Ehlers–danlos Syndromes

Ehlers–Danlos syndromes are a group of rare genetic connective tissue disorders. Symptoms may include loose joints, joint pain, stretchy velvety skin, and abnormal scar formation. These can be noticed at birth or in early childhood. Complications may include aortic dissection, joint dislocations, scoliosis, chronic pain, or early osteoarthritis.

EDS occurs due to variations of more than 19 different genes which are present at birth. The specific gene affected determines the type of EDS. Some cases result from a new variation occurring during early development, while others are inherited in an autosomal dominant or recessive manner. Typically, these variations result in defects in the structure or processing of the protein collagen.

Diagnosis is often based on symptoms and confirmed with genetic testing or skin biopsy. However, people may initially be misdiagnosed with hypochondriasis, depression, or chronic fatigue syndrome. A large number of signs and symptoms still remain to be identified and linked to EDS, and ignorance on the part of physicians is, according to rehabilitation medicine physician Claude Hamonet, "at the origin of therapeutic errors accompanied by the iatrogenic effects of prejudice towards these patients."

There is no known cure. Treatment is supportive in nature. Physical therapy and bracing may help strengthen muscles and support joints. While some forms of EDS result in a normal life expectancy, those that affect blood vessels generally decrease life expectancy.

The hypermobile type of EDS (hEDS) affects at least one in 5,000 people globally, however other types occur at rarer frequencies. The prognosis depends on the specific disorder. Excess mobility was first described by Hippocrates in 400 BC. The syndromes are named after two physicians, Edvard Ehlers from Denmark and Henri-Alexandre Danlos from France, who described them at the turn of the 20th century.

Signs and symptoms

This group of disorders affects connective tissues across the body, with symptoms most typically present in the joints, skin, and blood vessels. Effects may range from mildly loose joints to life-threatening cardiovascular complications. Due to the diversity of subtypes within the EDS family, symptoms may vary widely between individuals diagnosed with EDS.


Musculoskeletal symptoms include hyperflexible joints that are unstable and prone to sprain, dislocation, subluxation, and hyperextension. There can be an early onset of advanced osteoarthritis, chronic degenerative joint disease, swan-neck deformity of the fingers, and Boutonniere deformity of the fingers. Tearing of tendons or muscles may occur. Deformities of the spine, such as scoliosis (curvature of the spine), kyphosis (a thoracic hump), tethered spinal cord syndrome, craniocervical instability, and occipitoatlantoaxial hypermobility may also be present. There can also be myalgia (muscle pain) and arthralgia (joint pain), which may be severe and disabling. Trendelenburg's sign is often seen, which means that when standing on one leg, the pelvis drops on the other side. Osgood–Schlatter disease, a painful lump on the knee, is common as well. In infants, walking can be delayed (beyond 18 months of age), and bottom-shuffling instead of crawling occurs.


The weak connective tissue causes abnormal skin. This may present as stretchy or in other types simply be velvet soft. In all types there is some increased fragility but the degree varies depending on the underlying subtype. Skin may tear and bruises easily, and may heal with abnormal atrophic scars and atrophic scars that look like cigarette paper are a sign seen including in those whose skin might appear otherwise normal. In some sub-types, although not in the hypermobile subtype, redundant skin folds occur, especially on the eyelids. Redundant skin folds are areas of excess skin lying in folds.

Other skin symptoms include molluscoid pseudotumors, especially on pressure points, petechiae, subcutaneous spheroids, livedo reticularis, and piezogenic papules are less common. In vascular EDS, skin can also be thin and translucent. In dermatosparaxis EDS, the skin is extremely fragile and saggy.


