Tuesday, August 6, 2019
Fragile X Syndrome Symptoms and Investigation
Fragile X Syndrome Symptoms and Investigation Title Complications and investigations of Fragile X syndrome Introduction Fragile X syndrome is considered the most common heritable form of mental retardation, it affects approximately 1 in 4000 males and 1 in 8000 female it is an X linked disease caused by mutation in theâ⬠FMR1 gene ââ¬Å"This mutation in dynamic it varies in length and so in severity from generation to generation The syndrome is more severely affecting boys It is associated with by prominent or long ears This abnormal morphology suggests abnormal auditory function.. The mutational mechanism, combined with the location of this gene on the X chromosome, leads to remarkable inheritance patterns in which the relevant alleles are passed from intellectually normal men through their unaffected daughters and then to affected sons Aim of Work Study the complications and achieve accurate investigation of fragile X syndrome Methods Meta-analysis randomized controlled trials studies were revised of Fragile x analysis patients either complicated with hemiplegia or not , and Systematic review and several case control studies were revised about hearing assessment using auditory evoked potential or auditory stimuli on children with fragile X syndrome were identified based on systematic searches of 5 electronic databases including Pubmed database ,in addition to Searching on internet on site of national fragile x foundation and site â⬠European Journal of Human Geneticsâ⬠, which provide me with many information that helped me in proving the role of chromosome Karyotyping and comparative genomic hybridization (CGH) microarray in investigation of Fragile X syndrome Results According to Above Methods , Sample of Children with Fragile X syndrome showed that Seizures are reported to occur in 10 to 20 percent of cases with a full mutation FXS 1 and are typically of the complex partial type 4. About 25 ââ¬â 50 % suggested a high incidence of autistic behavior , most of them were in the mild to moderate autistic range while few suggested to have severe autism . Also, another screening studies were done and revealed that the sensitivity to develop autism in children with FXS is very high. in one cross sectional study, Participants (aged 10-23 years) included 17 males and females with FXS and 16 males and females serving as controls. Patients with FXS showed decreased functional connectivity in the salience, precuneus, left executive control, language, and visuospatial networks compared with controls. Decreased fALFF in the bilateral insular, precuneus, and anterior cingulate cortices also was found in patients with FXS compared with control participants, it is evident that FXS is a neurogenetic disorder characterized by a cognitive and behavioral phenotype resembling features of autism spectrum disorder. But no cases develop a more serious neurologic disorder such as hemiplegia as one of its complications In control studies which is done on sample of children with Fragile X syndrome after chromosome Karyotyping We found a break, or weakness, on the long arm of the X chromosome. it was helpful, it was not always accurate as, those with premutations did not have the typical ââ¬Å"Fragile Xâ⬠chromosome as seen under the microscope. Also, using comparative genomic hybridization (CGH) micro array is very usefulà as Comparative genomic hybridization (CGH) micro array is a genetic test to detect any small deletions and duplications of the subtelomers of chromosomes Several case control studies was performed using auditory evoked potential One of them was made on 10 girls with fragile X syndrome and another age matched typically developing controls aimed at performing an auditory temporal discrimination task in a 3T scanner proved that there is significantly great brain activation in the left lateralized network On the other hand a case control study was mad on 23 with FXS and 21 controls by using auditory evoked potential and it proved that AEP of fragile X syndrome patients is within the normal limits Conclusion From above studies methods and their results, it was found that there is many complications of fragile X syndrome as: Seizure, which is reported to occur in 10 to 20 percent of cases with a full mutation FXSà high percentage of Fragile X syndrome patients develop autism . There are also evidence of developing other developmental disorders But, no case has been reported to develop hemiplegia so, the fragile x patient is not prone to be hemiplegic. Above studies also showed the accurate investigations for FXS asà chromosome Karyotyping help in diagnosis of Fragile X syndrome I recommend it in this case to show the affected gene but , it was not always accurate hearing assessment is recommended to diagnose fragile X syndrome as most of these children have hearing difficulties Although the absence of these difficulties does not rule out the disease (CGH) micro array is recommend in to investigate case with fragile X chromosome.As it can detect specific abnormalities in a chromosome. References Scambler DJ, Hepburn SL, Hagerman RJ, Rogers SJ. A preliminary study of screening for risk of autism in children with fragile X syndrome: testing two risk cut-offs for the Checklist for Autism in Toddlers. J Intellect Disabil Res. 2007 Apr;51(Pt 4):269-76. PubMed PMID: 17326808. Petit E, Hà ©rault J, Raynaud M, Cherpi C, Perrot A, Barthà ©là ©my C, Lelord G, Mà ¼h JP. X chromosome and infantile autism. Biol Psychiatry. 1996 Sep 15;40(6):457-64. PubMed PMID: 8879465. Lee AD., Leow AD., Lu A., et al 3D Pattern of brain abnormalities in fragile X syndrome visualized using tensor-based morphometry. Neurolmage. 2007;34:924ââ¬â938. Haas BW., Barnea-Goraly N., Lightbody A., et al Early white-matter abnormalities of the ventral frontostriatal pathway in fragile X syndrome. Dev Med Child Neurol. 2009;51:593ââ¬â599. Ribacoba Montero R, Salas Puig J, Fernà ¡ndez Toral J, Fernà ¡ndez Martà nez JM, Moral Rato M. [Fragile X syndrome and epilepsy]. Neurologia [Internet]. 1995 Feb [cited 2013 Dec 1];10(2):70ââ¬â5. Musumeci SA, Hagerman RJ, Ferri R, Bosco P, Dalla Bernardina B, Tassinari CA, et al. Epilepsy and EEG findings in males with fragile X syndrome. Epilepsia [Internet]. 1999 Aug [cited 2013 Dec 1];40(8):1092ââ¬â9. Crawford DC, Acuna JM, Sherman SL: FMR1 and the fragile X syndrome: human genome epidemiology review. Genet Med 2001; 3: 359ââ¬â371. Hagerman RJ: Medical follow-up and pharmacotherapy; in Hagerman RJ, Hagerman PJ (eds):: Fragile X Syndrome: Diagnosis, Treatment and Research, 3rd edn. Baltimore: The Johns Hopkins University Press, 2002, pp 287ââ¬â338. Roberts J, Hennon EA, Anderson K, Roush J, Gravel J, Skinner M, et al. Auditory brainstem responses in young males with Fragile X syndrome. Journal of speech, language, and hearing research : JSLHR [Internet]. 2005 Apr [cited 2013 Dec 2];48(2):494ââ¬â500. Rueda J-R, Ballesteros J, Guillen V, Tejada M-I, Solà I. Folic acid for fragile X syndrome. The Cochrane database of systematic reviews [Internet]. 2011 Jan [cited 2013 Dec 3];(5):CD008476. Keywords :- FragileXsyndrome ââ¬â autism- epilepsy- CGH-chromosome karyotyping -auditory evoked potential -hemiplegia
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