A severe form of otopalatodigital syndrome spectrum disorder, and is characterized by dysmorphic facies, severe skeletal dysplasia affecting the axial and appendicular skeleton, extraskeletal anomalies (including malformations of the brain, heart, genitourinary system, and intestine) and poor survival.
Estimated Number of People with this Disease
In the U.S., this disease is estimated to be less than
1,000
What Information Does GARD Have For This Disease?
Many rare diseases have limited information. Currently GARD is able to provide the following information for this disease:
*Data may be currently unavailable to GARD at this time.
The most common ages for symptoms of a disease to begin is called age of onset. Age of onset can vary for different diseases and may be used by a doctor to determine the diagnosis. For some diseases, symptoms may begin in a single age range or several age ranges. For other diseases, symptoms may begin any time during a person's life.
Prenatal
Before Birth
Newborn Selected
Birth-4 weeks
Infant
1-23 months
Child
2-11 years
Adolescent
12-18 years
Adult
19-65 years
Older Adult
65+ years
The common ages for symptoms to begin in this disease are shown above by the colored icon(s).
Symptoms
These symptoms may be different from person to person. Some people may have more symptoms than others and symptoms can range from mild to severe. This list does not include every symptom. This disease might cause these symptoms:
Cardiovascular System
55 Symptoms
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List View
Cardiovascular System
The cardiovascular system is made up of the heart and blood vessels, including the arteries, veins, and capillaries. Common symptoms of problems in the cardiovascular system include high blood pressure, heart rate or heart rhythm problems, chest pain or discomfort, pain or tingling in the hands or feet, and fatigue. Diseases of the cardiovascular system may be diagnosed and treated by a cardiologist.
Medical Term
Abnormal cardiac septum morphology
Frequency: Frequent (30-79%)
Description
An anomaly of the intra-atrial or intraventricular septum.
An anomaly of the intra-atrial or intraventricular septum.
Synonym
Septal defects
Septal defects
55 Symptoms
Causes
Genetic Disease
Oto-palato-digital syndrome type 2 is a genetic disease, which means that it is caused by one or more genes not working correctly.
Disease causing variants in the following gene(s) are known to cause this disease: FLNA
Questions:
Questions:
What is a gene?
Genes are part of our DNA, the basic genetic material found in each of our body's cells. Cells are the building blocks of all living things and specialized cells form our body's organs and tissues. DNA is found in the nucleus of a cell and, in humans, is packaged into 23 pairs of chromosomes with the help of special proteins.
Each gene performs a different job in our cells. Some genes serve as the instructions to make proteins. Proteins are needed for the structure, function, and regulation of the body's cells, tissues, and organs. Some genes can turn other genes on or off. Others make RNA molecules that are involved in chemical reactions in the body.
Sources to Learn More: What is a gene? (MedlinePlus) ; What's a Gene? (NHGRI) ; What are proteins and what do they do? (MedlinePlus)Genes are part of our DNA, the basic genetic material found in each of our body's cells. Cells are the building blocks of all living things and specialized cells form our body's organs and tissues. DNA is found in the nucleus of a cell and, in humans, is packaged into 23 pairs of chromosomes with the help of special proteins.
Each gene performs a different job in our cells. Some genes serve as the instructions to make proteins. Proteins are needed for the structure, function, and regulation of the body's cells, tissues, and organs. Some genes can turn other genes on or off. Others make RNA molecules that are involved in chemical reactions in the body.
A genetic variant is a change in a gene's code or DNA sequence that causes the gene to be different than found in most people. A benign variant does not cause health problems or disease because the change does not affect how the gene works. A pathogenic variant does cause health problems or disease because the change does affect how the gene works. A pathogenic variant may also be called a mutation or a disease-causing variant.
Variants can result from DNA copying mistakes made during cell division or certain environmental exposures. Variants that occur in the egg or sperm (germline mutations) can be passed on to offspring, while variants that occur in other body cells (somatic mutations) are not passed on.
Variants can result from DNA copying mistakes made during cell division or certain environmental exposures. Variants that occur in the egg or sperm (germline mutations) can be passed on to offspring, while variants that occur in other body cells (somatic mutations) are not passed on.
A genetic disease is a disease caused by a change in part of a person's DNA. Genetic diseases may be caused by genetic changes in a single gene, in multiple genes, by a combination of genetic changes and environmental factors (multifactorial inheritance), or changes in chromosomes.
Genetic diseases may be caused by genetic changes that are inherited from the parents and are present at birth, like sickle cell disease. Other genetic diseases present at birth may be caused by random genetic changes that happen while the egg or the sperm is forming or soon after fertilization.
Some diseases, like many cancers, are caused by genetic changes that happen during a person's life. These are known as acquired or somatic cell genetic changes. Such genetic changes are not inherited from a parent, but happen either randomly or due to some environmental exposure (such as cigarette smoke).
Sources to Learn More: Genetic Disorders (MedlinePlus) ; Genetic Disorders (NHGRI)A genetic disease is a disease caused by a change in part of a person's DNA. Genetic diseases may be caused by genetic changes in a single gene, in multiple genes, by a combination of genetic changes and environmental factors (multifactorial inheritance), or changes in chromosomes.
Genetic diseases may be caused by genetic changes that are inherited from the parents and are present at birth, like sickle cell disease. Other genetic diseases present at birth may be caused by random genetic changes that happen while the egg or the sperm is forming or soon after fertilization.
Some diseases, like many cancers, are caused by genetic changes that happen during a person's life. These are known as acquired or somatic cell genetic changes. Such genetic changes are not inherited from a parent, but happen either randomly or due to some environmental exposure (such as cigarette smoke).
