Hip dysplasia (HJ), caused by genetic disorders in the formation of hip joint components, is widespread [1, 2]. The pronounced clinical and radiological similarity of its various nosological forms and the possibility of developing disabling complications actualize the implementation of targeted diagnostic measures in newborns and children of the first year of life for the earliest possible detection and possible correction.
Ultrasound examination (ultrasound) of the hip joint in newborns can significantly expand the possibility of early clinical observations of the individual characteristics of the development of the hip joint during the first year of a child’s life.
The relevance of such screening is dictated by the high prevalence of hip joint pathology in children in the first year of life, which is often one of the manifestations of undifferentiated syndrome of congenital connective tissue dysplasia [3]. At the same time, there are no clear algorithms for diagnosing and monitoring children with these anomalies to prevent their transformation into more complex forms, such as Mayer’s dysplasia.
In the domestic literature, Mayer's dysplasia is described very limitedly, its manifestations are not systematized, and therefore the main criteria for diagnosis, prevention and treatment of this disease are not specified [4–6].
Mayer's dysplasia is a variant of epiphyseal dysplasia, which can be complicated by aseptic necrosis of the femoral head and even lead to disability [7]. The pronounced clinical and radiological similarity of hip joint diseases in childhood does not allow us to draw a clear boundary between phenotypes, and with moderate manifestations it may remain undetected altogether [5].
Most often, Mayer's dysplasia has to be differentiated from Perthes' disease. Some authors even consider Mayer's dysplasia to be a precursor to Perthes disease. However, this issue requires further detailed study. Currently, most orthopedists are unanimous in the idea that Mayer’s dysplasia and Perthes’ disease are types of general skeletal dysplasia with varying degrees of severity [5, 8–10].
It is dysplasia of the musculoskeletal system that is most common in young children, differs in number, severity and localization in various parts of the skeleton [6, 10–12], and also serves as frequent phenotypic manifestations of hereditary connective tissue disorders - both monogenic syndromes and polygenic-multifactorial undifferentiated forms [13].
The need for in-depth clinical and instrumental examination of young patients with systemic phenotypic manifestations of developmental disorders of the musculoskeletal system and symmetrical delay in ossification of the hip joint is clear [2, 8].
Despite the etiological similarity, approaches to the treatment of Mayer's dysplasia and Perthes disease are fundamentally different. In this regard, there is a need to create a monitoring system for children in the first year of life to identify symptoms of the disease as early as possible [11, 14, 15].
The purpose of the study is to study the prevalence and mechanisms of development of hip dysplasia against the background of systemic multifactorial connective tissue disorders in children of the first year of life and predictors of its development into Mayer's dysplasia.
Norm of development of ossification nuclei
Ossification is the process of ossification of the heads of the femurs. Ossification of the hip joints occurs over a long period of time. The younger the child, the faster the process of tissue ossification occurs. Sometimes a child may have abnormalities and the nuclei do not appear or develop. It is necessary to notice deviations in time to avoid pathologies in the future.
Ossifications of the hip joint are formed during pregnancy, around the middle of the term (5 months). At birth, the joints consist entirely of cartilaginous tissue, but already have ossification nuclei, they are located near the head of the femur, on average their size is 3-6 mm. In breastfed children, bone development is faster, and pathologies are less common than in children who are fed artificial formula.
In the first year of a child’s life, ossification occurs rapidly, and by six months, full-fledged nuclei should be formed. In boys, development may be delayed by one month.
For reference! The absence of ossification nuclei of the hip joints in newborns can occur during early birth, when the nuclei have not had time to form in the womb.
If lesions do not form by 6 months, this is not yet a reason to worry. If there is no hip dislocation or other pathologies, this may be a natural process. But you need to see a doctor for advice and further monitoring of development. If ossification nuclei are absent due to dysplasia, appropriate therapy will be prescribed.
It is the development of bone tissue that allows a child to begin walking by the age of one year. Further, the ossification process is not so rapid; it decreases with age and stops completely by the age of 20.