  • Thoracic outlet syndrome
  • Arterial rupture
  • Valvular heart disease, such as mitral valve prolapse, creates an increased risk for infective endocarditis during surgery. This may progress to a life-threatening degree. Heart conduction abnormalities have been found in those with hypermobility form of EDS.
  • Dilation and/or rupture (aneurysm) of ascending aorta
  • Cardiovascular autonomic dysfunction such as postural orthostatic tachycardia syndrome
  • Raynaud's phenomenon
  • Varicose veins
  • Heart murmur
  • Heart conduction abnormalities

Other manifestations

  • Hiatal hernia
  • Gastroesophageal reflux
  • Poor gastrointestinal motility
  • Dysautonomia
  • Gorlin's sign (touch tongue to nose)
  • Anal prolapse
  • Flat feet
  • Tracheobronchomalacia
  • Collapsed lung (spontaneous pneumothorax)
  • Nerve disorders (carpal tunnel syndrome, acroparesthesia, neuropathy, including small fiber neuropathy)
  • Insensitivity to local anesthetics
  • Arnold–Chiari malformation
  • Platelet aggregation failure (platelets do not clump together properly)
  • Mast cell disorders (including mast cell activation syndrome and mastocytosis)
  • Pregnancy complications: increased pain, mild to moderate peripartum bleeding, cervical insufficiency, uterine tearing, or premature rupture of membranes
  • Hearing loss may occur in some types
  • Eye: Nearsightedness, retinal tearing and retinal detachment, keratoconus, blue sclera, dry eye, Sjogren's syndrome, lens subluxation, angioid streaks, epicanthal folds, strabismus, corneal scarring, brittle cornea syndrome, cataracts, carotid-cavernous sinus fistulas, macular degeneration
  • Craniocervical instability: caused by trauma(s) to the head and neck areas such as concussion and whiplash. Ligaments in neck are unable to heal properly, therefore, the neck structure does not have the ability to support the skull, which can then sink into the brain stem blocking the normal flow of cerebrospinal fluid, leading to issues related to the autonomic nervous system failing to work properly.
  • Celiac disease may be associated with EDS. Also, it can be misdiagnosed as EDS due to common symptoms, including fatigue, pain, gastrointestinal complaints, or cardiovascular autonomic dysfunction.
  • Osteoporosis and osteopenia are associated with EDS and symptomatic joint hypermobility

Because it is often undiagnosed or misdiagnosed in childhood, some instances of EDS have been mischaracterized as child abuse. The pain may also be misdiagnosed as a behavior disorder or Munchausen by proxy.

The pain associated with EDS ranges from mild to debilitating.

  • psychiatric disorders

Almost half of EDS patients have psychiatric disorders[citation needed]. ADHD is common in hypermobility spectrum disorder but not in EDS patients.


The collagen fibril and EDS: (a) Normal collagen fibrils are of uniform size and spacing. Fibrils from a person with dermatosparaxis (b) show dramatic alterations in fibril morphology with severe effects on tensile strength of connective tissues. Person with classical EDS (c) show composite fibrils. Fibrils from a TNX-deficient person (d) are uniform in size and no composite fibrils are seen. TNX-null (e) fibrils are less densely packed and not as well aligned to neighboring fibrils.

Every type of EDS, except the hypermobile type, can be positively tied to specific genetic variation.

Variations in these genes can cause EDS:

  • Collagen primary structure and collagen processing: ADAMTS2, COL1A1, COL1A2, COL3A1, COL5A1, COL5A2
  • Collagen folding and collagen cross-linking: PLOD1, FKBP14
  • Structure and function of myomatrix: TNXB, COL12A1
  • Glycosaminoglycan biosynthesis: B4GALT7, B3GALT6, CHST14, DSE
  • Complement pathway: C1R, C1S
  • Intracellular processes: SLC39A13, ZNF469, PRDM5

Variations in these genes usually alter the structure, production, or processing of collagen or proteins that interact with collagen. Collagen provides structure and strength to connective tissue. A defect in collagen can weaken connective tissue in the skin, bones, blood vessels, and organs, resulting in the features of the disorder. Inheritance patterns depend on the specific syndrome.

Most forms of EDS are inherited in an autosomal dominant pattern, which means only one of the two copies of the gene in question must be altered to cause a disorder. A few are inherited in an autosomal recessive pattern, which means both copies of the gene must be altered for a person to be affected by a disorder. It can also be an individual (de novo or "sporadic") variation. Sporadic variations occur without any inheritance.


