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Classification and external resources
A T1-weighted sagittal MRI scan, from a patient with an Arnold-Chiari malformation, demonstrating tonsillar herniation of 7mm
ICD-10 Q070
ICD-9 348.4,741.0
OMIM 207950
DiseasesDB 899
MeSH D001139

Arnold–Chiari malformation, or often simply known as Chiari malformation, is a malformation of the brain. It consists of a downward displacement of the cerebellar tonsils through the foramen magnum (the opening at the base of the skull), sometimes causing non-communicating [1] hydrocephalus as a result of obstruction of cerebrospinal fluid (CSF) outflow.[2] The cerebrospinal fluid outflow is caused by phase difference in outflow and influx of blood in the vasculature of the brain. It can cause headaches, fatigue, muscle weakness in the head and face, difficulty swallowing, dizziness, nausea, impaired coordination, and, in severe cases, paralysis.[3]


The Austrian pathologist Hans Chiari in the late 19th century described seemingly related anomalies of the hindbrain, the so-called Chiari malformations I, II and III. Later, other investigators added a fourth (Chiari IV) malformation. The scale of severity is rated I - IV, with IV being the most severe. Types III and IV are very rare.[4]

Type Presentation Clinical Features

A congenital malformation. Is generally asymptomatic during childhood, but often manifests with headaches and cerebellar symptoms. Herniation of cerebellar tonsils.[5][6][7] Tonsillar ectopia of more than 3 mm below foramen magnum. Syringomyelia of cervical or cervicothoracic spinal cord can be seen. Sometimes the medullary kink and brainstem elongation can be seen. Syndrome of occipitoatlantoaxial hypermobility is an acquired Chiari I Malformation in patients with hereditary disorders of connective tissue.[8] Patients who exhibit extreme joint hypermobility and connective tissue weakness as a result of Ehlers-Danlos syndrome or Marfan Syndrome are susceptible to instabilities of the craniocervical junction and thus acquiring a Chiari Malformation. This type is difficult to diagnose and treat.[9]

Headache, neck pain, unsteady gait usually during childhood [5]
II Usually accompanied by a lumbar myelomeningocele or lumbosacral spine with tonsillar herniation below the foramen magnum.[5][10] As opposed to the less pronounced tonsillar herniation seen with Chiari I, there is a larger cerebellar vermian displacement. Low lying torcular herophili, tectal beaking, and hydrocephalus with consequent clival hypoplasia are classic anatomic associations.[11] The position of the torcular herophili is important for distinction from Dandy-Walker syndrome in which it is classically upturned. This is important because the hypoplastic cerebellum of Dandy-Walker may be difficult to distinguish from a Chiari malformation that has herniated or is ectopic on imaging. Colpocephaly may be seen due to the associated neural tube defect. Paralysis below the spinal defect [5]
III It is associated with an occipital encephalocele containing a variety of abnormal neuroectodermal tissues. Syringomyelia and tethered cord as well as hydrocephalus is also seen.[5][12] Causes abundant neurological deficits [5]
IV Characterized by a lack of cerebellar development in which the cerebellum and brain stem lie within the posterior fossa with no relation to the foramen magnum. Associated with hypoplasia.[5][13] Not compatible with life [5]
File:Neck MRI 130850-dichromatic t1-t2-t2.png

Syringomyelia associated with Chiari malformation

Other conditions sometimes associated with Chiari Malformation include hydrocephalus,[14] syringomyelia, spinal curvature, tethered spinal cord syndrome, and connective tissue disorders[8] such as Ehlers-Danlos syndrome and Marfan syndrome.

Chiari malformation is the most frequently used term for these types of malformations. The use of the term Arnold–Chiari malformation has fallen somewhat out of favor over time, although it is used to refer to the type II malformation. Current sources use "Chiari malformation" to describe four specific types of the condition, reserving the term "Arnold-Chiari" for type II only.[15] Some sources still use "Arnold-Chiari" for all four types.[16] This article uses the latter convention.

Chiari malformation or Arnold–Chiari malformation should not be confused with Budd-Chiari syndrome,[17] a hepatic condition also named for Hans Chiari.

Brain Sagging and Pseudo-Chiari Malformation. The displacement of the cerebellar tonsils into the spinal canal may be mistaken for a Chiari I malformation, and some patients with spontaneous intracranial hypotension have undergone decompressive posterior fossa surgery.[18]


The most widely accepted pathophysiological mechanism by which Chiari Type 1 Malformations occur is by a reduction or lack of development of the posterior fossa as a result of either congenital or acquired disorders. Congenital causes include hydrocephalus, craniosynostosis (especially of the lambdoid suture), hyperostosis (ex. craniometaphyseal dysplasia, osteopetrosis, erythroid hyperplasia), X-linked vitamin D-resistant rickets, and neurofibromatosis type I. Acquired disorders include space occupying lesions due to one of several potential causes ranging from brain tumors to hematomas.[19]


