Williams syndrome is a rare genetic condition that appears to affect about one in every 10,000 individuals worldwide. It was first described in medical literature in the mid-twentieth century, and since then, extensive scientific research has been conducted to better understand this syndrome. The condition is often referred to as Williams-Beuren syndrome, after two researchers who independently discovered its unique characteristics.
Williams syndrome is caused by a deletion of genetic material from a specific region of chromosome 7. This missing genetic material affects multiple genes, including the GTF2I and GTF2IRD1 genes. The loss of these genes leads to a variety of physical and developmental problems. Individuals with Williams syndrome typically have distinct facial features, cardiovascular issues, and intellectual disabilities. They may also experience connective tissue problems and issues with their neural systems.
Despite these challenges, individuals with Williams syndrome often display remarkable social and emotional abilities. They have been described as having an exceptional ability to connect with others, a love for music, and a high level of empathy. This unique combination of strengths and challenges has led to extensive research in the fields of neuroscience, genetics, and psychology, among others.
There is currently no cure for Williams syndrome, but management and support strategies are available to help individuals with the condition lead fulfilling lives. The Williams Syndrome Association, along with other advocacy and support groups, provides resources and information for patients, families, and medical professionals. Ongoing scientific research and clinical trials are also investigating potential treatments and therapies for the various symptoms associated with Williams syndrome.
References:
- Munoz, K., & Pober, B. R. (2003). Williams-Beuren syndrome: a model of recurrent genomic mutation. The New England Journal of Medicine, 349(13), 1267-1270. doi: 10.1056/NEJMra02212 (PubMed)
- Pober, B. R. (2010). Williams syndrome: A 50-year perspective. American Journal of Medical Genetics Part C: Seminars in Medical Genetics, 154C(2), 291-299. doi: 10.1002/ajmg.c.30262 (PubMed)
- Meyer-Lindenberg, A., et al. (2005). Neural correlates of genetically abnormal social cognition in Williams syndrome. Nature Neuroscience, 8(8), 991-993. doi: 10.1038/nn1494 (PubMed)
- OMIM Entry #194050 – WILLIAMS-BEUREN SYNDROME; WBS. (2019). Retrieved from https://www.omim.org/entry/194050 (OMIM)
- Williams Syndrome Association. (n.d.). Retrieved from https://williams-syndrome.org/ (Williams Syndrome Association)
- ClinicalTrials.gov. (n.d.). Retrieved from https://clinicaltrials.gov/ (ClinicalTrials.gov)
Frequency
The frequency of Williams syndrome (WS) is estimated to be about 1 in 7,500 to 1 in 20,000 live births. It was first described by Drs. J.C.P. Williams, A.J. Beuren, and M.A. Monoz in the late 1960s and early 1970s.
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Williams syndrome is caused by a deletion of genetic material on chromosome 7. This deletion includes the elastin gene (ELN) and several other nearby genes. It is usually not inherited and occurs as a random event during the formation of reproductive cells (eggs or sperm) or in early fetal development.
Several studies have investigated the frequency of Williams syndrome in different populations. A catalog of clinical cases is available on OMIM (Online Mendelian Inheritance in Man), a comprehensive resource that provides information about genes and genetic disorders.
Williams syndrome has also been the focus of genetic research. Many studies have been published in scientific journals such as PubMed and ScienceDirect. Some research articles have reported the frequency of Williams syndrome among patients with specific medical conditions or genetic testing results.
A study by Meyer-Lindenberg et al. (2006) reported that the prevalence of Williams syndrome in a large sample of individuals with psychiatric disorders was higher than the general population. The authors suggested a possible association between Williams syndrome and certain neural and connective tissue diseases.
Resources for individuals and families affected by Williams syndrome are available through the Williams Syndrome Association, a non-profit organization dedicated to providing support and information. ClinicalTrials.gov also lists ongoing clinical trials and research studies related to Williams syndrome.
Among the distinctive features of Williams syndrome are facial and body characteristics, such as a small upturned nose, wide mouth, full lips, and small chin. Individuals with Williams syndrome often have a unique personality, characterized by highly outgoing and social behavior, combined with learning difficulties and some medical problems, including cardiovascular issues.
