About giroux barbeau syndrome

What is giroux barbeau syndrome?

Erythrokeratodermia with ataxia (EKDA) is a hereditary disorder of the skin and nervous system (neurocutaneous syndrome) characterized by groups of hard, red plaques that develop during infancy and childhood. When these skin lesions heal, the disorder seems to become dormant for several years, after which the neurological symptoms and signs emerge in the form of a typically awkward gait (ataxia) when the affected individual is around 40 years of age or older.

Many researchers active in the study of the family of diseases known as the ichthyoses consider EKDA to be a variant of an ichthyotic disorder, erythrokeratodermia variabilis (EKDV). However, there is no general consensus on this at this time.

What are the symptoms for giroux barbeau syndrome?

Plaques symptom was found in the giroux barbeau syndrome condition

The symptoms of PSEK usually develop shortly after birth or during the first year of life. Infants develop reddened Plaques of thickened, rough and/or scaly skin, especially on the face, buttocks, arms and legs. Over time, these Lesions can cover large areas of the body. The distribution of these Lesions is almost perfectly symmetrical, meaning the size, shape and location of the Lesions are extremely similar on both sides of the body. These Plaques are slowly progressive increasing in number and size throughout early childhood before either stabilizing, regressing or disappearing sometime later during life. Rarely, waxing and waning may occur. In some patients, the chest and abdomen may become involved. Abnormally thickened or calloused skin on the palms and soles (palmoplantar keratoderma; PPK) is not uncommon and can be disabling.

The majority of individuals with features of erythrokeratoderma belong to the clinical spectrum of erythrokeratodermia variabilis (EKV) or PSEK, hence a unifying name of ‘erythrokeratodermia variabilis et progressiva’ (EKVP) has been coined. The hallmark of classic EKV is the occurrence of figurate-outlined red patches, which seem to come and go quickly (so-called ‘fleeting erythema’), sometimes provoked by sudden temperature changes or other triggers. These Red patches are more common in childhood and seem to disappear in adulthood. Features of both EKV and PSEK may be present within a single family, caused by a sequence change in a connexin gene. Extremely rarely, the sharply demarcated, thickened and red skin Plaques may be distributed in a linear or whorl-like pattern due to mosaicism for a connexin gene mutation in a subset of epidermal skin cells.

Nevertheless, there are many other different forms and causes of erythrokeratoderma, reflecting the clinical and genetic heterogeneity of this condition, which is delineated in the section below.

What are the causes for giroux barbeau syndrome?

Erythrokeratoderma is typically caused by pathogenic variants (mutations) in any of the known genes or an as of yet unidentified gene. These conditions may occur at random (i.e., spontaneous new mutation) or be inherited in an autosomal dominant or autosomal recessive pattern.

Dominant genetic disorders occur when only a single copy of a non-working gene is necessary to cause a particular disease. The non-working gene can be inherited from either parent or can be the result of a mutated (changed) gene in the affected individual. The risk of passing the non-working gene from an affected parent to an offspring is 50% for each pregnancy. The risk is the same for males and females.

Recessive genetic disorders occur when an individual inherits a non-working gene from each parent. If an individual receives one working gene and one non-working gene for the disease, the person will be a carrier for the disease, but usually will not show symptoms. The risk for two carrier parents to both pass the non-working gene and, therefore, have an affected child is 25% with each pregnancy. The risk to have a child who is a carrier, like the parents, is 50% with each pregnancy. The chance for a child to receive working genes from both parents is 25%. The risk is the same for males and females.

Recent research has shown that erythrokeratoderma may have several different causes and may be a feature of a variety of genetic skin disorders. Types of erythrokeratoderma have been classified as follows based on genetic causes.

Autosomal dominant erythrokeratoderma

  • Erythrokeratodermia variabilis et progressive (EKVP) – Connexin genes GJB3, GJB4, GJA1
  • Loricrin keratoderma – Loricrin (LOR) gene
  • TRPM4 activation gate-related erythrokeratoderma– TRPM4 gene
  • Erythrokeratodermia-cardiomyopathy (EKC) syndrome- Desmoplakin (DSP) gene
  • PERP-related autosomal dominant (erythro)keratoderma – PERP gene
  • Erythrokeratoderma-spinocerebellar ataxia (SCA34); Lipid biosynthesis (very long chain fatty acid elongation) defect – ELOVL4 gene

