Pineal teratoma: Difference between revisions

Jump to navigation Jump to search
No edit summary
Line 5: Line 5:
{{SK}} Pineal teratomas; Pineal teratoblastoma ; Pineal teratoid tumor; Pineal germ cell tumors; Pineal gland tumors; Brain tumor
{{SK}} Pineal teratomas; Pineal teratoblastoma ; Pineal teratoid tumor; Pineal germ cell tumors; Pineal gland tumors; Brain tumor


==Overview==
=Overview=
Pineal teratoma is an uncommon [[extra-axial intracranial]] cancer, which can have varied components and thus a wide range of appearances.<ref name="overviewpt1">Intracranial teratomas. Dr Alexandra Stanislavsky and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/intracranial-teratoma. Accessed on December 10, 2015</ref> The most frequent location of these tumors is [[pineal]] and [[suprasellar]] region. Clinical signs and symptoms depend on the localization of the tumor. Most commonly include signs of increased [[intracranial pressure]], [[Parinaud's syndrome]], [[bitemporal hemianopsia]] and signs of endocrine deficiency. Mature teratomas are [[benign]], mature, well-differentiated [[Cyst|cystic]] lesions; whereas immature teratomas are poorly differentiated lesions with solid components and malignant transformation. Symptoms of pineal teratoma include [[headache]], [[vomiting]], [[somnolence]], and [[weakness]]. Compression of the superior colliculi by pineal teratoma can lead to a characteristic gaze palsy, known as [[Parinaud syndrome]].
Pineal teratoma is an uncommon [[extra-axial intracranial]] cancer, which can have varied components and thus a wide range of appearances.<ref name="overviewpt1">Intracranial teratomas. Dr Alexandra Stanislavsky and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/intracranial-teratoma. Accessed on December 10, 2015</ref> The most frequent location of these tumors is [[pineal]] and [[suprasellar]] region. Clinical signs and symptoms depend on the localization of the tumor. Most commonly include signs of increased [[intracranial pressure]], [[Parinaud's syndrome]], [[bitemporal hemianopsia]] and signs of endocrine deficiency. Mature teratomas are [[benign]], mature, well-differentiated [[Cyst|cystic]] lesions; whereas immature teratomas are poorly differentiated lesions with solid components and malignant transformation. Symptoms of pineal teratoma include [[headache]], [[vomiting]], [[somnolence]], and [[weakness]]. Compression of the superior colliculi by pineal teratoma can lead to a characteristic gaze palsy, known as [[Parinaud syndrome]].


=== '''classification''' ===
= classification =
 
* Pineal teratoma may be classified into three subtypes:
* Pineal teratoma may be classified into three subtypes:
** Mature
** Mature
Line 20: Line 21:
** Calcification, including teeth
** Calcification, including teeth


=== clinical presentation ===
= clinical presentation =
 
* The clinical presentation of pineal teratoma is mainly from the [[obstructive hydrocephalus]] secondary to compression of the [[tectum]] of the [[midbrain]] and obstruction of the aqueduct. Symptoms of pineal teratoma include [[headache]], [[vomiting]], [[somnolence]], and [[weakness]].<ref name="clinpt1" />
* The clinical presentation of pineal teratoma is mainly from the [[obstructive hydrocephalus]] secondary to compression of the [[tectum]] of the [[midbrain]] and obstruction of the aqueduct. Symptoms of pineal teratoma include [[headache]], [[vomiting]], [[somnolence]], and [[weakness]].<ref name="clinpt1" />
* Compression of the superior colliculi by pineal teratoma can lead to a characteristic gaze palsy, known as [[Parinaud syndrome]].  
* Compression of the superior colliculi by pineal teratoma can lead to a characteristic gaze palsy, known as [[Parinaud syndrome]].
 