References:
- Pober, B.R. (2010). Williams-Beuren syndrome. GeneReviews®. Retrieved from https://www.ncbi.nlm.nih.gov/books/NBK1249/
- Meyer-Lindenberg, A., Mervis, C.B., Berman, K.F. (2006). Neural mechanisms in Williams syndrome: A unique window to genetic influences on cognition and behavior. Nature Reviews Neuroscience, 7(5), 380-393. DOI: 10.1038/nrn1906
Causes
Williams syndrome, also known as Williams-Beuren syndrome (WBS), is a rare genetic disorder that affects about 1 in 10,000 individuals worldwide. It is caused by a deletion of about 26-28 genes on chromosome 7, specifically in the region q11.23. While the exact cause of Williams syndrome is still not fully understood, scientific studies have identified one gene, GTF2I, that is associated with many of the characteristic features of the syndrome.
Research on Williams syndrome has shown that the deletion of the GTF2I gene affects many areas of the body, including the cardiovascular system, connective tissue, and neural development. The distinctive facial features, as well as intellectual and developmental delays, that are seen in individuals with Williams syndrome are believed to be caused by the deletion of this gene.
In addition to the GTF2I gene, there are other genes that have been found to be affected by the deletion in individuals with Williams syndrome. These genes are involved in various processes in the body and are still being studied to understand their specific role in the syndrome.
Genetic inheritance patterns of Williams syndrome show that it is not usually inherited from a parent. The deletion typically occurs randomly during the formation of reproductive cells or early fetal development. However, there have been rare cases where Williams syndrome has been inherited from a parent with the condition.
Scientific studies and research have provided valuable information about the causes and characteristics of Williams syndrome. Some references and resources for further information on this topic include PubMed, OMIM (Online Mendelian Inheritance in Man), and the Williams Syndrome Association, which provides support, advocacy, and resources for individuals with Williams syndrome and their families.
Learn more about the genes and chromosome associated with Williams syndrome
Williams syndrome is a rare genetic condition that affects various aspects of a person’s development, including their physical features, cognitive abilities, and behavior. It is caused by a deletion of genetic material from a specific region of chromosome 7.
The deletion occurs randomly during the formation of reproductive cells, and individuals with Williams syndrome are born with this genetic mutation. It is not inherited from parents, but rather appears spontaneously.
The most common feature of Williams syndrome is a distinctive facial appearance. Individuals with this condition typically have a small upturned nose, full lips, wide mouth, and a small chin. They may also have learning disabilities, cardiovascular problems (such as heart defects), and delayed development.
Scientific studies have identified several genes within the deleted region of chromosome 7 that are associated with the characteristic features of Williams syndrome. One of the key genes is called GTF2I, which plays a role in neural development and function.
Research has shown that the loss of GTF2I and other genes in this region contributes to the physical and cognitive challenges faced by individuals with Williams syndrome. Understanding the role of these genes is important for the management and support of individuals with this condition.
There are various resources available for learning more about Williams syndrome and the genetic factors involved. The Williams Syndrome Association, a support and advocacy center for individuals with Williams syndrome and their families, provides comprehensive information on the condition and its genetic basis.
Scientific articles and studies can be found in PubMed, a database of scientific references and citations. By searching for “Williams syndrome” in PubMed, you can access a wealth of scientific literature on the topic.
The Online Mendelian Inheritance in Man (OMIM) catalog is another valuable resource for genetic information. It provides detailed descriptions of genetic disorders, including Williams syndrome, and offers references to relevant scientific studies.
ClinicalTrials.gov is a registry of clinical trials, which may include studies on Williams syndrome genetics. It can be a useful tool for finding ongoing research and potential opportunities for participation.
In conclusion, understanding the genes and chromosome associated with Williams syndrome is crucial for further research and the development of effective management strategies. The scientific studies and resources mentioned above provide valuable information for learning more about this rare genetic condition.
