Exostoses, Multiple Hereditary
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Hereditary multiple osteochondromas (HMO), also known as hereditary multiple exostoses, is a disorder characterized by the development of multiple benign osteocartilaginous masses (
exostoses An exostosis, also known as bone spur, is the formation of new bone on the surface of a bone. Exostoses can cause chronic pain ranging from mild to debilitatingly severe, depending on the shape, size, and location of the lesion. It is most commonl ...
) in relation to the ends of long bones of the lower limbs such as the femurs and tibias and of the upper limbs such as the humeri and forearm bones. They are also known as osteochondromas. Additional sites of occurrence include on flat bones such as the pelvic bone and scapula. The distribution and number of these exostoses show a wide diversity among affected individuals. Exostoses usually present during childhood. The vast majority of affected individuals become clinically manifest by the time they reach adolescence. A small percentage of affected individuals are at risk for development of malignant transformation namely sarcomas. The incidence of hereditary multiple exostoses is around 1 in 50,000 individuals. Hereditary multiple osteochondromas is the preferred term used by the World Health Organization.


Presentation

A noticeable lump in relation to an extremity may be the first presenting symptom. Multiple deformities can arise, namely coronal plane deformities around the knees, ankles, shoulders, elbows, and wrists. For example, genu valgum (knock knees), ankle valgus, ulnar bowing and shortening, and radial head subluxation are encountered. The majority of affected individuals have clinically manifest osteochondromas around the knee. Forearm involvement in HMO is considerable. Furthermore, short stature may occur and is generally disproportionate. Such manifestations usually result from disruption of physeal growth especially that osteochondromas typically arise at the metaphyseal ends of long bones in close proximity to the physis. Intra-articular osteochondromas of the hip can induce limitation of range of motion, joint pain and acetabular dysplasia. Likewise joint pain at other locations and neurovascular compression can occur. Furthermore, functional disability in regard to activities of daily living can be a presenting feature. Spinal deformity pain or neurological compromise should arouse suspicion of involvement of the vertebrae.


Pain

According to self-reports, a far majority of patients experience pain, and about half experience generalized pain. Individuals who had HME-related complications were five times more likely to have pain, while those who had surgery were 3.8 more likely to have pain. No differences were found between males and females with respect to pain, surgery, or HME-related complications.


Possible connection to autism

Some parents of children with HME have observed
autism The autism spectrum, often referred to as just autism or in the context of a professional diagnosis autism spectrum disorder (ASD) or autism spectrum condition (ASC), is a neurodevelopmental condition (or conditions) characterized by difficulti ...
-like social problems in their children. To explore those observations more deeply, a 2012 study by the Sanford-Burnham Medical Research Institute used a mouse model of HME to observe cognitive function. The findings indicated that the mutant mice endorsed three autistic characteristics: social impairment, impairments in ultrasonic vocalization, and repetitive behavior.


Genetics

HME is an
autosomal dominant In genetics, dominance is the phenomenon of one variant (allele) of a gene on a chromosome masking or overriding the effect of a different variant of the same gene on the other copy of the chromosome. The first variant is termed dominant and t ...
hereditary disorder. This means that a patient with HME has a 50% chance of transmitting this disorder to his or her children. Most individuals with HME have a parent who also has the condition, however, approximately 10% -20% of individuals with HME have the condition as a result of a spontaneous mutation and are thus the first person in their family to be affected. HME has thus far been linked with mutations in three genes: * EXT1 which maps to chromosome 8q24.1 * EXT2 which maps to 11p13 * EXT3 which maps to the short arm of Chromosome 19 (though its exact location has yet to be precisely determined) Mutations in these genes typically lead to the synthesis of a truncated EXT protein which does not function normally. It is known that EXT proteins are important enzymes in the synthesis of heparan sulfate; however the exact mechanism by which altered synthesis of heparan sulfate that could lead to the abnormal bone growth associated with HME is unclear. It is thought that normal
chondrocyte Chondrocytes (, from Greek χόνδρος, ''chondros'' = cartilage + κύτος, ''kytos'' = cell) are the only cells found in healthy cartilage. They produce and maintain the cartilaginous matrix, which consists mainly of collagen and proteog ...
proliferation and differentiation may be affected, leading to abnormal bone growth. Since the HME genes are involved in the synthesis of a glycan ( heparan sulfate), HME may be considered a congenital disorder of glycosylation according to the new CDG nomenclature suggested in 2009. For individuals with HME who are considering starting a family, preimplantation genetic testing and prenatal diagnosis are available to determine if their unborn child has inherited the disease. HME has a 96% penetrance, which means that if the affected gene is indeed transmitted to a child, the child will have a 96% of actually manifesting the disease, and 4% chance of having the disease but never manifesting it. The 96% penetrance figure comes from only one study. Other studies have observed both incomplete and variable penetrance but without calculating the % penetrance, e.g. In both the aforementioned studies the symptomless individuals carrying the faulty gene were predominantly female, leading to speculation that incomplete penetrance is more likely to be exhibited in females. Indeed, other work has shown that boys/men tend to have worse disease than females, as well as that the number of exostoses in affected members of the same family can vary greatly. It is also possible for females to be severely affected. Severity of symptoms varies between individuals, even in the same family. Symptoms are more likely to be severe if the mutation is on the ''ext1'' gene rather than ''ext2'' or ''ext3''; ''ext1'' is also the most commonly affected gene in patients of this disorder.


