Warsaw Genomics
Genetic test

Limb-girdle dystrophies and CK-emias

CAP & EMQN quality control
Price 2194 PLN 31 days from sample registration in laboratory 173 genes Sample Cheek swab or Venous blood or DNA
Genetic testing with clinical consultation at Warsaw Genomics
~100 000
genomes in our reference database
CAP & EMQN
quality control
In-house
our own laboratory, full control
RODO
genetic data encrypted & protected

What's included in the price

  • NGS sequencing — analysis of the full coding sequence
  • In-house result interpretation by our own team
  • Material collection / delivery per instructions
  • Result available online in the patient portal (PDF)

A consultation with a clinical geneticist is available as a separate service. See the clinic

About this test

Limb-girdle dystrophies are a group of conditions characterized by progressive weakening of the muscles. Proximal muscles such as muscles of the upper arms, shoulders, and thighs are mainly affected. Except for the mild forms, which doesn’t progress over time, limb-girdle dystrophies usually lead to gradual deterioration of patients physical abilities and skills and may eventually result in need of walking assistance or wheelchair assistance. In severe cases, the individual can develop breathing difficulties and require mechanical ventilation due to impaired function of respiratory muscles.

Age of onset, the severity of symptoms and the presence of other disease features varies widely between different subtypes of limb-girdle dystrophies.

Prevalence of limb-girdle dystrophies is estimated to be between 1 in 14,500 to 1 in 125,000 people. In most of the cases, it’s inherited in an autosomal recessive manner however, there are a few types characterized by an autosomal dominant pattern of inheritance.

Genes analysed (173)