= Pathophysiology =


=== Pathophysiology ===
* On microscopic histopathological analysis, pineal teratoma is characterized by cells originating from at least two and usually all three embryonic layers ([[ectoderm]], [[mesoderm]], and [[endoderm]]). The histological subtype may not necessarily determine the biological behavior.<ref name="pathpt1">Pathology of extra-axial intracranial teratoma. Dr Alexandra Stanislavsky and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/intracranial-teratoma. Accessed on December 10, 2015</ref>
* On microscopic histopathological analysis, pineal teratoma is characterized by cells originating from at least two and usually all three embryonic layers ([[ectoderm]], [[mesoderm]], and [[endoderm]]). The histological subtype may not necessarily determine the biological behavior.<ref name="pathpt1">Pathology of extra-axial intracranial teratoma. Dr Alexandra Stanislavsky and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/intracranial-teratoma. Accessed on December 10, 2015</ref>


=== Natural history, complications, and prognosis ===
= Natural history, complications, and prognosis =


* Pineal teratomas may be associated with elevated levels of [[AFP|serum alpha fetoprotein (AFP)]] or [[CEA|serum carcinoembryonic antigen (CEA)]].<ref name="pathpt1">Pathology of extra-axial intracranial teratoma. Dr Alexandra Stanislavsky and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/intracranial-teratoma. Accessed on December 10, 2015</ref>
* Pineal teratomas may be associated with elevated levels of [[AFP|serum alpha fetoprotein (AFP)]] or [[CEA|serum carcinoembryonic antigen (CEA)]].<ref name="pathpt1">Pathology of extra-axial intracranial teratoma. Dr Alexandra Stanislavsky and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/intracranial-teratoma. Accessed on December 10, 2015</ref>
Line 70: Line 73:
!'''CSF diversion'''
!'''CSF diversion'''
|
|
* The optimal surgical strategy to treat acute hydrocephalus in patients with pineal tumors is uncertain.
* The optimal surgical strategy to treat acute [[hydrocephalus]] in patients with [[Pineal tumor|pineal tumors]] is uncertain.
* CSF diversion (ventriculoperitoneal [VP] shunt or third ventriculostomy may be necessary in symptomatic patients, although debulking surgery may obviate the need for this procedure  
*[[CSF]] diversion [[Ventriculoperitoneal shunt|ventriculoperitoneal [VP] shunt]] or third [[ventriculostomy]] may be necessary in symptomatic patients, although debulking surgery may obviate the need for this procedure.
* When CSF diversion is necessary, endoscopic third ventriculostomy can be carried out at the same time as the biopsy and is preferred over VP shunts, which can be complicated by infection, shunt malfunction, subdural hematoma, and rarely, tumor seeding  
* When [[CSF]] diversion is necessary, endoscopic third [[ventriculostomy]] can be carried out at the same time as the biopsy and is preferred over [[Ventriculoperitoneal shunt|VP shunts]], which can be complicated by infection, shunt malfunction, [[subdural hematoma]], and rarely, tumor seeding.
|-
|-
!'''Surgical resection'''
!'''Surgical resection'''
|
|
* Some series report long-term survival with surgery alone, even in patients with pineoblastomas.  
* Some series report long-term survival with surgery alone, even in patients with [[pineoblastomas]].
* Indeed, for pineoblastomas, gross total surgical resection appears to correlate with improved survival.  
* Indeed, for [[pineoblastomas]], gross total surgical resection appears to correlate with improved survival.
* Patients with symptomatic recurrent pineocytomas should also be considered for surgical resection of the lesion
* Patients with symptomatic recurrent [[pineocytomas]] should also be considered for surgical resection of the lesion.
|-
|-
!'''Radiation'''
!'''Radiation'''
|
|
* Postoperative adjuvant RT is frequently (but not universally) recommended, and local control is dose-dependent.  
* Postoperative adjuvant [[radiation therapy]] (RT) is frequently (but not universally) recommended, and local control is dose-dependent.
* The incidence of leptomeningeal recurrence was significantly lower among patients receiving CSI compared with those who did not.
* The incidence of leptomeningeal recurrence was significantly lower among patients receiving CSI compared with those who did not.
* The five-year survival rates were 86 and 49 percent for pineocytomas and non-pineocytoma PPTs, respectively.
* The five-year survival rates were 86 and 49 percent for [[pineocytomas]] and non-pineocytomas, respectively.
* Adjuvant RT is not universally recommended after gross total resection of a pineocytoma  
* Adjuvant RT is not universally recommended after gross total resection of a [[pineocytoma]].
|-
|-
!'''Stereotactic radiosurgery'''
!'''Stereotactic radiosurgery'''
|
|
* Stereotactic radiosurgery (SRS) is emerging as a useful treatment alternative for pineocytomas, although experience is limited.  
*[[Stereotactic radiosurgery|Stereotactic radiosurgery (SRS)]] is emerging as a useful treatment alternative for [[pineocytomas]], although experience is limited.
* The precise radiation fields that are defined by MRI or CT-computerized treatment planning minimize damage to the surrounding brain, and the risks of general anesthesia and craniotomy are avoided.
* The precise radiation fields that are defined by MRI or CT-computerized treatment planning minimize damage to the surrounding brain, and the risks of general anesthesia and [[craniotomy]] are avoided.


