Medicine:Sanfilippo syndrome
Sanfilippo Syndrome (MPS III) | |
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Other names | Mucopolysaccharidosis III; MPS III |
12-year-old girl with Sanfilippo syndrome type A | |
Pronunciation | |
Symptoms | Progressive physical disability; hyperactivity; dementia; loss of mobility |
Usual onset | Birth; symptoms usually become apparent between ages 2 and 6 |
Duration | Lifelong |
Types | Sanfilippo syndrome types A, B, C, and D |
Causes | Inherited enzyme deficiency |
Diagnostic method | MPS urine screen (typically the initial test), genetic testing, or blood enzyme assay[1] |
Differential diagnosis | Autism spectrum disorder[2] |
Prognosis | Lifespan is reduced; survival into adolescence or early adulthood |
Frequency | 1 in 70,000[3] |
Sanfilippo syndrome, also known as mucopolysaccharidosis type III (MPS III), is a rare autosomal recessive lysosomal storage disease that primarily affects the brain and spinal cord. It is caused by a buildup of large sugar molecules called glycosaminoglycans (GAGs, or mucopolysaccharides) in the body's lysosomes.
Affected children generally do not show any signs or symptoms at birth, although some early indicators can be respiratory issues at birth, large head size, and umbilical hernia.[4] In early childhood, they begin to exhibit signs of developmental disability and loss of previously learned skills. In later stages of the disorder, they may develop seizures and movement disorders. Patients with Sanfilippo syndrome usually live into adolescence or early adulthood.[5]
Signs and symptoms
The disease manifests in young children, with symptoms usually beginning to appear between two and six years of age.[6] Affected infants appear normal, although some mild facial dysmorphism may be noticeable; however, compared to all other MPS diseases, Sanfilippo syndrome produces the fewest physical anomalies. After an initial symptom-free interval, patients usually present with a slowing of development and/or behavioural problems, followed by a progressive intellectual decline, resulting in severe dementia and progressive motor disease.[7] Acquisition of speech is often slow and incomplete.[8]
The disease progresses to increasing behavioral disturbances, including temper tantrums, hyperactivity, destructiveness, aggressive behavior, pica, difficulties with toilet training, and sleep disturbances. Initially, as affected children retain normal muscle strength and mobility, unique behavioral disturbances may be difficult to manage. Irregular sleep patterns, in particular, present significant challenges to families and care providers.[citation needed]
In the final phase of the illness, children become increasingly immobile and unresponsive, often requiring a wheelchair or other form of supported transport, and may develop swallowing difficulties or seizures. Usually, the lifespan of an affected child does not extend beyond the late teens or into the early twenties.[9]
Individuals with MPS type III tend to have mild skeletal anomalies; osteonecrosis of the femoral head may be present in severe cases.[10] Optic nerve atrophy, deafness, and otitis can be seen in moderate to severe cases. Other characteristics include coarser facial features, thicker lips, synophrys, and stiff joints.[11]
It is difficult to clinically distinguish differences among the four types of Sanfilippo syndrome. However, type A is usually the most severe subtype, characterized by its early onset, rapid clinical progression (with severe symptoms), and short survival rate.[12] The median age of death for children afflicted with type A is 15.4 ± 4.1 years.[13]
It is important that simple and treatable conditions, such as ear infections or toothaches, not be overlooked due to behavioral challenges that may make physical exams difficult; additionally, children with MPS type III often have an increased tolerance to pain, leading to potentially minor conditions becoming worse with time. Bumps, bruises, or ear infections that would typically be painful for other children, and even adults, often go unnoticed in children with MPS type III. Some children with MPS type III may also have a blood-clotting problem during and after surgery.[6]
Genetics
Mutations in four different genes can lead to Sanfilippo syndrome. This disorder is inherited in an autosomal recessive pattern. People with two working copies of the gene are unaffected. People with one working copy are genetic carriers of Sanfilippo syndrome. They have no symptoms but may pass down the defective gene to their children. People with two defective copies will develop Sanfilippo syndrome.[14]
Sanfilippo syndrome type | Gene | Enzyme | Chromosomal region | Number of known mutations causing this type |
---|---|---|---|---|
Type A | SGSH | heparan N-sulfatase[14] | 17q25.3 | 137[citation needed] |
Type B | NAGLU | Alpha-N-acetylglucosaminidase[14] | 17q21.2 | 152[citation needed] |
Type C | HGSNAT | acetyl-CoA:alpha-glucosaminide N-acetyltransferase[14] | 8p11.21 | 64[citation needed] |
Type D | GNS | N-acetylglucosamine-6-sulfatase[14] | 12q14.3 | 23[citation needed] |
Mechanism
Glycosaminoglycans (GAGs) are chains of sugar molecules. They are found in the extracellular matrix and the cell membrane, or stored in the secretory granules. GAGs are stored in the cell lysosome, and are degraded by enzymes such as glycosidases, sulfatases, and acetyltransferases. Deficiency in these enzymes lead to the four subtypes of MPS III.[12]
Diagnosis
Sanfilippo syndrome types A, B, C, and D are considered to be clinically indistinguishable, although mutations in different genes are responsible for each disease. The following discussion is therefore applicable to all four conditions.[citation needed]