Fact! By the age of five, the nuclei increase almost 10 times compared to their initial size in newborns.
Joint damage in childhood
Hemorrhagic vasculitis (Henoch-Schönlein disease)
Joint syndrome: arthralgia or arthritis, polymorphic, predominantly hemorrhagic rash on the lower extremities, large joints, buttocks. Joint syndrome is unstable.
Features: combined with abdominal and renal syndrome.
Chronic ulcerative colitis and Crohn's disease
Articular syndrome: peripheral asymmetric arthritis, with predominant damage to the joints of the lower extremities.
Features: spondylitis, sacroiliitis, associated with the activity of the underlying disease. High detection rate of HLA B27.
Tuberculosis
Articular syndrome: severe arthralgia, spinal damage, unilateral drive, coxitis. Diffuse osteoporosis, marginal bone defects develop, and rarely, a limited bone cavity with the presence of sequestration; destruction of the articular ends of bones, their displacement and subluxation. There is also reactive polyarthritis that develops against the background of visceral tuberculosis. Characteristic damage to small joints.
Features: combined with positive tuberculin tests.
Lyme disease (systemic tick-borne borreliosis)
Articular syndrome: mono-, oligo-, symmetrical polyarthritis. Erosion of cartilage and bones may develop.
Features: combined with tick-borne erythema, damage to the nervous system, heart. Detection of antibodies in blood serum to Borrelia burgdorferi of the IgM and IgG class by indirect immunofluorescence.
Viral arthritis
Arthritis may be associated with viral infections.
Joint syndrome is short-term, completely reversible.
Features: found in acute viral hepatitis, rubella, mumps, chickenpox, arbovirus infection, infectious mononucleosis, parvo- and adenovirus infection, etc. Determination of antibodies to viruses is rarely indicated, since rapid spontaneous recovery usually occurs.
Hypertrophic osteoarthropathy (Marie-Bamberger syndrome)
Articular syndrome: defiguration of fingers in the form of “drumsticks”, hypertrophic periostitis of long tubular bones, arthralgia or arthritis with effusion into the joint cavity. Symmetrical damage to the distal joints of the upper and lower extremities (wrist, tarsus, knee joints).
Features: found in tuberculosis, fibrosing alveolitis, lung cancer, sarcoidosis.
Hemophilia
Joint syndrome: accompanied by bleeding in the joints followed by an inflammatory reaction and effusion. The knee joints are affected, and less commonly, the elbow and ankle, wrist, shoulder and hip joints. Relatively rare - joints of the hands, feet and intervertebral joints.
Features: begins in early childhood.
Leukemia
Joint syndrome: ossalgia, flying arthralgia, asymmetrical arthritis with sharp constant pain in the joints, exudative component and painful contractures.
Features: must be excluded in case of systemic variants of juvenile rheumatoid arthritis (JRA).
Neoplastic processes. Neuroblastoma, sarcoma, osteoid osteoma, metastases in leukemia
Articular syndrome: may be accompanied by myalgia, ossalgia, arthralgia, monoarthritis. Characterized by severe pain in the periarticular areas, a severe general condition that does not correlate with the activity of arthritis.
Features: combined with typical hematological and radiological changes.
Osteoid osteoma
Osteoid osteoma is a benign bone tumor.
Usually the pain is moderate and constant. Typically, the pain occurs in the middle of the night and is severe enough to wake the child.
In these cases, it is necessary to conduct a thorough examination of the child to exclude malignant neoplasms of bone tissue, which have similar symptoms and cause chronic bone pain that can wake the child at night. With osteoid osteoma, taking paracetamol or ibuprofen is usually sufficient to relieve pain. In all cases where a malignant bone tumor is suspected in a child, as well as in cases where the pain is not relieved by paracetamol or ibuprofen, it is necessary to consult the child with an experienced orthopedist familiar with this pathology.