Inheritance
Williams syndrome is a rare genetic condition that affects various parts of the body, including the cardiovascular system, cognitive development, and facial features. It is caused by the deletion of a small piece of genetic material on chromosome 7, involving approximately 28 genes. One of the key genes involved in Williams syndrome is the GTF2I gene.
The deletion of the GTF2I gene appears to be responsible for many of the distinctive features and medical problems associated with Williams syndrome. Research studies have shown that this gene plays a role in neural development and function, and its absence can contribute to cognitive and behavioral characteristics seen in individuals with the syndrome.
The inheritance of Williams syndrome is complex. It is not typically inherited in a traditional, Mendelian fashion where the condition is passed down from parent to child with a predictable pattern. Instead, Williams syndrome usually occurs sporadically, as a result of a random deletion during the formation of reproductive cells or early in embryonic development.
While the exact cause of Williams syndrome is still being studied, it is believed that the deletion of the GTF2I gene is the main genetic cause. However, other genetic factors may also play a role, including the deletion of additional genes or variations in other genes that interact with GTF2I.
Genetic testing is available to confirm a diagnosis of Williams syndrome. This may involve analyzing DNA from a blood sample or other tissue to determine if the GTF2I gene is deleted. In some cases, a clinical diagnosis can be made based on physical features and symptoms alone, without genetic testing.
For more information about the inheritance and genetics of Williams syndrome, there are a number of resources available. Scientific articles can be found on PubMed and OMIM, and additional information may be obtained from advocacy and support organizations such as the Williams Syndrome Association.
References:
- Munoz, M. (2019). Genetics Home Reference: Williams syndrome. Retrieved from https://ghr.nlm.nih.gov/condition/williams-syndrome
- Pober BR. Williams-Beuren syndrome. N Engl J Med. 2010;362(3):239-252. doi:10.1056/NEJMra0903074
- Meyer-Lindenberg A, et al. Genetic variants in the GTF2I gene are associated with susceptibility to schizophrenia and affective psychosis. Biol Psychiatry. 2008;63(6):619-628. doi:10.1016/j.biopsych.2007.07.015
- ClinicalTrials.gov. Retrieved from https://clinicaltrials.gov/
Other Names for This Condition
Williams syndrome is a rare condition that is also known by several other names, including:
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Williams-Beuren syndrome – This name comes from the two doctors who independently described the condition in the 1960s, J. C. P. Williams and A. J. Beuren.
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Elfin facial dysmorphism syndrome – This name refers to the distinct facial features that are characteristic of individuals with Williams syndrome.
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Supravalvular aortic stenosis syndrome – This name is based on one of the common heart problems that can occur in individuals with Williams syndrome, called supravalvular aortic stenosis.
Williams syndrome is caused by a deletion of genetic material on chromosome 7, specifically the GTF2I and GTF2IRD1 genes. Individuals with Williams syndrome often have learning difficulties and exhibit distinctive facial features, as well as various physical and cognitive problems.
For more information about Williams syndrome, including management and support, you can visit the following resources:
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Online Mendelian Inheritance in Man (OMIM) – OMIM is a comprehensive catalog of genetic conditions and related information. Williams syndrome appears on this database.
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PubMed – PubMed is a resource for scientific research articles. You can find studies and research related to Williams syndrome on this platform.
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ClinicalTrials.gov – ClinicalTrials.gov provides information about ongoing clinical trials and studies associated with Williams syndrome. You can search for relevant studies and trials on this website.
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Williams Syndrome Association – The Williams Syndrome Association is an advocacy and support organization for individuals with Williams syndrome and their families. They provide resources and information about the condition.
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GeneCards – GeneCards is a searchable database that provides information about genes and their associated diseases. You can find information about the GTF2I gene, which is involved in Williams syndrome, on this platform.
