Download - Inherit Musc Ske Let Dis Ordmlml
-
Congenital Musculoskeletal DisordersS. Yudha PatriaPediatrics Dept. Fac. Medicine, Gadjah Mada Univ, Yogyakarta
-
Syndactyly
-
Limited Movement may due to...PainDecrease ROMUnstable Bone Muscles weakness
-
Congenital WeaknessCould be problems in:- CNS- Nerves- Myo-neural junction- Muscles- BonesGenetics defect of genetic materials major cause of congenital anomalies
-
Congenital bone defects: - Achondroplasia- Osteogenesis imperfecta
Congenital Muscle(s) weakness- Myopathies- Muscular dystrophies- Spinal muscle atrophy
-
AchondroplasiaYudha Patria, MD & PhD
-
= Chondrodysplasia
Transmitted: autosomal dominant with complete penetrance
De novo mutations cause 75-80% of cases
Incidence: 1 in 15,000 to 1 in 40,000 live births
Occurs in all races and in both sexes same frequency
-
EtiologyMutations FGFR3 gene (fibroblast growth factor receptor-3 gene)
The gene mapped to 4p16.3
99% G1138A or G1138C mutations G380R amino acid changed
-
PathophysiologyThe protein (FGFR-3) responds to signals from growth factors (FGF) stimulate cell growth and maturation
Mutated FGFR-3 decreased of: - endochondral ossification - proliferation of chondrocytes in growth plate cartilage, - cellular hypertrophy- cartilage matrix production
-
The clinical features
Short stature unproportionate type (average final height: male 131 cm; female 124 cm)
Rhizomelic (proximal): short arms and legs Limitation of elbow extension Trident configuration of the hands Genu varum (bow legs) Thoracolumbar gibbus in infancy Exaggerated lumbar lordosis, which develops when walking begins Large head with frontal bossing Normal trunk length
-
The radiograph of achondroplasia
Narrowing of the interpediculate distance of the caudal spine Notch-like sacroiliac groove Circumflex on the metaphysis
-
Head USG or brain CT-scan enlargement of ventriclesothers abnormalities
- Genetic analysis: Pedegree analysisGene mutation analysis
-
ManagementThe follow-up care ( international symposium on achondroplasia):
Growth and head circumference measurements plotted on growth curves standardized for achondroplasiaNeurologic examinations (CT scan, MRI, somatosensory-evoked potentials, and polysomnography )Management of frequent middle ear infections and dental crowding
Genetic counseling
-
Height for children with achondroplasia
-
Differential Diagnosis:- Hypochondroplasia (milder form)
- FGFR related Craniostosis Crouzon Syndrome - Thanatophoric dysplasia
- Severe achondroplasia with developmental delay and acanthosis nigricans (SADDAN)
-
Crouzon Syndrome
-
Thanatophoric Dysplasia
-
Osteogenesis Imperfecta (OI)
-
Definition
Osteogenesis imperfecta (OI) is a group of genetic diseases of collagen in which the bones are formed improperly, making them fragile and prone to breaking
Collagen is a fibrous protein material, serves as the structural foundation of skin, bone, cartilage, and ligaments
-
OI
-
OI results from abnormalities in the collagen gene COL1A1 or COL1A2
In OI type I, II, and III, the gene map locus is 17q21.31-q22, 7q22.1; and type IV map locus is 17q21.31-q22 only
Demographics Affects equal numbers of males and females, and occurs in about one of every 20,000 births. The pattern of inheritance is autosomal dominant
-
Signs and symptoms
Type I (the most common and mildest type)
Bones are predisposed to fracture, with most fractures occurring before puberty. People with OI type I typically have about 2040 fractures before pubertyStature is normal or near-normalJoints are loose and muscle tone is lowSclera have blue, purple, or gray tintFace shape is triangularTendency toward scoliosis Bone deformity is absent or minimalDentinogenesis imperfecta may occur, causing brittle teeth
-
Type II
Type II is the most severe form of OI (lethal form)Lethal at or shortly after birth, often as a result of respiratory problemsFractures are numerous and bone deformity is severeStature is small with underdeveloped lungs.Collagen is formed improperly.
-
Type IIIBones fracture easily (often present at birth), and x rays may reveal healed fractures that occurred before birth. People with OI Type III may have more than 100 fractures before puberty
Stature is significantly shorter than normal
Joints are loose and muscle development is poor in arms and legsRib cage is barrel-shaped.Respiratory problems are possibleBones are deformed (often severe)Hearing loss is possible.Others, similar to type 1
-
Type IVSymptom falls between Type I and Type III in severity
Bones fracture easily, with most fractures occurring before pubertyStature is shorter than average.Sclera (whites of the eyes) are normal in color, appearing white or near-white.Bone deformity is mild to moderate, scoliosis is likelyRib cage is barrel-shaped
-
DiagnosisDiagnosis OI often possible solely on clinical features and x ray findings
Diagnosis is suspected when a baby has bone fractures after having suffered no apparent injury
Another indication is small, irregular, isolated bones in the sutures between the bones of the skull (wormian bones)
Collagen or DNA tests may help confirm a diagnosis of OI. These tests generally require several weeks
-
Congenital Muscular DisordersS. Yudha PatriaDept. Pediatrics
-
Congenital muscular disorders consist of heterogeneous group muscular diseases genetic abnormality
The major clinical features:- muscle weakness - hyporeflexia - hypotonia - dysmorphic features
-
Onset infancy and early childhoodNon-progressive, Slow progressive with age Definitive diagnosis Histopathologic in the muscle biopsyTreatment : supportive, gene therapy
-
Congenital Muscular Disorders
Myopathies Muscular dystrophyChannelopathies
-
1. Muscular dystrophyA group of inherited, progressive muscle disorders, distinguished clinically by the selective distribution of weakness Include:- Dystrophinopaties (Duchenne & Becker type)- Limbgirdle muscular dystrophy - Facioscapulohumeral muscular dystrophy (Landouzy-Dejerine)
-
Gower Maneuver
Pseudohypertrophy
-
Diagnostic TestsBlood CK
EMG myopathy
Muscle biopsy specific (immuno) staining
Genetics tests: Duchenne, Becker, Distal-, some forms of Limb-girdle and Emery-Dreifuss dystrophies
-
DiagnosisCharacteristic clinical findingsage of onsetfamily history Serum CK elevated (up to 50 to 100 times)supported by electromyographyDifinitive: immunostaining of muscle biopsyMolecular study
-
Muscle biopsy. A group of necrotic and regenerating muscle fibers is apparent
-
TreatmentNo specific treatment exists Supportive therapyGene therapy
-
2. ChannelopathiesNeuromuscular disorders disturbance of the membrane conduction system, resulting from mutations affecting ion channels. Includes:- Myotonic Disorders- Familial periodic paralysis
-
2.1 MYOTONIC DISORDERS
A group of disorders characterized by abnormally slow relaxation after voluntary muscle contraction due to a muscle membrane abnormality
Includes:- Myotonic dystrophy (Steinert's disease) - Myotonia congenita (Thomsens disease)
-
2.2 FAMILIAL PERIODIC PARALYSIS A group of rare autosomal dominant disorders characterized by episodes of flaccid paralysis with loss of deep tendon reflexes and failure of muscle to respond to electrical stimulation
Includes:Hypokalemic form Normokalemic formHyperkalemic form
-
*