A diagnosis can be made by an evaluation of medical history and clinical observation. The Beighton criteria are widely used to assess the degree of joint hypermobility. DNA and biochemical studies can help identify affected individuals. Diagnostic tests include collagen gene-variant testing, collagen typing via skin biopsy, echocardiogram, and lysyl hydroxylase or oxidase activity. However, these tests are not able to confirm all cases, especially in instances of an unmapped variation, so clinical evaluation remains important. If multiple individuals in a family are affected, performing prenatal diagnosis may be possible using a DNA information technique known as a linkage study. Knowledge about EDS among all kinds of practitioners is poor. Research is ongoing to identify genetic markers for all types.


In 2017, 13 subtypes of EDS were classified using specific diagnostic criteria. According to The Ehlers-Danlos Society, the syndromes can also be grouped by the symptoms determined by specific gene mutations. Group A disorders are those which affect primary collagen structure and processing. Group B disorders affect collagen folding and crosslinking. Group C are disorders of structure and function of myomatrix. Group D disorders are those that affect glycosaminoglycan biosynthesis. Group E disorders are characterized by defects in the complement pathway. Group F are disorders of intracellular processes, and Group G is considered to be unresolved forms of EDS.

Hypermobile EDS

finger hypermobility

Hypermobile EDS (formerly categorized as type 3) is mainly characterized by hypermobility that affects both large and small joints. It may lead to frequent joint subluxations (partial dislocations) and dislocations. In general, people with this variant have skin that is soft, smooth, and velvety and bruises easily, and may have chronic muscle and/or bone pain. It affects the skin less than other forms. It has no available genetic test. Hypermobility EDS (hEDS) is the most common of the 19 types of connective tissue disorders. Since there is no known genetic test, providers have to diagnose hEDS based on what they already know about the condition and the physical attributes that the patient shows. Other than the general signs, attributes can include faulty connective tissues throughout the body, musculoskeletal issues, and family history. Along with these general signs and side effects, patients can have trouble healing.

Women who are pregnant should be warned about things such as pre-labor rupture of membranes, drop in blood pressure with anesthesia, precipitate birth (very fast active labor), malposition of bleeding, and more. New mothers with hEDS should pay extra attention to taking care of their new baby. Mothers may have trouble taking care of the baby because of the risk of dropping the baby due to weak connective tissue in arms and legs, falling, postpartum depression (more than the general population), and healing from the birthing process.

Classical EDS

Classical EDS (formerly categorized as type 1) is characterized by extremely elastic skin that is fragile and bruises easily; and hypermobility of the joints. Molluscoid pseudotumors (calcified hematomas that occur over pressure points) and spheroids (cysts that contain fat occurring over forearms and shins) also are seen often. A side complication of the hyperelasticity presented in many cases of EDS makes it more difficult for wounds to close on their own. Sometimes, motor development is delayed and hypotonia occurs. The variation causing this type of EDS is in the genes COL5A2, COL5A1, and less frequently COL1A1. It involves the skin more than hypermobile EDS. In classical EDS there is often large variation in symptom presentation from patient to patient. Because of this variance EDS has often been an under diagnosed disorder. Without genetic testing healthcare professionals may be able to provide a provisional diagnosis based on careful examination of the mouth, skin, and bones. As well as through neurological assessments. The hyperelasticity of skin in EDS patients can be difficult to use in diagnosis because there is no good standardized way to measure and assess the elasticity of the skin. However, hyperelasticity is still a good indicator as something that may point towards EDS along with other symptoms.

A good way to begin the diagnosis process is looking at family history, EDS is an autosomal dominant condition and so is often inherited from family members. Genetic testing remains the most reliable way for an EDS diagnosis to be made. While there is no cure for type 1 EDS, a course of non weight bearing exercising can help with muscular tension which can help correct some of the symptoms of EDS. Anti inflammatory drugs as well as lifestyle changes can help with joint pain. Lifestyle choices should also be made with children that have EDS to try and prevent wounds to the skin. Wearing protective garments can help with this. In the event of a wound often deep stitches are used and left in place for a longer period of time than normal.

Vascular variant of Ehlers–Danlos syndrome

Vascular EDS (formerly categorized as type 4) is identified by skin that is thin, translucent, extremely fragile, and bruises easily. It is also characterized by fragile blood vessels and organs that can easily rupture. Affected people are frequently short, and have thin scalp hair. It also has characteristic facial features including large eyes, an undersized chin, sunken cheeks, a thin nose and lips, and ears without lobes. Joint hypermobility is present, but generally confined to the small joints (fingers, toes). Other common features include club foot, tendon and/or muscle rupture, acrogeria (premature aging of the skin of the hands and feet), early onset varicose veins, pneumothorax (collapse of a lung), recession of the gums, and a decreased amount of fat under the skin. It can be caused by the variations in the COL3A1 gene. Rarely, COL1A1 variations can also cause it.