Osteoid osteoma is more common in boys than in girls. In most cases, clinical manifestations appear in adolescence, however, in some cases, the onset of pain and associated anxiety occurs at an earlier age. The usual location of osteoid osteoma is in the hip joint (see below), but sometimes the tumor is located in the knee area. When localized in the hip joint, the diagnosis of osteoid osteoma is not difficult and is easily detected on a regular x-ray. In most cases, once osteoid osteoma is definitively diagnosed, no treatment is required. However, in some cases the pain syndrome can be quite pronounced. In the most severe cases, surgical removal of the area of bone damaged by osteoid osteoma is possible.
Hypothyroidism
Articular syndrome: arthralgia with slight swelling of soft tissues and non-inflammatory effusion into the joint cavity. The knee, ankle and hand joints are affected, and carpal tunnel symptoms may develop.
Features: impaired skeletal formation, slower growth of long tubular bones and ossification, osteoporosis. Muscle weakness and myalgia are evident.
Congenital dislocation of the femur
Congenital dislocation of the femur is detected in newborns during a thorough examination of the hip joints in the maternity hospital and during the first subsequent examination. Immediately after diagnosing the dislocation, an abduction splint should be applied. Congenital dislocation of the femur occurs in approximately 0.7% of newborns. Family cases are common. The hip joints should be examined at the first regular medical examination after birth. If there is a dislocation, the femur returns to its normal position with an audible click. A provocative test is performed by dislocating the femoral head while pressing on the medial sides of the thighs. Different lengths of the lower limbs may indicate a dislocation. It is best detected by bending the legs at the hip and knee joints at an angle of 90°. The presence of asymmetrical inguinal folds suggests congenital dislocation of the femur, however, such a sign is detected 10 times more often than the dislocation itself. The calcaneal-gluteal test for dislocation of the femur is often positive: with the child lying on his stomach, the legs are bent at the knee joint and the hips are extended so that the heels touch the buttocks. The heel on the side of the dislocation crosses the midline and touches the buttock of the opposite side. Congenital dislocation can be bilateral. In such cases, asymmetry tests do not detect dislocation.
Structural abnormalities of the limbs
Clubfoot (talipes equinovarus) can always be diagnosed immediately after birth. With congenital calcaneovalgus clubfoot (talipes calcaneovalgus congenitus), the newborn’s foot is turned into a valgus position and is in dorsiflexion. For this condition, treatment is rarely prescribed; parents are advised to develop the foot. The adductor clubfoot of the metatarsus (talipes metatarsus adductus) is characterized by internal rotation of the forefoot, visible as an inverted curvature of its medial part. Sometimes a plaster cast, adhesive tape, or surgery is indicated.
Flat feet are considered benign if the forefoot can be moved up and down freely and the valgus angle disappears when the child stands on tiptoes.
Walking with internal or external rotation of the foot is a normal condition that does not require treatment.
O-shaped curvature of the legs (genu varum). Consultation with a specialist is indicated for unilateral damage or worsening of the deformity after the second year of life.
X-shaped curvature of the legs (genu valgum). Consultation with a specialist is indicated for unilateral lesions (Blunt's disease), as well as if there is a minimum distance of 10 cm between the ankles at the start of school.
Toes that overlap each other rarely require surgery.
In case of syndactyly of the fingers, the condition is assessed by a pediatric surgeon immediately after birth, if the first and second fingers are involved in the process. In other cases, surgical correction must be performed at the age of 4–5 years. In all cases of syndactyly, consultation with a pediatric surgeon is necessary. For toe syndactyly, treatment is usually not indicated.
Aseptic synovitis of the hip joint
Aseptic synovitis of the hip joint is diagnosed based on typical symptoms, and unnecessary tests should be avoided. The most common cause of acute lameness in children under 10 years of age. In addition to lameness, the child complains of pain in the hip or knee joints and fixes the hip in a position of flexion and external rotation. A typical clinical sign is limited range of motion and pain during internal rotation of the hip. A slight increase in ESR is possible (not higher than 35 mm/h). Effusion into the cavity of the hip joint is easily detected by ultrasound. If possible, ultrasound should always be performed to confirm the diagnosis. The disease is rarely bilateral. Simultaneous damage to other joints excludes aseptic synovitis of the hip joint.