Autosomal recessive erythrokeratoderma

  • PERIOPTER (periorificial and ptychotropic erythrokeratoderma) syndrome; erythrokeratodermawith thrombocytopenia – KDSR gene
  • PERP-related autosomal recessive (erythro)keratoderma – PERP gene

Information about the specific causal genes:

Connexin genes

Erythrokeratodermia variabilis et progressiva: GJB3, GJB4, GJA1

The underlying cause of autosomal dominant inherited EKVP is sequence variants (mutations) in one of several connexin genes (GJB3, GJB4, GJA1), which produce components of gap junction channels. Gap junction channels of neighboring cells are assembled from hemichannels accumulating at the cellular membranes at points of cell-cell contact, and connect with another to allow the rapid exchange of ions and small molecules. Gap junction channels and hemichannels play an important role for control of cell volume, for a synchronized response of cells to stimuli and during growth and development. Disease-causing sequence variants on one copy of a connexin gene either have a toxic gain-of-function effect, leading to necrotic cell death due to augmented hemichannel function as shown for GJB3, and/or negatively interfere with the function of other connexins found in the top layers of the skin (epidermis). Very rarely, missense variants in both copies of the GJB3 gene are observed.

Loricrin gene

Loricrin keratoderma: LOR

PSEK-like features are part of the clinical spectrum of loricrin keratoderma caused by a sequence variant (mutation) in the loricrin (LOR) gene. Individuals with loricrin keratoderma have generalized palmoplantar keratoderma with a honeycomb-like surface pattern and may develop circular constriction bands on their digits (so-called ‘mutilating palmoplantar keratoderma’). Individuals in two such families also had typical features of PSEK with well-demarcated red and thickened plaques on the extremities. A few other individuals with loricrin keratoderma were born with a collodion membrane and had generalized redness and scaling resembling congenital ichthyosis. Loricrin keratoderma is inherited in an autosomal dominant manner and caused by small nucleotide deletions/insertions on one copy of the LOR gene, which shift the reading frame and create a protein with significantly altered structural and biochemical characteristics, leading to its accumulation in the nucleus of keratinocytes.

Ceramide synthesis pathway gene KDSR

Autosomal recessive erythrokeratoderma with or without thrombocytopenia; PERIOPTER (periorificial and ptychotropic erythrokeratoderma) syndrome: KDSR

KDSR-related erythrokeratoderma has a broad spectrum of skin features of variable severity, with or without impaired platelet function (thrombocytopenia). Most reported individuals presented at birth with generalized redness, thickened, tight skin (collodion membrane) or severe features of Harlequin ichthyosis. Others had only localized involvement with red, thickened and scaly plaques in the diaper area, or developed thickened skin on palms and soles between 1-2 years of age. Hallmark of this form of erythrokeratoderma are sharply demarcated, red, thickened, verrucous (wart-like) or scaly plaques or linear streaks on the cheeks, chin, nose, around eyes, mouth, and genital and anal regions, as well as palmoplantar keratoderma. Rarely, more extensive skin involvement on arms, legs and torso has been observed. At least half of the reported individuals developed already during infancy a reduced platelet count (thrombocytopenia), which is persistent and sometimes progressive, resulting in easy bruising or bleedings. This disorder is inherited in an autosomal recessive manner, and is caused by sequence variants on both copies of the KDSR gene. KDSR encodes an enzyme involved in the synthesis of complex lipids (ceramides) in skin and bone marrow. Disease-causing gene variants impair enzyme activity and lead to defective acylceramid biosynthesis, thus causing skin features and reduced platelet number and function.

Transient receptor potential channel gene TRPM4

Autosomal dominant PSEK: TRPM4

In three unrelated Chinese families, classic presentation of PSEK with palmoplantar keratoderma transgressing to the back of feet, ankles and lower legs, and fixed, sharp defined plaques around mouth, eyes, and genital areas has been reported in association with disease-causing variants in the TRPM4 gene. This gene encodes a transient receptor potential (TRP) channel that responds to various chemical and physical stimuli by mediating the influx of cations, such as potassium and sodium ions, in skin cells. They have been shown to be regulators of keratinocyte proliferation and differentiation. The reported sequence variants have a gain-of-function effect and increase baseline activity and membrane potential of cation channels, which in turn promotes cell proliferation. The disorder is inherited in an autosomal dominant pattern with a trend for spontaneous remission after puberty.