The blockage of cerebrospinal fluid (CSF) flow may also cause a syrinx to form, eventually leading to syringomyelia. Central cord symptoms such as hand weakness, dissociated sensory loss, and, in severe cases, paralysis may occur.[24]

Chiari malformation and syringomyelia

Syringomyelia is a chronic progressive degenerative disorder characterized by a fluid-filled cyst located in the spinal cord. Its symptoms include pain, weakness, numbness, and stiffness in the back, shoulders, arms or legs. Other symptoms include headaches, the inability to feel changes in the temperature, sweating, sexual dysfunction, and loss of bowel and bladder control. It is usually seen in the cervical region but can extend into the medulla oblongata and pons or it can reach downward into the thoracic or lumbar segments. Syringomyelia is often associated with Chiari Malformation Type I and is commonly seen between the C-4 and C-6 levels. To this date the exact development of syringomyelia is unknown but many theories suggest that the herniated tonsils in Chiari Malformation Type I form a “plug” which does not allow an outlet of Cerebrospinal fluid (CSF) from the brain to the spinal canal. Syringomyelia is present in 25% of patients with Chiari Malformation.[25]


Diagnosis is made through a combination of patient history, neurological examination, and magnetic resonance imaging (MRI).[26] Magnetic resonance is considered the best imaging modality for Chiari malformation to date. Computed tomography (CT) was the most utilized technique before MRI. It has never been completely reliable, as it can miss spinal cord cavitations. Neuroradiological investigation is used to first discount any intracranial condition that could be responsible for intracranial pressure and tonsillar herniation. Neuroradiological diagnosistics evaluate the severity of crowding of the neural structures within the posterior cranial fossa and their impact on the foramen magnum. Thin-section multiplanar CT with reformatted images is considered the best diagnostic approach for imaging of syringomyelia and prolapse of the vertebral column into the cranial cavity.[27]

The diagnosis of a Chiari II malformation can be made prenatally through ultrasound.[28][29]


The treatments for Chiari malformation are based on the occurrence of clinical symptoms rather than the radiological findings. The presence of a syrinx is known to give specific signs and symptoms that vary from dysesthetic sensations to algothermal dissociation to spasticity and paresis. These are important indications that decompressive surgery is needed. Surgery is an immediate need for patients with Chiari Malformation Type II. Type II patients have severe brain stem damage and rapidly diminishing neurological response.[30][31]

Decompressive surgery[32] performed involves removing the lamina of the first and sometimes the second or even third cervical vertebrae and part of the occipital bone of the skull to relieve pressure. The flow of spinal fluid may be accompanied by a shunt. Since this surgery usually involves the opening of the dura mater and the expansion of the space beneath, a dural graft is usually applied to cover the expanded posterior fossa.

A small number of neurological surgeons believe that detethering the spinal cord as an alternate approach relieves the compression of the brain against the skull opening (foramen magnum), obviating the need for decompression surgery and associated trauma. However, this approach is significantly less documented in the medical literature, with reports on only a handful of patients. It should be noted that the alternative spinal surgery is also not without risk.[citation needed]

Complications of decompression surgery can arise. They include bleedings, damage to structures in the brain and spinal canal, meningitis, CSF fistulas, occipito-cervical instability and pseudomeningeocele. Rare post-operative complications include hydrocephalus and brain stem compression by retroflexion of odontoid. Also, an extended CVD created by a wide opening and big duroplasty can cause a cerebellar “slump”. This complication needs to be corrected by cranioplasty.[30]

In cases with brainstem dysfunction, anterior decompression may also be required. On April 24, 2009, a young patient with Type 1 Chiari malformation was successfully treated with a minimally invasive endoscopic transnasal procedure followed by a posterior decompression and fusion by Dr. Richard Anderson and colleagues at the Columbia University Medical Center Department of Neurosurgery.[33] This technique was later published by Hankinson and colleagues in the Journal of Neurosurgery [34]


The prevalence of congenital Chiari I malformation, defined as tonsilar herniations of 3 to 5 mm or greater, had been estimated to be in the range of one per 1000 births, but may be much higher.[8][35] Women are three times more likely than men to have a congenital Chiari malformation.[36] Type II malformations are more prevalent in people of Celtic descent.[35] The incidence of symptomatic Chiari is less, but unknown.


The history of Chiari Malformation is described below and categorized by the year:

  • 1883: Cleland – first to describe Chiari II or Arnold- Chiari malformation on his report of a child with spina bifida, hydrocephalus, and anatomical alterations of the cerebellum and brainstem.[37]
  • 1891: Hans Chiari- Viennese pathologist described the case of a 17 year old woman with elongation of the tonsils into cone shaped projections which accompany the medulla and are crammed into the spinal canal.[37]
  • 1907: Schwalbe and Gredig- pupils of Arnold; described four cases of meningomyelocele and alterations in the brainstem and cerebellum, and gave the name “Arnold- Chiari” to these malformations.[37]
  • 1932: Van Houweninge Graftdijk- first to report the surgical treatment of Chiari malformations. All patients died from surgery or postoperative complications.[37]
  • 1935: Russell and Donald- suggested that decompression of the spinal cord at the foramen magnum might facilitate the CSF circulation.[37]
  • 1940: Gustafson and Oldberg- diagnosed Chiari malformation with syringomyelia[37]
  • 1974: Bloch et al.- described the tonsils position to be classified between 7 mm and 8 mm below cerebellum.[37]
  • 1985: Aboulezz- used MRI for discovery of extension[37]

