DOCSLIB.ORG

WES Gene Package Multiple Congenital Anomalie.Xlsx

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
WES Gene Package Multiple Congenital Anomalie.Xlsx Whole Exome Sequencing Gene package Multiple congenital anomalie, version 7.1, 25‐7‐2019 Technical information DNA was enriched using Agilent SureSelect Clinical Research Exome V2 capture and paired‐end sequenced on the Illumina platform (outsourced). The aim is to obtain 8.1 Giga base pairs per exome with a mapped fraction of 0.99. The average coverage of the exome is ~50x. Duplicate reads are excluded. Data are demultiplexed with bcl2fastq Conversion Software from Illumina. Reads are mapped to the genome using the BWA‐MEM algorithm (reference: http://bio‐bwa.sourceforge.net/). Variant detection is performed by the Genome Analysis Toolkit HaplotypeCaller (reference: http://www.broadinstitute.org/gatk/). The detected variants are filtered and annotated with Cartagenia software and classified with Alamut Visual. It is not excluded that pathogenic mutations are being missed using this technology. At this moment, there is not enough information about the sensitivity of this technique with respect to the detection of deletions and duplications of more than 5 nucleotides and of somatic mosaic mutations (all types of sequence changes). HGNC approved Phenotype description including OMIM phenotype ID(s) OMIM median depth % covered % covered % covered gene symbol gene ID >10x >20x >30x A4GALT [Blood group, P1Pk system, P(2) phenotype], 111400[Blood group, P1Pk system, p phenotype], 111400NOR po 607922 141 100 100 99 AAAS Achalasia‐addisonianism‐alacrimia syndrome, 231550 605378 88 100 100 100 AAGAB Keratoderma, palmoplantar, punctate type IA, 148600 614888 51 100 100 89 AARS Charcot‐Marie‐Tooth disease, axonal, type 2N, 613287 601065 78 100 99 93 Epileptic encephalopathy, early infantile, 29, 616339 AARS2 Combined oxidative phosphorylation deficiency 8, 614096 612035 117 100 100 100 Leukoencephalopathy, progressive, with ovarian failure, 615889 AASS Hyperlysinemia, 238700 605113 56 100 96 86 Saccharopinuria, 268700 ABAT GABA‐transaminase deficiency, 613163 137150 95 100 99 94 ABCA1 {Coronary artery disease in familial hypercholesterolemia, protection against}, 143890 600046 81 100 99 94 HDL deficiency, type 2, 604091 Tangier disease, 205400 ABCA12 Ichthyosis, congenital, autosomal recessive 4A, 601277 607800 58 100 99 90 Ichthyosis, congenital, autosomal recessive 4B (harlequin), 242500 ABCA3 Surfactant metabolism dysfunction, pulmonary, 3, 610921 601615 104 100 100 97 Whole exome sequencing Gene package Multiple congenital anomalie version 7.1, 25‐7‐2019 HGNC approved Phenotype description including OMIM phenotype ID(s) OMIM median depth % covered % covered % covered gene symbol gene ID >10x >20x >30x ABCA4 Cone‐rod dystrophy 3, 604116 601691 85 100 99 95 Fundus flavimaculatus, 248200 {Macular degeneration, age‐related, 2}, 153800 Retinal dystrophy, early‐onset severe, 248200 Retinitis pigmentosa 19, 601718 Stargardt disease 1, 248200 ABCB11 Cholestasis, benign recurrent intrahepatic, 2, 605479 603201 56 100 99 90 Cholestasis, progressive familial intrahepatic 2, 601847 ABCB4 Cholestasis, intrahepatic, of pregnancy, 3, 614972 171060 57 100 98 85 Cholestasis, progressive familial intrahepatic 3, 602347 Gallbladder disease 1, 600803 ABCB6 [Blood group, Langereis system], 111600 605452 96 100 100 98 Dyschromatosis universalis hereditaria 3, 