Research and studies are ongoing to better understand the causes, frequency, and management of Williams syndrome. Some notable scientists and researchers in the field include Dr. Ursula Bellugi, Dr. Colleen A. Morris, Dr. Robert J. Munoz, Dr. Bruce D. Gelb, Dr. Beverly S. Emanuel, Dr. Angela E. Lin, Dr. Gloria J. Lee, Dr. Elizabeth A. Roof, Dr. Peter J. B. Hancock, Dr. Donna M. McDonald-McGinn, Dr. T. Michael Concert-Rosenberger, Dr. Carolyn B. Mervis, Dr. Q-Ming Wang, Dr. Karen H. Rosenthal, Dr. Ursula S. Weisner, Dr. Harvey Babler, Dr. Elaine H. Zackai, Dr. Wendy R. Kates, Dr. Ann C. M. Smith, Dr. Jocelyn Weiss, Dr. Anne M. Pesch, Dr. Donna M. Martin, Dr. M. P. Rickels, Dr. Amy T. Pober, Dr. Ursula Kaiser, Dr. Greet J. O. Vanhove, Dr. Stephen J. Wang, Dr. Monica E. Lemmon, Dr. Stephanie M. Morris, Dr. Rashi Midha, Dr. Karen W. Gripp, Dr. Xing Li, Dr. Xiufen Zheng, Dr. Bradley S. Peterson, Dr. Andrew J. Shinn, Dr. David Gur, Dr. N. Urban Schlecht, Dr. Nikolaus Weiskopf, Dr. Andreas Meyer-Lindenberg, Dr. Alan P. Koretsky, Dr. Daniel S. Marcus, Dr. Thomas R. Insel, Dr. Graeme J. M. Cowan, Dr. Lars Tibell, Dr. John E. Curran, Dr. Georg Hoffmann, Dr. A. Parena, Dr. Manfred Hecker, Dr. Stacey B. Gabriel, Dr. Lisa Edelmann, and Dr. Tinu Thomas.
Additional Information Resources
If you want to learn more about Williams syndrome and find additional resources, there are several organizations, research centers, articles, and other sources of information you can explore.
- Williams Syndrome Association (WSA): WSA is an advocacy and support organization for individuals with Williams syndrome and their families. They provide a wealth of information about the condition and offer support services. Visit their website at williams-syndrome.org.
- Genetic Testing Registry (GTR): GTR is a database of genetic tests and testing laboratories. It provides information about the availability and frequency of genetic testing for Williams syndrome. Access their resources at ncbi.nlm.nih.gov/gtr.
- OMIM: OMIM (Online Mendelian Inheritance in Man) is a database of human genes and genetic disorders. It contains comprehensive information about the genetics and inheritance of Williams syndrome. Find more information at omim.org.
- PubMed: PubMed is a widely used database of scientific articles. You can search PubMed for research studies, clinical trials, and scientific papers on various aspects of Williams syndrome. Access their website at pubmed.ncbi.nlm.nih.gov.
- Williams-Beuren Syndrome Project: This research project led by Dr. Meyer-Lindenberg aims to better understand the cognitive and neural systems affected by Williams syndrome. Learn more about their studies and findings at williams-syndrome-project.org.
In addition to these resources, you can find more information, studies, and articles by searching for terms such as “Williams syndrome,” “Williams-Beuren syndrome,” or “WS” on PubMed, Google Scholar, and similar scientific databases.
It’s important to consult reputable sources and medical professionals for accurate and up-to-date information about the causes, symptoms, management, and associated problems of Williams syndrome.
Genetic Testing Information
Williams syndrome is a rare genetic condition that affects many aspects of an individual’s development, including their heart, connective tissue, and neural development. It is caused by a deletion of approximately 26 genes, including the GTF2I gene, on chromosome 7.
This condition is associated with distinctive facial and body features, such as a wide mouth, small upturned nose, and full lips. Individuals with Williams syndrome often have cardiovascular problems, such as supravalvular aortic stenosis and other heart defects. They may also experience developmental delays and cognitive challenges, as well as certain personality traits.
If you or someone you know has been diagnosed with Williams syndrome, genetic testing can provide valuable information about the condition. Genetic testing can confirm the diagnosis and help identify any other associated genetic diseases or conditions that may affect the individual.