Kyphoscoliosis EDS

Kyphoscoliosis EDS (formerly categorized as type 6) is associated with severe hypotonia at birth, delayed motor development, progressive scoliosis (present from birth), and scleral fragility. People may also have easy bruising, fragile arteries that are prone to rupture, unusually small corneas, and osteopenia (low bone density). Other common features include a "marfanoid habitus" which is characterized by long, slender fingers (arachnodactyly), unusually long limbs, and a sunken chest (pectus excavatum) or protruding chest (pectus carinatum). It can be caused by variations in the gene PLOD1, or rarely, in the FKBP14 gene.

Arthrochalasia EDS

Arthrochalasia EDS (formerly categorized as types 7A & B) is characterized by severe joint hypermobility and congenital hip dislocation. Other common features include fragile, elastic skin with easy bruising, hypotonia, kyphoscoliosis (kyphosis and scoliosis), and mild osteopenia. Type-I collagen is usually affected. It is very rare, with about 30 cases reported. It is more severe than the hypermobility type. Variations in the genes COL1A1 and COL1A2 cause it.

Dermatosparaxis EDS

Dermatosparaxis EDS (formerly categorized as type 7C) is associated with extremely fragile skin leading to severe bruising and scarring; saggy, redundant skin, especially on the face; hypermobility ranging from mild to serious; and hernias. Variations in the ADAMTS2 gene cause it. It is extremely rare, with around 11 cases reported.

Brittle cornea syndrome

Brittle cornea syndrome is characterized by the progressive thinning of the cornea, early-onset progressive keratoglobus or keratoconus, nearsightedness, hearing loss, and blue sclerae. Classic symptoms, such as hypermobile joints and hyperelastic skin, are also seen often. It has two types. Type 1 occurs due to variations in the ZNF469 gene. Type 2 is due to variations in the PRDM5 gene.

Classical-like EDS

Classical-like EDS is characterized by skin hyperextensibility with velvety skin texture and absence of atrophic scarring, generalized joint hypermobility with or without recurrent dislocations (most often shoulder and ankle), and easily bruised skin or spontaneous ecchymoses (discolorations of the skin resulting from bleeding underneath). It can be caused by variations in the TNXB gene.

Spondylodysplastic EDS

Spondylodysplastic EDS is characterized by short stature (progressive in childhood), muscle hypotonia (ranging from severe congenital, to mild later-onset), and bowing of limbs. It can be caused by variations in both copies of the B4GALT7 gene. Other cases can be caused by variations in the B3GALT6 gene. People with variations in this gene can have kyphoscoliosis, tapered fingers, osteoporosis, aortic aneurysma, and problems with the lungs. Other cases can be caused by the SLC39A13 gene. Those with variations in this gene have protuberant eyes, wrinkled palms of the hands, tapering fingers, and distal joint hypermobility.

Musculocontractural EDS

Musculocontractural EDS is characterized by congenital multiple contractures, characteristically adduction-flexion contractures and/or talipes equinovarus (clubfoot), characteristic craniofacial features, which are evident at birth or in early infancy, and skin features such as skin hyperextensibility, bruising, skin fragility with atrophic scars, and increased palmar wrinkling. It can be caused by variations in the CHST14 gene. Some other cases can be caused by variations in the DSE gene.

Myopathic EDS

Myopathic EDS (mEDS) is characterized by three major criteria: congenital muscle hypotonia and/or muscle atrophy that improves with age, proximal joint contractures of the knee, hip, and elbow, and hypermobility of distal joints (ankles, wrists, feet, and hands). There are also four minor criteria that may contribute to a diagnosis of mEDS. This disorder can be inherited through either an autosomal dominant or an autosomal recessive pattern. Molecular testing must be completed to verify that mutations in the COL12A1 gene are present; if not, other collagen-type myopathies should be considered.