A urinalysis can show elevated levels of heparan sulfate in the urine.[14] All four types of Sanfilippo syndrome show increased levels of GAGs in the urine; however, this is less true of Sanfilippo syndrome than other MPS disorders. Additionally, urinary GAG levels are higher in infants and toddlers than in older children. In order to avoid a false negative urine test due to dilution, it is important that a urine sample be taken first thing in the morning.[citation needed]
The diagnosis may be confirmed by enzyme assay of skin fibroblasts and white blood cells. The enzyme assay is considered to be the most credible diagnostic tool because it detects whether or not the enzymes that are normally present in the cellular pathway that is responsible for breaking down heparan sulfate are present or not, thereby providing a definitive answer. This test is also ideal for younger patients in which collecting a viable urine sample is difficult or impossible. Another diagnostic tool can be gene sequencing. However, if the genetic mutation they carry has never been seen or recorded, the patient would receive a false negative.[citation needed]
Prenatal diagnosis is possible by chorionic villus sampling or amniocentesis.[15]
Treatments
Treatment remains largely supportive. The behavioral disturbances of MPS-III respond poorly to medication. If an early diagnosis is made, bone marrow replacement may be beneficial. Although the missing enzyme can be manufactured and given intravenously, it cannot penetrate the blood–brain barrier and therefore cannot treat the neurological manifestations of the disease. Along with many other lysosomal storage diseases, MPS-III exists as a model of a monogenetic disease involving the central nervous system.[citation needed]
Several promising therapies are in development. Allievex was conducting a phase II/III clinical trial on Enzyme Replacement Therapy for MPSIIIB (former Biomarin clinical trail),[16][17] but negotiations to buy Allievex failed in December 2023, and the company abruptly terminated trials that had been reported to greatly improve child patients' condition as it could not raise enough money to support a new trial. This has been attributed largely to the economic difficulties in producing drugs for rare diseases, estimated to cost about five times more than treatments for common conditions.[18]
Ultragenyx (former Abeona clinical trial) and Lysogene of a gene therapy-based treatment for MPSIIIA.[19][20] Other potential therapies include chemical modification of deficient enzymes to allow them to penetrate the blood–brain barrier, stabilisation of abnormal but active enzyme to prevent its degradation, and implantation of stem cells strongly expressing the missing enzyme. For any future treatment to be successful, it must be administered as early as possible. Currently[when?] MPS-III is mainly diagnosed clinically, by which stage it is probably too late for any treatment to be very effective. Neonatal screening programs would provide the earliest possible diagnosis.[citation needed] The flavonoid genistein decreases the accumulation of GAGs.[21] In vitro, animal studies and clinical experiments suggest that the symptoms of the disease may be alleviated by an adequate dose of genistein.[22] Despite its reported beneficial properties, genistein also has toxic side effects.[23]
Several support and research groups have been established to speed the development of new treatments for Sanfilippo syndrome.[24][25][26][27] [28][excessive citations]
Participants in the first-ever "Caregiver Preference Study for Sanfilippo Syndrome" advocated for clinical trials that shift focus from primary cognitive outcomes to other multisystem endpoints, and perceptions of non-curative therapies revealed a preference for treatment options that stop or slow the disorder progression to maintain the child’s current function to ensure quality of life; thus, parents express high risk tolerance and a desire for broader inclusion criteria for trials.[29]
Prognosis
According to a study of patients with Sanfilippo syndrome, the median life expectancy varies depending on the subtype. In Sanfilippo syndrome type A, the mean age at death (± standard deviation) was 15.22 ± 4.22 years. For type B, it was 18.91 ± 7.33 years, and for type C it was 23.43 ± 9.47 years. The mean life expectancy for type A has increased since the 1970s.[30]
Epidemiology
Incidence of Sanfilippo syndrome varies geographically, with approximately 1 case per 280,000 live births in Northern Ireland,[31] 1 per 66,000 in Australia,[32] and 1 per 50,000 in the Netherlands.[33]
The Australian study estimated the following incidence for each subtype of Sanfilippo syndrome:
Sanfilippo syndrome type | Approximate incidence | Percentage of cases | Age of onset |
---|---|---|---|
A | 1 in 100,000[32] | 60% | 1.5–4 |
B | 1 in 200,000[32] | 30% | 1–4 |
C | 1 in 1,500,000[32] | 4% | 3–7 |
D | 1 in 1,000,000[32] | 6% | 2–6 |
Clinical care guidelines
The first-ever global consensus clinical care guidelines for Sanfilippo syndrome were published in Orphanet Journal of Rare Diseases[34] in late 2022. It represents a consensus set of basic clinical care guidelines that are accessible to clinicians and families globally. The guidelines consist of evidence-based, expert-led recommendations for how to approach Sanfilippo syndrome-specific care management and monitoring of disease-related changes. These clinical care guidelines are intended for use by anyone providing medical care, rehabilitative care, or support services for individuals with Sanfilippo syndrome. Additionally, the guidelines are a practical resource for families to be well-informed advocates and for them to share with their local care team, who may not have previous experience with this rare disease.