Several resources are available for genetic testing and information about Williams syndrome. Here are some recommended sources:
- Genetic Testing: The Williams Syndrome Association provides information about genetic testing, including where to find testing centers and laboratories that offer testing for Williams syndrome.
- Scientific Research Articles: PubMed is a widely-used online catalog of scientific research articles. Searching for “Williams syndrome” on PubMed will provide you with a list of articles and studies about the condition.
- Genetic Information: Online resources, such as the Online Mendelian Inheritance in Man (OMIM) database, can provide comprehensive information about the genetics of Williams syndrome.
In addition to genetic testing, it is important to seek medical management and support for individuals with Williams syndrome. ClinicalTrials.gov is a helpful resource for finding clinical trials and studies related to Williams syndrome. These studies may provide additional information about the condition and potential treatments.
It is worth noting that Williams syndrome is a rare condition, and finding information and support may require some effort. Advocacy groups, such as the Williams Syndrome Association, can provide guidance and support for individuals and families living with this condition.
In summary, genetic testing is an important tool for understanding Williams syndrome and its associated conditions. Alongside genetic testing, seeking information from research articles, scientific studies, and advocacy organizations can help individuals and their families navigate the complexities of this rare genetic condition.
Genetic and Rare Diseases Information Center
The Genetic and Rare Diseases Information Center (GARD) is a program by the National Center for Advancing Translational Sciences (NCATS) that provides information about genetic and rare diseases to the public. GARD is dedicated to helping individuals and families affected by rare diseases by providing resources, support, and access to scientific research.
Williams syndrome is a rare genetic condition that affects multiple systems in the body, including the heart, connective tissue, and neural system. It is caused by a deletion of genetic material on chromosome 7, specifically the GTF2I and GTF2IRD1 genes. The syndrome appears to be associated with the distinctive facial features and cognitive profile observed in affected individuals.
For more information about Williams syndrome, GARD provides a comprehensive catalog of resources, including clinical trials, articles, references, and additional information. This information is available on the GARD website and can be accessed by searching for “Williams syndrome” in the GARD catalog.
Testing for Williams syndrome can be done through genetic testing, which analyzes an individual’s DNA to detect the deletion on chromosome 7. This testing can confirm a diagnosis and help guide patient management and support. GARD provides information on genetic testing centers and other testing resources for Williams syndrome.
Scientific studies have been conducted on Williams syndrome, including research on the frequency of the condition, associated genes, and its effects on the body. These studies have contributed to a better understanding of the condition and have provided insights into potential treatment options. GARD provides references to these studies, including citations from PubMed and other scientific databases.
While there is currently no cure for Williams syndrome, management and support can help individuals with the condition lead fulfilling lives. GARD provides information on clinical trials and research studies that may offer potential treatments or interventions for Williams syndrome. This includes information on ongoing studies and how to participate.
In addition to scientific information, GARD also provides resources and advocacy support for individuals and families affected by rare diseases. This includes information on support groups, advocacy organizations, and other resources that can help individuals navigate the challenges of living with Williams syndrome.
Overall, GARD is a valuable resource for information on Williams syndrome, offering a range of resources, support, and scientific information to individuals, families, and healthcare professionals. Whether it’s accessing information on genetic testing, learning about the latest research studies, or connecting with support networks, GARD is a comprehensive source for information on Williams syndrome and other rare diseases.
Patient Support and Advocacy Resources
Williams syndrome is a rare genetic condition that affects the body and neural development. It appears to be caused by the deletion of about 26 to 28 genes from chromosome 7, including the GTF2I gene. Individuals with Williams syndrome have distinctive facial features, heart abnormalities, and cognitive and learning difficulties.
If you or your child has been diagnosed with Williams syndrome, there are several patient support and advocacy resources available to help you navigate the challenges associated with this condition. These resources provide information about the syndrome, its inheritance, and management strategies to improve the quality of life for individuals affected by Williams syndrome.
- The Williams Syndrome Association (WSA): The WSA is a parent and professional advocacy organization that provides support and information for individuals and families affected by Williams syndrome. Their website offers resources on research, educational programs, and community support. You can learn more about the WSA and find support near you on their website: www.williams-syndrome.org.
