“Craniosynostosis”的意思、由来-开放百科全书

Craniosynostosis is part of a syndrome in 15% to 40% of affected patients, but it usually occurs as an isolated condition.^[5]^[6] The term is from cranio, cranium; + syn, together; + ostosis relating to bone.

Signs and symptoms

Children born with craniosynostosis have a distinct phenotype, i.e., appearance—observable traits caused by the expression of a condition's genes. The features of craniosynostosis' particular phenotype are determined by which suture is closed.^[7] The fusion of this suture causes a certain change in the shape of the skull; a deformity of the skull.^[7]

Scaphocephaly

An illustrative example of this phenomenon is scaphocephaly; the name providing a direct hint regarding the deformity of the skull. The literal meaning of the Greek derived word 'scaphocephaly' is boat-head. A synonymous term is 'dolichocephaly' (the prefix dolicho- means elongated).^[9]

Premature sagittal suture closure restricts growth in a perpendicular plane, thus the head will not grow sideways and will remain narrow.^[14]^[10] This is best seen in a view standing above the child looking downward at the top of the head.^[16] Compensatory growth occurs forward at the coronal suture and backward at the lambdoid suture giving respectively a prominent forehead, called frontal bossing, and a prominent back portion of the head, called coning.^[14]^[10] When viewed from sideways the resulting shape of the head will look a bit like a boat.

Trigonocephaly

The resulting shape can best be assessed from a top view again, which will reveal a somewhat triangular form of the head.^[16] Trigonocephaly is also a Greek-derived word, which can be translated as triangular-shaped head. A facial feature of metopic synostosis is hypotelorism; in the frontal view, it can be seen that the width between the eyes is smaller than usual.^[10]

Plagiocephaly

The Greek word πλάγιος plágios means "skew". Plagiocephaly can be subclassified as anterior plagiocephaly or posterior plagiocephaly.

Anterior plagiocephaly

Anterior plagiocephaly is a clinical description of unilateral coronal synostosis.^[14]^[10] Children born with unilateral coronal synostosis develop due to compensatory mechanisms a skew head; a plagiocephaly.^[14]^[10]

The sagittal suture 'divides' the coronal suture in two halves; unilateral meaning that either the right side or the left side to the sagittal suture is fused. This fact immediately raises an important point. Unlike closure of the sagittal or the metopic suture, right and left are not the same in unilateral coronal synostosis.^[14]^[10] This asymmetry shows in the skull deformity, as well as in the facial deformity and the complications.^[14]^[10]

This time, the skull deformity can only partly be predicted using Virchow's law. Growth is arrested in the plane perpendicular to the fused suture and the forehead is flattened, but only at the ipsilateral side of the head.^[14]^[10] Ipsilateral indicates the same side of the head as where the suture is closed.

Compensatory growth occurs in a parallel plane, as well as in a perpendicular plane.^[14]^[10] An increase in growth at the metopic and the sagittal suture accounts for the parallel plane and will result in bulging at the temporal fossa and an increase in width of the skull.^[14]^[10] Compensatory growth in the perpendicular plane occurs on the side of the head with the patent coronal suture, the contralateral side.^[14]^[10] Half of the forehead will bulge forwards as a result.

Assessment of the skull from a top view shows asymmetry of the frontal bones, an increased width of the skull and a forward displacement of the ear at the ipsilateral side of the head.^[16] Assessment of the skull from a frontal view will show asymmetrical features of the face, including a displacement of the chin point of the jaw and a deviation of the tip of the nose.^[14]^[10] The chin point is located more to the contralateral side of the head, due to the ipsilateral forward displacement of the temporomandibular joint together with the ear.^[14]^[10] The tip of the nose will also point towards the contralateral side.^[14]^[10] Complications based on the skull deformation include malocclusion of the jaw and in as many as 90% — a subtle form of — strabismus, the last being caused by the asymmetrical placement of the orbits.^[10]

Posterior plagiocephaly

Unilateral lambdoid synostosis is also called posterior plagiocephaly, indicating that this gives, just like unilateral coronal synostosis, a 'skew head'. The difference is that this time, the deformity mostly shows at the occiput.

By Virchow's law, restriction of growth will occur at the ipsilateral side of the head; compensatory growth will occur at the contralateral side of the head. This growth pattern exerts an effect at the base of the skull, which is not even when the child is assessed from a point of view standing behind the child, as well as on the cervical spine, which shows a curvature.^[13] In addition, an asymmetry of the ears can be seen, with the ear on the ipsilateral side placed further to the back. Also, again from a point of view standing behind the child, a bulging of the mastoid can be seen.^[13]

Brachycephaly

Oxycephaly

Oxycephaly, also known as turricephaly and high-head syndrome, is a type of cephalic disorder. This is a term sometimes used to describe the premature closure of the coronal suture plus any other suture, like the lambdoid suture,

Pansynostosis

The word pansynostosis is also Greek derived and can be translated as 'all one bone', indicating that all of the sutures are closed.^[14] In general practice, the term is used to describe the children with three or more cranial sutures closed.^[14]

Pansynostosis can present in several ways. The appearance can be the same as that seen with primary microcephaly: a markedly small head, but with normal proportions.^[61] However, pansynostosis can also appear as a Kleeblattschädel (cloverleaf skull), which presents with bulging of the different bones of the cranial vault.^[61] The condition is associated with thanatophoric dwarfism.