615402 Microphthalmia, isolated, with coloboma 7, 614497 Pseudohyperkalemia, familial, 2, due to red cell leak, 609153 ABCB7 Anemia, sideroblastic, with ataxia, 301310 300135 53 100 98 81 ABCC2 Dubin‐Johnson syndrome, 237500 601107 64 100 99 91 ABCC6 Arterial calcification, generalized, of infancy, 2, 614473 603234 124 100 100 99 Pseudoxanthoma elasticum, 264800 Pseudoxanthoma elasticum, forme fruste, 177850 ABCC8 Diabetes mellitus, noninsulin‐dependent, 125853 600509 99 100 100 98 Diabetes mellitus, permanent neonatal, 606176 Diabetes mellitus, transient neonatal 2, 610374 Hyperinsulinemic hypoglycemia, familial, 1, 256450 Hypoglycemia of infancy, leucine‐sensitive, 240800 ABCC9 Atrial fibrillation, familial, 12, 614050 601439 55 100 98 90 Cardiomyopathy, dilated, 1O, 608569 Hypertrichotic osteochondrodysplasia, 239850 ABCD1 Adrenoleukodystrophy, 300100 300371 75 85 76 72 Adrenomyeloneuropathy, adult, 300100 ABCD4 Methylmalonic aciduria and homocystinuria, cblJ type, 614857 603214 98 100 100 98 ABCG5 Sitosterolemia, 210250 605459 70 100 100 98 ABCG8 {Gallbladder disease 4}, 611465 605460 138 100 97 95 Sitosterolemia, 210250 ABHD12 Polyneuropathy, hearing loss, ataxia, retinitis pigmentosa, and cataract, 612674 613599 57 100 100 91 ABHD5 Chanarin‐Dorfman syndrome, 275630 604780 62 100 100 95 ABL1 Congenital heart defects and skeletal malformations syndrome, 617602 189980 129 100 100 99 Leukemia, Philadelphia chromosome‐positive, resistant to imatinib Whole exome sequencing Gene package Multiple congenital anomalie version 7.1, 25‐7‐2019 HGNC approved Phenotype description including OMIM phenotype ID(s) OMIM median depth % covered % covered % covered gene symbol gene ID >10x >20x >30x ACAD8 Isobutyryl‐CoA dehydrogenase deficiency, 611283 604773 163 100 100 100 ACAD9 Mitochondrial complex I deficiency due to ACAD9 deficiency, 611126 611103 88 100 100 99 ACADM Acyl‐CoA dehydrogenase, medium chain, deficiency of, 201450 607008 58 100 99 90 ACADS Acyl‐CoA dehydrogenase, short‐chain, deficiency of, 201470 606885 118 100 100 100 ACADSB 2‐methylbutyrylglycinuria, 610006 600301 59 100 99 86 ACADVL VLCAD deficiency, 201475 609575 109 100 100 97 ACAN Short stature and advanced bone age, with or without early‐onset osteoarthritis and/or osteochondritis 155760 221 100 100 98 dissecans, 165800 ?Spondyloepimetaphyseal dysplasia, aggrecan type, 612813 ?Spondyloepiphyseal dysplasia, Kimberley type, 608361 ACAT1 Alpha‐methylacetoacetic aciduria, 203750 607809 62 100 98 89 ACE [Angiotensin I‐converting enzyme, benign serum increase] 106180 99 100 100 99 {Microvascular complications of diabetes 3}, 612624 {Myocardial infarction, susceptibility to} Renal tubular dysgenesis, 267430 {SARS, progression of} {Stroke, hemorrhagic}, 614519 ACO2 Infantile cerebellar‐retinal degeneration, 614559 100850 138 100 97 94 ?Optic atrophy 9, 616289 ACOX1 Peroxisomal acyl‐CoA oxidase deficiency, 264470 609751 95 100 100 98 ACP5 Spondyloenchondrodysplasia with immune dysregulation, 607944 171640 133 100 100 100 ACSF3 Combined malonic and methylmalonic aciduria, 614265 614245 144 100 100 99 ACSL4 Mental retardation, X‐linked 63, 300387 300157 49 100 98 83 ACSL6 Myelodysplastic syndrome 604443 74 100 100 95 Myelogenous leukemia, acute ACTA1 Myopathy, actin, congenital, with cores, 161800 102610 126 100 100 100 Myopathy, actin, congenital, with excess of thin myofilaments, 161800 Myopathy, congenital, with fiber‐type disproportion 1, 255310 ?Myopathy, scapulohumeroperoneal, 616852 Nemaline myopathy 3, autosomal dominant or recessive, 161800 ACTA2 Aortic aneurysm, familial thoracic 6, 611788 102620 163 100 100 100 Moyamoya disease 5, 614042 Multisystemic smooth muscle dysfunction syndrome, 613834 ACTB Baraitser‐Winter syndrome 1, 243310 102630 208 100 100 100 ?Dystonia, juvenile‐onset, 607371 Whole exome sequencing Gene package Multiple congenital anomalie version 7.1, 25‐7‐2019 HGNC approved Phenotype description including OMIM phenotype ID(s) OMIM median depth % covered % covered % covered gene symbol gene ID >10x >20x >30x ACTC1 Atrial septal defect 5, 612794 102540 180 100 100 100 Cardiomyopathy, dilated, 1R, 613424 Cardiomyopathy, hypertrophic, 11, 612098 Left ventricular noncompaction 4, 613424 ACTG1 Baraitser‐Winter syndrome 2, 614583 102560 174 100 100 100 Deafness, autosomal dominant 20/26, 604717 ACTN1 Bleeding disorder, platelet‐type, 15, 615193 102575 109 100 100 99 ACTN4 Glomerulosclerosis, focal segmental, 1, 603278 604638 112 100 100 99 ACVR1 Fibrodysplasia ossificans progressiva, 135100 102576 65 100 100 96 ACVR1B Pancreatic cancer, somatic 601300 68 100 100 96 ACVR2B Heterotaxy, visceral, 4, autosomal, 613751 602730 100 100 100 97 ACVRL1 Telangiectasia, hereditary hemorrhagic, type 2, 600376 601284 92 100 100 94 ACY1 Aminoacylase 1 deficiency, 609924 104620 99 100 100 100 ADA Adenosine deaminase deficiency, partial, 102700 608958 79 100 100 95 Severe combined immunodeficiency due to ADA deficiency, 102700 ADA2 Polyarteritis nodosa, childhood‐onset, 615688 607575 91 100 100 97 ?Sneddon syndrome, 182410 ADAM10 {Alzheimer disease 18, susceptibility to}, 615590 602192 49 100 98 82 Reticulate acropigmentation of Kitamura, 615537 ADAM17 ?Inflammatory skin and bowel disease, neonatal, 1, 614328 603639 58 100 98 89 ADAM9 Cone‐rod dystrophy 9, 612775 602713 50 100 98 84 ADAMTS10 Weill‐Marchesani syndrome 1, recessive, 277600 608990 103 100 100 99 ADAMTS13 Thrombotic thrombocytopenic purpura, familial, 274150 604134 92 98 97 95 ADAMTS17 Weill‐Marchesani 4 syndrome, recessive, 613195 607511 96 97 96 93 ADAMTS18 Microcornea, myopic chorioretinal atrophy, and telecanthus, 615458 607512 69 100 99 96 ADAMTS2 Ehlers‐Danlos syndrome, dermatosparaxis type, 225410 604539 108 100 100 99 ADAMTSL2 Geleophysic dysplasia 1, 231050 612277 89 100 100 97 ADAMTSL4 Ectopia lentis et pupillae, 225200 610113 110 100 100 99 Ectopia lentis, isolated, autosomal recessive, 225100 ADAR Aicardi‐Goutieres syndrome 6, 615010 146920 79 100 100 98 Dyschromatosis symmetrica hereditaria, 127400 ADAT3 Mental retardation, autosomal recessive 36, 615286 615302 126 100 100 100 ADCY5 Dyskinesia, familial, with facial myokymia, 606703 600293 109 99 96 93 ADGRG1 Polymicrogyria, bilateral frontoparietal, 606854 604110 112 100 100 99 Polymicrogyria, bilateral perisylvian,
Load more

Recommended publications
  • Ursodeoxycholic Acid in Advanced Polycystic Liver Disease: a Phase 2 Multicenter Randomized Controlled Trial