Society and culture

The condition was brought to the mainstream on the series CSI: Crime Scene Investigation in the tenth season episode "Internal Combustion" on February 4, 2010.[38] Chiari was briefly mentioned on the medical drama House M.D. in the fifth season episode "House Divided".[39] and it was the focus of the sixth season episode "The Choice." It was also mentioned in the medical drama A Gifted Man, in the first season episode "In Case of Separation Anxiety." [40]

Notable cases

  • Rosanne Cash[41]
  • Bobby Jones[42] - Legendary American golfer
  • Marissa Irwin[43] -model with Chiari secondary to Ehlers-Danlos syndrome


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  5. 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 Vannemreddy P, Nourbakhsh A, Willis B, Guthikonda B. (January 2010). Congenital Chiari malformations. Neurology India 58 (1): 6–14.
  6. Kojima A, Mayanagi K, Okui S (February 2009). Progression of pre-existing Chiari type I malformation secondary to cerebellar hemorrhage: case report. Neurol. Med. Chir. (Tokyo) 49 (2): 90–2. [dead link]
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  8. 8.0 8.1 8.2 Milhorat TH, Bolognese PA, Nishikawa M, McDonnell NB, Francomano CA (December 2007). Syndrome of occipitoatlantoaxial hypermobility, cranial settling, and chiari malformation type I in patients with hereditary disorders of connective tissue. Journal of Neurosurgery: Spine 7 (6): 601–9.
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  11. (2010). Cleveland Clinic Children's Hospital Pediatric Radiology Image Gallery. Cleveland Clinic. URL accessed on June 14, 2010.
  12. MeSH Arnold-Chiari+Malformation
  13. Chiari Malformations - Department of Neurological Surgery.
  14. Neuropathology For Medical Students.
  15. Chiari malformation. Dorlands Medical Dictionary.
  16. Kaipo T. Pau. "Chapter XVIII.16. Developmental Brain Anomalies" Jeffrey K. Okamoto et al Case Based Pediatrics For Medical Students and Residents.
  17. Code 453.0: Budd-Chiari Syndrome. 2008 ICD-9-CM Diagnosis.
  18. Spontaneous Spinal Cerebrospinal Fluid Leaks: Diagnosis.
  19. Loukas M, Shayota BJ, Oelhafen K, Miller JH, Chern JJ, Tubbs RS, Oakes WJ (2011). Associated disorders of Chiari Type I malformations: a review. Neurosurg Focus 31 (3): E3.
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  27. Massimo Caldarelli, Concezio Di Rocco (2004). Diagnosis of Chiari I malformation and related syringomyelia: radiological and neurophysiological studies. Childs Nerv Syst 20 (5): 332–335.
  29. Li-Gang Cui, Ling Jiang, Hua-Bin Zhang, Bin Liu, Jin-Rui Wang, Jian-Wen Jiaa, Wen Chen (2011). Monitoring of cerebrospinal fluid flow by intraoperative ultrasound in patients with Chiari I malformation. Clinical Neurology and Neurosurgery 113 (3): 173–176.
  30. 30.0 30.1 Alessia Imperato, Vincenzo Seneca, Valentina Cioffi, Giuseppe Colella and Michelangelo Gangemi (2011). Treatment of Chiari malformation: who, when and how. Neurological Sciences 32: 335–339.
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  32. Guo F, Wang M, Long J, et al. (2007). Surgical management of Chiari malformation: analysis of 128 cases. Pediatr Neurosurg 43 (5): 375–81.
  33. Boy's Brainstem Saved By A Nose. Columbia Medical Center Department of Neurological Surgery. URL accessed on 2010-01-19.
  34. Todd C. Hankinson, Eli Grunstein, Paul Gardner, Theodore J. Spinks, and Richard C. E. Anderson (2010). Transnasal odontoid resection followed by posterior decompression and occipitocervical fusion in children with Chiari malformation Type I and ventral brainstem compression. J Neurosurg Pediatrics 5 (6): 549–553.
  35. 35.0 35.1
  37. 37.0 37.1 37.2 37.3 37.4 37.5 37.6 37.7 Schijman (2004). History, anatomic forms, and pathogenesis of Chiari malformations. Child's nervous system 20 (5).
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  39. clinic_duty: House MD – 5.22 House Divided. URL accessed on 2011-11-04.
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  41. Rosanne Cash recovering from brain surgery - Entertainment - Celebrities - MSNBC. URL accessed on 2011-11-04.
  42. Bobby Jones Society | Chiari & Syringomyelia Foundation. URL accessed on 2011-11-04.

External links