Other craniosynostosis types and their signs

Complications

Not all cranial abnormalities seen in children with craniosynostosis are solely a consequence of the premature fusion of a cranial suture. This is especially true in the cases with syndromic craniosynostosis. Findings include elevation of the intracranial pressure; obstructive sleep apnoea (OSA); abnormalities in the skull base and neurobehavioral impairment.^[10]

Elevated intracranial pressure

When the ICP is elevated the following symptomes may occur: vomiting, visual disturbance, bulging of the anterior fontanel, altered mental status, papilledema and headache.^[17]

The main risks of prolonged elevated intracranial pressure may include cognitive impairment and impaired vision through prolonged papilledema.^[61] These are the main reasons why fundoscopy should be performed during the physical examination of children with craniosynostosis.^[61]

The causes of an elevation of the intracranial pressure are best understood using the Monro-Kellie doctrine.^[18] The Monro-Kellie doctrine reduces the cranial vault to a box with rigid walls.^[18] This box contains three elements: brain, intracranial blood and cerebrospinal fluid.^[18] The sum of volumes of these three elements is constant.^[18] An increase in one should cause a decrease in one or both of the remaining two, thereby preventing an elevation of the intracranial pressure.^[18]

A compensatory mechanism involves the movement of cerebrospinal fluid from the cranial vault towards the spinal cord.^[18] The volume of blood in the cranial vault is auto-regulated by the brain, and will therefore not decrease that easily.^[18]

Intracranial pressure will rise as a result of continued brain growth within the rigid skull.^[61] It appears that in children with craniosynostosis, the expected decrease of intracranial blood is probably not occurring as it should according to the Monro-Kellie hypothesis.^[77] This is shown when the brain expands in the fixed skull, which gives a faster rise in intracranial pressure than would be expected.^[77]

Obstructive sleep apnea

The short stops in breathing during the sleep are the mainstay of OSA. Other symptoms can be difficulty in breathing, snoring, day-time sleepiness and perspiration.^[5]

The main causative agent of OSA is the [midface hypoplasia], which also poses a risk to the eyes that can be seen bulging out of the eye sockets. Other factors, such as a micrognathism and adenoid hypertrophy, are likely to contribute in causing OSA.^[5]

The most common syndromic forms of craniosynostosis; i.e. Apert, Crouzon and Pfeiffer, have an increased risk of developing OSA. The children have nearly 50% chance of developing this condition.^[5]

A theory regarding the involvement of OSA as a causative agent for elevated intracranial pressure suggests an association with the auto-regulation of blood flow in the brain.^[82]

Certain cells in the brain respond specifically to an increase of CO2 in the blood.^[4]^[19] The response involves vasodilatation of the cranial vault blood vessels, increasing the volume of one of the elements in the Monro-Kellie doctrine.^[4]^[19] The increase of CO2 concentration in the blood is a consequence of impaired breathing, especially seen when the child suffering from OSA is sleeping.^[4]^[19] It is well documented that the highest spikes in intracranial pressure often occur during sleep.^[4]^[19]

Abnormalities in the skull base

Impaired venous outflow is often caused by a hypoplastic jugular foramen.^[82] This causes an increase in the intracranial blood volume, thereby causing an increase in intracranial pressure.^[82]

This can be further complicated with a possible Arnold-Chiari malformation, which can partially obstruct the flow of cerebro-spinal fluid from the neurocranium to the spinal cord.^[6] The Chiari malformation may be asymptomatic or present with ataxia, spasticity or abnormalities in breathing, swallowing or sleeping.^[6]

Due to the impaired venous outflow, which may be further complicated with an Arnold-Chiari malformation, there is often a clinical image of hydrocephalus present. Hydrocephalus is seen in 6.5 to 8% of patients with Apert's syndrome, 25.6% in patients with Crouzon's syndrome and 27.8% of those with Pfeifer's syndrome.^[20]

Neurobehavioural impairment

Neurobehavioural impairment includes problems with attention and planning, processing speed, visual spatial skills, language, reading and spelling.^[14] A decreased IQ may also be part of the problems.^[14]