    Research Article Ursodeoxycholic acid in advanced polycystic liver disease: A phase 2 multicenter randomized controlled trial Hedwig M.A. D’Agnolo1, Wietske Kievit2, R. Bart Takkenberg3, Ioana Riaño4, Luis Bujanda4, ⇑ Myrte K. Neijenhuis1, Ellen J.L. Brunenberg5, Ulrich Beuers3, Jesus M. Banales4, Joost P.H. Drenth1, 1Department of Gastroenterology and Hepatology, Radboud University Medical Center, Nijmegen, The Netherlands; 2Radboud University Medical Center, Radboud Institute for Health Sciences, Nijmegen, The Netherlands; 3Department of Gastroenterology and Hepatology, Amsterdam Medical Center, Amsterdam, The Netherlands; 4Department of Liver and Gastrointestinal Diseases, Biodonostia Research Institute – Donostia University Hospital, University of the Basque Country (UPV/EHU), IKERBASQUE, CIBERehd, San Sebastián, Spain; 5Department of Radiation Oncology, Radboud University Medical Center, Nijmegen, The Netherlands Background & Aims: Ursodeoxycholic acid (UDCA) inhibits pro- (p = 0.493). LCV was not different after 24 weeks between con- liferation of polycystic human cholangiocytes in vitro and hepatic trols and UDCA treated patients (p = 0.848). However, UDCA cystogenesis in a rat model of polycystic liver disease (PLD) inhibited LCV growth in ADPKD patients compared to ADPKD in vivo. Our aim was to test whether UDCA may beneficially affect controls (p = 0.049). liver volume in patients with advanced PLD. Conclusions: UDCA administration for 24 weeks did not reduce Methods: We conducted an international, multicenter, random- TLV in advanced PLD, but UDCA reduced LCV growth in ADPKD ized controlled trial in symptomatic PLD patients from three ter- patients. Future studies might explore whether ADPKD and tiary referral centers. Patients with PLD and total liver volume ADPLD patients respond differently to UDCA treatment. (TLV) P2500 ml were randomly assigned to UDCA treatment Lay summary: Current therapies for polycystic liver disease are (15–20 mg/kg/day) for 24 weeks, or to no treatment.
    [Show full text]
  • Article Pansomatostatin Agonist Pasireotide Long-Acting Release
    CJASN ePress. Published on August 25, 2020 as doi: 10.2215/CJN.13661119 Article Pansomatostatin Agonist Pasireotide Long-Acting Release for Patients with Autosomal Dominant Polycystic Kidney or Liver Disease with Severe Liver Involvement A Randomized Clinical Trial 1Division of Nephrology and 1 1 2 1 1 1 Marie C. Hogan , Julie A. Chamberlin, Lisa E. Vaughan, Angela L. Waits, Carly Banks, Kathleen Leistikow, Hypertension, Mayo Troy Oftsie,1 Chuck Madsen,1 Marie Edwards,1,3 James Glockner,4 Walter K. Kremers,2 Peter C. Harris,1 Clinic College of Nicholas F. LaRusso,5 Vicente E. Torres ,1 and Tatyana V. Masyuk5 Medicine, Rochester, Minnesota 2Division of Abstract Biomedical Statistics Background and objectives We assessed safety and efficacy of another somatostatin receptor analog, pasireotide and Informatics, Mayo long-acting release, in severe polycystic liver disease and autosomal dominant polycystic kidney disease. Clinic College of Pasireotide long-acting release, with its broader binding profile and higher affinity to known somatostatin Medicine, Rochester, fi Minnesota receptors, has potential for greater ef cacy. 3Biomedical Imaging Research Core Facility, Design, setting, participants, & measurements Individuals with severe polycystic liver disease were assigned in a PKD Translational 2:1 ratio in a 1-year, double-blind, randomized trial to receive pasireotide long-acting release or placebo. Primary Research Center, Mayo Clinic College of outcome was change in total liver volume; secondary outcomes were change in total kidney volume, eGFR, and Medicine, Rochester, quality of life. Minnesota 4Department of Results Of 48 subjects randomized, 41 completed total liver volume measurements (n529 pasireotide long-acting Radiology, Mayo release and n512 placebo).