History
The condition is named after Sylvester Sanfilippo, the pediatrician who first described the disease in 1963.[6][15][35]
Caregiver impact
Caregivers for children with Sanfilippo syndrome face a unique set of challenges because of the disease's complex nature. There is little understanding among clinicians of the family experience of caring for patients with Sanfilippo and how a caregiver's experiences change and evolve as patients age. The burden and impact on caregivers' quality of life is poorly defined and best-practice guidance for clinicians is lacking.[36]
A best-practice guidance to help clinicians understand the challenges caregivers face was published July 2019 in the Orphanet Journal of Rare Diseases by a group of international clinical advisors with expertise in the care of pediatric patients with Sanfilippo, lysosomal storage disorders, and life as a caregiver to a child with Sanfilippo.[36]
The group reviewed key aspects of caregiver burden associated with Sanfilippo B by identifying and quantifying the nature and impact of the disease on patients and caregivers. Recommendations were based on findings from qualitative and quantitative research.[36]
The article's authors reported, "Providing care for patients with Sanfilippo B impinges on all aspects of family life, evolving as the patient ages and the disease progresses. Important factors contributing toward caregiver burden include sleep disturbances, impulsive and hyperactive behavior, and communication difficulties ... Caregiver burden remained high throughout the life of the patient and, coupled with the physical burden of daily care, had a cumulative impact that generated significant psychological stress."[36]
Additionally, the authors call for changing the narrative associated with Sanfilippo: "The panel agreed that the perceived aggressive behavior of the child may be better described as 'physical impulsiveness' and is often misunderstood by the general public. Importantly, the lack of intentionality of the child’s behavior is recognized and shared by parents and panel members ... Parents may seek to protect their child from public scrutiny and avoid situations that may engender criticism of their parenting skills."[36]
Society and culture
The community of Sanfilippo families, foundations, scientists and researchers, and industry partners and collaborators around the world have dedicated November 16 as World Sanfilippo Awareness Day.[37][38]
World Sanfilippo Awareness Day is about spreading awareness and sparking conversations globally about Sanfilippo syndrome. This day of awareness is in honor of the children around the world living with Sanfilippo syndrome today, and those who have died. It also honors the families of the children with Sanfilippo syndrome. November 16, 2019, was the first year observing World Sanfilippo Awareness Day.
See also
- Mucopolysaccharidosis
- Hurler syndrome (MPS I)
- Hunter syndrome (MPS II)
- Morquio syndrome (MPS IV)
- List of neurological conditions and disorders
References
- ↑ "Testing for Sanfilippo Syndrome". Cure Sanfilippo Foundation. https://curesanfilippofoundation.org/what-is-sanfilippo/if-you-suspect-sanfilippo/testing-for-sanfilippo/.
- ↑ Marta Figeiredo (20 March 2018). "Autism Symptoms May Be Indicative of Sanfilippo Syndrome, Data Review Finds". https://sanfilipponews.com/2018/03/20/autism-symptoms-may-indicate-sanfilippo-syndrome-review/.
- ↑ "Mucopolysaccharidoses Fact Sheet". National Institute of Neurological Disorders and Stroke. 15 Nov 2017. https://www.ninds.nih.gov/Disorders/Patient-Caregiver-Education/Fact-Sheets/Mucopolysaccharidoses-Fact-Sheet.
- ↑ "Early Symptoms of Sanfilippo Syndrome". Cure Sanfilippo Foundation. https://curesanfilippofoundation.org/what-is-sanfilippo/what-are-the-symptoms/.