It has been suggested that these problems are caused by a primary malformation of the brain, rather than being a consequence of the growth restriction of the skull and elevated intracranial pressure. Some evidence for this statement has been provided by studies using computed tomographic (CT) scans and magnetic resonance imaging (MRI) to identify differences between the structures of the brains of healthy children and those affected with craniosynostosis.^[14]

It has been found that corrective surgery of the cranial vault alters the morphology of the brain compared with the situation before surgical intervention.^[14] However the structure was still abnormal in comparison to children without craniosynostosis.^[14]

Causes

Advances in the fields of molecular biology and genetics, as well as the use of animal models have been of great importance in expanding our knowledge of suture fusion.^[3] Research in animal models has led to the idea that the dura mater plays an important role in determining closure or patency of the suture.^[3] In contrast to the dura mater it appears that the periosteum is not essential in causing closure or patency.^[3]

Instead of describing the abnormalities in structure and form, research focuses nowadays at decoding the molecular interactions that underlie them.^[3]

Despite the progress that has been made, many things are still not understood about the suture biology and the exact causative pathways remain yet to be completely understood.

Multiple potential causes of premature suture closure have been identified, such as the several genetic mutations that are associated with syndromic craniosynostosis.^[3]

The cause of nonsyndromic craniosynostosis however, is still greatly unknown.^[22]

Most likely, a role is played by biomechanical factors, as well as environmental, hormonal and genetical factors.^[22]

New insights have given fuel to a debate whether there might be an intrinsic factor causing the premature fusion of the sutures. Brain structures of children with craniosynostosis were evaluated using magnetic resonance imaging.^[22] Differences were seen compared with the brain structures of normal children.^[22] The question now is whether these differences are caused by the craniosynostosis, or are the cause of craniosynostosis.

Biomechanical factors

Biomechanical factors include fetal head constraint during pregnancy.^[23] It has been found by Jacob et al. that constraint inside the womb is associated with decreased expression of Indian Hedgehog protein and noggin. These last two are both important factors influencing bone development.^[23]

Environmental factors

Environmental factors refer for example to maternal smoking and the maternal exposure to amine-containing drugs. Several research groups have found evidence that these environmental factors are responsible for an increase in the risk of craniosynostosis, likely through effects on fibroblast growth factor receptor genes.^[24]^[25]^[26]^[27]^[28]

On the other hand, a recent evaluation of valproic acid (an anti-epilepticum), which has been implicated as a causative agent, has shown no association with craniosynostosis.^[29]

Certain medication (like amine-containing drugs) can increase the risk of craniosynostosis when taken during pregnancy, these are so-called teratogenic factors.^[25]^[28]

Hormonal factors

Hyperthyroid induced craniosynostosis is a hormone mediated premature closure.^[30] It is thought that the bone matures faster due to high levels of thyroid hormone.^[30]

Genetic factors

In 6 to 11% of the children born with coronal synostosis, more often involving the bilateral cases than unilateral, other members of the family have been reported that were also born with the same condition.^[31] This finding is highly suggestive of a genetic cause, which has possibly been found in the fibroblast growth factor receptor 3 (FGFR3) and TWIST genes.^[31]

Fibroblast growth factor and fibroblast growth factor receptors regulate fetal bone growth and are expressed in cranial sutures during pregnancy.^[6]

The transcription factor gene TWIST is thought to decrease the function of FGFR, thus also indirectly regulating fetal bone growth.^[6] A relation between the mutations in these genes and craniosynostosis is therefore possible.

Moloney et al. observed a FGFR3 mutation in as many as 31% of the cases with nonsyndromic coronal synostosis, thus showing that FGFR abnormalities play an important role in nonsyndromic craniosynostosis.^[32]

In terms of syndromic craniosynostosis not only do FGFR3 and TWIST genes feature, but also FGFR1 and in particular FGFR2, which has been reported in 90% of the syndromic craniosynostoses such as Apert, Crouzon, Peiffer and Jackson–Weiss.^[33]^[34]^[35] The mutations can be divided into mutations that lead to gain of function (in FGFR genes) and mutations that lead to loss of function (in TWIST genes).^[34]^[35] Craniosynostosis is therefore likely the result of a disturbance in the fine balance that regulates the multiplication and maturation of the precursor bone cells in the cranial sutures.^[3]

The familial rate, which is different for nonsyndromic and syndromic cases, provides an important clue.^[36]^[37] In the nonsyndromic cases, a positive family history is found in 2% of the cases with sagittal suture closure^[36]^[37] and in 6 to 11% of the cases with coronal suture closure.^[31] In the syndromic cases, approximately 50% of the children may present with a positive family history.^[10]

Cranial sutures

The mesenchyme above the meninges undergoes intramembranous ossification forming the neurocranium.^[3] The neurocranium consists of several bones, which are united and at the same time separated by fibrous sutures.^[3] This allows movement of the separate bones in relation to one another; the infant skull is still malleable.^[3] The fibrous sutures specifically allow the deformation of the skull during birth^[3] and absorb mechanical forces during childhood^[6] They also allow the necessary expansion during brain growth.^[3]