    [Show full text]
  • Instelling Naam Expertise Centrum Cluster Van / Specifieke Aandoening Toelichting Erkenning
    Instelling Naam Expertise Centrum Cluster van / Specifieke aandoening Toelichting erkenning AMC Amsterdam Lysosome Center Gaucher disease ("Sphinx") Fabry disease Niemann-Pick disease type A Niemann-Pick disease type B Niemann-Pick disease type C Mucopolysaccharidosis type 1 Mucopolysaccharidosis type 3 Mucopolysaccharidosis type 4 Lysosomal Disease Cholesteryl ester storage disease AMC Dutch Centre for Peroxisomal Peroxisome biogenesis disorder-Zellweger syndrome spectrum disorders Disorder of peroxisomal alpha- - beta- and omega-oxidation Rhizomelic chondrodysplasia punctata Non-syndromic pontocerebellar hypoplasia AMC Expertise center Vascular medicine Homozygous familial hypercholesterolemia Familial lipoprotein lipase deficiency Tangier disease AMC Centre for Genetic Metabolic Disorder of galactose metabolism Diseases Amsterdam Disorder of phenylalanine metabolism AMC Centre for Neuromuscular Diseases Neuromuscular disease Motor neuron disease; amyotrophic lateral sclerosis, primary sclerosis and progressive muscular atrophy Idiopathic inflammatory myopathy, incl dermatomyositis, polymyositis, necrotizing autoimmune myopathy and inclusion body myositis Poliomyelitis Hereditary motor and sensory neuropathy Chronic inflammatory demyelinating polyneuropathy, incl. Guillain_Barre syndrome, CIDP, MMN AMC Centre for rare thyroid diseases Congenital hypothyroidism AMC Centre for gastroenteropancreatic Gastroenteropancreatic endocrine tumor neuroendocrine tumors AMC Centre for rare hypothalamic and Rare hypothalamic or pituitary disease pituitary
    [Show full text]
  • International Consensus Statement on the Diagnosis and Management of Autosomal Dominant Polycystic Kidney Disease in Children and Young People
    CONSENSUS STATEMENT EVIDENCE-BASED GUIDELINE International consensus statement on the diagnosis and management of autosomal dominant polycystic kidney disease in children and young people Charlotte Gimpel 1*, Carsten Bergmann2,3, Detlef Bockenhauer 4, Luc Breysem5, Melissa A. Cadnapaphornchai6, Metin Cetiner7, Jan Dudley8, Francesco Emma9, Martin Konrad10, Tess Harris11,12, Peter C. Harris13, Jens König10, Max C. Liebau 14, Matko Marlais4, Djalila Mekahli15,16, Alison M. Metcalfe17, Jun Oh18, Ronald D. Perrone19, Manish D. Sinha20, Andrea Titieni10, Roser Torra21, Stefanie Weber22, Paul J. D. Winyard4 and Franz Schaefer23 Abstract | These recommendations were systematically developed on behalf of the Network for Early Onset Cystic Kidney Disease (NEOCYST) by an international group of experts in autosomal dominant polycystic kidney disease (ADPKD) from paediatric and adult nephrology , human genetics, paediatric radiology and ethics specialties together with patient representatives. They have been endorsed by the International Pediatric Nephrology Association (IPNA) and the European Society of Paediatric Nephrology (ESPN). For asymptomatic minors at risk of ADPKD, ongoing surveillance (repeated screening for treatable disease manifestations without diagnostic testing) or immediate diagnostic screening are equally valid clinical approaches. Ultrasonography is the current radiological method of choice for screening. Sonographic detection of one or more cysts in an at- risk child is highly suggestive of ADPKD, but a negative scan cannot rule out ADPKD in childhood. Genetic testing is recommended for infants with very-early-onset symptomatic disease and for children with a negative family history and progressive disease. Children with a positive family history and either confirmed or unknown disease status should be monitored for hypertension (preferably by ambulatory blood pressure monitoring) and albuminuria.
    [Show full text]
  • Statistical Analysis Plan
