Descripción general
- Las distrofias musculares congénitas son un grupo heredado de trastornos miopáticos progresivos que resultan de defectos en varios genes responsables de la función muscular normal, lo que resulta en debilidad muscular progresiva sin una anomalía del nervio central o periférico. Los genes responsables de estas enfermedades son proteínas musculares específicas que permiten una adecuada contracción y relajación de los músculos. Las distrofias musculares se clasifican según el fenotipo clínico, la patología y el modo de herencia. El patrón de herencia incluye líneas X, autosómico recesivo y autosómico dominante. Algunos ejemplos incluyen:
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Ligado al cromosoma X: Duchenne, Becker, Emery-Dreifuss
-
Autosómico dominante: facioescapulohumeral, distal, ocular, oculofaríngeoy
-
Autosomgal recesivo: forma de cintura de extremidades
-
Las miopatías congénitas son un grupo de enfermedades genéticas que afectan predominantemente a los músculos. Las características típicas se pueden encontrar en recién nacidos y bebés, niños o incluso adultos. La clasificación de las miopatías congénitas sigue un criterio genético. Sin embargo, la correlación genotipo-fenotipo sigue siendo variable y se superpone con las distrofias musculares congénitas. Algunos ejemplos de miopatías congénitas incluyen miopatía nemalínica, enfermedad del núcleo central y enfermedad multiminicore, entre otras. Tanto las miopatías congénitas como las distrofias musculares conllevan un alto riesgo de desarrollar enfermedad pulmonar restrictiva y deformidades ortopédicas.
- El panel de precisión de distrofias musculares congénitas y miopatías de Igenomix se puede utilizar como una herramienta para un diagnóstico preciso y un diagnóstico diferencial de la debilidad muscular que, en última instancia, conduce a un mejor tratamiento y pronóstico de la enfermedad. Proporciona un análisis completo de los genes implicados en esta enfermedad utilizando secuenciación de próxima generación (NGS) para comprender completamente el espectro de genes relevantes implicados y su penetrancia alta o intermedia.
Indicaciones
- El panel de precisión de distrofias musculares congénitas y miopatías de Igenomix se utiliza para pacientes con sospecha clínica o diagnóstico con o sin los siguientes síntomas:
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Debilidad muscular de aparición temprana
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Disminución del tono muscular.
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Reflejos tendinosos profundos hipoactivos
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Hitos motores retrasados
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Atrofia muscular
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Articulaciones anormalmente fijadas
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Deformidades y contracturas musculares.
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Antecedentes familiares de miopatía congénita o distrofia muscular.
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Utilidad clínica
La utilidad clínica de este panel es:
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La confirmación genética y molecular para un diagnóstico clínico preciso de un paciente sintomático.
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Inicio precoz del tratamiento con la participación de un equipo multidisciplinario centrado en fisioterapia y rehabilitación intensiva, intervenciones quirúrgicas y de refuerzo y atención médica para prevenir complicaciones y mejorar los síntomas
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Evaluación de riesgo de familiares asintomáticos según modalidad hereditaria mediante asesoramiento genético.
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Mejora de la delimitación de la correlación genotipo-fenotipo dada la variabilidad de la gravedad y el curso de la enfermedad.