In the very first years of life the sutures serve as the most important centers of growth in the skull.^[3]

The growth of the brain and the patency of the sutures depend on each other.^[38] Brain growth pushes the two sides of the patent sutures away from each other, thereby enabling growth of the neurocranium.^[38] This means that the neurocranium can only grow if the sutures remain open.^[38]

The neurocranium will not grow when the forces induced by brain growth are not there.^[39]

This will occur for example when the intracranial pressure drops; the sutures do not experience stretching anymore causing them to fuse.^[40]

The infant's skull consists of the metopic suture, coronal sutures, sagittal suture, and lambdoid sutures.^[3] The metopic suture is supposed to close between three and nine months of age.^[39] The coronal, sagittal, and lambdoid sutures are supposed to close between 22 and 39 years of age.^[39]

Diagnosis

The evaluation of a child suspected to have craniosynostosis is preferentially performed in a craniofacial center. The three main elements of analysis include medical history, physical examination and radiographic analysis.

Medical history should in any case include questions about risk factors during pregnancy, the familial rate and the presence of symptoms of elevated intracranial pressure (ICP).

Elevated ICP

Physical examination

Other parts of the physical examination include the measurement of the head circumference, the assessment of the skull deformity and the search for deformities affecting other parts of the body.^[40] The head circumference and the growth curve of the head provide important clues into making a differentiation between craniosynostosis, primary microcephaly and hydrocephalus.^[40] This differentiation has an important influence on the further treatment of the child.^[40]

In a recent article Cunningham et al.^[39] described several steps in which a pediatrician should observe the patient to assess skull deformity:

The implications of the deformities that are seen are extensively discussed under 'phenotype'.

Syndromal craniosynostosis presents with a skull deformity as well as deformities affecting other parts of the body.^[38] Clinical examination should in any case include evaluation of the neck, spine, digits and toes.^[38]

Medical imaging

Radiographic analysis by performing a computed axial tomographic scan is the gold standard for diagnosing craniosynostosis.^[45]^[46]

Plain radiography of the skull may be sufficient for diagnosing a single suture craniosynostosis and should therefore be performed,^[45]^[46] but the diagnostic value is outweighed by that of the CT-scan.^[47] Not only can the sutures be identified more accurately, thus objectively demonstrating a fused suture, but also evaluation of the brain for structural abnormalities and excluding other causes of asymmetric growth are possible at the same time.^[47] In addition to this, CT-scanning can visualize the extent of skull deformity, thereby enabling the surgeon to start planning surgical reconstruction.^[48]

Classification

Differential diagnosis

Deformational plagiocephaly

The main difference between plagiocephaly based on craniosynostosis and deformational plagiocephaly is that there is no suture fusion in the latter one.^[39] The malleability of the neonatal skull allows the skull to change shape due to extrinsic forces.^[39]

With the tests a pediatrician should perform, as explained above, the difference is quite easy to make.^[39]

In deformational plagiocephaly the skull does not show a bulging of the mastoid and in these patients the skull base and position of the ears is level, all in contrary with plagiocephaly due to craniosynostosis.^[39] Displacement of one ear to the front is characteristic for deformational plagiocephaly.^[39]

Primary microcephaly

Primary microcephaly shows a clinical image of craniosynostosis, but due to a different cause. The primary failure is the absence of growth of the brain, rendering the sutures of the cranial vault useless.^[40] As a consequence, the sutures close, presenting a pansynostosis like image.^[40]

A differentiation between these two conditions can be made with a computed tomography (CT) scan. The subarachnoid spaces are typically enlarged with primary microcephaly, whereas they are reduced or absent in true pansynostosis.^[40]

Treatment

The primary goal of surgical intervention is to allow normal cranial vault development to occur.^[38] This can be achieved by excision of the prematurely fused suture and correction of the associated skull deformities.^[38] If the synostosis goes uncorrected, the deformity will progressively worsen not only threatening the aesthetic aspect, but also the functional aspect.^[38] This is especially prevalent with asymmetric conditions, such as unilateral coronal synostosis, with compromised function of the eyes and the jaw.^[38]

In addition, signs of compromised neurodevelopment have been seen amongst all the synostoses, although this may also be caused by primary maldevelopment of the brain and can thus not be prevented by surgical intervention.^[49]

There are a few basic elements involved in surgical intervention which is aimed at normalization of the cranial vault:

Timing of surgery

The prevention post-surgical complications, including those mentioned above, plays an important role in discussions over the timing of potential surgery. The general consensus is to perform surgery in late infancy, i.e. between six and twelve months.^[38] Within this time frame the efficacy of surgery will be enhanced for several reasons:

Most surgeons will not intervene until after the age of six months due to the heightened risk which blood loss poses before this age.^[38] It is generally preferable to wait until after three months of age when anaesthetic risks will also be decreased.^[38]

Surgery is not performed in early childhood in every country; in some countries surgical intervention can take place in the late teens.{{citation needed|date=September 2017}}

It is important that families seek out a Pediatric Craniofacial Physician who has experience with craniosynostosis for proper diagnosis, surgical care, and followup.