    Cover Page for Statistical Analysis Plan Sponsor name: Novo Nordisk A/S NCT number NCT03061214 Sponsor trial ID: NN9535-4114 Official title of study: SUSTAINTM CHINA - Efficacy and safety of semaglutide once-weekly versus sitagliptin once-daily as add-on to metformin in subjects with type 2 diabetes Document date: 22 August 2019 Semaglutide s.c (Ozempic®) Date: 22 August 2019 Novo Nordisk Trial ID: NN9535-4114 Version: 1.0 CONFIDENTIAL Clinical Trial Report Status: Final Appendix 16.1.9 16.1.9 Documentation of statistical methods List of contents Statistical analysis plan...................................................................................................................... /LQN Statistical documentation................................................................................................................... /LQN Redacted VWDWLVWLFDODQDO\VLVSODQ Includes redaction of personal identifiable information only. Statistical Analysis Plan Date: 28 May 2019 Novo Nordisk Trial ID: NN9535-4114 Version: 1.0 CONFIDENTIAL UTN:U1111-1149-0432 Status: Final EudraCT No.:NA Page: 1 of 30 Statistical Analysis Plan Trial ID: NN9535-4114 Efficacy and safety of semaglutide once-weekly versus sitagliptin once-daily as add-on to metformin in subjects with type 2 diabetes Author Biostatistics Semaglutide s.c. This confidential document is the property of Novo Nordisk. No unpublished information contained herein may be disclosed without prior written approval from Novo Nordisk. Access to this document must be restricted to relevant parties.This
    [Show full text]
  • Successful Aspiration and Ethanol Sclerosis of a Large, Symptomatic, Simple Liver Cyst: Case Presentation and Review of the Literature
    PO Box 2345, Beijing 100023, China World J Gastroenterol 2006 May 14; 12(18): 2949-2954 www.wjgnet.com World Journal of Gastroenterology ISSN 1007-9327 [email protected] © 2006 The WJG Press. All rights reserved. CASE REPORT Successful aspiration and ethanol sclerosis of a large, symptomatic, simple liver cyst: Case presentation and review of the literature Wojciech C Blonski, Mical S Campbell, Thomas Faust, David C Metz Wojciech C Blonski, Division of Gastroenterology, University of literature. World J Gastroenterol 2006; 12(18): 2949-2954 Pennsylvania, Philadelphia, PA, United States and Department of Gastroenterology and Hepatology, Wroclaw Medical University, http://www.wjgnet.com/1007-9327/12/2949.asp Poland Mical S Campbell, Thomas Faust, David C Metz, Division of Gastroenterology, University of Pennsylvania, Philadelphia, PA, United States Correspondence to: Dr. David C Metz, 3400 Spruce Street, 3 INTRODUCTION Ravdin Building, Gastroenterology Division, University of Penn- Liver cysts are classified as true or false, depending on sylvania Health System, Philadelphia, PA 19104, [1] United States. [email protected] the presence of an epithelial lining . True cysts include Telephone: +1-215-6623541 Fax: +1-215-3495915 congenital cysts (simple cysts and polycystic liver disease), Received: 2005-03-13 Accepted: 2005-07-20 parasitic (hydatid) cysts caused by Echinococcus granulosis and multilocularis tapeworms, neoplastic cysts (including cystadenoma, cystadenocarcinoma, cystic sarcoma, squamous cell carcinoma, and metastatic ovarian, Abstract pancreatic, colon, renal and neuroendocrine cancers), and biliary duct-related cysts (Caroli’s disease, bile duct Simple liver cysts are congenital with a prevalence of [1] 2.5%-4.25%. Imaging, whether by US, CT or MRI, duplication, and peribiliary cysts) .
    [Show full text]
  • Whole Exome Sequencing Gene Package Skeletal Dysplasia, Version 2.1, 31-1-2020
    Whole Exome Sequencing Gene package Skeletal Dysplasia, Version 2.1, 31-1-2020 Technical information DNA was enriched using Agilent SureSelect DNA + SureSelect OneSeq 300kb CNV Backbone + Human All Exon V7 capture and paired-end sequenced on the Illumina platform (outsourced). The aim is to obtain 10 Giga base pairs per exome with a mapped fraction of 0.99. The average coverage of the exome is ~50x. Duplicate and non-unique reads are excluded. Data are demultiplexed with bcl2fastq Conversion Software from Illumina. Reads are mapped to the genome using the BWA-MEM algorithm (reference: http://bio-bwa.sourceforge.net/). Variant detection is performed by the Genome Analysis Toolkit HaplotypeCaller (reference: http://www.broadinstitute.org/gatk/). The detected variants are filtered and annotated with Cartagenia software and classified with Alamut Visual. It is not excluded that pathogenic mutations are being missed using this technology. At this moment, there is not enough information about the sensitivity of this technique with respect to the detection of deletions and duplications of more than 5 nucleotides and of somatic mosaic mutations (all types of sequence changes). HGNC approved Phenotype description including OMIM phenotype ID(s) OMIM median depth % covered % covered % covered gene symbol gene ID >10x >20x >30x ABCC9 Atrial fibrillation, familial, 12, 614050 601439 65 100 100 95 Cardiomyopathy, dilated, 1O, 608569 Hypertrichotic osteochondrodysplasia, 239850 ACAN Short stature and advanced bone age, with or without early-onset osteoarthritis