The child is prescribed to rest with his legs bent at the hip joints. Aspiration of the contents of the joint cavity in a hospital setting is necessary only if septic arthritis is suspected or with severe pain. The prognosis is favorable.
Epiphysiolysis of the femoral head
Early diagnosis and surgical treatment of the disease are necessary. If left untreated, medial and posterior displacement of the femoral head progresses and treatment outcome worsens. With moderate and severe diseases, the likelihood of early onset of secondary osteoarthritis increases. The epiphysis of the femoral head slips to the side relative to the femoral neck. The condition is considered stable if the epiphysis is fixed in a new position. An unstable condition means that the pineal gland is not fixed and pain often occurs. The disease occurs between the ages of 10 and 16 years (a little earlier in girls), often in combination with obesity. The disease occurs 2.5 times more often in boys than in girls. Bilateral lesions are noted in 20–30% of cases.
Symptoms: lameness and pain in the knee, hip and groin area occur when supporting the affected limb. Typically, the patient holds the lower limb in a slightly externally rotated position.
Diagnosis: X-ray reveals posterior displacement of the epiphysis. If a disease is suspected (symptoms of hip damage appear at a typical age), it is necessary to evaluate the condition of both limbs in the anteroposterior projection and Lauenstein projection. Indentation caused by recent displacement can be seen on ultrasound. If an effusion is detected on ultrasound, then epiphysiolysis is unstable.
Treatment: Treatment is always surgical. The epiphysis is usually stabilized using a single screw. The smaller the volume of surgical intervention, the better the outcome. It is necessary to consider the possibility of prophylactic fixation of the opposite unaffected hip if the patient is young or if there is an underlying endocrine disease or metabolic disorder (in 7% of cases).
Perthes disease (Legg–Calvé–Perthes disease, pseudocoxalgia)
This is aseptic necrosis of the femoral head, leading after 4–8 months to a clinically manifested subchondral fracture due to physical activity. Fracture and delayed ossification of the cartilage of the femoral head lead to softening of the epiphysis. If left untreated, the femoral head may flatten. It is necessary to diagnose the disease early and treat the tendency to subluxation. The prognosis is favorable if the round shape of the femoral head is preserved. The disease occurs mainly in boys aged 2 to 12 years. The incidence ratio among boys and girls is 5:1. In 10% of cases, the disease is bilateral, but both femoral heads are usually not affected at the same time. The main manifestation is lameness. The disease resembles aseptic synovitis of the hip joint, but begins gradually and becomes protracted or recurrent. The pain is localized in the area between the groin fold and the knee joint. ESR, C-reactive protein level and the number of leukocytes in the blood were not changed. Bone age lags behind passport age by 2 years. Diagnosis is based on radiography: the first sign is a subchondral disorder of the bone structure, subsequently accompanied by the formation of cysts and flattening of the epiphysis. The prognosis for young children (up to 6 years) is favorable.
Osguth–Schlatter disease
Osgut-Schlatter disease is repeated damage to the apophysis of the tibial tuberosity during physical activity. The onset of manifestations coincides with the period of rapid growth in adolescence. Spontaneous healing should be promoted by avoiding excessive stress. Pain occurs in the upper third of the lower leg or knee when running or jumping. While running, the pain is more severe when the heel touches the supporting surface; when the heel is lifted from the surface, the pain is less pronounced (biomechanics of the knee extensor apparatus!). The tibial tuberosity is prominent and sensitive to palpation. Radiography reveals fragmentation of the tuberosity. In typical cases, there is no need for x-rays.