Specific sutures

Sagittal craniosynostosis/scaphocephaly

There are two surgical procedures which are commonly used to treat sagittal synostosis.^[38] The matter of which procedure is superior is still heavily debated amongst the surgeons treating this condition,^[38] however it is generally agreed upon that the cephalic index should be used to assess the efficacy of the preferred surgical intervention.^[38]

Retrospective analysis has given an indication that the use of total cranial vault remodelling provides children with a better cephalic index than does the extended strip craniectomy.^[56]

An approach that is currently being evaluated involves the use of springs. This intervention is likely most effective when used in the time frame between three and six months of age.

Metopic synostosis/trigonocephaly

The main elements of metopic suture closure involve a low volume of the anterior cranial fossa, the metopic ridging and hypotelorism.^[57] These problems are all addressed during the surgical intervention.^[57]

The volume is increased by placing the frontal bones and the supraorbital rim further forward.^[38] This is done by excision of the bones after which they are reshaped with greenstick fracturing.^[38] Replacement of the bones provides a possibility for the correction of the hypotelorism at the same time.^[38] A bone graft is placed in between the two halves of the supraorbital bars, thereby increasing the width between the orbits.^[38] The metopic ridge can then be corrected with a (simple) burring.^[10]

Unilateral coronal synostosis/anterior plagiocephaly

The treatment of unilateral coronal synostosis is typically performed in two parts: the forward advancement of the supraorbital bar and the correction of the orbital asymmetry.^[38]

The supraorbital bar is the rim just above the eye socket; as discussed under phenotype, the supraorbital and the frontal bone are typically recessed at the ipsilateral side of the head.^[38] The goal of treatment is to position this bar together with the frontal bone in a plane three millimetres further forwards than the vertical plane of the cornea.^[38]

A two-dimensional sagittal image is used to pre-operatively determine the extent of movement, which can vary between seven and fifteen millimetres depending on the severity of the deformity.^[38]

The orbital asymmetry exists typically of a narrower and taller orbit at the ipsilateral side of the head.^[38] The contralateral orbit, however, is wider than usual.^[38] Symmetry is restored by extracting a small piece of bone from the supraorbital bar at the contralateral side, thereby reducing the width.^[38] This bone fragment is then introduced into the supraorbital bar on the ipsilateral side, thereby increasing width.^[38] The height of the orbit is altered at the ipsilateral side only, by extracting a piece of bone.^[38]

Any correction of the nasal tip, which points towards the contralateral side, will not be performed during childhood.^[10]

Unilateral lambdoid synostosis/posterior plagiocephaly

An excision of the flattened occipital bone with release of the fused suture tends to correct the cranial vault deformity.^[10]

Bilateral coronal synostosis/brachycephaly

The treatment of bilateral coronal synostosis shows a high degree of overlap with treatment of unilateral coronal synostosis; in both surgical interventions is the forward advancement of the supraorbital rim together with the frontal bones is an important part of the procedure.^[10]^[38] Again, the plane three millimetres further forwards than the vertical plane of the [cornea] is the appropriate position to place the bone.^[10]^[38] The increased height of the skull is addressed in the same procedure.^[10] Parts of the flattened occiput are extracted and given a rounder shape by greenstick fracturing them.^[10]

Pansynostosis/kleeblattschädel

The treatment of pansynostosis comprises the expansion of the anterior cranial vault, as well as the posterior cranial vault.^[40] Whilst this may be accomplished in one procedure it is generally performed in two stages.^[40]

Complications

The most common complications of uncorrected craniosynostosis include increased intracranial pressure, asymmetry of the face, and malocclusion. Asymmetry of the orbits often leads to strabismus.^[58]

Epidemiology

It is estimated that craniosynostosis affects 1 in 1,800 to 3,000 live births worldwide.^[3] 3 out of every 4 cases affect males. Sagittal synostosis is the most common phenotype, representing 40% to 55% of nonsyndromic cases,^[3] whilst coronal synostosis represents between 20% to 25% of cases.^[3] Metopic synostosis is a factor in 5% to 15% of cases, and lambdoid synostosis is seen in 0% to 5% of nonsyndromic cases.^[3]

5% to 15% of the time more than one suture is involved; this is referred to as 'complex craniosynostosis' and is typically part of a syndrome.^[3]

