Skeletal Dysplasia: Difference between revisions

Introduction[edit | edit source]

Skeletal dysplasias, also known as osteochondrodysplasias, constitute a diverse group of conditions characterized by anomalies in the growth or texture of bone and cartilage. These rare genetic disorders, collectively termed skeletal dysplasia, impact bone growth and development, leading to variations in bone size, shape, and structure, which manifest as short stature, limb deformities, and various other skeletal irregularities.

Skeletal dysplasias are caused by genetic mutations and their phenotypes evolve over a lifetime. This contrasts with dysostoses, which are malformations of single or multiple bones due to abnormal blastogenesis in utero and whose phenotypes do not change throughout life..^[1]

Epidemiology[edit | edit source]

Approximately 1 in 5,000 infants are born with a form of skeletal dysplasia. However, when considered together, genetic skeletal dysplasias, also known as osteochondrodysplasias, constitute a distinct group of genetic disorders characterized by widespread skeletal abnormalities.

Etiology[edit | edit source]

Skeletal dysplasia results from mutations in the genes that regulate bone growth and development. These mutations may be inherited from one or both parents, or they may arise spontaneously during the development of the fetus.

Clinical Signs and Symptoms[edit | edit source]

The symptoms of skeletal dysplasia can vary widely, depending on the specific disorder and its severity. Common symptoms include:

Short stature: Individuals with skeletal dysplasia often have a height that is below average for their age and gender.

Limb deformities: This condition can lead to limb size and shape abnormalities, such as bowed legs, knock-knees, and a curved spine.

Joint pain: People with skeletal dysplasia may experience joint pain and stiffness, especially in the hips and knees.

Breathing difficulties: Some individuals may have narrowed airways, resulting in breathing challenges.

Dental abnormalities: Certain skeletal dysplasia types can affect dental health, leading to missing or malformed teeth.

Skeletal dysplasia Classification[edit | edit source]

In the 2010 nosology, the first eight groups of conditions are categorized by the molecular basis of the disease: FGFR3, type 2 collagen, type 11 collagen, sulfation disorders, perlecan, aggrecan, filamin, and TRPV4.

The remaining 32 groups are classified based on their clinical and radiographic characteristics. The prefixes acro-, meso-, rhizo-, spondylo-, epi-, and meta- refer to different parts of the body: acro- to the extremities, meso- to the middle segments, rhizo- to the proximal segments, spondylo- to the spine, epi- to the epiphyses, and meta- to the metaphyses. For instance, if only the hands and feet are affected, the acromelic group of conditions would be relevant, while the spondylometaphyseal dysplasias would be consulted if the spine and metaphyses are involved.

Groups of conditions organized according to their molecular bases;

• FGFR3 chondrodysplasia group
• Type 2 collagen group and similar disorders
• Type 11 collagen group
• Sulfation disorders group
• Perlecan group
• Aggrecan group
• Filamin group and related disorders
• TRPV4 group

Conditions can be grouped based on their clinical presentations;

• Short-rib dysplasias group (may include polydactyly)
• Group comprising multiple epiphyseal dysplasia and pseudoachondroplasia
• Metaphyseal dysplasias
• Spondylometaphyseal dysplasias (SMD)
• Spondylo-epi-(meta)-physeal dysplasias (SE(M)D)
• Severe spondylodysplastic dysplasias
• Acromelic dysplasias (affecting limb extremities)
• Acromesomelic dysplasias (involving limb extremities and midsections)
• Mesomelic and rhizo-mesomelic dysplasias (affecting proximal and middle limb sections)
• Bent bone dysplasias
• Slender bone dysplasia group
• Dysplasias associated with multiple joint dislocations
• Chondrodysplasia punctata (CDP) group
• Neonatal osteosclerotic dysplasias
• Increased bone density group (without bone shape alteration)
• Increased bone density group with metaphyseal and/or diaphyseal involvement
• Osteogenesis imperfecta and decreased bone density group
• Group with abnormal mineralization
• Lysosomal storage diseases with skeletal involvement (dysostosis multiplex group)
• Osteolysis group
• Group with disorganized development of skeletal components
• Overgrowth syndromes with skeletal involvement
• Genetic inflammatory/rheumatoid-like osteoarthropathies
• Cleidocranial dysplasia and isolated cranial ossification defects group
• Craniosynostosis syndromes
• Dysostoses predominantly involving craniofacial regions
• Dysostoses predominantly involving vertebral and/or costal regions
• Patellar dysostoses
• Brachydactylies (may include extraskeletal manifestations)
• Limb hypoplasia-reduction defects group
• Polydactyly-Syndactyly-Triphalangism group
• Defects in joint formation and synostoses

Types of Skeletal dysplasias[edit | edit source]

Achondroplasia[edit | edit source]

Achondroplasia is an autosomal dominant genetic condition and the leading cause of dwarfism. It is also the most common type of non-lethal osteochondrodysplasia, or skeletal dysplasia, occurring in approximately 1 in 25,000 births. Those with achondroplasia generally have a shorter stature, with the average height for adult males being 131 cm (4 feet, 3 inches) and for females 123 cm (4 feet, 0 inches).

