Kuliah OI-Marfan 2010

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MARFAN’S SYNDROME

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Transcript of Kuliah OI-Marfan 2010

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MARFAN’S SYNDROME

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MarfanSyndrome

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MarfanSyndrome

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Introduction• Marfan syndrome is an inherited connective-

tissue disorder :autosomal dominant trait.• Pleiotropic manifestations• Cardinal features : tall stature, ectopia lentis, al

valve prolapse, mitr aortic root dilatation, and aortic dissection.

• About three quarters of patients have an affected parent; new mutations +

• Marfan syndrome is fully penetrant with marked interfamilial and intrafamilial variability.

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What is the probability that this pending pregnancy will be affected?

P

Example: Marfan Syndrome

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Pathophysiology• Mutations in the fibrillin-1 (FBN1) gene on

chromosome 15, which encodes for the glycoprotein fibrillin.

• Fibrillin is a major building block of microfibrils, which constitute the structural components of the suspensory ligament of the lens and serve as substrates for elastin in the aorta and other connective tissues.

• Abnormalities involving microfibrils weaken the aortic wall.

• Likewise, deficient fibrillin deposition leads to reduced structural integrity of the lens zonules, ligaments, lung airways, and spinal dura.

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Epidemiology

• 1 in 10,000 individuals3 and perhaps as many as 1 in 3000-5000 (united states)

• No sex predilection is known.• Marfan syndrome is panethnic.• may be diagnosed prenatally, at birth, or well

into adulthood

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diagnosis

• At this time, the diagnosis of Marfan syndrome remains mainly clinical.

• using criteria based on an evaluation of the family history, molecular data, and 6 organ systems.

• Berlin criteria, involvement of the skeletal system and 2 other systems, with the requirement of at least one major manifestation (ie, ectopia lentis, aortic dilatation or dissection, or dural ectasia).

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The major criteria

• A first-degree relative (parent, child, or sibling) meets the diagnostic criteria

• Presence of an FBN1 mutation• Inheritance of an FBN1 haplotype known to be

associated with unequivocally diagnosed Marfan syndrome in the family

• In family members, major involvement in one organ system and involvement in a second organ system

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Clinical presentations :• Delayed of gross and fine motor milestones (ligamentous

laxity )• A decrescendo diastolic murmur from aortic regurgitation• An ejection click at the apex followed by a holosystolic

high-pitched murmur from mitral prolapse and regurgitation

• Dysrhythmia (a primary feature)• Abrupt onset of thoracic pain, which occurs in more than

90% of patients with aortic dissection • Low back pain near the tailbone, burning sensation and

numbness or weakness in the legs in serious dural ectasia

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Skeletal findings (mayor criteria)

• Pectus excavatum requiring surgery or pectus carinatum

• Taller and thinner , dolichostenomeli, arachnodactyly, • Positive wrist (Walker) and thumb (Steinberg) signs• Medial displacement of the medial malleolus, resulting

in pes planus• Protrusio acetabuli :hip joint stiffness , progressive

limitation in activity related to joint pain, a waddling gait, limited range of motion, flexion contracture,

• majority :diagnosed <10 years,

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Positive wrist (Walker) sign.

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Positive thumb (Steinberg) sign.

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arachnodactily

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MARFAN SYNDROMEMARFAN SYNDROME

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Skeletal (Minor criteria)

• Pectus excavatum of moderate severity• Scoliosis less than 20°• Thoracic lordosis• Highly arched palate• Dental crowding• Typical facies (dolichocephaly, malar hypoplasia,

enophthalmos, retrognathia, down-slanting palpebral fissures)

– at least 2 major criteria or 1 major criterion plus 2 minor criteria must be present.

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Hypermobility of finger joints.

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Ocular

• major criteria :ectopia lentis(50% ), usually superior and temporal.

• Minor criteria : Flat cornea (measured by keratometry), cataract (nuclear sclerotic), hypoplastic iris or hypoplastic ciliary

• Refraction error is myopia due to elongated globe and amblyopia. Glaucoma (patients <50 y) , retinal detachment.

• At least 2 minor criteria must be present.

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Marfan SyndromeSubluxation

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cardiovasculer• Major criteria

• Aortic root dilatation (70-80%). A diastolic murmur over the aortic valve may be present.

• Aortic dissections involving the ascending aorta

• Minor criteria• Mitral valve prolapse (prevalence, 55-69%): high-

pitched late-systolic murmur, a holosystolic murmur. • Dilatation of proximal main pulmonary artery in the

absence of peripheral pulmonic stenosis• Calcification of mitral annulus• Dilatation of abdominal or descending thoracic aorta

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MarfanSyndromeAortic Dissection

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Pulmonary

only minor criteria are noted. a minor criterion must be present.