References

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5. ^¹²³{{cite journal | vauthors = Bannink N, Nout E, Wolvius EB, Hoeve HL, Joosten KF, Mathijssen IM | title = Obstructive sleep apnea in children with syndromic craniosynostosis: long-term respiratory outcome of midface advancement | journal = International Journal of Oral and Maxillofacial Surgery | volume = 39 | issue = 2 | pages = 115–21 | date = February 2010 | pmid = 20056390 | doi = 10.1016/j.ijom.2009.11.021 }}
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9. ^{{cite journal | vauthors = Agrawal D, Steinbok P, Cochrane DD | title = Scaphocephaly or dolichocephaly? | journal = Journal of Neurosurgery | volume = 102 | issue = 2 Suppl | pages = 253–4; author reply 254 | date = March 2005 | pmid = 16156241 | doi = 10.3171/jns.2005.102.2.0253 }}
10. ^¹²³⁴⁵⁶⁷⁸⁹¹⁰¹¹¹²¹³¹⁴¹⁵¹⁶¹⁷¹⁸¹⁹²⁰²¹²²²³²⁴²⁵²⁶²⁷²⁸²⁹³⁰{{cite journal | vauthors = Persing JA | title = MOC-PS(SM) CME article: management considerations in the treatment of craniosynostosis | journal = Plastic and Reconstructive Surgery | volume = 121 | issue = 4 Suppl | pages = 1–11 | date = April 2008 | pmid = 18379381 | doi = 10.1097/01.prs.0000305929.40363.bf }}
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12. ^http://smilesforkids.missouri.edu
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14. ^¹{{cite journal | vauthors = Chumas PD, Cinalli G, Arnaud E, Marchac D, Renier D | title = Classification of previously unclassified cases of craniosynostosis | journal = Journal of Neurosurgery | volume = 86 | issue = 2 | pages = 177–81 | date = February 1997 | pmid = 9010415 | doi = 10.3171/jns.1997.86.2.0177 }}
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16. ^{{cite web | title = What is Craniosynostosis? | url = http://www.hopkinsmedicine.org/neurology_neurosurgery/centers_clinics/pediatric_neurosurgery/conditions/craniosynostosis/glossary.html | work = The Johns Hopkins Hospital, and Johns Hopkins Health System }}
17. ^{{cite journal | vauthors = de Jong T, Bannink N, Bredero-Boelhouwer HH, van Veelen ML, Bartels MC, Hoeve LJ, Hoogeboom AJ, Wolvius EB, Lequin MH, van der Meulen JJ, van Adrichem LN, Vaandrager JM, Ongkosuwito EM, Joosten KF, Mathijssen IM | title = Long-term functional outcome in 167 patients with syndromic craniosynostosis; defining a syndrome-specific risk profile | journal = Journal of Plastic, Reconstructive & Aesthetic Surgery | volume = 63 | issue = 10 | pages = 1635–41 | date = October 2010 | pmid = 19913472 | doi = 10.1016/j.bjps.2009.10.029 }}
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21. ^{{cite journal | vauthors = Collmann H, Sörensen N, Krauss J | title = Hydrocephalus in craniosynostosis: a review | journal = Child's Nervous System | volume = 21 | issue = 10 | pages = 902–12 | date = October 2005 | pmid = 15864600 | doi = 10.1007/s00381-004-1116-y }}
22. ^¹²³⁴⁵⁶⁷⁸⁹¹⁰¹¹¹²¹³¹⁴¹⁵¹⁶¹⁷¹⁸¹⁹²⁰²¹²²²³²⁴{{cite journal | vauthors = Kapp-Simon KA, Speltz ML, Cunningham ML, Patel PK, Tomita T | title = Neurodevelopment of children with single suture craniosynostosis: a review | journal = Child's Nervous System | volume = 23 | issue = 3 | pages = 269–81 | date = March 2007 | pmid = 17186250 | doi = 10.1007/s00381-006-0251-z }}
23. ^¹{{cite journal | vauthors = Jacob S, Wu C, Freeman TA, Koyama E, Kirschner RE | title = Expression of Indian Hedgehog, BMP-4 and Noggin in craniosynostosis induced by fetal constraint | journal = Annals of Plastic Surgery | volume = 58 | issue = 2 | pages = 215–21 | date = February 2007 | pmid = 17245153 | doi = 10.1097/01.sap.0000232833.41739.a5 }}
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30. ^¹{{cite journal | vauthors = Johnsonbaugh RE, Bryan RN, Hierlwimmer R, Georges LP | title = Premature craniosynostosis: A common complication of juvenile thyrotoxicosis | journal = The Journal of Pediatrics | volume = 93 | issue = 2 | pages = 188–91 | date = August 1978 | pmid = 209162 | doi = 10.1016/S0022-3476(78)80493-4 }}