Periodontal EDS

Periodontal EDS (pEDS) is an inherited autosomal dominant disorder characterized by four major criteria of severe and intractable periodontitis of early onset (childhood or adolescence), lack of attached gingiva, pretibial plaques, and family history of a first-degree relative who meets clinical criteria. Eight minor criteria may also contribute to the diagnosis of pEDS. Molecular testing may reveal mutations in C1R or C1S genes affecting the C1r protein.

Cardiac-valvular EDS

Cardiac-valvular EDS (cvEDS) is characterized by three major criteria: severe progressive cardiac-valvular problems (affecting aortic and mitral valves), skin problems such as hyperextensibility, atrophic scarring, thin skin, and easy bruising, and joint hypermobility (generalized or restricted to small joints). There are also four minor criteria which may aid in diagnosis of cvEDS. Cardiac-valvular EDS is an autosomal recessive disorder, inherited through variation in both alleles of the gene COL1A2.


Until 1997, the classification system for EDS included 10 specific types, and also acknowledged that other extremely rare types existed. At this time, the classification system underwent an overhaul and was reduced to six major types using descriptive titles. Genetic specialists recognize that other types of this condition exist, but have only been documented in single families. Except for hypermobility (type 3), the most common type of all ten types, some of the specific variations involved have been identified and they can be precisely identified by genetic testing; this is valuable due to a great deal of variation in individual cases. However, negative genetic test results do not rule out the diagnosis, since not all of the variations have been discovered; therefore, the clinical presentation is very important.

Forms of EDS in this category may present with soft, mildly stretchable skin, shortened bones, chronic diarrhea, joint hypermobility and dislocation, bladder rupture, or poor wound healing. Inheritance patterns in this group include X-linked recessive, autosomal dominant, and autosomal recessive. Examples of types of related syndromes other than those above reported in the medical literature include:

  • 305200: type 5
  • 130080: type 8 – unspecified gene, locus 12p13
  • 225310: type 10 – unspecified gene, locus 2q34
  • 608763: Beasley–Cohen type
  • 130070: progeroid form – B4GALT7
  • 130090: type unspecified
  • 601776: D4ST1-deficient Ehlers–Danlos syndrome (adducted thumb-clubfoot syndrome) CHST14

Differential diagnosis

Several disorders share some characteristics with EDS. For example, in cutis laxa, the skin is loose, hanging, and wrinkled. In EDS, the skin can be pulled away from the body, but is elastic and returns to normal when let go. In Marfan syndrome, the joints are very mobile and similar cardiovascular complications occur. People with EDS tend to have a "marfanoid" appearance (e.g., tall, skinny, long arms and legs, "spidery" fingers). However, physical appearance and features in several types of EDS also have characteristics including short stature, large eyes, and the appearance of a small mouth and chin, due to a small palate. The palate can have a high arch, causing dental crowding. Blood vessels can sometimes be easily seen through translucent skin, especially on the chest. The genetic connective tissue disorder, Loeys–Dietz syndrome, also has symptoms that overlap with EDS.

In the past, Menkes disease, a copper metabolism disorder, was thought to be a form of EDS. People are not uncommonly misdiagnosed with fibromyalgia, bleeding disorders, or other disorders that can mimic EDS symptoms. Because of these similar disorders and complications that can arise from an unmonitored case of EDS, a correct diagnosis is important. Pseudoxanthoma elasticum (PXE) is worth consideration in diagnosis.


There is no known cure for Ehlers–Danlos syndromes and treatment is supportive. Close monitoring of the cardiovascular system, physiotherapy, occupational therapy, and orthopedic instruments (e.g., wheelchairs, bracing, casting) may be helpful. This can help stabilize the joints and prevent injury. Orthopedic instruments are helpful for the prevention of further joint damage, especially for long distances, although individuals are advised not to become dependent on them until other mobility options have been exhausted. People should avoid activities that cause the joint to lock or overextend.

A physician may prescribe casting to stabilize joints. Physicians may refer a person to an orthotist for orthotic treatment (bracing). Physicians may also consult a physical and/or occupational therapist to help strengthen muscles and to teach people how to properly use and preserve their joints.