Very long chain fatty acid elongation gene ELOVL4

Spinocerebellar ataxia-erythrokeratoderma (SCA34): ELOVL4

Spinocerebellar ataxia and erythrokeratoderma (type Giroux-Barbeau; OMIM 133190) is a very rare form of ataxia originally described in a large French-Canadian family. Affected individuals manifested during childhood with symmetrical, well-demarcated, fleeting erythematous patches and scaling or hyperkeratotic plaques on dorsum of hands and feet and on limbs. While the skin lesions disappear in the 3rd decade of life, progressive gait ataxia due to cerebellar atrophy manifests in the fourth and fifth decade. Exome sequencing uncovered a pathogenic missense variant (p. L168F) in the ELOVL4 gene that completely co-segregates with the disorder and appears to have a dominant-negative effect. Other missense variants were reported in additional families, some with ataxia but without skin findings. Loss-of-function variants on one copy of the ELOVL4 gene cause isolated macular degeneration of the eyes, while complete loss of this enzyme due to variants on both copies of ELOVL4 have been associated with ichthyosis, intellectual disability, and spastic quadriplegia, resembling the autosomal recessive neuro-ichthyosis Sjoegren-Larsson syndrome. ELOVL4 encodes an enzyme of the elongase family responsible for the elongation of very long-chain fatty acids, which are crucial for formation of complex lipids in the skin, retina and CNS.

Desmosomal gene PERP

Autosomal dominant or recessive (erythro) keratoderma: PERP

One individual with generalized redness and thickening (hyperkeratosis) of the skin, severe palmoplantar keratoderma with thick plaques over pressure points, and wooly hair was shown to have a loss-of-function variant on both copies of the PERP gene (autosomal recessive inheritance). More frequently, protein truncating variants were observed on one copy of this gene, causing a different clinical presentation consistent with Olmsted syndrome. Affected individuals developed cheilitis, red, thick and scaly plaques around the mouth and outer ears, on buttocks, groin and abdomen, and palmoplantar keratoderma that extends to the dorsum of hands, feet, wrists and ankles (transgredient PPK). In addition, nails were thickened and hair was wooly or curly and yellow. The PERP gene codes for a transcription factor and apoptosis mediator that is also a protein component of desmosomes and other cell junctions. Disease-causing variants likely result in immature desmosomes, reduced cell-cell adhesion in response to mechanical stress and hyperproliferation of the epidermis.

Desmoplakin gene

Erythrokeratodermia-cardiomyopathy (EKC) syndrome- DSP

Erythrokeratodermia associated with cardiomyopathy manifests initially at or after birth as generalized erythrokeratoderma with thickened, peeling and cracking of skin on palms and soles and occasionally hyperkeratotic papules. The disorder involves also other ectodermal tissues, as evidenced by sparse or absent hair, nail dystrophy, enamel defects with widespread caries, hoarse voice and photophobia with corneal opacities leading to vision impairment. Skin lesions are very itchy (pruritus) and unresponsive to oral steroids and antihistamine treatment. There is failure to thrive, and in early childhood affected children develop progressive, left-ventricular dilated cardiomyopathy which can be fatal. This disorder is caused by specific, sporadic occurring missense variants in the DSP gene, which each introduce a proline residue in the spectrin repeat 6 (SR6) of desmoplakin. Desmoplakin is an abundant desmosomal protein in skin and heart responsible for proper cell-cell adhesion, and many other sequence variants have been shown to cause autosomal dominant or autosomal recessive disorders involving the skin, heart, or both, such as wooly hair, palmoplantar keratoderma and cardiomyopathy (Carvajal syndrome), lethal acantholytic epidermolysis bullosa, striate palmoplantar keratoderma, or arrhythmogenic cardiomyopathy (ARVC).

Other, not yet identified genes

Not all individuals with features of erythrokeratoderma have causative sequence changes in the epidermal gene discussed above, and more research is necessary to identify and confirm the specific genetic mutation(s) that cause erythrokeratoderma and to determine the exact underlying mechanisms involved in the development of the disorder.

What are the treatments for giroux barbeau syndrome?