Pathophysiology

It is characterized by the growth of cartilage-capped benign
bone tumour A bone tumor is an abnormal growth of tissue in bone, traditionally classified as noncancerous (benign) or cancerous (malignant). Cancerous bone tumors usually originate from a cancer in another part of the body such as from lung, breast, thyroi ...
s around areas of active bone growth, particularly the metaphysis of the long bones. Typically five or six exostoses are found in upper and lower limbs. Most common locations are: *
Distal Standard anatomical terms of location are used to unambiguously describe the anatomy of animals, including humans. The terms, typically derived from Latin or Greek roots, describe something in its standard anatomical position. This position pro ...
femur (70%) *
Proximal Standard anatomical terms of location are used to unambiguously describe the anatomy of animals, including humans. The terms, typically derived from Latin or Greek roots, describe something in its standard anatomical position. This position ...
tibia (70%) *
Humerus The humerus (; ) is a long bone in the arm that runs from the shoulder to the elbow. It connects the scapula and the two bones of the lower arm, the radius and ulna, and consists of three sections. The humeral upper extremity consists of a roun ...
(50%) * Proximal fibula (30%) HME can lead to the shortening and bowing of bones; affected individuals often have a short stature. Depending on their location the exostoses can cause the following problems: pain or numbness from nerve compression, vascular compromise, inequality of limb length, irritation of tendon and muscle, Madelung's deformity as well as a limited range of motion at the joints upon which they encroach. A person with HME has an increased risk of developing a rare form of bone cancer called chondrosarcoma as an adult. Problems may be had in later life and these could include weak bones and nerve damage. The reported rate of transformation ranges from as low as 0.57% to as high as 8.3% of people with HME. Some authors have described an association between HME and the presence of popliteal pseudoaneurysms Parada Duarte O, Arambula Neira J, Castillo Herazo V, Oviedo Lara M, López Polanco A, Durán Omaña A, Herrera Ortiz AF. Popliteal artery pseudoaneurysm caused by non–penetrating trauma in a patient with hereditary multiple osteochondromatosis. Radiology Case Reports.2021;17(1):185-189. https://doi.org/10.1016/j.radcr.2021.10.025


Diagnosis

The diagnosis of HMO is based upon establishing an accurate correlation between the above-mentioned clinical features and the characteristic radiographic features. Family history can provide an important clue to the diagnosis. This is supplemented by testing for the two genes in which pathogenic variants are known to cause HMO namely EXT1 and EXT2. A combination of sequence analysis and deletion analysis of the entire coding regions of both EXT1 and EXT2 detects pathogenic variants in 70–95% of affected individuals. The hallmark of radiographic diagnosis is the presence of osteochondromas at the metaphyseal ends of long bones in which the cortex and medulla of the osteochondroma represent a continuous extension of the host bone. This is readily demonstrable in radiographs of the knees.


Treatment

The indications for surgical intervention in individuals with HMO remain unclear and vary greatly across the medical literature. In general surgical treatment of HMO includes one or more of the following procedures: ostechondroma excision, gradual or acute bone lengthening such as the ulna lengthening, corrective osteotomies, temporary hemiepiphysiodesis to correct angular joint deformities such as distal radius hemiepiphysiodesis and medial distal tibial hemiepiphysiodesis. Nevertheless, there is little evidence to support the ongoing pediatric orthopedic practice in hereditary multiple osteochondromas. Recent systematic reviews found insufficient evidence to prove that the ongoing surgical treatment of HMO improves function considerably or to prove that it impacts the quality of life of affected children. To enhance the amount of evidence in the medical literature certain recommendations have been put forward. The construction of well-designed prospective studies that can provide a more clear relationship between surgical procedures, patient characteristics and outcomes is on high demand. Otherwise, following the current study designs will continue to raise more questions than answers. Total hip arthroplasty has been used to remedy severe and painful HMO of the hip joint. Total hip arthroplasty in individuals with HMO is challenging because of distortion of anatomy and repeated surgeries performed to address complaints related to exostosis.


Epidemiology

HME is estimated to occur in 1 in 50,000 people.


Additional images

File:EXT (1).jpg, Multiple osteochondromas causing deformity of the forearm (shortening of the Radius with secondary bowing of the Ulna). File:EXT (2).jpg, multiple osteochondromas at the pelvis File:Multiple osteochondromas around the knee.jpg, multiple osteochondromas around the knee File:MO CT-scan1.JPG, CT of osteochondroma in MO


References


External links


GeneReviews: Hereditary Multiple Exostoses
{{Mucopolysaccharidoses Proteoglycan metabolism disorders Rare diseases Skeletal disorders