Gene Inheritance Associated condition
ACAD9 autosomal recessive
ACADVL autosomal recessive Very long-chain acyl-CoA dehydrogenase deficiency
ACTA1 AD/AR Nemaline myopathy 9
AGL autosomal recessive
AGRN autosomal recessive Myasthenic syndrome, congenital, 5
ALG14 autosomal recessive
ALG2 autosomal recessive Congenital disorder of glycosylation, type Ii, Myasthenic syndrome, congenital, 5
AMPD1 autosomal recessive
ANO5 autosomal recessive Gnathodiaphyseal dysplasia
ATP2A1
B3GALNT2 autosomal recessive
BAG3 autosomal dominant Cardiomyopathy, dilated, 1FF, Myopathy, myofibrillar, 1
BICD2 autosomal dominant
BIN1 autosomal recessive Myopathy, centronuclear, 2
BVES
CACNA1S autosomal dominant Hypokalemic periodic paralysis, type 1, Malignant hyperthermia, susceptibility to, 5
CAPN3 autosomal recessive Muscular dystrophy, limb-girdle, type 2A, Muscular dystrophy, limb-girdle, type 2A
CASQ1
CAV3 AD/DG Cardiac arrhythmia, ankyrin-B-related, Rippling muscle disease
CCDC78 autosomal dominant Myopathy, centronuclear, 2
CFL2 autosomal recessive Nemaline myopathy 9
CHAT autosomal recessive Myasthenic syndrome, congenital, 5
CHKB autosomal recessive
CHRNA1 AD/AR Myasthenic syndrome, congenital, 5
CHRNB1 AD/AR Myasthenic syndrome, congenital, 5
CHRND AD/AR Myasthenic syndrome, congenital, 5
CHRNE AD/AR Myasthenic syndrome, congenital, 5
CHRNG autosomal recessive Escobar syndrome, Multiple pterygium syndrome, Lethal type
CLCN1 AD/AR Myotonia congenita, autosomal dominant
CLN3 autosomal recessive Ceroid lipofuscinosis, neuronal, 3, Ceroid lipofuscinosis, neuronal, 3
CNTN1 autosomal recessive Polyglucosan body myopathy 1 with or without immunodeficiency
COL12A1 AD/AR Bethlem myopathy 1C, Dystonia 27
COL4A1 autosomal dominant Angiopathy, hereditary, with nephropathy, aneurysms, and muscle cramps, Angiopathy, hereditary, with nephropathy, aneurysms, and muscle cramps, Anterior segment dysgenesis 1, Brain small vessel disease 1 with or without ocular anomalies, Brain small vessel disease 1 with or without ocular anomalies, Brain small vessel disease 1 with or without ocular anomalies, Retinal arteries, tortuosity of
COL4A2 autosomal dominant Brain small vessel disease 2
COL6A1 AD/AR Bethlem myopathy 1C, Dystonia 27
COL6A2 AD/AR Bethlem myopathy 1C, Dystonia 27, Epilepsy, progressive myoclonic 7
COL6A3 AD/AR Bethlem myopathy 1C, Dystonia 27
COLQ autosomal recessive Myasthenic syndrome, congenital, 5
CPT2 autosomal recessive Carnitine palmitoyltransferase II deficiency, infantile
CRYAB autosomal dominant Cardiomyopathy, dilated, 1II, Cataract 16, multiple types, Myopathy, myofibrillar, fatal infantile hypertonic, alpha-B crystallin-related
DAG1 autosomal recessive
DES AD/AR Cardiomyopathy, dilated, 1FF, Myopathy, myofibrillar, 1
DMD X-linked Muscular dystrophy, Becker type
DMPK AD/AR Myotonic dystrophy 1
DNAJB6 autosomal dominant Muscular dystrophy, limb-girdle, type 1E
DNM2 AD/AR Neuropathy, congenital hypomyelinating, 2
DPAGT1 autosomal recessive Congenital disorder of glycosylation, type Ii, Myasthenic syndrome, congenital, 5
DPM1 autosomal recessive
DPM2 autosomal recessive
DPM3 autosomal recessive Congenital disorder of glycosylation, type Ii
DTNA autosomal dominant Cardioencephalomyopathy, fatal infantile, due to cytochrome c oxidase deficiency 3
DYSF AD/AR Muscular dystrophy, limb-girdle, type 2B
EMD X-linked Emery-Dreifuss muscular dystrophy 1, X-linked
ENO3 autosomal recessive
ETFB autosomal recessive Glutaricaciduria, type I, Multiple acyl-CoA dehydrogenation deficiency
ETFDH autosomal recessive Glutaricaciduria, type I, Multiple acyl-CoA dehydrogenation deficiency
FAM111B
FDX1L bd
FHL1 X-linked Emery-Dreifuss muscular dystrophy 1, X-linked, Polyglucosan body myopathy 1 with or without immunodeficiency
FKBP14 autosomal recessive Ehlers-danlos syndrome, type I
FKRP autosomal recessive Muscular dystrophy-dystroglycanopathy (congenital with brain and eye anomalies), type A, 5
FKTN AD/AR Cardiomyopathy, dilated, 1FF, Muscular dystrophy-dystroglycanopathy (congenital with brain and eye anomalies), type A, 5
FLNC autosomal dominant
FRG1
GAA autosomal recessive
GBE1 autosomal recessive
GFPT1 autosomal recessive Myasthenic syndrome, congenital, 5
GMPPB autosomal recessive Muscular dystrophy-dystroglycanopathy (congenital with brain and eye anomalies), type A, 5
GNE AD/AR Nonaka myopathy
GOLGA2
GYG1 autosomal recessive
GYS1 autosomal recessive
HNRNPDL autosomal dominant
INPP5K
ISCU autosomal recessive Myopathy with exercise intolerance, Swedish type
ISPD autosomal recessive Muscular dystrophy-dystroglycanopathy (congenital with brain and eye anomalies), type A, 5
ITGA7 autosomal recessive
KBTBD13 autosomal dominant Nemaline myopathy 9