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Genes y enfermedades
GENE |
OMIM DISEASES |
INHERITANCE* |
% GENE COVERAGE (20X) |
HGMD** |
ABCC8 |
Permanent Neonatal |
AD,AR |
99.98 |
710 of 712 |
ACADM |
Medium Chain |
AR |
99.98 |
181 of 181 |
ACTA1 |
Congenital Myopathy |
AD,AR |
100 |
224 of 224 |
ADCY6 |
Lethal Congenital |
AR |
100 |
2 of 2 |
ADGRG6 |
Lethal Congenital |
AR |
99.91 |
NA of NA |
AGRN |
Congential Myasthenic |
AR |
99.71 |
18 of 18 |
AIMP1 |
Hypomyelinating |
AR |
100 |
10 of 10 |
AK9 |
Postsynaptic |
– |
98.37 |
4 of 4 |
ALG14 |
Congenital |
AR |
99.99 |
7 of 7 |
ALG2 |
Congenital Disorder |
AR |
99.61 |
7 of 7 |
ALG3 |
Congenital Disorder |
AR |
99.2 |
25 of 25 |
ASCC1 |
Spinal Muscular |
AR |
99.97 |
6 of 6 |
ATAD1 |
Hereditary |
AR |
99.97 |
3 of 3 |
AUTS2 |
Autosomal Dominant |
AD |
99.63 |
9 of 17 |
BICD2 |
Autosomal Dominant |
AD |
99.94 |
39 of 39 |
BIN1 |
Autosomal Recessive |
AR |
100 |
20 of 20 |
C12ORF65 |
Combined Oxidative |
AR |
na |
na |
CACNA1E |
Epileptic |
AD |
99.94 |
25 of 25 |
CASK |
Nonspherocytic Hemolytic |
X,XR,XD,G |
99.98 |
NA of NA |
CCDC47 |
Trichohepatoneu- |
AR |
99.94 |
5 of 5 |
CDK5 |
Lissencephaly With |
AR |
100 |
5 of 5 |
CEP55 |
Multinucleated Neurons, |
AR |
99.22 |
3 of 3 |
CFL2 |
Nemaline Myopathy |
AR |
99.98 |
9 of 9 |
CHAT |
Congenital Myasthenic |
AR |
100 |
49 of 49 |
CHMP1A |
Pontocerebellar |
AR |
100 |
4 of 4 |
CHRNA1 |
Multiple Pterygium |
AD,AR |
100 |
35 of 35 |
CHRNB1 |
Congential Myasthenic |
AD,AR |
95 |
9 of 9 |
CHRND |
Multiple Pterygium |
AD,AR |
100 |
31 of 31 |
CHRNE |
Familial Infantile |
AD,AR |
99.87 |
138 of 138 |
CHRNG |
Multiple Pterygium |
AR |
100 |
36 of 36 |
CHST14 |
Musculocontractural |
AR |
97.7 |
21 of 22 |
CHUK |
Cocoon |
AR |
100 |
5 of 5 |
CNTNAP1 |
Lethal Congenital |
AR |
99.97 |
25 of 25 |
COL13A1 |
Congenital Myasthenic |
AR |
99.97 |
16 of 16 |
COL6A2 |
Bethlem Myopathy |
AD,AR |
100 |
223 of 225 |
COLQ |
Endplate Acetylcholinesterase |
AR |
100 |
70 of 71 |
DHCR24 |
Desmosterolosis |
AR |
100 |
10 of 10 |
DOK7 |
Fetal Akinesia Deformation |
AR |
99.88 |
72 of 72 |
DPAGT1 |
Congenital Disorder Of |
AR |
100 |
41 of 41 |
DSE |
Musculocontractural |
AR |
99.94 |
3 of 3 |
ECEL1 |
Distal Arthrogryposis |
AR |
99.52 |
39 of 39 |
EGR2 |
Demyelinating Charcot- |
AD,AR |
100 |
23 of 23 |
ERBB3 |
Lethal Congenital |
AD,AR |
99.91 |
6 of 6 |
ERCC1 |
Cerebrooculofacioskeletal |
AR |
93.12 |
6 of 6 |
ERCC2 |
Cerebrooculofacioskeletal |
AR |
100 |
102 of 102 |
ERCC5 |
Cerebrooculofacioskeletal |
AR |
99.94 |
58 of 58 |
ERCC6 |
Cerebrooculofacioskeletal |
AD,AR |
99.98 |
127 of 128 |
ERGIC1 |
Neurogenic |
AR |
100 |
2 of 2 |
EXOSC3 |
Pontocerebellar |
AR |
100 |
19 of 20 |
FAM20C |
Lethal Osteosclerotic |
AR |