Spondylolisthesis
The most common cause of long-term or recurrent back pain in adolescents. Lower back pain that occurs after exercise and often radiates to the hips may be a sign of spondylolisthesis. Clinical signs:
- excessively pronounced lumbar lordosis;
- the displacement of the vertebra is palpated (palpable “threshold”);
- prominent spinous process.
The diagnosis is based on identifying the displacement of the vertebra on a lateral x-ray (an anteroposterior x-ray is not necessary). The course of spondylolisthesis is monitored by performing radiographs 2-3 times a year (consultation with a pediatric surgeon is also necessary) in children with characteristic manifestations. Excessive stretching (lifting weights, gymnastic exercises) should be avoided.
Scheuermann's disease
Scheuermann's disease is an osteochondritis affecting the anterior part of the vertebral cartilage, occurring in late puberty (ages 13–15 in girls and 15–17 years in boys). The disease occurs 4 times more often in girls than in boys. The most common manifestations are pain in the thoracic spine and back stiffness, and stiffness of the hamstrings.
Diagnosis is based on radiographic findings.
- Wedge-shaped deformity of the vertebral bodies with a flattened anterior part.
- Deformed marginal vertebral plate; Schmorl's hernia (a depression towards the vertebral body) develops in the later stages.
Scoliosis
Scoliosis is idiopathic, progressive in 85% of cases and functional in 15%. Scoliosis is a disease, not bad posture; exercise therapy is not effective for this disease. The disease develops in a phase of rapid growth (at the age of 10–12 years in girls, in boys several years later). For screening, examination of the spine is used in the position of bending the torso forward with straightened legs. Scoliosis is confirmed if one shoulder blade is higher than the other. In mild or controversial cases, children should be monitored at 6-month intervals. The severity of scoliosis is assessed using radiographs, determining the maximum angle of deformity. X-ray examination is indicated if obvious scoliosis is clinically detected.
Calve's disease (vertebra plana)
A rare disease in children aged 2–10 years, manifested by complete flattening of the vertebral body. The clinical picture includes local pain, increased ESR, and sometimes leukocytosis. When carrying out differential diagnosis, it is necessary to exclude tuberculosis. A patient with suspected Calve's disease should be sent to the hospital for further research.
Discosis
Usually aseptic, but can also be caused by bacteria. Difficulty walking and sitting are typical clinical manifestations in preschool children. The diagnosis is based on local tenderness and pain when moving the spine. The diagnosis can be confirmed by radioisotope bone scanning using technetium. The child must be hospitalized for further examination. In many cases, the condition is benign and resolves spontaneously.
Growing pains (clinically insignificant leg pain)
- Growing pains never appear during the daytime.
- Regardless of the severity of the pain attack at night, if it is growing pains, then in the morning the child always feels good/great.
- Any child who experiences pain in the morning or during the day requires a full medical examination.
Clinically insignificant leg pain (so-called “growing pains”) is diagnosed based on clinical manifestations after ruling out arthritis. In children under 4 years of age, another disease should be considered. It is necessary to evaluate the psychosocial background, especially in the presence of other manifestations (headache, abdominal pain). Recurrent pain in the limbs without organic causes occurs in children during growth. 50% of children experience leg pain at some point during childhood. Leg pain usually occurs around 4 years of age. The condition is most common between the ages of 6 and 11 years. Often the condition is hereditary. Most often the muscles of the legs and thighs and the area of the knee joints hurt. The upper extremities are rarely affected. The child may also have a headache or stomach pain.
The child unexpectedly wakes up at night during deep sleep and complains of pain in his leg. Parents immediately understand that the child has a health problem because he wakes up and cries in bed. Most often, such episodes occur a few hours after the child has fallen asleep, but sometimes the child may wake up late at night. Typical symptoms include pain in the knee, either in the front or back, or pain in the muscles directly above the knee. Usually the pain disappears after ten or fifteen minutes with a light massage and does not remind you of itself in the morning. Most cases of growing pains affect large joints, such as the knee, rather than the fingers or toes. Sometimes a child may wake up in pain for several nights in a row, but more often these episodes occur sporadically over a period of several weeks or several months. Growing pains often appear after days when the child has been especially physically active. Growing pains may disappear for several months or years and then reappear during periods of particularly rapid growth.
