Kati Kuuse scite author profile

Phelan-McDermid syndrome, also known as the 22q13 deletion syndrome, is a chromosomal microdeletion syndrome characterized by neonatal hypotonia, normal growth, profound developmental delay, absent or delayed speech, and minor dysmorphic features. Almost all of the 22q13 deletions published so far have been described as terminal. It is believed that the SHANK3 gene is the major candidate gene for the neurologic features of the syndrome. Here we describe a patient with a 0.72-Mb interstitial 22q13.2 deletion, intellectual disability, autistic behavior, epilepsy, mild dysmorphic features, and no deletion in the SHANK3 gene. The patient also has urticarial rash and an elevated level of immunoglobulin E, the latter has previously been described only once in a patient with monosomy 22q13.2-qter and SHANK3 gene deletion. To our knowledge, this is one of the smallest interstitial deletion in this region which has been published up to now. Although the patient has the classic phenotype of the 22q13 terminal deletion syndrome, the etiology for the neurologic and immunological features must be due to genes located more proximal to SHANK3 and this is also supported by other previously published cases of interstitial 22q13.2 deletions. The deleted area in our patient is gene-rich (26 genes), containing several known genes with different functions. Two of them-NFAM1 and TNFRSF13C are involved in immune system functioning. We suggest the haploinsufficiency of these genes might be related to hyper IgE syndrome in our patient.

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Chromosomal microarray analysis as a first‐tier clinical diagnostic test: Estonian experience

Žilina

Teek

Tammur

et al. 2014

Molec Gen & Gen Med

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Chromosomal microarray analysis (CMA) is now established as the first-tier cytogenetic diagnostic test for fast and accurate detection of chromosomal abnormalities in patients with developmental delay/intellectual disability (DD/ID), multiple congenital anomalies (MCA), and autism spectrum disorders (ASD). We present our experience with using CMA for postnatal and prenatal diagnosis in Estonian patients during 2009–2012. Since 2011, CMA is on the official service list of the Estonian Health Insurance Fund and is performed as the first-tier cytogenetic test for patients with DD/ID, MCA or ASD. A total of 1191 patients were analyzed, including postnatal (1072 [90%] patients and 59 [5%] family members) and prenatal referrals (60 [5%] fetuses). Abnormal results were reported in 298 (25%) patients, with a total of 351 findings (1–3 per individual): 147 (42%) deletions, 106 (30%) duplications, 89 (25%) long contiguous stretches of homozygosity (LCSH) events (>5 Mb), and nine (3%) aneuploidies. Of all findings, 143 (41%) were defined as pathogenic or likely pathogenic; for another 143 findings (41%), most of which were LCSH, the clinical significance remained unknown, while 61 (18%) reported findings can now be reclassified as benign or likely benign. Clinically relevant findings were detected in 126 (11%) patients. However, the proportion of variants of unknown clinical significance was quite high (41% of all findings). It seems that our ability to detect chromosomal abnormalities has far outpaced our ability to understand their role in disease. Thus, the interpretation of CMA findings remains a rather difficult task requiring a close collaboration between clinicians and cytogeneticists.

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The Diagnostic Utility of Single Long Contiguous Stretches of Homozygosity in Patients without Parental Consanguinity

et al. 2015

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We present data from our clinical department's experience with chromosomal microarray analysis (CMA) regarding the diagnostic utility of 1 or 2 long contiguous stretches of homozygosity (LCSHs) in an outbred population. The study group consisted of 2,110 consecutive patients from 2011 to 2014 for whom CMA was performed. The minimum cut-off size for defining a homozygous stretch was 5 Mb. To focus on cases with no parental consanguinity, we further studied only patients in whom the total length of homozygous stretches did not exceed 28 Mb or 1% of the autosomal genome length. We identified 6 chromosomal regions where homozygous stretches appeared in at least 3 patients and excluded these from further analysis. In 2 out of 120 patients with an isolated finding of 1 or 2 non-recurrent LCSHs, a plausible candidate gene associated with their phenotype was identified within the homozygous stretch. In both of these cases, a pathogenic mutation was detected, leading to diagnoses of pyruvate kinase deficiency and Marinesco-Sjögren syndrome. To clarify whether previously found homozygous stretches could be important for the interpretation of genome-wide sequencing data, we report 7 cases in which homozygous stretches not encompassing a clinically associated gene were first found on CMA, followed by the diagnostic whole-exome sequencing. The diagnostic utility of single LCSHs, unlikely to be caused by uniparental disomy, is discussed in detail.

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Two familial microduplications of 15q26.3 causing overgrowth and variable intellectual disability with normal copy number of IGF1R

Leffler

Puusepp

Žilina

et al. 2016

European Journal of Medical Genetics

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Kati Kuuse

5.9Mb microdeletion in chromosome band 17q22–q23.2 associated with tracheo-esophageal fistula and conductive hearing loss

A patient with the classic features of Phelan‐McDermid syndrome and a high immunoglobulin E level caused by a cryptic interstitial 0.72‐Mb deletion in the 22q13.2 region

Chromosomal microarray analysis as a first‐tier clinical diagnostic test: Estonian experience

The Diagnostic Utility of Single Long Contiguous Stretches of Homozygosity in Patients without Parental Consanguinity

Two familial microduplications of 15q26.3 causing overgrowth and variable intellectual disability with normal copy number of IGF1R

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