KLHL40 autosomal recessive Nemaline myopathy 9
KLHL41 autosomal recessive Nemaline myopathy 9
LAMA2 AD/AR Muscular dystrophy, congenital, merosin deficient or partially deficient, Muscular dystrophy, limb-girdle, autosomal recessive 23
LAMB2 autosomal recessive Nephrotic syndrome, type 7, Pierson syndrome
LAMP2 X-linked Danon disease
LARGE bd
LDB3 autosomal dominant Cardiomyopathy, dilated, 1FF, Myopathy, myofibrillar, 1
LDHA autosomal recessive
LIMS2 autosomal recessive Muscular dystrophy, limb-girdle, type 2G
LMNA AD/AR Cardiomyopathy, dilated, 1FF, Emery-Dreifuss muscular dystrophy 1, X-linked, Heart-hand syndrome, Slovenian type, Lipodystrophy, familial partial, type 7, LMNA-related congenital muscular dystrophy, Muscular dystrophy, limb-girdle, type 2G
LMOD3 autosomal recessive Nemaline myopathy 9
LPIN1 autosomal recessive Myoglobinuria, acute recurrent, autosomal recessive, Myoglobinuria, acute recurrent, autosomal recessive
LRP12
MAMLD1 X-linked
MEGF10
MICU1
MLTK bd
MME
MSTN
MSTO1
MTM1 X-linked Myopathy, centronuclear, 2
MTMR14 autosomal dominant
MUSK autosomal recessive Myasthenic syndrome, congenital, 5
MYF6 autosomal dominant
MYH2 autosomal dominant Nonaka myopathy
MYH7 AD/AR Cardiomyopathy, dilated, 1FF, Cardiomyopathy, familial hypertrophic 1, Polyglucosan body myopathy 1 with or without immunodeficiency
MYO18B
MYOT autosomal dominant Myopathy, myofibrillar, 3
NDUFV1
NEB autosomal recessive Nemaline myopathy 9
NR0B1 X-linked 46XY sex reversal 3, Lipoid congenital adrenal hyperplasia
OPA1 autosomal dominant
PABPN1
PFKM autosomal recessive
PGAM2 autosomal recessive
PGK1 X-linked Phosphoglycerate kinase 1 deficiency
PGM1 autosomal recessive Congenital disorder of glycosylation, type Ii
PHKA1 X-linked
PHKB autosomal recessive
PLEC autosomal recessive Muscular dystrophy, limb-girdle, type 2G, Muscular dystrophy, limb-girdle, type 2Q
PNPLA2 autosomal recessive Neutral lipid storage disease with myopathy
POGLUT1
POLG autosomal recessive Mitochondrial DNA depletion syndrome 4A (Alpers type)
POMGNT1 autosomal recessive Muscular dystrophy-dystroglycanopathy (congenital with brain and eye anomalies), type A, 5
POMGNT2
POMK
POMT1 autosomal recessive Muscular dystrophy-dystroglycanopathy (congenital with brain and eye anomalies), type A, 5
POMT2 autosomal recessive Muscular dystrophy-dystroglycanopathy (congenital with brain and eye anomalies), type A, 5
POPDC3
PREPL autosomal recessive
PRKAG2 autosomal dominant Cardiomyopathy, familial hypertrophic 1, Wolff-Parkinson-White syndrome
PTRF bd
PYGM autosomal recessive
PYROXD1
RAB40AL
RAPSN autosomal recessive Myasthenic syndrome, congenital, 5
RBCK1 autosomal recessive Polyglucosan body myopathy 1 with or without immunodeficiency
RYR1 AD/AR
SCN4A AD/AR Hyperkalemic periodic paralysis, Myasthenic syndrome, congenital, 5, Myotonia congenita, autosomal dominant
SEPN1 bd
SEPT9
SGCA autosomal recessive Muscular dystrophy, limb-girdle, type 2D
SGCB autosomal recessive Muscular dystrophy, limb-girdle, type 2E
SGCD autosomal recessive Cardiomyopathy, dilated, 1FF, Muscular dystrophy, limb-girdle, type 2G
SGCE
SGCG autosomal recessive Muscular dystrophy, limb-girdle, type 2G
SLC22A5 autosomal recessive Carnitine deficiency, systemic primary
SLC25A20 autosomal recessive Carnitine-acylcarnitine translocase deficiency
SLCO1B1 AD/AR
SMCHD1 DG (razem z SMCHD1 w kontekście D4Z4) Facioscapulohumeral muscular dystrophy 2
SPEG
SPTBN4
STAC3
STIM1 AD/AR
SYNE1 AD/AR Cardioencephalomyopathy, fatal infantile, due to cytochrome c oxidase deficiency 3
SYNE2 autosomal dominant Cardioencephalomyopathy, fatal infantile, due to cytochrome c oxidase deficiency 3
SYT2 autosomal dominant
TCAP AD/AR Cardiomyopathy, dilated, 1FF, Cardiomyopathy, familial hypertrophic 1, Muscular dystrophy, limb-girdle, type 2G
TIA1 AR/AD
TK2 autosomal recessive
TMEM126B
TMEM43 autosomal dominant Arrhythmogenic right ventricular dysplasia, familial, 13
TNNT1 autosomal recessive Nemaline myopathy 9
TNPO3 autosomal dominant Muscular dystrophy, limb-girdle, type 2G
TOR1AIP1 AD/AR Muscular dystrophy, limb-girdle, type 2Y
TPM2 autosomal dominant Arthrogryposis, distal, type 2B3, Nemaline myopathy 9
TPM3 autosomal dominant Nemaline myopathy 1
TRAPPC11 autosomal recessive Muscular dystrophy, limb-girdle, type 2G
TRIM32 autosomal recessive Bardet-Biedl syndrome 1, Muscular dystrophy, limb-girdle, type 2G
TRIM54 -
TRIM63 AD/AR Cardioencephalomyopathy, fatal infantile, due to cytochrome c oxidase deficiency 3
TTN autosomal dominant Cardiomyopathy, dilated, 1FF, Cardiomyopathy, familial hypertrophic 1
VCP autosomal dominant Amyotrophic lateral sclerosis 16, juvenile, Brachyolmia type 3
VMA21
VPS13A