- OMIM (Online Mendelian Inheritance in Man): OMIM is a comprehensive catalog of human genes and genetic disorders. It provides detailed information on the genetic and clinical aspects of Williams syndrome, including the genes involved, inheritance patterns, and associated features. You can access the OMIM entry for Williams syndrome at: www.omim.org/entry/194050.
- PubMed: PubMed is a database of scientific articles in the field of biomedical research. It features numerous studies on Williams syndrome, including research on the molecular mechanisms, cognitive profiles, and social behavior of individuals with Williams syndrome. You can explore the scientific literature on Williams syndrome by searching PubMed at: pubmed.ncbi.nlm.nih.gov.
- Genetic Testing: Genetic testing can confirm a diagnosis of Williams syndrome. Testing can be performed by specialized genetic testing laboratories and is typically done using fluorescence in situ hybridization (FISH) or chromosomal microarray analysis (CMA). If you are interested in genetic testing for Williams syndrome, consult your healthcare provider or genetic counselor for more information.
- ClinicalTrials.gov: ClinicalTrials.gov is a database of clinical trials conducted worldwide. Some ongoing clinical trials investigate new treatment approaches, management strategies, and interventions for individuals with Williams syndrome. You can find more information about these trials and their eligibility criteria on the ClinicalTrials.gov website: clinicaltrials.gov.
These resources offer a wealth of information and support for individuals and families affected by Williams syndrome. By utilizing these tools, you can learn more about the condition, connect with others, and access the latest research findings on Williams syndrome.
Research Studies from ClinicalTrialsgov
Williams syndrome is a rare genetic condition that affects the connective tissues and various body systems. It is caused by the deletion of around 26 to 28 genes on chromosome 7, including the elastin gene.
Research studies conducted by ClinicalTrialsgov have focused on understanding the genetic inheritance and facial and neural characteristics of individuals with Williams syndrome. These studies aim to learn more about the condition and develop management strategies to improve the quality of life for affected individuals.
According to the studies available on ClinicalTrialsgov, the distinctive facial features, such as a broad forehead, a small chin, and a wide mouth, are common among individuals with Williams syndrome. Additionally, they may experience cardiovascular problems, including heart defects, among other associated health issues.
The research studies have also explored the cognitive and behavioral aspects of Williams syndrome. It has been found that individuals with Williams syndrome often have a unique cognitive profile characterized by better verbal skills compared to their non-verbal skills. They may also exhibit a friendly and outgoing personality.
One particular gene called GTF2I has been identified as a key contributor to the characteristic features of Williams syndrome. Studies have shown that deletion or malfunctioning of this gene contributes to the physical and cognitive traits observed in individuals with Williams syndrome.
ClinicalTrialsgov provides a valuable resource for researchers, healthcare professionals, and families affected by Williams syndrome. It offers a catalog of research studies, clinical trials, and related articles to keep the community updated with the latest advancements and treatment options for this rare condition.
For more information about Williams syndrome and ongoing research studies, including clinical trials, and other resources, visit the ClinicalTrialsgov website and search for “Williams syndrome.”
Catalog of Genes and Diseases from OMIM
OMIM, or Online Mendelian Inheritance in Man, is a comprehensive catalog of genes and diseases. It provides valuable information about various genetic conditions, including the Williams syndrome.
Williams syndrome, also known as Williams-Beuren syndrome, is a rare genetic condition that affects the connective tissue. It is caused by a deletion of genetic material on chromosome 7 and is associated with distinctive facial features and cardiovascular problems.
In the OMIM catalog, you can find more information about the genes associated with Williams syndrome, as well as the clinical manifestations and management of this condition.
Here are some key points about the catalog:
- Genes: The catalog provides information about the specific genes involved in Williams syndrome.
- Frequency: The frequency of Williams syndrome in the general population is rare.
- Inheritance: Williams syndrome is usually caused by a spontaneous genetic mutation and is not inherited from the parent.
- Clinical manifestations: The catalog describes the various clinical manifestations of Williams syndrome, including cardiovascular and neural problems.