* SRS is increasingly being used to treat pineal region tumors, either as an additional therapy after conventional treatments or as a primary treatment.
*[[Stereotactic surgery|SRS]] is increasingly being used to treat [[Pineal gland|pineal region]] tumors, either as an additional therapy after conventional treatments or as a primary treatment.
* Due to the low rate of side effects, IRS may develop into an attractive alternative to microsurgery in de novo diagnosed pineocytomas. In malignant PPTs, IRS may be routinely applied in a multimodality treatment schedule supplementary to conventional irradiation.
* Due to the low rate of side effects, [[Stereotactic surgery|SRS]] may develop into an attractive alternative to microsurgery in de novo diagnosed [[pineocytomas]]. In malignant tumors, [[Stereotactic surgery|SRS]]<nowiki/>may be routinely applied in a multimodality treatment schedule supplementary to conventional irradiation.
|-
|-
!'''Chemotherapy as part of multimodality therapy'''
!'''Chemotherapy as part of multimodality therapy'''
|
|
* The similarity of pineoblastomas to medulloblastomas in terms of their clinical behavior and tendency for leptomeningeal seeding has led to the use of similar chemotherapy regimens in patients with pineoblastoma as part of a multimodality approach.
* The similarity of [[Pineoblastoma|pineoblastomas]] to [[medulloblastomas]] in terms of their clinical behavior and tendency for leptomeningeal seeding has led to the use of similar [[chemotherapy regimens]] in patients with [[pineoblastoma]] as part of a multimodality approach.
* Chemotherapy has been used to delay radiation therapy in very young children, for whom the long-term neurocognitive and developmental side effects of craniospinal irradiation (CSI) are a major concern.
*[[Chemotherapy]] has been used to delay radiation therapy in very young children, for whom the long-term neurocognitive and developmental side effects of craniospinal irradiation (CSI) are a major concern.
* The importance of radiation therapy as a component of the initial treatment of supratentorial primitive neuroectodermal tumors (PNETs) is also supported by the German HIT-SKK87 and HIT-SKK92 protocols, as well as the Canadian pediatric brain tumor protocol
* The importance of radiation therapy as a component of the initial treatment of [[Primitive neuroectodermal tumor|supratentorial primitive neuroectodermal tumors (PNETs)]] is also supported by the German HIT-SKK87 and HIT-SKK92 protocols, as well as the Canadian pediatric brain tumor protocol.
|}
|}



Revision as of 20:57, 26 June 2019


Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]Associate Editor(s)-in-Chief: Sujit Routray, M.D. [2] Associate Editor(s)-in-Chief: nabeel ahmed