31. ^¹²{{cite journal | vauthors = Mulliken JB, Gripp KW, Stolle CA, Steinberger D, Müller U | title = Molecular analysis of patients with synostotic frontal plagiocephaly (unilateral coronal synostosis) | journal = Plastic and Reconstructive Surgery | volume = 113 | issue = 7 | pages = 1899–909 | date = June 2004 | pmid = 15253176 | doi = 10.1097/01.prs.0000122202.26792.bf }}
32. ^{{cite journal | vauthors = Moloney DM, Wall SA, Ashworth GJ, Oldridge M, Glass IA, Francomano CA, Muenke M, Wilkie AO | title = Prevalence of Pro250Arg mutation of fibroblast growth factor receptor 3 in coronal craniosynostosis | journal = Lancet | volume = 349 | issue = 9058 | pages = 1059–62 | date = April 1997 | pmid = 9107244 | doi = 10.1016/S0140-6736(96)09082-4 }}
33. ^{{cite journal | vauthors = Passos-Bueno MR, Serti Eacute AE, Jehee FS, Fanganiello R, Yeh E | title = Genetics of craniosynostosis: genes, syndromes, mutations and genotype-phenotype correlations | journal = Frontiers of Oral Biology | volume = 12 | issue = 1 | pages = 107–43 | year = 2008 | pmid = 18391498 | doi = 10.1159/0000115035 }}
34. ^¹{{cite journal | vauthors = Lenton KA, Nacamuli RP, Wan DC, Helms JA, Longaker MT | title = Cranial suture biology | journal = Current Topics in Developmental Biology | volume = 66 | pages = 287–328 | year = 2005 | pmid = 15797457 | doi = 10.1016/S0070-2153(05)66009-7 }}
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36. ^¹{{cite journal | vauthors = Hunter AG, Rudd NL | title = Craniosynostosis. I. Sagittal synostosis: its genetics and associated clinical findings in 214 patients who lacked involvement of the coronal suture(s) | journal = Teratology | volume = 14 | issue = 2 | pages = 185–93 | date = October 1976 | pmid = 982314 | doi = 10.1002/tera.1420140209 }}
37. ^¹{{cite journal | vauthors = Lajeunie E, Le Merrer M, Bonaïti-Pellie C, Marchac D, Renier D | title = Genetic study of scaphocephaly | journal = American Journal of Medical Genetics | volume = 62 | issue = 3 | pages = 282–5 | date = March 1996 | pmid = 8882788 | doi = 10.1002/(SICI)1096-8628(19960329)62:3<282::AID-AJMG15>3.0.CO;2-G }}
38. ^¹²³⁴⁵⁶⁷⁸⁹¹⁰¹¹¹²¹³¹⁴¹⁵¹⁶¹⁷¹⁸¹⁹²⁰²¹²²²³²⁴²⁵²⁶²⁷²⁸²⁹³⁰³¹³²³³³⁴³⁵³⁶³⁷{{cite journal | vauthors = Panchal J, Uttchin V | title = Management of craniosynostosis | journal = Plastic and Reconstructive Surgery | volume = 111 | issue = 6 | pages = 2032–48; quiz 2049 | date = May 2003 | pmid = 12711969 | doi = 10.1097/01.PRS.0000056839.94034.47 }}
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40. ^¹²³⁴⁵⁶⁷⁸⁹¹⁰¹¹¹²¹³{{cite journal | vauthors = Blount JP, Louis RG, Tubbs RS, Grant JH | title = Pansynostosis: a review | journal = Child's Nervous System | volume = 23 | issue = 10 | pages = 1103–9 | date = October 2007 | pmid = 17486351 | doi = 10.1007/s00381-007-0362-1 }}
41. ^¹²³{{cite journal | vauthors = Tamburrini G, Caldarelli M, Massimi L, Santini P, Di Rocco C | title = Intracranial pressure monitoring in children with single suture and complex craniosynostosis: a review | journal = Child's Nervous System | volume = 21 | issue = 10 | pages = 913–21 | date = October 2005 | pmid = 15871027 | doi = 10.1007/s00381-004-1117-x }}
42. ^¹²³⁴{{cite journal | vauthors = Bristol RE, Lekovic GP, Rekate HL | title = The effects of craniosynostosis on the brain with respect to intracranial pressure | journal = Seminars in Pediatric Neurology | volume = 11 | issue = 4 | pages = 262–7 | date = December 2004 | pmid = 15828710 | doi = 10.1016/j.spen.2004.11.001 }}
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44. ^¹{{cite journal | vauthors = Bannink N, Joosten KF, van Veelen ML, Bartels MC, Tasker RC, van Adrichem LN, van der Meulen JJ, Vaandrager JM, de Jong TH, Mathijssen IM | title = Papilledema in patients with Apert, Crouzon, and Pfeiffer syndrome: prevalence, efficacy of treatment, and risk factors | journal = The Journal of Craniofacial Surgery | volume = 19 | issue = 1 | pages = 121–7 | date = January 2008 | pmid = 18216676 | doi = 10.1097/SCS.0b013e31815f4015 }}