The main point when assessing growing pains is the fact that if these are growing pains, then in the morning after waking up the child feels absolutely healthy.
The best explanation for the mechanism of growing pains is the tension of the muscles and tendons as the leg bones rapidly increase in length.
During the day, the child is active, and the information that his brain receives from tense muscles and tendons is lost in the flow of other information from many other events. At night, when the child falls asleep and there are no distractions, the pain impulses that come from the tense muscles and tendons reach the higher nerve centers and the child wakes up in pain. As a result, it can be summarized that growing pains are observed during the period of the child’s most intensive growth and after days of high physical activity.
Growing pains can be a worrying experience for both parents and baby, especially when painful episodes occur over several nights in a row. In most cases, a light massage and conversation is enough to get the child to sleep. Children with more severe pain usually stop complaining after taking the usual dose of paracetamol or ibuprofen, exactly the same as for a headache. If the child wakes up for several nights in a row, then pain medication can be given before the child goes to bed. This will reduce pain sensitivity so your child can sleep peacefully through the night. After two or three nights without pain, you should stop giving the child the medicine.
It is necessary to assume another cause of pain if the child has the following manifestations:
- prolonged pain in one limb;
- combined symptoms (for example, lameness or change in general condition);
- Symptoms occur in the morning or during the day.
If atypical symptoms appear, it is necessary to conduct at least a general blood test and determine the ESR.
Damage to joints and ligaments in children
Incomplete dislocation of the radial head
Typical injury in children aged 1 to 5 years.
Injury may occur if the child is pulled or lifted by the arm. A recent injury can be easily reduced by first rotating the arm into a supinated position and then pressing on the head of the radius, pushing it through the annular ligament. At this moment, you can hear a click and the severity of symptoms immediately decreases. In old lesions, reduction is often unsuccessful. In such cases, treatment includes the application of a sling bandage. Symptoms disappear spontaneously.
Foot subluxation
A torn anterior tibiotalar ligament is the most common tendon injury. If the traction test is positive (when you pull the foot forward, there is a feeling of separation of the foot from the lower leg), the application of a support bandage, sometimes a plaster, as well as surgical treatment (rarely) may be indicated. Specialist consultation is required.
Patella dislocation
The most common dislocation in teenagers is patellar dislocation.
If the patella is displaced to the lateral side, it is necessary to carry out reposition as soon as possible.
Literature
- Brewer EJ Jr., Bass J., Baum J. Current proposed revision of JRA criteria // Arthritis Rheum. 1977, 20 (Suppl): 195.
- Cassidy J., Petty R. eds. Textbook of pediatric rheumatology, 5 nd ed. // New York: Churchill Livingstone. 2005.
- Ilona S. Szer, Yukiko Kimura, Peter N. Malleson, Taunton R. Southwood. Arthritis in children and Adolescents. Juvenile Idiopathic Arthritis // Oxford University Press. 2006. 456 p.
- Alekseeva E. I., Litvitsky P. F. Juvenile rheumatoid arthritis. Etiology, pathogenesis, clinical picture, diagnostic and treatment algorithms. M.: Publishing house "VEDI". 2007. 360 p.
- Neeck G., Michels H. Endocrine aspects of pediatric rheumatic diseases // Bailliere's Clinical Rheumatology. 1996. No. 2. P. 349–363.
- Alekseeva E. I., Zholobova E. S. Reactive arthritis in children // Issues of modern pediatrics. 2003, vol. 2, no. 1, p. 51–56.
- Nasonov E. L., Nasonova V. A. Rheumatology. National leadership. Geotar-Media, 2008. 720 p.