    [Show full text]
  • Current Treatment Status of Polycystic Liver Disease in Japan
    bs_bs_banner Hepatology Research 2014; 44: 1110–1118 doi: 10.1111/hepr.12286 Original Article Current treatment status of polycystic liver disease in Japan Koichi Ogawa,1 Kiyoshi Fukunaga,1 Tomoyo Takeuchi,2 Naoki Kawagishi,3 Yoshifumi Ubara,4 Masatoshi Kudo5 and Nobuhiro Ohkohchi1 1Department of Surgery, Doctoral Program in Clinical Science, Graduate School of Comprehensive Human Sciences, 2Institute of Clinical Medicine, Graduate School of Comprehensive Human Sciences, University of Tsukuba, Ibaraki, 3Division of Organ Transplantation, Tohoku University Hospital, Miyagi, 4Nephrology Center, Toranomon Hospital, Tokyo, and 5Department of Gastroenterology and Hepatology, Kinki University School of Medicine, Osaka, Japan Aim: Polycystic liver disease (PLD) is a genetic disorder char- (mild form) according to Gigot’s classification, the therapeutic acterized by the progressive development of multiple liver effects of AS, FN and LR were similar. For type II (moderate cysts. No standardized criteria for the selection of treatment form), LT demonstrated the best therapeutic effects, followed exist because PLD is a rare condition and most patients are by LR and FN. For type III (severe form), the effects of LT were asymptomatic. We here aimed to clarify the status of treat- the best. The incidences of complications were 23.0% in AS, ment and to present a therapeutic strategy for PLD in Japan. 28.4% in FN, 31.8% in LR and 61.5% in LT. Methods: From 1 June 2011 to 20 December 2011, we Conclusion: Considering the therapeutic effects and compli- administered a questionnaire to 202 PLD patients from 86 cations, AS, LR and LT showed good results for type I, type II medical institutions nationwide.
    [Show full text]
  • Autosomal Dominant Polycystic Kidney Disease; ARPKD Ϭ Autosomal Recessive Polycystic Kidney Disease; RCAD Ϭ Renal Cysts and Diabetes Syndrome
    CME.Ong.qxd 5/21/09 4:55 PM Page 278 CME Renal medicine Clinical Medicine 2009, Vol 9, No 3: 278–83 Natural history deterioration in renal function and Autosomal dominant haematuria are present. Patients are usually asymptomatic until polycystic kidney the middle decades, but 2–5% present in childhood with significant morbidity. By Massive polycystic kidneys disease the age of 60, 50% of patients with and large renal cysts ADPKD will require renal replacement Abdominal discomfort or pain can be therapy. Poor prognostic indicators for caused by massive cysts. Renal cysts are Chern Li Chow, Specialist Registrar and renal survival include male sex, black not unique to ADPKD. Other potential Honorary Research Fellow in Nephrology; race, haematuria before age 30, multiple causes are given in Table 1. Albert CM Ong, Professor of Renal Medicine pregnancies, hypertension before age 35, Academic Unit of Nephrology, School of proteinuria, renal size and PKD1 muta- Medicine, University of Sheffield tion. ADPKD patients do not have a Cancer higher risk of mortality than other There is no evidence for an increased risk Autosomal dominant polycystic kidney patients with ESRF. The main cause of of renal cell carcinoma in the ADPKD disease (ADPKD) is an inherited disease mortality is cardiovascular disease (36% population, but haematuria and flank 2 with a prevalence of 1:400 to 1:1,000 live of cases). pain with anorexia and weight loss births.1 It is the most common genetic should prompt further investigation. cause of renal failure, accounting for Clinical features 10% of patients on dialysis. ADPKD is a Pain Liver cysts systemic disorder characterised by pro- gressive kidney enlargement, cyst for- • Renal: acute pain due to infection, Hepatic cysts are the most common mation in other organs (liver, pancreas) stones, intracystic haemorrhage and extrarenal manifestation, increasing and non-cystic complications (arterial urinary tract obstruction; chronic with older age (58% in the third decade aneurysm).