• Spontaneous pneumothorax (occurs in about 5% of patients)

• Apical blebs (on chest radiography)

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Skin

only minor criteria are noted. a minor criterion must be present.

• Striae atrophicae in the absence of marked weight changes, pregnancy, or repetitive stress: Stretch marks usually are found on the shoulder, mid back, and thighs.

• Recurrent or incisional hernia

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Stretch marks (striae atrophicae) in the lower back.

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Dural ectasia in the lumbosacral region.

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Dura

• For the dura, only 1 major criterion exists; dural ectasia must be present and be confirmed by CT scan or MRI. (65-92%).

• ballooning or widening of the dural sac, often associated with herniation of the nerve root sleeves out of the associated foramina

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Differentials diagnosis:

• - Ehlers-Danlos Syndrome• - Homocystinuria• - Gigantism and acromegaly• - Hyperpituitarism• - Hyperthyroidism• - Klinefelter Syndrome

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Treatment:

• Therapy focuses on prevention of complications and genetic counseling

• ß-Adrenergic blocker (propanolol or atenolol) slows the progression of aortic dilatation

• Progesterone and estrogen therapy• Myopia is treatable with refraction

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Surgery

• Cardiovascular• Scoliosis• Pectus repair• Ocular

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Prognosis:

• Prognosis depends on severity of cardiovascular complications

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Osteogenesis imperfecta

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Osteogenesis imperfecta (OI)

• disorder of congenital bone fragility caused by mutations in the genes that codify for type I procollagen (ie, COL1A1 and COL1A2).

• 4 types of OI :– Type I - Mild forms– Type II - Extremely severe– Type III - Severe– Type IV - Undefined

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Pathophysiology

• Type I collagen :the bones, organ capsules, fascia, cornea, sclera, tendons, meninges, and dermis.

• Type I collagen, which constitutes approximately 30% of the human body by weight, is the defective protein in OI.

• In structural terms, type I collagen fibers are composed of a left-handed helix formed by intertwining of pro-alpha 1 and pro-alpha 2 chains.

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• Cartilage-associated protein (CRTAP) is a protein required for prolyl 3-hydroxylation. Loss of CRTAP in mice causes an osteochondrodysplasia characterized by severe osteoporosis and decreased osteoid production.

• In humans, CRTAP mutations cause excess posttranslational modification of collagen, and may be associated with syndromes resembling osteogenesis imperfecta,

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Resembling of OICongenital brittle bones with redundant callus

formation• hyperplastic calluses in long bones after

having a fracture or orthopedic surgery, autosomal dominant.

• presentation : OI with bone fragility and deformity, white sclera and normal teeth.

• On radiographs, a redundant callus can be observed

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Osteoporosis pseudoglioma syndrome• an autosomal recessive . Bone fragility is

mild to moderate. Blindness is due to hyperplasia of the vitreous, to corneal opacity, and to secondary glaucoma.

Congenital brittle bones with rhizomelia• short humerus and femora, and

recessive inheritance • Fractures may be present at birth

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Epidemiology

• OI : 1 per 20,000 live births; • to be similar worldwide• No differences based on race• No differences based on sex• The age when symptoms (ie, fractures)

begin widely varies. Patients with severe cases present with fractures in utero.

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• often have a family history of osteogenesis imperfecta (OI), but most cases are due to new mutations.

• present with fractures after minor trauma.

• In severe cases, prenatal screening• Patients may bruise easily.• repeated fractures after mild trauma.

these fractures heal readily.• Deafness is another feature.

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Type I - Mild forms

• Patients have no long-bone deformity.• The sclera can be blue or white. • Dentinogenesis imperfecta• numbers of fractures from 1-60.• Height is normal in mild forms of OI.• high tolerance for pain. • Exercise tolerance reduced• Fractures most common during infancy • kyphoscoliosis, hearing loss, premature arcus senilis,

and easy bruising.

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Type II - Extremely severe

• Type II is often lethal.Blue sclera may be +• small nose, micrognathia, or both.• have in utero fractures, which may involved

the skull, long bones, and/or vertebrae.• The ribs are beaded, and the long bones are

severely deformed.• Causes of death include extreme fragility of

the ribs, pulmonary hypoplasia, and malformations or hemorrhages of the CNS.