45. ^¹{{cite journal | vauthors = Cerovac S, Neil-Dwyer JG, Rich P, Jones BM, Hayward RD | title = Are routine preoperative CT scans necessary in the management of single suture craniosynostosis? | journal = British Journal of Neurosurgery | volume = 16 | issue = 4 | pages = 348–54 | date = August 2002 | pmid = 12389887 | doi = 10.1080/0268869021000007560 }}
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48. ^{{cite journal | vauthors = Ghali GE, Sinn DP, Tantipasawasin S | title = Management of nonsyndromic craniosynostosis | journal = Atlas of the Oral and Maxillofacial Surgery Clinics of North America | volume = 10 | issue = 1 | pages = 1–41 | date = March 2002 | pmid = 12087862 | doi = 10.1016/s1061-3315(01)00003-8 }}
49. ^{{cite journal | vauthors = Speltz ML, Kapp-Simon KA, Cunningham M, Marsh J, Dawson G | title = Single-suture craniosynostosis: a review of neurobehavioral research and theory | journal = Journal of Pediatric Psychology | volume = 29 | issue = 8 | pages = 651–68 | date = December 2004 | pmid = 15491988 | doi = 10.1093/jpepsy/jsh068 }}
50. ^{{cite journal | vauthors = White N, Bayliss S, Moore D | title = Systematic review of interventions for minimizing perioperative blood transfusion for surgery for craniosynostosis | journal = The Journal of Craniofacial Surgery | volume = 26 | issue = 1 | pages = 26–36 | date = January 2015 | pmid = 25569385 | doi = 10.1097/scs.0000000000001108 }}
51. ^¹²³{{cite journal | vauthors = Fearon JA, Munro IR, Bruce DA | title = Observations on the use of rigid fixation for craniofacial deformities in infants and young children | journal = Plastic and Reconstructive Surgery | volume = 95 | issue = 4 | pages = 634–7; discussion 638 | date = April 1995 | pmid = 7892306 | doi = 10.1097/00006534-199504000-00002 }}
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55. ^¹²{{cite book | vauthors = Francel PC | chapter = Evolution of the treatment for sagittal synostosis: a personal record | veditors = Goodrich JT, Hall CD |title=Craniofacial Anomalies: Growth and Development from a Surgical Perspective |publisher=Thieme |location=New York |year=1995 | isbn = 978-0-86577-522-0 | oclc = 490069409 }}
56. ^{{cite journal | vauthors = Panchal J, Marsh JL, Park TS, Kaufman B, Pilgram T, Huang SH | title = Sagittal craniosynostosis outcome assessment for two methods and timings of intervention | journal = Plastic and Reconstructive Surgery | volume = 103 | issue = 6 | pages = 1574–84 | date = May 1999 | pmid = 10323690 | doi = 10.1097/00006534-199905000-00004 }}
57. ^¹{{cite book |chapter=Metopic synostosis | vauthors = Francel PC | veditors = Zumdahl SS | title=Neurosurgical Operative Atlas |publisher=American Association of Neurological Surgeons |location=Rolling Meadows IL |year=1999 |pages=91–111 |volume=9| isbn = 978-1-879284-67-8 }}
58. ^{{cite journal | vauthors = Kabbani H, Raghuveer TS | title = Craniosynostosis | journal = American Family Physician | volume = 69 | issue = 12 | pages = 2863–70 | date = June 2004 | pmid = 15222651 | doi = | url = https://www.aafp.org/afp/2004/0615/p2863.html }}

Signs and symptoms

Scaphocephaly

Trigonocephaly

Plagiocephaly

Anterior plagiocephaly

Posterior plagiocephaly

Brachycephaly

Oxycephaly

Pansynostosis

Other craniosynostosis types and their signs

Complications

Elevated intracranial pressure

Obstructive sleep apnea

Abnormalities in the skull base

Neurobehavioural impairment

Causes

Biomechanical factors

Environmental factors

Hormonal factors

Genetic factors

Cranial sutures

Diagnosis

Elevated ICP

Physical examination

Medical imaging

Classification

Differential diagnosis

Deformational plagiocephaly

Primary microcephaly

Treatment

Timing of surgery

Specific sutures

Sagittal craniosynostosis/scaphocephaly

Metopic synostosis/trigonocephaly

Unilateral coronal synostosis/anterior plagiocephaly

Unilateral lambdoid synostosis/posterior plagiocephaly

Bilateral coronal synostosis/brachycephaly

Pansynostosis/kleeblattschädel

Complications

Epidemiology

References

External links