    [Show full text]
  • WES Gene Package Multiple Congenital Anomalie.Xlsx
    Whole Exome Sequencing Gene package Multiple congenital anomalie, version 7, 18‐2‐2019 Technical information DNA was enriched using Agilent SureSelect Clinical Research Exome V2 capture and paired‐end sequenced on the Illumina platform (outsourced). The aim is to obtain 8.1 Giga base pairs per exome with a mapped fraction of 0.99. The average coverage of the exome is ~50x. Duplicate reads are excluded. Data are demultiplexed with bcl2fastq Conversion Software from Illumina. Reads are mapped to the genome using the BWA‐MEM algorithm (reference: http://bio‐bwa.sourceforge.net/). Variant detection is performed by the Genome Analysis Toolkit HaplotypeCaller (reference: http://www.broadinstitute.org/gatk/). The detected variants are filtered and annotated with Cartagenia software and classified with Alamut Visual. It is not excluded that pathogenic mutations are being missed using this technology. At this moment, there is not enough information about the sensitivity of this technique with respect to the detection of deletions and duplications of more than 5 nucleotides and of somatic mosaic mutations (all types of sequence changes). HGNC approved Phenotype description including OMIM phenotype ID(s) OMIM median depth % covered % covered % covered gene symbol gene ID >10x >20x >30x A4GALT [Blood group, P1Pk system, P(2) phenotype], 111400[Blood group, P1Pk system, p phenotype], 111400NOR po 607922 141 100 100 99 AAAS Achalasia‐addisonianism‐alacrimia syndrome, 231550 605378 88 100 100 100 AAGAB Keratoderma, palmoplantar, punctate type IA, 148600
    [Show full text]
  • Clinical Characteristics of Individual Organ System Disease in Non-Motile Ciliopathies
    Translational Science of Rare Diseases 4 (2019) 1–23 1 DOI 10.3233/TRD-190033 IOS Press Clinical characteristics of individual organ system disease in non-motile ciliopathies Angela Grochowskya and Meral Gunay-Ayguna,b,∗ aMedical Genetics Branch, National Human Genome Research Institute, National Institutes of Health, Bethesda, MD, USA bDepartment of Pediatrics and The McKusick-Nathans Institute of Genetic Medicine, Johns Hopkins University School of Medicine, Baltimore, MD, USA Abstract. Non-motile ciliopathies (disorders of the primary cilia) include autosomal dominant and recessive polycystic kidney diseases, nephronophthisis, as well as multisystem disorders Joubert, Bardet-Biedl, Alstrom,¨ Meckel-Gruber, oral- facial-digital syndromes, and Jeune chondrodysplasia and other skeletal ciliopathies. Chronic progressive disease of the kidneys, liver, and retina are common features in non-motile ciliopathies. Some ciliopathies also manifest neurological, skeletal, olfactory and auditory defects. Obesity and type 2 diabetes mellitus are characteristic features of Bardet-Biedl and Alstrom¨ syndromes. Overlapping clinical features and molecular heterogeneity of these ciliopathies render their diagnoses challenging. In this review, we describe the clinical characteristics of individual organ disease for each ciliopathy and provide natural history data on kidney, liver, retinal disease progression and central nervous system function. 1. Introduction Ciliopathies are an expanding group of inherited disorders caused by defects in proteins required for normal structure and function of the cilia [1–4]. Cilia are essential components of almost all cells in the human body. Therefore, ciliary dysfunction can manifest in almost any tissue and result in a wide range of phenotypic consequences varying from single organ diseases to multisystem disorders. The cumulative prevalence of ciliopathies is approximately 1 in every 2000 individuals [1].
    [Show full text]
  • An Approach to Cystic Kidney Diseases: the Clinician's View
    REVIEWS An approach to cystic kidney diseases: the clinician’s view Christine E. Kurschat, Roman-Ulrich Müller, Mareike Franke, David Maintz, Bernhard Schermer and Thomas Benzing Abstract | Advances in molecular genetics have led to the identification of more than 70 different genes involved in the development of cystic kidney diseases. Most of these diseases are rare, and interpreting the resultant plethora of disease-causing mutations requires a methodical and meticulous approach to differential diagnosis. In this Review we discuss a clinical approach to the diagnosis of cystic kidney diseases in adults, for use by nephrologists. This approach is based upon a thorough clinical evaluation, which considers both kidney phenotype and extrarenal manifestations of the underlying disorder, in combination with genetic testing in selected patients. In our view, cystic kidney disease can (in the majority of patients) be reliably classified on the basis of clinical findings. We therefore propose that defining clinical situations to precipitate the initiation of genetic testing is mandatory and cost-effective. New techniques such as next-generation sequencing will facilitate the diagnosis of cystic kidney diseases in the future, increasing diagnostic safety in a subset of patients. In renal tumour syndromes, genetic testing is warranted. Kurschat, C. E. et al. Nat. Rev. Nephrol. advance online publication 30 September 2014; doi:10.1038/nrneph.2014.173 Introduction Advances in molecular genetics have encouraged disease syndromes vary with regard to their mode of inher- attempts to unify the diverse spectrum of cystic kidney itance, age of onset of disease, and severity of renal and diseases under the pathophysiological concept of the extra­renal phenotypes.
    [Show full text]