97.8 |
29 of 29 |
FBN2 |
Congenital Contractural |
AD |
100 |
115 of 115 |
FHL1 |
Reducing Body Myopathy, |
X,XR,XD,G |
99.98 |
NA of NA |
FIG4 |
Amyotrophic Lateral |
AD,AR |
99.92 |
72 of 72 |
FKBP10 |
Bruck Syndrome, |
AR |
100 |
51 of 51 |
FKTN |
Muscular Dystrophy- |
AR |
98 |
54 of 56 |
FLAD1 |
Lipid Storage Myopathy |
AR |
97.13 |
13 of 14 |
FLVCR2 |
Proliferative Vasculopathy |
AR |
99.97 |
16 of 16 |
GBA |
Gaucher Disease- |
AD,AR |
100 |
469 of 471 |
GBE1 |
Glycogen Storage |
AR |
99.95 |
71 of 74 |
GCK |
Permanent Neonatal |
AD,AR |
100 |
905 of 909 |
GFM2 |
Combined Oxidative |
AR |
99.35 |
5 of 7 |
GFPT1 |
Congenital Myasthenic |
AR |
100 |
57 of 57 |
GLDN |
Lethal Congenital |
AR |
98.46 |
13 of 13 |
GLE1 |
Congenital Arthrogryposis |
AR |
100 |
17 of 17 |
GLI3 |
Greig Cephalopolysyndactyly |
AD,AR |
100 |
231 of 231 |
GMPPB |
Muscular Dystrophy- |
AR |
99.95 |
53 of 53 |
HSPG2 |
Dyssegmental Dysplasia, |
AR |
99.41 |
68 of 69 |
HYMAI |
Paternal Uniparental |
AD |
na |
na |
IBA57 |
Multiple Mitochondrial |
AR |
93.35 |
25 of 27 |
INS |
Permanent Neonatal |
AD,AR |
100 |
78 of 84 |
ITGA6 |
Epidermolysis Bullosa |
AR |
100 |
10 of 10 |
ITGB4 |
Epidermolysis Bullosa |
AD,AR |
99.12 |
115 of 115 |
KAT6B |
Genitopatellar Syndrome, |
AD |
99.97 |
80 of 80 |
KBTBD13 |
Childhood-Onset |
AD |
99.66 |
15 of 15 |
KCNJ11 |
Permanent Neonatal |
AD,AR |
100 |
190 of 191 |
KIAA1109 |
Alkuraya-Kucinskas |
AR |
99.95 |
21 of 21 |
KIF14 |
Meckel Syndrome, |
AR |
99.84 |
18 of 18 |
KIF1A |
Autosomal Dominant |
AD,AR |
100 |
76 of 76 |
KIF5C |
Cortical Dysplasia, |
AD |
99.96 |
7 of 7 |
KLHL40 |
Severe Congenital |
AR |
99.98 |
26 of 26 |
KLHL41 |
Childhood-Onset |
AR |
99.92 |
8 of 8 |
LAMB2 |
Pierson Syndrome , |
AR |
100 |
129 of 129 |
LGI4 |
Arthrogryposis Multiplex |
AR |
99.86 |
9 of 9 |
LMNA |
Charcot-Marie-Tooth Disease |
AD,AR |
100 |
619 of 620 |
LMOD3 |
Severe Congenital |
AR |
98.68 |
23 of 26 |
LRP4 |
Cenani-Lenz Syndactyly |
AD,AR |
100 |
32 of 32 |
MAGEL2 |
Prader-Willi |
AD |
99.99 |
43 of 48 |
MED13L |
Mental Retardation And |
AD |
100 |
90 of 92 |
MPZ |
Axonal Type Charcot-Marie- |
AD,AR |
99.98 |
245 of 245 |
MTM1 |
Myotubular Myopathy, |
X,XR,G |
99.98 |
NA of NA |
MUSK |
Fetal Akinesia |
AR |
95.58 |
23 of 25 |
MYBPC1 |
Distal Arthrogryposis |
AD,AR |
100 |
13 of 13 |
MYH2 |
Proximal Myopathy |
AD,AR |
99.98 |
31 of 31 |
MYH3 |
Distal Arthrogryposis, |
AD,AR |
100 |
46 of 47 |
MYH8 |
Carney Complex Variant, |
AD |
100 |
6 of 6 |
MYO9A |
Congenital Myasthenic |
AR |
99.62 |
7 of 7 |
MYOD1 |
Congenital Myopathy With |
AR |
99.97 |
6 of 6 |
MYPN |
Nemaline Myopathy, |
AD,AR |
99.94 |
49 of 49 |
NALCN |
Congenital Contractures |
AD,AR |
99.97 |
69 of 69 |
NEB |
Nemaline Myopathy, |
AR |
86.77 |