WikiDoc Resources for Pineal teratoma

Articles

Most recent articles on Pineal teratoma

Most cited articles on Pineal teratoma

Review articles on Pineal teratoma

Articles on Pineal teratoma in N Eng J Med, Lancet, BMJ

Media

Powerpoint slides on Pineal teratoma

Images of Pineal teratoma

Photos of Pineal teratoma

Podcasts & MP3s on Pineal teratoma

Videos on Pineal teratoma

Evidence Based Medicine

Cochrane Collaboration on Pineal teratoma

Bandolier on Pineal teratoma

TRIP on Pineal teratoma

Clinical Trials

Ongoing Trials on Pineal teratoma at Clinical Trials.gov

Trial results on Pineal teratoma

Clinical Trials on Pineal teratoma at Google

Guidelines / Policies / Govt

US National Guidelines Clearinghouse on Pineal teratoma

NICE Guidance on Pineal teratoma

NHS PRODIGY Guidance

FDA on Pineal teratoma

CDC on Pineal teratoma

Books

Books on Pineal teratoma

News

Pineal teratoma in the news

Be alerted to news on Pineal teratoma

News trends on Pineal teratoma

Commentary

Blogs on Pineal teratoma

Definitions

Definitions of Pineal teratoma

Patient Resources / Community

Patient resources on Pineal teratoma

Discussion groups on Pineal teratoma

Patient Handouts on Pineal teratoma

Directions to Hospitals Treating Pineal teratoma

Risk calculators and risk factors for Pineal teratoma

Healthcare Provider Resources

Symptoms of Pineal teratoma

Causes & Risk Factors for Pineal teratoma

Diagnostic studies for Pineal teratoma

Treatment of Pineal teratoma

Continuing Medical Education (CME)

CME Programs on Pineal teratoma

International

Pineal teratoma en Espanol

Pineal teratoma en Francais

Business

Pineal teratoma in the Marketplace

Patents on Pineal teratoma

Experimental / Informatics

List of terms related to Pineal teratoma

Synonyms and keywords: Pineal teratomas; Pineal teratoblastoma ; Pineal teratoid tumor; Pineal germ cell tumors; Pineal gland tumors; Brain tumor

Overview

Pineal teratoma is an uncommon extra-axial intracranial cancer, which can have varied components and thus a wide range of appearances.[1] The most frequent location of these tumors is pineal and suprasellar region. Clinical signs and symptoms depend on the localization of the tumor. Most commonly include signs of increased intracranial pressure, Parinaud's syndrome, bitemporal hemianopsia and signs of endocrine deficiency. Mature teratomas are benign, mature, well-differentiated cystic lesions; whereas immature teratomas are poorly differentiated lesions with solid components and malignant transformation. Symptoms of pineal teratoma include headache, vomiting, somnolence, and weakness. Compression of the superior colliculi by pineal teratoma can lead to a characteristic gaze palsy, known as Parinaud syndrome.

classification

  • Pineal teratoma may be classified into three subtypes:
    • Mature
    • Immature
    • Mature with malignant transformation
  • Mature teratomas are benign, mature, well-differentiated cystic lesions; whereas immature teratomas are poorly differentiated lesions with solid components and malignant transformation.[2]
  • On other occasions, mature teratomas contain elements that undergo malignant transformation (most commonly squamous components).
    • Fat
    • Cystic spaces due to mucus production or other exocrine products
    • Soft-tissue from any part of the body
    • Calcification, including teeth

clinical presentation

Pathophysiology

  • On microscopic histopathological analysis, pineal teratoma is characterized by cells originating from at least two and usually all three embryonic layers (ectoderm, mesoderm, and endoderm). The histological subtype may not necessarily determine the biological behavior.[4]

Natural history, complications, and prognosis

  • Pineal teratomas may be associated with elevated levels of serum alpha fetoprotein (AFP) or serum carcinoembryonic antigen (CEA).[4]
  • Pineal teratoma must be differentiated from pineal lipoma, pineal dermoid, and other pineal gland tumors.[5]
  • Pineal teratoma is a rare disease that tends to affect the children and young adult population.[3]
  • Common complications of pineal teratoma include:[3]
  • Head CT scan and brain MRI may be helpful in the diagnosis of pineal teratoma.[6] Given their extremely variable histological components, CT/MRI imaging also tends to be heterogeneous, with tumors typically demonstrating a mixture of tissue densities and signal intensity. Fat, if present, is helpful in narrowing the differential.
  • On head CT scan, pineal teratoma is characterized by a mass with fat and calcification, which is usually solid / "clump-like". It usually has cystic and solid components, contributing to an irregular outline. Solid components demonstrate variable enhancement on contrast administration.[6]
  • On brain MRI, pineal teratoma is characterized by:[6]
MRI component Findings