- Alekseeva E. I., Bzarova T. M. Rheumatology. Clinical recommendations. Ed. E. N. Nasonova. M.: Publishing group "GEOTAR-Media". 2005, 2006, p. 120–140.
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E. I. Alekseeva , Doctor of Medical Sciences, Professor T. M. Bzarova
Scientific Center for Children's Health, Russian Academy of Medical Sciences, Moscow
Contact information for authors for correspondence
Aplasia of the ossification nuclei of the hip joints
Aplasia is a pathology in which a part of the body or internal organ may be missing. When there is no ossification of the hip joints in children under the age of six months, this is normal, but nuclei must be present in the rudiment. If the nuclei have not begun to develop in due time, the child is examined by a pediatrician and ordered an x-ray to confirm the diagnosis. Next, you need to consult an orthopedist who will prescribe treatment for the child.
Treatment of aplasia may include the following procedures:
- Massage (light, to improve blood circulation).
- Limiting the load on the legs (it is forbidden to stand at the support).
- Electrophoresis (treatment using an electric field, when medicine is applied to the electrodes and active substances penetrate the body due to the action of the electric field).
- Freyka pillow (special clothing that immobilizes the lower half of the child’s body).
- Pine baths (promote blood circulation).
After treatment, you need to perform an ultrasound to examine the hip. If the problem is not solved, further treatment is carried out. After 3 months of treatment, a repeat x-ray is taken.
Interesting! A similar treatment regimen is used in the case of dysplasia.
Diagnostics
If the development of the hip joint is impaired, the risk of injury or various diseases increases in the child’s older age. It is necessary to carry out early diagnosis of delayed ossification of the hip joint or its dysplasia.
If a lack of normal development of ossification nuclei is suspected, an ultrasound examination is performed. The procedure does not harm the baby and is a fairly effective diagnostic method. It is recommended that this examination be carried out on girls at six weeks if they were in a breech presentation at birth. If any other risk factors for dysplasia are present, then an ultrasound scan is also necessary. At an older age (more than 3 months), x-rays are used to identify pathology.
The famous doctor Komarovsky speaks about the over-diagnosis of dysplasia, since doctors are afraid to miss such an important disease among newborns, and try to prevent the detection of the disease in the later stages, when it is already difficult to cure. But in many cases where hip instability has been diagnosed, it can resolve naturally and the limbs will develop normally in the future.
Heterotopic ossification
Heterotopic ossification is bone formations in the soft tissues of the body, where they should not appear. The disease appears most often as a result of spinal cord injuries or craniocerebral lesions. Occurs mainly in the joints, often in the femur. The pathology begins to develop 2-3 months after the injury.
Komarovsky about ossification nuclei
Dr. Komarovsky talks about how ossification nuclei should form and develop. Most of all he talks about dysplasia, its occurrence and treatment.
First of all, the doctor says that doctors are afraid to miss dysplasia and other abnormalities in a child, so they pay excessive attention to the ossification nuclei. This is good, because it is better to find the disease in its infancy and cure it. But often, when such a diagnosis is made and doctors prescribe treatment, there is no need for this. Often the reason for the delay in ossification processes is individual characteristics, which disappear over time.
To prevent treatment, Komarovsky advises not to swaddle the baby tightly, as many do, but, on the contrary, to give more freedom to the legs and movements. In the first three months of life, swaddling should be loose, so that the legs are not pressed tightly. You can learn more about the technique using the video.
Video “Dysplasia according to Dr. Komarovsky”
In the video you will see Dr. Komarovsky’s opinion on hip dysplasia.
Of the entire musculoskeletal system of children in the first year of life, special attention must be paid to the development of the hip joints. The tissues of this joint begin to develop normally as early as the 6th week of the prenatal period, and are fully formed by the age of 20. The most intensive development of the joint occurs during the second half of the mother's pregnancy and in the first year of the child's life. Delayed ossification causes serious disorders of the musculoskeletal system, which will negatively affect a person’s future life.