The condition is apparent at birth, as are craniofacial abnormalities like macrocephaly and mid-face hypoplasia. These clinical features differentiate achondroplasia from pseudoachondroplasia, where dwarfism is not evident at birth and craniofacial abnormalities are not typical. Plain radiography is essential for the differential diagnosis of achondroplasia.^[2]

Pseudoachondroplasia[edit | edit source]

Pseudoachondroplasia is an osteochondrodysplasia made distinctive by disproportionate short stature, hip and knee deformities, brachydactyly (short fingers) and ligamentous laxity. It affects at least 1 in 20,000 individuals. Pseudoachondroplasia is inherited in an autosomal dominant manner and is caused solely by mutations in the cartilage oligomeric matrix protein COMP gene.^[3]

It’s distinguished by a moderate to severe form of disproportionate short-limb short stature. The limb shortening is fundamentally confined to the proximal limb segments i.e., Femurs and humeri. A known presenting feature is a waddling gait, noticed at the onset of walking.

A prompt diagnosis of a skeletal dysplasia in general and Pseudoachondroplasia in specific is still based upon a comprehensive clinical and radiographic correlation.^[4] A detailed radiographic examination of the axial and appendicular skeleton is invaluable for the differential diagnosis of Pseudoachondroplasia. Coxa vara (reduced neck shaft angle), broad femoral necks, short femurs and humeri, and bullet-shaped vertebrae are noticeable radiographic features. Additionally, the presence of metaphyseal broadening, cupping and dense line of ossification about the knee can simulate rachitic changes. These radiographic features are collectively known as rachitic-like changes. The presence of epiphyseal changes serves as an important differentiating feature from achondroplasia.^[4]

Osteogenesis imperfecta[edit | edit source]

COL1A1/2-related Osteogenesis Imperfecta is transmitted in an autosomal dominant pattern. A significant number of cases are due to de novo mutations in the COL1A1 or COL1A2 genes, which are responsible for most instances of perinatally lethal and progressively deforming osteogenesis imperfecta. In the classic non-deforming type with blue sclerae and the common variable type with normal sclerae, about 60% of cases arise de novo. This condition is characterized by frequent fractures from minor trauma, defective dentinogenesis imperfecta, and hearing loss.

The clinical manifestations of COL1A1/2-related osteogenesis imperfecta vary widely, from severe and life-threatening perinatal fractures to individuals with a minimal tendency for repeated fractures, skeletal deformities, and a normal stature and lifespan. The clinical spectrum also includes individuals with varying degrees of disabling skeletal deformities and short stature. Radiographic signs of osteogenesis imperfecta may show long bone deformities, such as bowing of the tibias and femurs, bones resembling pencils in shape and tapering, cortical thinning and rarefaction, pathological fractures in different stages of healing, bone shortening, and vertebral wedging. Consequently, COL1A1/2-related osteogenesis imperfecta is categorized into four sub-types (I, II, III, and IV), based on the variety of radioclinical features.^[5]

Mucopolysaccharidosis[edit | edit source]

Mucopolysaccharidosis (MPS) represents a group of osteochondrodysplasias frequently encountered in clinical practice. MPS can lead to a broad range of clinical and radiological manifestations, from mild skeletal and systemic involvement to severe, life-threatening conditions. It results from a contiguous gene duplication or deletion syndrome involving multiple genes. All forms of MPS are inherited in an autosomal recessive manner, with the exception of MPS II, known as Hunter syndrome, which is X-linked.^[6] They are caused by an abnormal function of the lysosomal enzymes, which blocks degradation of mucopolysaccharides and leads to accumulation of harmful byproducts, namely, heparan sulfate, dermatan sulfate, and keratan sulfate. The resulting cellular malfunction can lead to a diverse array of skeletal and visceral manifestations. MPS have been subcategorized according to the type of enzyme inadequacy and glycoprotein accumulated.^[7]

Cleidocranial dysostosis[edit | edit source]

Cleidocranial dysostosis, a general skeletal disorder, is characterized by deformities of the collarbone (cleido-) and skull (cranium), which are commonly present in affected individuals. Typical characteristics include underdeveloped or absent collarbones, allowing the shoulders to be brought close together, a delayed closure of the front of the skull, a prominent forehead, wide-set eyes, abnormal teeth, and a flat nose.:

• Partly or completely missing collarbones
• A soft spot or larger soft area in the top of the head where the fontanelle failed to close.
• Bones and joints are underdeveloped.
• The permanent teeth include supernumerary teeth.
• Permanent teeth not erupting
• Bossing (bulging) of the forehead.
• Hypertelorism

Fibrous dysplasia[edit | edit source]

Fibrous dysplasia leads to the thinning of bones and the development of growths or lesions within one or more bones in the human body. These lesions, resembling tumors, involve the replacement of medullary bone with fibrous tissue, resulting in the enlargement and weakening of the affected bone areas. Lesions, particularly when they affect the skull or facial bones, can lead to visible deformities. While the skull is frequently involved, it is not always the case, and fibrous dysplasia can affect any bone.^[8]

Langer–Giedion syndrome[edit | edit source]

Langer–Giedion syndrome, a rare genetic disorder, arises from the deletion of chromosomal material. Typically diagnosed at birth or during early childhood, it is characterized by mild to moderate intellectual challenges, short stature, distinctive facial features, a small head, and skeletal anomalies, including protruding bony growths.^[9]

Maffucci syndrome[edit | edit source]

Maffucci syndrome is an irregular condition marked by multiple enchondromas coupled with numerous simple or cavernous soft tissue hemangiomas. Lymphangiomas may also be present..^[10]

Patients appear normal at birth, with the syndrome manifesting during childhood and puberty. The enchondromas impact the extremities, and their distribution is asymmetrical..^[11]

Osteosclerosis[edit | edit source]

Osteosclerosis, characterized by an increase in bone density, is typically identified on an X-ray as a white area, indicating a significant elevation in bone density.

References[edit | edit source]