexity and involvement of multiple genes. Recently, several new approaches have been devised that target whole chromosomes in vitro, which are collectively referred to as "Chromosome Therapies." These include silencing and selection for loss of the extra chromosome in trisomies, promotion of euploidy in an aneuploid culture, and forced loss and replacement of a chromosome. Here, we provide a review of Chromosome Therapy, and discuss potential directions for these methods clinically, as well as research applications and cellular models that can be made using these technologies. © 2016 Wiley Periodicals, Inc.

Perspectives on the care and advances in the management of children with trisomy 13 and 18.

The trisomy 13 and trisomy 18 syndromes are important and relatively common chromosome conditions each consisting of a recognizable pattern of multiple congenital anomalies, an increased neonatal and infant mortality, and a marked cognitive and motor disability in older children. Because of the medically serious nature of the outcomes, the traditional approach to management in the newborn and early infancy periods has been to withhold technological support and surgery. In the last decade a rich dialogue has emerged in the literature; one view makes the case for pure comfort care for the benefit of the child while the other view supports full intervention in appropriate situations. The principal aim of the series of articles in this issue of the Seminars in Medical Genetics is to enrich and continue this emerging dialogue. The papers include review articles, original research, and commentaries that discuss perspectives on the care and advances in the management of children with the trisomy 13 and 18 syndromes. © 2016 Wiley Periodicals, Inc.