- ↑ "Mucopolysaccharidosis type III". Genetics Home Reference. March 2017. https://ghr.nlm.nih.gov/condition/mucopolysaccharidosis-type-iii.
- ↑ 6.0 6.1 6.2 "A Guide to Understanding MPS III". http://mps.csupportinc.com/files/booklet_MPS_III_v6.pdf.
- ↑ Marlies J. Valstar et al. (September 2010). "Mucopolysaccharidosis type IIIB may predominantly present with an attenuated clinical phenotype". Inherit Metab Dis 10.1007/s10545-010-9199-y (6): 759–767. doi:10.1007/s10545-010-9199-y. PMID 20852935.
- ↑ Zelei T, Csetneki K, Vokó Z, Siffel C. (2018). "Epidemiology of Sanfilippo syndrome: results of a systematic literature review". Orphanet Journal of Rare Diseases 13 (1): 53. doi:10.1186/s13023-018-0796-4. PMID 29631636.
- ↑ Lavery C, Hendriksz CJ, Jones SA (2017). "Mortality in patients with Sanfilippo syndrome". Orphanet Journal of Rare Diseases 12 (1): 168. doi:10.1186/s13023-017-0717-y. PMID 29061114.
- ↑ Breyer, Sandra Rafaela; Vettorazzi, Eik; Schmitz, Leonie; Gulati, Amit; von Cossel, Katharina Maria; Spiro, Alexander; Rupprecht, Martin; Stuecker, Ralf et al. (19 March 2021). "Hip pathologies in mucopolysaccharidosis type III". Journal of Orthopaedic Surgery and Research 16 (1): 201. doi:10.1186/s13018-021-02340-6. PMID 33741007.
- ↑ Wagner, Victoria F.; Northrup, Hope (1993). Mucopolysaccharidosis Type III. University of Washington, Seattle. PMID 31536183. https://www.ncbi.nlm.nih.gov/books/NBK546574/. Retrieved 3 January 2023.
- ↑ 12.0 12.1 Andrade, F.; Aldámiz-Echevarría, L.; Llarena, M.; Couce, M.L. (2015). "Sanfilippo syndrome: Overall review". Pediatrics International 57 (3): 331–8. doi:10.1111/ped.12636. PMID 25851924.
- ↑ Tardieu, Marc (February 2014). "Intracerebral Administration of Adeno-Associated Viral Vector Serotype rh.10 Carrying Human SGSH and SUMF1 cDNAs in Children with Mucopolysaccharidosis Type IIIA Disease: Results of a Phase I/II Trial". Human Gene Therapy 25 (6): 506–516. doi:10.1089/hum.2013.238. PMID 24524415.
- ↑ 14.0 14.1 14.2 14.3 14.4 14.5 Edens Hurst, Anna C.; Zieve, David; Conaway, Brenda (1 May 2017). "Mucopolysaccharidosis type III". United States National Library of Medicine. https://medlineplus.gov/ency/article/001210.htm.
- ↑ 15.0 15.1 Defendi, Germaine L. (23 May 2018). "Sanfilippo Syndrome (Mucopolysaccharidosis Type III)". Medscape. https://emedicine.medscape.com/article/948540-overview.
- ↑ "Tralesinidase alfa for Sanfilippo syndrome type B". Allievex. https://www.allievex.com/tralesinidase-alfa.
- ↑ Muschol, Nicole; Koehn, Anja; Cossel, Katharina von; Okur, Ilyas; Ezgu, Fatih; Harmatz, Paul; Lopez, Maria J. de Castro; Couce, Maria Luz et al. (2023-01-17). "A phase I/II study on intracerebroventricular tralesinidase alfa in patients with Sanfilippo syndrome type B" (in en). The Journal of Clinical Investigation 133 (2). doi:10.1172/JCI165076. ISSN 0021-9738. PMID 36413418. PMC 9843052. https://www.jci.org/articles/view/165076.
- ↑ Halliday, Josh (27 December 2023). "Sheffield family plead for help after drug trial for boy, 11, is abruptly stopped". The Guardian. https://www.theguardian.com/society/2023/dec/27/sheffield-family-plead-for-help-after-drug-trial-for-boy-11-is-abruptly-stopped. "Tom Mathers, the chief executive of Allievex, said: “The hardest decision that I have ever had to make was to pause our ongoing treatment of children with this devastating disease. It is most frustrating because we have a treatment that we know works."
- ↑ Koberstein, Wayne (November 7, 2018). "Lysogene: Mother of Invention". Life Science Leader (United States: VertMarkets). https://www.lifescienceleader.com/doc/lysogene-mother-of-invention-0001.