304 of 339 |
NEK9 |
Arthrogryposis, Perthes |
AR |
99.98 |
4 of 4 |
NUP88 |
Fetal Akinesia |
AR |
95.82 |
3 of 3 |
PDX1 |
Pancreatic Permanent |
AD,AR |
98.02 |
32 of 36 |
PHGDH |
Neu-Laxova Syndrome, |
AR |
100 |
26 of 26 |
PI4KA |
Polymicrogyria, Perisylvian, |
AR |
99.76 |
4 of 4 |
PIEZO2 |
Distal Arthrogryposis, |
AD,AR |
96.93 |
37 of 37 |
PIGS |
Glycosylphosphatidylinositol |
AR |
100 |
6 of 6 |
PIP5K1C |
Lethal Congenital |
AR |
99.83 |
3 of 3 |
PLAGL1 |
Paternal Uniparental |
– |
95.56 |
2 of 2 |
PLEC |
Epidermolysis Bullosa |
AD,AR |
99.98 |
113 of 113 |
PLOD2 |
Bruck Syndrome |
AR |
99.97 |
29 of 29 |
PLXND1 |
Moebius |
– |
98.44 |
6 of 6 |
PMM2 |
Congenital Disorder |
AR |
100 |
127 of 129 |
PPP3CA |
Arthrogryposis, Cleft Palate, |
AD |
99.98 |
16 of 16 |
PREPL |
Congenital Myasthenic |
AR |
99.92 |
7 of 12 |
PSAT1 |
Neu-Laxova Syndrome, |
AR |
99.95 |
9 of 9 |
PSMB8 |
Proteasome-Associated |
AR |
100 |
11 of 11 |
RAPSN |
Fetal Akinesia Deformation |
AR |
99.98 |
59 of 61 |
RARS2 |
Pontocerebellar |
AR |
99.98 |
39 of 40 |
REV3L |
Moebius |
|
99.08 |
7 of 7 |
RFT1 |
Congenital Disorder |
AR |
99.98 |
18 of 18 |
RIPK4 |
Popliteal Pterygium |
AR |
99.98 |
16 of 16 |
RYR1 |
Central Core Disease |
AD,AR |
97.63 |
733 of 746 |
SCN4A |
Congenital Myasthenic |
AD,AR |
99.77 |
136 of 142 |
SCO2 |
Autosomal Recessive |
AD,AR |
100 |
38 of 38 |
SELENON |
Congoenital Myopathy |
AD,AR |
89 |
NA of NA |
SHPK |
Isolated Sedoheptulokinase |
– |
99.96 |
2 of 2 |
SLC18A3 |
Congenital Myasthenic |
AR |
99.97 |
5 of 5 |
SLC25A1 |
Congenital Myasthenic |
AR |
90 |
23 of 25 |
SLC35A3 |
Arthrogryposis, Mental |
AR |
99.94 |
5 of 5 |
SLC5A7 |
Congenital Myasthenic |
AD,AR |
99.92 |
21 of 21 |
SLC6A9 |
Glycine Encephalopathy |
AR |
99.99 |
5 of 5 |
SLC9A6 |
Christianson |
X,XD,G |
98.87 |
NA of NA |
SMN1 |
Spinal Muscular |
AR |
5.2 |
17 of 91 |
SMN2 |
Spinal Muscular |
AR |
7.6 |
0 of 3 |
SNAP25 |
Congenital Myasthenic |
AD |
100 |
6 of 6 |
SOX10 |
Peripheral Demyelinating |
AD |
99.74 |
139 of 147 |
STAC3 |
Native American |
AR |
99.98 |
5 of 5 |
STAT3 |
Multisystem Autoimmune |
AD |
100 |
171 of 171 |
STIM1 |
Immune Dysfunction |
AD,AR |
100 |
28 of 28 |
SYNE1 |
Arthrogryposis Multiplex |
AD,AR |
99.99 |
193 of 193 |
SYT2 |
Congenital Myasthenic |
AD |
99.98 |
4 of 4 |
TBCD |
Progressive Encephalopathy, |
AR |
94.89 |
28 of 28 |
TGFB3 |
Loeys-Dietz Syndrome, |
AD |
100 |
34 of 35 |
TK2 |
External Ophthalmoplegia |
AR |
97.08 |
64 of 65 |
TNNI2 |
Distal Arthrogryposis |
AD |
100 |
11 of 11 |
TNNT1 |
Nemaline |
AR |
89.94 |
7 of 8 |
TNNT3 |
Distal Arthrogryposis |
AD |
99.98 |
5 of 5 |
TPM2 |
Distal Arthrogryposis, |
AD,AR |
100 |
41 of 41 |
TPM3 |
Congenital Myopathy |
AD,AR |
100 |
27 of 27 |
TRIP4 |
Congenital Muscular |