T1

  • Hyperintense components due to fat and proteinaceous/lipid-rich fluid
  • Intermediate components of soft tissue
  • Hypointense components due to calcification and blood products

T1 with contrast

  • Solid soft tissue components show enhancement

T2

  • Mixed signal from differing components

Treatment

  • The mainstay of therapy for immature pineal teratoma is combined radiotherapy and chemotherapy. The residual or mature component is removed surgically.[7]
Management Options of Penial Gland tumors
CSF diversion
Surgical resection
  • Some series report long-term survival with surgery alone, even in patients with pineoblastomas.
  • Indeed, for pineoblastomas, gross total surgical resection appears to correlate with improved survival.
  • Patients with symptomatic recurrent pineocytomas should also be considered for surgical resection of the lesion.
Radiation
  • Postoperative adjuvant radiation therapy (RT) is frequently (but not universally) recommended, and local control is dose-dependent.
  • The incidence of leptomeningeal recurrence was significantly lower among patients receiving CSI compared with those who did not.
  • The five-year survival rates were 86 and 49 percent for pineocytomas and non-pineocytomas, respectively.
  • Adjuvant RT is not universally recommended after gross total resection of a pineocytoma.
Stereotactic radiosurgery
  • Stereotactic radiosurgery (SRS) is emerging as a useful treatment alternative for pineocytomas, although experience is limited.
  • The precise radiation fields that are defined by MRI or CT-computerized treatment planning minimize damage to the surrounding brain, and the risks of general anesthesia and craniotomy are avoided.
  • SRS is increasingly being used to treat pineal region tumors, either as an additional therapy after conventional treatments or as a primary treatment.
  • Due to the low rate of side effects, SRS may develop into an attractive alternative to microsurgery in de novo diagnosed pineocytomas. In malignant tumors, SRSmay be routinely applied in a multimodality treatment schedule supplementary to conventional irradiation.
Chemotherapy as part of multimodality therapy
  • The similarity of pineoblastomas to medulloblastomas in terms of their clinical behavior and tendency for leptomeningeal seeding has led to the use of similar chemotherapy regimens in patients with pineoblastoma as part of a multimodality approach.
  • Chemotherapy has been used to delay radiation therapy in very young children, for whom the long-term neurocognitive and developmental side effects of craniospinal irradiation (CSI) are a major concern.
  • The importance of radiation therapy as a component of the initial treatment of supratentorial primitive neuroectodermal tumors (PNETs) is also supported by the German HIT-SKK87 and HIT-SKK92 protocols, as well as the Canadian pediatric brain tumor protocol.

References

  1. Intracranial teratomas. Dr Alexandra Stanislavsky and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/intracranial-teratoma. Accessed on December 10, 2015
  2. Teratoma. Dr Jeremy Jones and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/teratoma. Accessed on December 10, 2015
  3. 3.0 3.1 3.2 Clinical presentation of extra-axial intracranial teratoma. Dr Alexandra Stanislavsky and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/intracranial-teratoma. Accessed on December 10, 2015
  4. 4.0 4.1 Pathology of extra-axial intracranial teratoma. Dr Alexandra Stanislavsky and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/intracranial-teratoma. Accessed on December 10, 2015
  5. Differential diagnosis of extra-axial intracranial teratomas. Dr Alexandra Stanislavsky and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/intracranial-teratoma. Accessed on December 10, 2015
  6. 6.0 6.1 6.2 Radiographic features of intracranial teratoma. Dr Alexandra Stanislavsky and Frank Gaillard et al. Radiopaedia 2015. http://radiopaedia.org/articles/intracranial-teratoma. Accessed on December 10, 2015
  7. Friedman JA, Lynch JJ, Buckner JC, Scheithauer BW, Raffel C (2001). "Management of malignant pineal germ cell tumors with residual mature teratoma". Neurosurgery. 48 (3): 518–22, discussion 522-3. PMID 11270541.


Template:WikiDoc Sources