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Type III - Severe• joint hyperlaxity, muscle weakness, chronic unremitting bone

pain, and skull deformities (eg, posterior flattening)• Deformities of upper limbs• dentinogenesis imperfecta • The sclera have variable hues. In utero fractures• Limb shortening and progressive deformities can occur.• Patients may have a triangular face with frontal bossing.• Basilar invagination is an uncommon• Vertigo is common in patients with severe OI.• Hypercalciuria : 36% of patients• Respiratory complications secondary to kyphoscoliosis • Constipation and hernias

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Type IV - Undefined

• This type of OI is not clearly defined.• Whether patient have normal height or whether

scleral hue defines the type has not been established in consensus.

• Dentinogenesis imperfecta may be present. • Fractures usually begin in infancy, but in utero

fractures may occur. The long bones are usually bowed.

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Other Problems to Be Considered

• Camptomelic dysplasia• Achondrogenesis type I• Congenital hypophosphatasia• Steroid induced osteoporosis• Battered child syndrome (syndrome X)• Idiopathic juvenile osteoporosis

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• Obtain a radiographic skeletal survey after birth.• In mild (type I) OI, thinning of the long bones with

thin cortices. • In type II, beaded ribs, broad bones, fractures with

deformities of the long bones. • types III and IV, cystic metaphyses, or a popcorn

appearance of the growth cartilage. Fractures may cause deformities of the long bones. Old rib fractures may be present. Vertebral fractures are common.

• Prenatal ultrasonography• decreased mineralization of calvaria (also calvarial

compressibility), bowing of the long bones, decreased bone length (especially of the femur), and multiple rib fractures.

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Laboratory Studies

• ruling out other metabolic bone diseases.

• Collagen synt :culturing dermal fibr’blasts• negative in syndromes resembling OI• Prenatal DNA mutation analysis

(chorionic villus cells). • Bone mineral density, : dual-energy x-ray

absorptiometry (DEXA), is low

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Histologic Findings

• the width of the cortex, and the volume of cancellous bone are decreased in all types of OI.

• thickness of trabeculae are reduced.• defects in modeling of external bone in terms

of the size and shape, • OI might be regarded as a disease of the

osteoblast.• Bone formation is quantitatively decreased,

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Medical CareOI is a genetic condition, it has no cure.• Cyclic administration of intravenous pamidronate reduces

the incidence of fracture and increases bone mineral density, • Nutritional evaluation and intervention are paramount to

ensure appropriate intake of calcium and vitamin D. Caloric management is important, particularly in adolescents and adults with severe forms of OI.

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Surgical Care

• Orthopedic surgery is one of the pillars of treatment for patients with OI. Surgical interventions include intramedullary rod placement, surgery to manage basilar impression, and correction of scoliosis.

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Consultations• Care of OI patients is multidisciplinary.

Team members may include an occupational therapist (OT), a physical therapist (PT), nutritionist, an audiologist, an orthopedic surgeon, neurosurgeon, pneumologist, and nephrologist, among others.

• Offer genetic counseling to the parents of a child with OI

.

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Diet• Adequate calcium, vitamin D, and phosphorus

intake are paramount.• Caloric management is necessary in

nonambulatory patients with severe OI.

Activity• Parents need special instructions in handling

affected children.• Parents need to know how to position the child

in the crib and how hold the child to avoid causing fractures while maintaining bonding and physical stimulation

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Complications

Recurrent PneumoniaHeart FailureBrain DamagePermanent deformityBreathing ProblemsHearing lost

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KONDROBLAST

ZONAPROLIFERASI

ZONAHIPERTROFI

ZONA KALSIFIKASI

ZONAOSIFIKASI

OSSIFIKASI ENDOKONDRAL PADAZONA TULANG RAWAN EPIFISIS

Osteoblastmenyusup

AKONDROPLASIA

X

MENINGKATKAN KOLAGEN & MATRIXFGF

NORMAL:KECEPATAN PROLIFERASI& DESTRUKSI, SEIMBANG

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GAMBARAN KLINIK

• Perawakan pendek• Rhizomelia• Midfacial hypoplasia, frontal bossing• Prominent foerhead

• Gibbus torakolumbal• Megalencepahly, contracted skull base• Penyempitan ruang interpedikel• Brachidactily, trident hand

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ANTROPOMETRI

BB : 4,8 KGPB : 60 CMLK : 44 CM

Tinggi duduk : 42 cmArm span : 52 cmPanjang lengan 13 cm( segmen atas ( 6 cm )Panjang tungkai 22 cm( segmen atas 12 cm )

Arm span

Upper( U )

Lower( L )

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ACHONDROPLASIA