Aquatic therapy promotes muscular development and coordination. With manual therapy, the joint is gently mobilized within the range of motion and/or manipulations. If conservative therapy is not helpful, surgical joint repair may be necessary. Medication to decrease pain or manage cardiac, digestive, or other related conditions may be prescribed. To decrease bruising and improve wound healing, some people have responded to vitamin C. Special precautions are often taken by medical care workers because of the sheer number of complications that tend to arise in people with EDS. In vascular EDS, signs of chest or abdominal pain are considered trauma situations.

Cannabinoids and medical marijuana have shown some efficacy in reducing pain levels.

In general, medical intervention is limited to symptomatic therapy. Before pregnancy, people with EDS should have genetic counseling and familiarize themselves with the risks to their own bodies that pregnancy poses. Children with EDS should be provided with information about their disorder so they can understand why they should avoid contact sports and other physically stressful activities. Children should be taught that demonstrating the unusual positions that they can maintain due to loose joints should not be done, as this may cause early degeneration of the joints. Emotional support along with behavioral and psychological therapy can be useful. Support groups can be immensely helpful for people dealing with major lifestyle changes and poor health. Family members, teachers, and friends should be informed about EDS so they can accept and assist the child.

Pain management

Successfully treating chronic pain in EDS needs a multidisciplinary team. The ways to manage pain can be to modify pain management techniques used in the normal population. Chronic pain has two types. The first type is the nociceptive type, which is caused by injury sustained to tissues. The second type is neuropathic pain. It is caused by abnormal signals by the nervous system. In most cases, the pain is an unequal mix of the two. Physiotherapy (exercise rehabilitation), has evidence of positive effect. It is primarily stabilizing the core of the body and the joints. Stretching exercises must be reduced to slow and gentle stretching to reduce the risks of dislocations or subluxations. Usable methods may include posture re-education, muscle release, joint mobilization, trunk stabilization, and manual therapy for overworked muscles. Cognitive behavioural therapy (CBT) is used in all chronic pain patients, especially those who have severe, chronic, life-controlling pain that is unresponsive to treatment. It had not been checked for efficiency in clinical trials as to date. The current state of pain management with EDS is considered insufficient.


Nonsteroidal anti-inflammatory drugs (NSAIDs) may help if the pain is caused by inflammation. However, long-term use is NSAIDs is often a risk factor of gastrointestinal, renal, and blood-related side effects. It can worsen symptoms of mast cell activation syndrome, a disease that may be associated with EDS. Acetaminophen can be used to avoid the bleeding-related side effects of NSAIDs.

Opioids can be an option for extreme short-term pain, but only for short-term use. Opioids are addictive, and long-term use is associated with increased central pain sensitivity and is therefore not a good option. They can worsen gastrointestinal symptoms like nausea and constipation and mast cell activation syndrome, which may occur with EDS.

Lidocaine can be applied topically after subluxations and painful gums. It can also be injected into painful areas in the case of musculoskeletal pain.

If the pain is neuropathic in origin, tricyclic antidepressants in low doses, anticonvulsants, and selective norepinephrine reuptake inhibitors can be used.


The instability of joints, leading to subluxations and joint pain, often requires surgical intervention in people with EDS. Instability of almost all joints can happen, but appears most often in the lower and upper extremities, with the wrist, fingers, shoulder, knee, hip, and ankle being most common.

Common surgical procedures are joint debridement, tendon replacements, capsulorrhaphy, and arthroplasty. After surgery, the degree of stabilization, pain reduction, and people's satisfaction can improve, but surgery does not guarantee an optimal result: affected peoples and surgeons report being dissatisfied with the results. Consensus is that conservative treatment is more effective than surgery, particularly since people have extra risks of surgical complications due to the disease. Three basic surgical problems arise due to EDS: the strength of the tissues is decreased, which makes the tissue less suitable for surgery; the fragility of the blood vessels can cause problems during surgery; and wound healing is often delayed or incomplete. If considering surgical intervention, seeking care from a surgeon with extensive knowledge and experience in treating people with EDS and joint hypermobility issues would be prudent.

Local anesthetics, arterial catheters, and central venous catheters cause a higher risk of bruise formation in people with EDS. Some people with EDS also show a resistance to local anaesthetics. Resistance to lidocaine and bupivacaine is not uncommon, and mepivacaine tends to work better in people with EDS. There are special recommendations for anesthesia in people with EDS. Detailed recommendations for anesthesia and perioperative care of people with EDS should be used to improve safety.