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How the test works

  1. 1

    Order online

    No referral needed. You order online.

  2. 2

    Collect the sample

    Sample: Cheek swab or Venous blood or DNA.

  3. 3

    Result

    Available in 31 days from sample registration in laboratory, online.

Methodology
Methodology
Information on the test method:

At first, deoxyribonucleic acid (DNA) is isolated from a blood sample or paraffin embedded tissue block. The quantity and quality of the material is determined in spectrophotometric and fluorometric assays. From mechanically or enzymatically fragmented DNA a library is made to be used for determination, sequencing and examination of selected genes. The library is sequenced on a new generation sequencer. Afterwards, sequencing results are subjected to bioinformatics analysis and clinical interpretation. Genetic variants are identified using BurrowsWheeler Aligner. The test detects 100% of substitutions and 95% of small insertions and deletions.

Information on variant classification:

The study report provides information on variants classified as ‘potentially pathogenic’ and ‘pathogenic’ depending on their suspected clinical significance. The identified variants are classified under the following categories:

Pathogenic variant: the detected change in the gene sequence directly associates with disease development. At the same time, some pathogenic changes may not have full penetration, meaning that a single mutation may not be enough to cause a full-blown disease.

Potentially pathogenic variant: the detected change in the gene sequence may be, with a great probability, associated with disease development however it is not possible to prove this association on the basis of currently available scientific data. Variant pathogenicity confirmation would require additional tests and evidence; it cannot be excluded that further tests might prove that the change has limited or no clinical significance.

Variant of unknown pathogenicity: based on the currently available scientific data it is not possible to determine the significance of the detected change.

Potentially benign variant: the detected change in the gene sequence most probably does not associate with disease development, however based on the currently available scientific data the benignity of the mutation cannot be confirmed. Confirmation of the clinical significance of the variant would require additional tests and evidence; it cannot be excluded that further tests might prove that the detected mutation has clinical significance and would cause disease development.

Benign variant: the detected change does not associate with disease development.

The identified genetic variants are classified based on the guidelines of the American College of Medical Genetics and Genomics and the American Association for Molecular Pathology (S. Richards, Genet Med. 2015 May; 17(5):405-24). In variant classification the following criteria are considered:

  • Previous variant identification in persons burdened with the disease
  • Variant impact of functional gene product synthesis determined through bioinformatics analyses, confirmed by in vitro/in vivo studies
  • Variant location (exon/intron, functional domain)
  • De novo/hereditary change
  • Variant incidence in general population (each variant with incidence >5% in line with Exome Sequencing Project, 1000 Genomes Project or Exome Aggregation Consortium is classified as benign change)

Variant incidence in general population with relation to patient population The final classification of variants is made on the basis of the total of the above-mentioned criteria. The data bases include: 1000GP, ClinVar, ConsensusPathDB, Exome Aggregation Consortium, Exome Variant Server, FATHMM, GO (Gene Ontology), GTEx (Genotype-Tissue Expression), GWAS (Genome Wide Association Study), HGMD, KEGG, MetaLR, MetaSVM, MutationAssessor, MutationTaster, OMIM, PolyPhen-2, PROVEAN, SIFT, SnpEff, dbNSFP, UniProt, VEP (Variant Effect Predictor).

Test limitations:

All sequencing technologies have some limitations. Our tests use new generation sequencing (NGS) to examine coding and splicing regions of disease-associated genes. Sequencing techniques and subsequent bioinformatics analyses are aimed at limiting the significance of pseudo-gene sequences, however presence of highly homologous gene sequences may still occasionally disturb the identification of pathogenic alleles, deletions/duplications. The Sanger sequencing method is used to confirm variants with lower quality parameters. Deletion/duplication analyses show qualitative changes in DNA covering at least one exon and always require confirmation with other methods (qPCR or MLPA). The analyses are not designed for detecting certain types of genomic changes, such as translocations, inversions, dynamic mutations (e.g. increased number of trinucleotide repetitions) or mutations in regulatory or intronic regions. In case increased numbers of di- or trinucleotide repetitions are reported, it should be assumed that the exact number of repetitions is not precise. The test is not intended to detect somatic mosaicism and somatic mutation analyses should be made in the context of the germinal DNA sequence.

It is not possible to exclude mutations in genes and regions other than those covered by the test as well as alternations in the gene copy number. The test report includes information on changes in gene sequence identified on the basis of a comparison against current reference sequences maintained in NCBI Nucleotide and Ensembl databases. Tests are developed by Warsaw Genomics for clinical objectives. All test results collected are interpreted and analysed by scientific and medical experts of Warsaw Genomics.

Frequently asked questions

How long does the Limb-girdle dystrophies and CK-emias test take?

The result is usually available within 31 days from sample registration in laboratory.

Do I need a referral?

No. You can order this genetic test online without a referral.

How many genes does this panel cover?

The panel analyses 173 genes.

How much does the test cost?

The price of the test is 2194 PLN.

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