The treatment of erythrokeratoderma is directed toward the specific symptoms that are apparent in each individual such as reducing the thickening and cracking of the skin. Affected individuals may also benefit from treatment with skin softening ointments (emollients) such as petroleum jelly. Some but not all individuals with erythrokeratoderma may also benefit from treatment with keratolytics. Keratolytics are drugs that cause the hardened outer layer of skin to come off (slough). Salicyclic acid is an example of a keratolytic agent that has been used to treat individuals with erythrokeratoderma. Other keratolytics include lotions that contain alpha-hydroxy acids, propylene glycol, lactic acid, vitamin D analogs (calcipotriol), or urea. Some individuals with severe erythrokeratoderma may respond to therapy with narrow-band UV-B light or systemic retinoids. Retinoids are synthetic versions of vitamin A that are used to treat many different skin conditions, and may be highly effective for EKVP and KDSR-related erythrokeratoderma, but also may have serious side effects or adverse reactions and require rigorous monitoring. Other treatment is symptomatic and supportive.

To discuss the potential causes of erythrokeratoderma, the risk of having children with this disorder and the possibility of genetic testing, genetic counseling is recommended for affected individuals and their families.

What are the risk factors for giroux barbeau syndrome?

The Giroux Barbeau syndrome is also called Erythrokeratodermia with ataxia.

  • This disease is caused by pathogenic variants in any of the gens that occur at random patterns or by hereditary patterns. In hereditary patterns, there are autosomal dominant or autosomal recessive patterns.
  • In the autosomal dominant pattern, a single copy of the non-working gene can cause the disease; this non-working gene can be either from parents or from mutation. The risk of passing this gene is 50% among parents for both males and females.


The following are the types based on genetic causes:

  • Erythrokeratodermia variabilis et progressive (EKVP) – Connexin genes GJB3, GJB4, GJA1
  • Loricrin keratoderma – Loricrin (LOR) gene
  • TRPM4 activation gate-related erythrokeratoderma– TRPM4 gene
  • Erythrokeratodermia-cardiomyopathy (EKC) syndrome- Desmoplakin (DSP) gene
  • PERP-related autosomal dominant (erythro)keratoderma – PERP gene
  • Erythrokeratoderma-spinocerebellar ataxia (SCA34); Lipid biosynthesis (very long chain fatty acid elongation) defect – ELOVL4 gene
  • PERIOPTER syndrome, erythrokeratodermawith thrombocytopenia – KDSR gene
  • PERP-related autosomal recessive (erythro) keratoderma – PERP gene

There are some more gens that are not identified yet and more research is yet done to identify the disease and its risk factors more deeply.

Symptoms
Dry skin,Dysarthric speech,Disruption of the ability to walk,Diminished capacity to sweat,Decreased reflexes,Flat, distinct, discolored area of skin less than 1 cm wide,Neurological speech impairments,Etc
Conditions
Dysarthria,Xerosis,Dysdiadochokinesis,Gait disturbance,Hypohidrosis,Hyporeflexia,Neurological speech impairment
Drugs
Medications,Clinical procedures,Diet management,Physical, occupational, and speech therapy,Supportive care

Is there a cure/medications for giroux barbeau syndrome?

Giroux barbeau syndrome is a hereditary disorder of the skin and nervous system also known as Erythrokeratodermia with ataxia (EKDA). In this disease red colored and hard plaques develop in childhood. Symptoms start affecting the skin, but after skin liaison healed and after some years, it starts affecting neurological signs and symptoms.

  • Curing Erythrokeratodermia with ataxia disease is done by its characteristics and symptoms.
  • Sometimes, skin softening materials are used for healing the skin.
  • Keratolytic is a type of drug that creates moisture in the outer layer of the skin by breaking the outer layer, so it helps to reduce the dryness of skin.
  • Salicyclic acid is also effective.
  • Creams and lotions that contain alpha-hydroxy acids, propylene glycol, lactic acid, vitamin D analogs or urea also used for treatment.
  • Narrow-band UV-B light or systemic retinoids is also used for the treatment of skin that are versions of vitamin A, but it has some side effect, so it is done by required monitoring.
  • This is a genetic disorder that comes hereditary from parents, so that there are some genetic counseling is also required for affected children and their family that contains this type of abnormal gens.


Symptoms
Dry skin,Dysarthric speech,Disruption of the ability to walk,Diminished capacity to sweat,Decreased reflexes,Flat, distinct, discolored area of skin less than 1 cm wide,Neurological speech impairments,Etc
Conditions
Dysarthria,Xerosis,Dysdiadochokinesis,Gait disturbance,Hypohidrosis,Hyporeflexia,Neurological speech impairment
Drugs
Medications,Clinical procedures,Diet management,Physical, occupational, and speech therapy,Supportive care

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