Surgery in people with EDS requires careful tissue handling and a longer immobilization afterward.


The outcome for individuals with EDS depends on the specific type of EDS they have. Symptoms vary in severity, even in the same disorder, and the frequency of complications varies. Some people have negligible symptoms, while others are severely restricted in daily life. Extreme joint instability, chronic musculoskeletal pain, degenerative joint disease, frequent injuries, and spinal deformities may limit mobility. Severe spinal deformities may affect breathing. In the case of extreme joint instability, dislocations may result from simple tasks such as rolling over in bed or turning a doorknob. Secondary conditions such as autonomic dysfunction or cardiovascular problems, occurring in any type, can affect prognosis and quality of life. Severe mobility-related disability is seen more often in hypermobile EDS than in classical EDS or vascular EDS.

Although all types of EDS are potentially life-threatening, most people have a normal lifespan. However, those with blood-vessel fragility have a high risk of fatal complications, including spontaneous arterial rupture, which is the most common cause of sudden death. The median life expectancy in the population with vascular EDS is 48 years.



  • Pseudoaneurysm
  • Vascular lesions (nature is disputed) due to tears in the lining of the arteries or deterioration of congenitally thin and fragile tissue
  • Enlarged arteries


  • 50% risk of colonic perforation


  • Pregnancy increases the likelihood of uterine rupture
  • Maternal mortality around 12%
  • Uterine hemorrhage during the postpartum recovery


Ehlers–Danlos syndromes are inherited disorders estimated to occur in about one in 5,000 births worldwide. Initially, prevalence estimates ranged from one in 250,000 to 500,000 people, but these estimates were soon found to be too low, as more was studied about the disorders, and medical professionals became more adept at diagnosis. EDS may be far more common than the currently accepted estimate due to the wide range of severities with which the disorder presents.

The prevalence of the disorders differs dramatically. The most commonly occurring is hypermobile EDS, followed by classical EDS. The others are very rare. For example, fewer than 10 infants and children with dermatosparaxis EDS have been described worldwide.

Some types of EDS are more common in Ashkenazi Jews. For example, the chance of being a carrier for dermatosparaxis EDS is one in 248 in Ashkenazi Jews, whereas the prevalence of this variation in the general population is one in 2,000.

Society and culture

Gary "Stretch" Turner showing his extreme Ehlers–Danlos syndrome

EDS may have contributed to the virtuoso violinist Niccolò Paganini's skill, as he was able to play wider fingerings than a typical violinist.

Many sideshow performers have EDS. Several of them were billed as the Elastic Skin Man, the India Rubber Man, and Frog Boy. They included such well-known individuals (in their time) as Felix Wehrle, James Morris, and Avery Childs. Two performers with EDS currently hold world records. Contortionist Daniel Browning Smith has hypermobile EDS and holds the current Guinness World Record for the most flexible man as of 2018, while Gary "Stretch" Turner (shown right), sideshow performer in the Circus Of Horrors, has held the current Guinness World Record for the most elastic skin since 1999, for his ability to stretch the skin on his stomach 6.25 inches.

Notable cases

Stevie Boebi and Annie Elainey who have EDS stood with walking aids on the red carpet
Pageant contestant Victoria Graham has EDS
  • Actress Cherylee Houston, hypermobile EDS. She uses a wheelchair and was the first full-time disabled actress on Coronation Street.
  • Drag queen and winner of the eleventh season of RuPaul's Drag Race Yvie Oddly
  • Eric the Actor, a regular caller to The Howard Stern Show
  • Actress and activist Jameela Jamil, hypermobile EDS
  • Writer and actress Lena Dunham
  • Australian singer Sia
  • YouTuber and disability rights activist Annie Elainey
  • Miss America 2020 Camille Schrier

Other species

Ehlers–Danlos-like syndromes have been shown to be hereditary in Himalayan cats, some domestic shorthair cats, and certain breeds of cattle. It is seen as a sporadic condition in domestic dogs. It has a similar treatment and prognosis. Animals with the condition should not be bred, as the condition can be inherited.