AR |
99.92 |
3 of 3 |
TRPV4 |
Brachyrachia, Familial |
AD |
100 |
88 of 88 |
TSEN2 |
Pontocerebellar |
AR |
95.47 |
4 of 5 |
TSEN54 |
Fatal Infantile |
AR |
96.94 |
20 of 22 |
UBA1 |
Infantile-Onset X- |
X,XR,G |
99.58 |
NA of NA |
VAMP1 |
Spastic Ataxia, |
AD,AR |
99.51 |
8 of 8 |
VIPAS39 |
Arthrogryposis, |
AR |
100 |
15 of 15 |
VPS33B |
Arthrogryposis, |
AR |
100 |
62 of 62 |
VRK1 |
Pontocerebellar |
AR |
99.64 |
15 of 15 |
YY1 |
Gabriele-de Vries |
AD |
99.89 |
13 of 13 |
ZBTB42 |
Lethal Congenital |
AR |
99.81 |
1 of 1 |
ZC4H2 |
Wieacker-Wolff |
X,XR,XD,G |
99.69 |
NA of NA |
ZFP57 |
Transient Neonatal |
AD |
100 |
15 of 15 |
ZMPSTE24 |
Mandibuloacral |
AR |
100 |
35 of 36 |
ZNF335 |
Primary Autosomal |
AR |
99.83 |
20 of 20 |
ZNHIT3 |
Peho |
AR |
73.96 |
1 of 1 |
* Herencia: AD: Autosómico Dominante; AR: autosómico recesivo; X: ligado a X; XLR: recesivo vinculado a X; Mi: mitocondrial; Mu: multifactorial; G: herencia gonosomal; D: herencia digénica
** HGMD: número de mutaciones clínicamente relevantes según HGMD
Referencias
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Bamshad, M., Van Heest, A. E., & Pleasure, D. (2009). Arthrogryposis: A review and update. Journal of Bone and Joint Surgery, 91(Supplement_4), 40-46. doi:10.2106/jbjs.i.00281
Ravenscroft, G., Clayton, J. S., Faiz, F., Sivadorai, P., Milnes, D., Cincotta, R., Moon, P., Kamien, B., Edwards, M., Delatycki, M., Lamont, P. J., Chan, S. H., Colley, A., Ma, A., Collins, F., Hennington, L., Zhao, T., McGillivray, G., Ghedia, S., Chao, K., … Davis, M. R. (2020). Neurogenetic fetal akinesia and arthrogryposis: genetics, expanding genotype-phenotypes and functional genomics. Journal of medical genetics, jmedgenet-2020-106901. Advance online publication. https://doi.org/10.1136/jmedgenet-2020-106901
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Finsterer J. (2019). Congenital myasthenic syndromes. Orphanet journal of rare diseases, 14(1), 57. https://doi.org/10.1186/s13023-019-1025-5
Engel A. G. (2018). Genetic basis and phenotypic features of congenital myasthenic syndromes. Handbook of clinical neurology, 148, 565–589. https://doi.org/10.1016/B978-0-444-64076-5.00037-5
Engel A. G. (2018). Congenital Myasthenic Syndromes in 2018. Current neurology and neuroscience reports, 18(8), 46. https://doi.org/10.1007/s11910-018-0852-4
Abicht, A., Müller, J., S, & Lochmüller, H. (2003). Congenital Myasthenic Syndromes. In M. P. Adam (Eds.) et. al., GeneReviews®. University of Washington, Seattle.
Hall, J. G. (2014). Arthrogryposis (multiple congenital contractures): Diagnostic approach to etiology, classification, genetics, and general principles. European Journal of Medical Genetics, 57(8), 464-472. doi:10.1016/j.ejmg.2014.03.008