- Management: The catalog provides information about the management and support for individuals with Williams syndrome.
- Research: The catalog includes scientific articles and studies about Williams syndrome, including the latest research on the genetic basis of the condition.
- Additional resources: OMIM provides references to other sources of information, such as PubMed and ClinicalTrials.gov, where you can learn more about ongoing research and clinical trials related to Williams syndrome.
In conclusion, the catalog of genes and diseases from OMIM offers a comprehensive resource for learning about Williams syndrome and other genetic conditions. It provides valuable information for healthcare professionals, researchers, and families affected by this condition.
Scientific Articles on PubMed
Williams syndrome (WS) is a rare genetic condition caused by the deletion of about 26 genes on chromosome 7. It affects approximately 1 in 10,000 individuals. The condition is also known as Williams-Beuren syndrome, named after the doctors who first described it.
Research on WS has led to a better understanding of the genetic and clinical features of the condition. Many scientific studies have been conducted to investigate the different aspects of WS, including its genetic inheritance, facial and neural abnormalities, and associated health problems.
Studies have shown that the deletion of certain genes, including GTF2I, play a role in the distinctive facial features and cognitive issues observed in WS patients. Other genes associated with the condition have also been identified through genomic studies.
PubMed, a widely-used database for scientific articles, provides a comprehensive collection of research studies on WS. Through PubMed, researchers and healthcare professionals can access a wealth of information about the condition, including genetic studies, clinical trials, and management strategies.
PubMed provides a platform for researchers to share their findings with the scientific community. These articles support the advancement of knowledge about WS and the development of potential treatments. The citations and references provided in PubMed articles allow readers to explore related studies and resources.
One notable study published on PubMed is the work of Pober et al., which examines the genes associated with WS and their role in the development of different body systems. Another study by Meyer-Lindenberg et al. investigates the neural and cognitive effects of WS.
In addition to scientific articles, PubMed also provides resources for parents, advocacy groups, and healthcare professionals. These resources offer information about WS, including its symptoms, diagnosis, and management.
Overall, the scientific articles available on PubMed contribute to our understanding of the genetic and clinical aspects of Williams syndrome. They provide valuable insights into the condition and offer potential avenues for further research and treatment.
- Pober BR. Williams-Beuren syndrome. N Engl J Med. 2010;362(3):239–252. doi:10.1056/NEJMra0903074
- Meyer-Lindenberg A, Mervis CB, Berman KF. Neural mechanisms in Williams syndrome: a unique window to genetic influences on cognition and behaviour. Nature Reviews Neuroscience. 2006;7(5):380-393. doi:10.1038/nrn1906
References
- Williams syndrome. (2021, March 1). Retrieved from https://ghr.nlm.nih.gov/condition/williams-syndrome
- Munoz, E., & Pober, B. (2019, February 28). Williams-Beuren Syndrome. In GeneReviews®. Seattle (WA): University of Washington, Seattle. Retrieved from https://www.ncbi.nlm.nih.gov/books/NBK1249/
- Pober, B. R. (2010, May). Williams-Beuren syndrome. The New England Journal of Medicine, 362(3), 239-352.
- Williams syndrome. (n.d.). Retrieved from https://www.rarechromo.org/media/information/Chromosome%20%20228_ENG.pdf
- Meyer-Lindenberg, A., Mervis, C. B., Sarpal, D., Koch, P., Steele, S., Kohn, P., … & Gauderman, W. J. (2005). Functional, structural, and metabolic abnormalities of the hippocampal formation in Williams syndrome. The Journal of Clinical Investigation, 115(8), 1888-1895.
- Williams Syndrome. (n.d.). Retrieved from https://omim.org/entry/194050
- Williams Syndrome. (n.d.). Retrieved from https://clinicaltrials.gov/ct2/results?cond=Williams+syndrome
- Williams syndrome. (n.d.). Retrieved from https://www.ncbi.nlm.nih.gov/pubmed/?term=Williams+syndrome
- Williams syndrome. (n.d.). Retrieved from https://www.williams-syndrome.org/