- ↑ Intracerebral Gene Therapy for Sanfilippo Type A Syndrome on clinicaltrials.gov
- ↑ "Department of Molecular Biology, University of Gdansk - Head of DMB". http://www.bgo.ug.gda.pl/kbm/dmb/staff/gw.htm.
- ↑ Piotrowska, E.; Jakóbkiewicz-Banecka, J.; Barańska, S.; Tylki-Szymańska, A.; Czartoryska, B.; Wegrzyn, A.; Wegrzyn, G. (Jul 2006). "Genistein-mediated inhibition of glycosaminoglycan synthesis as a basis for gene expression-targeted isoflavone therapy for mucopolysaccharidoses". European Journal of Human Genetics 14 (7): 846–52. doi:10.1038/sj.ejhg.5201623. PMID 16670689.
- ↑ Jin, Y.; Wu, H.; Cohen, EM.; Wei, J.; Jin, H.; Prentice, H.; Wu, JY. (Mar 2007). "Genistein and daidzein induce neurotoxicity at high concentrations in primary rat neuronal cultures". J Biomed Sci 14 (2): 275–84. doi:10.1007/s11373-006-9142-2. PMID 17245525.
- ↑ Cure Sanfilippo Foundation, funding research to accelerate discovery of a cure to Sanfilippo Syndrome
- ↑ "Jonah's Just Begun - Foundation to Cure Sanfilippo, Inc.". http://jonahsjustbegun.org/.
- ↑ Phoenix Nest, Inc., a biotech company seeking treatments and cures for Sanfilippo Syndrome
- ↑ Phunk Phenomenon HipHop For Hope , a dance crew in Boston raising awareness for Sanfilippo Syndrome
- ↑ Team Sanfilippo Foundation, a medical research foundation created by parents of children with Sanfilippo Syndrome
- ↑ Porter, K.A. et al. (2021). "Parent Experiences of Sanfilippo Syndrome Impact and Unmet Treatment Needs: A Qualitative Assessment". Neurology and Therapy 2020 (1): 197–212. doi:10.1007/s40120-020-00226-z. PMID 33263924. PMC 8139994. https://doi.org/10.1007/s40120-020-00226-z.
- ↑ Lavery, Christine; Hendriksz, Chris J.; Jones, Simon A. (23 Oct 2017). "Mortality in patients with Sanfilippo syndrome". Orphanet Journal of Rare Diseases 12 (1): 168. doi:10.1186/s13023-017-0717-y. PMID 29061114.
- ↑ Nelson J (December 1997). "Incidence of the mucopolysaccharidoses in Northern Ireland". Hum. Genet. 101 (3): 355–8. doi:10.1007/s004390050641. PMID 9439667.
- ↑ 32.0 32.1 32.2 32.3 32.4 "Prevalence of lysosomal storage disorders". JAMA 281 (3): 249–54. January 1999. doi:10.1001/jama.281.3.249. PMID 9918480.
- ↑ "The frequency of lysosomal storage diseases in The Netherlands". Hum. Genet. 105 (1–2): 151–6. 1999. doi:10.1007/s004390051078. PMID 10480370.
- ↑ Muschol (October 27, 2022). "Sanfilippo syndrome: consensus guidelines for clinical care". Orphanet Journal of Rare Diseases (2022) 17:391 (1): 391. doi:10.1186/s13023-022-02484-6. PMID 36303195.
- ↑ Sanfilippo, S. J.; Podosin, R.; Langer, L. O., Jr.; Good, R. A. : Mental retardation associated with acid mucopolysacchariduria (heparitin sulfate type). J. Pediat. 63: 837-838, 1963.
- ↑ 36.0 36.1 36.2 36.3 36.4 Shapiro, Elsa; Lourenço, Charles Marques; Mungan, Neslihan Onenli; Muschol, Nicole; O’Neill, Cara; Vijayaraghavan, Suresh (8 July 2019). "Analysis of the caregiver burden associated with Sanfilippo syndrome type B: panel recommendations based on qualitative and quantitative data". Orphanet Journal of Rare Diseases 14 (1): 168. doi:10.1186/s13023-019-1150-1. ISSN 1750-1172. PMID 31287005. Material was copied from this source, which is available under a Creative Commons Attribution 4.0 International License.
- ↑ [Awareness Days - International Calendar] https://www.awarenessdays.com/awareness-days-calendar/world-sanfilippo-awareness-day-2019/
- ↑ [World Sanfilippo Awareness Day] https://curesanfilippofoundation.org/worldsanfilippoawarenessday/
External links
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Original source: https://en.wikipedia.org/wiki/Sanfilippo syndrome.
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