All individuals inherit two copies of most genes. The number of copies of a gene that need to have a disease-causing variant affects the way a disease is inherited. This disease is inherited in the following pattern(s):
Questions:
X-linked inheritance
X-linked means the gene is located on the X chromosome, one of two sex chromosomes. Genes, like chromosomes, usually come in pairs. X-linked diseases are caused by disease-causing (pathogenic) variants in genes on the X chromosome. Mutation is an older term that is still sometimes used to mean pathogenic variant.
The inheritance pattern of many X-linked diseases is not clearly dominant or recessive and so the pattern may be stated as X-linked inheritance. Because men have only one copy of genes on the X chromosome, a pathogenic variant in one copy can cause the disease. Women who have a pathogenic variant in one copy of the gene usually have less severe symptoms than males who have the disease or may have no symptoms at all. Women who have pathogenic variants in both copies of the gene would have symptoms similar to men.
A woman who carries one X-linked pathogenic variant has a 50% (1 in 2) chance of having a son or daughter who has a pathogenic variant in one copy of the gene. A man with an X-linked disease cannot pass on the disease to his sons, but all of his daughters will have a pathogenic variant in one copy of the gene. If a child is the first person in a family with the disease, the pathogenic variant may have been inherited from the mother who did not have symptoms or may have occurred by chance for the first time in the child (de novo).X-linked means the gene is located on the X chromosome, one of two sex chromosomes. Genes, like chromosomes, usually come in pairs. X-linked diseases are caused by disease-causing (pathogenic) variants in genes on the X chromosome. Mutation is an older term that is still sometimes used to mean pathogenic variant.
The inheritance pattern of many X-linked diseases is not clearly dominant or recessive and so the pattern may be stated as X-linked inheritance. Because men have only one copy of genes on the X chromosome, a pathogenic variant in one copy can cause the disease. Women who have a pathogenic variant in one copy of the gene usually have less severe symptoms than males who have the disease or may have no symptoms at all. Women who have pathogenic variants in both copies of the gene would have symptoms similar to men.
A woman who carries one X-linked pathogenic variant has a 50% (1 in 2) chance of having a son or daughter who has a pathogenic variant in one copy of the gene. A man with an X-linked disease cannot pass on the disease to his sons, but all of his daughters will have a pathogenic variant in one copy of the gene. If a child is the first person in a family with the disease, the pathogenic variant may have been inherited from the mother who did not have symptoms or may have occurred by chance for the first time in the child (de novo).
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X-linked dominant inheritance
X-linked means the gene is located on the X chromosome, one of two sex chromosomes. Genes, like chromosomes, usually come in pairs. Dominant means that when there are two copies of the responsible gene, only one copy must have a disease-causing change (pathogenic variant) in order for a person to have the disease. Mutation is an older term that is still sometimes used to mean pathogenic variant.
Because women have two X chromosomes, a pathogenic variant for an X-lined dominant disease needs to occur in only one copy of the gene to cause the disease. Because men have one X chromosome and thus only one copy of the gene, a pathogenic variant in their one copy is enough to cause the disease. Women may experience less severe symptoms than men.
A woman who carries one X-linked gene variant has a 50% (1 in 2) chance of having a son or daughter with the disease. A man with an X-linked dominant disease cannot pass on the disease to his sons, but all of his daughters will have the disease. If a child is the first person in a family with the disease, the pathogenic variant may have occurred by chance for the first time in the child (de novo).X-linked means the gene is located on the X chromosome, one of two sex chromosomes. Genes, like chromosomes, usually come in pairs. Dominant means that when there are two copies of the responsible gene, only one copy must have a disease-causing change (pathogenic variant) in order for a person to have the disease. Mutation is an older term that is still sometimes used to mean pathogenic variant.
Because women have two X chromosomes, a pathogenic variant for an X-lined dominant disease needs to occur in only one copy of the gene to cause the disease. Because men have one X chromosome and thus only one copy of the gene, a pathogenic variant in their one copy is enough to cause the disease. Women may experience less severe symptoms than men.
A woman who carries one X-linked gene variant has a 50% (1 in 2) chance of having a son or daughter with the disease. A man with an X-linked dominant disease cannot pass on the disease to his sons, but all of his daughters will have the disease. If a child is the first person in a family with the disease, the pathogenic variant may have occurred by chance for the first time in the child (de novo).
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Next Steps
Talking with the Medical Team
Good communication between the patient, family, and medical team can lead to an accurate diagnosis. In addition, health care decisions can be made together which improves the patient’s well-being and quality of life.
Describing Symptoms
Describe details about the symptoms. Because there may be many different causes for a single symptom, it is best not to make a conclusion about the diagnosis. The detailed descriptions help the medical provider determine the correct diagnosis.
To help describe a symptom:
Use a smartphone or a notebook to record each symptom before the appointment
Describe each symptom by answering the following questions:
When did the symptom start?
How often does it happen?
Does anything make it better or worse?
Tell the medical team whether any symptoms affect daily activities
Preparing for the First Visit
Working with a medical team to find a diagnosis can be a long process that will require more than one appointment. Make better health decisions by being prepared for the first visit with each member of the medical team.
Make informed decisions about health care:
Prepare a list of questions and concerns before the appointment
List the most important questions first, not all questions may be answered in the first visit
Ask questions about symptoms, possible diagnoses, tests, and treatment options
For future appointments:
Discuss what was not addressed at the last visit
Discuss changes in the quality of life for the patient, family, and caregivers
Discuss health goals and other issues in the patient’s and family’s life that may affect the health care decisions
Take notes during the appointments to help remember what was discussed.
Data from Orphanet and Human Phenotype Ontology (HPO) are used to provide information on a disease's symptoms, genes, inheritance, population estimates, and more.
