Craniotomy: Difference between revisions

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'''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}}      
'''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}}      
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== Description ==
== Description ==


A craniotomy is an operation where a part of the skull is removed in order to perform surgery on the brain<ref>Brain & Spine Foundation. Craniotomy Factsheet. Available from https://www.brainandspine.org.uk/our-publications/our-fact-sheets/craniotomy/ (Accessed 09/06/2022)</ref>. If the removed part of bone is not put back, the operation is instead called a craniectomy, and the following surgery where the skull is reconstructed is called a cranioplasty<ref name=":0">Fernández-de Thomas RJ, De Jesus O. Craniotomy. Treasure Island (FL): StatPearls Publishing, 2022</ref>.  
A craniotomy is an operation where a part of the skull is removed in order to perform surgery on the [[Brain Anatomy|brain]]<ref>Brain & Spine Foundation. Craniotomy Factsheet. Available from https://www.brainandspine.org.uk/our-publications/our-fact-sheets/craniotomy/ (Accessed 09/06/2022)</ref>. If the removed part of [[bone]] is not put back, the operation is instead called a craniectomy, and the following surgery where the skull is reconstructed is called a cranioplasty<ref name=":0">Fernández-de Thomas RJ, De Jesus O. Craniotomy. Treasure Island (FL): StatPearls Publishing, 2022</ref>.  


== Indication ==
== Indication ==
A craniotomy may be used in the treatment and/ or diagnosis of a number of conditions including<ref>Johns Hopkins Medicine. Craniotomy. Available from https://www.hopkinsmedicine.org/health/treatment-tests-and-therapies/craniotomy  (Accessed 03/06/2022)</ref><ref name=":0" />:
A craniotomy may be used in the treatment and/ or diagnosis of a number of conditions including<ref>Johns Hopkins Medicine. Craniotomy. Available from https://www.hopkinsmedicine.org/health/treatment-tests-and-therapies/craniotomy  (Accessed 03/06/2022)</ref><ref name=":0" />:


* Brain tumours.
* Brain [[Brain Tumors|tumors]].
* Brain haematoma.
* Brain haematoma.
* Aneurysms.
* Aneurysms.
* Blood clots.
* [[Stroke|Blood clots]].
* Increased intracranial pressure (ICP), common after traumatic brain injury.
* Increased intracranial pressure (ICP), common after [[Overview of Traumatic Brain Injury|traumatic brain injury.]]
* Arteriovenous malformations (AVMs).
* Arteriovenous malformations (AVMs).
* Arteriovenous fistulas (AVFs).
* Arteriovenous fistulas (AVFs).
* Brain abscesses.
* Brain abscesses.
* Dura mater tear.  
* Dura mater tear.  
* Skull fractures.
* Skull [[Fracture|fractures]].
* Epilepsy.
* [[Epilepsy]].
* To implant stimulator devices for movement disorders.  
* To implant [[Deep Brain Stimulation|stimulator devices]] for movement disorders.


== Types of craniotomy ==
== Types of craniotomy ==
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The location classifications are<ref>Rao, D., Le, R. T., Fiester, P., Patel, J., Rahmathulla, G. An Illustrative Review of Common Modern Craniotomies. Journal of clinical imaging science. 2020: 10; 81.</ref>:
The location classifications are<ref>Rao, D., Le, R. T., Fiester, P., Patel, J., Rahmathulla, G. An Illustrative Review of Common Modern Craniotomies. Journal of clinical imaging science. 2020: 10; 81.</ref>:


* Frontal
* [[Frontal Lobe|Frontal]]
* Temporal  
* [[Temporal Lobe|Temporal]]
* Parietal  
* [[Parietal Lobe|Parietal]]
* Occipital
* [[Occipital Bone|Occipital]]
* Pterional (Frontotemporal)
* Pterional (Frontotemporal)
* Suboccipital
* Suboccipital
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The level of physiotherapy intervention and rehabilitation post craniotomy varies widely, and is influenced by a number of factors including the actual surgery, the condition which is being treated, the patients' pre-morbid condition and also the general effects of being in hospital<ref>Taylor B.S., Kellner C.P., Connolly, Jr. E. Postcraniotomy Complication Management. In: Lee K.(editor) The NeuroICU Book (Seconds Edition) [Online]. 2017. Available from: <nowiki>https://neurology.mhmedical.com/content.aspx?bookid=2155&sectionid=16396534</nowiki> (Accessed 13/06/2022)</ref>.   
The level of physiotherapy intervention and rehabilitation post craniotomy varies widely, and is influenced by a number of factors including the actual surgery, the condition which is being treated, the patients' pre-morbid condition and also the general effects of being in hospital<ref>Taylor B.S., Kellner C.P., Connolly, Jr. E. Postcraniotomy Complication Management. In: Lee K.(editor) The NeuroICU Book (Seconds Edition) [Online]. 2017. Available from: <nowiki>https://neurology.mhmedical.com/content.aspx?bookid=2155&sectionid=16396534</nowiki> (Accessed 13/06/2022)</ref>.   


Generally, the goals of physiotherapy post craniotomy are to maintain and/ or increase range of motion and muscle strength, reduce and prevent spasticity and contractures, functional transfer or gait training, and to improve balance and coordination<ref>Physio.co.uk. Neurosurgery. Available from: https://www.physio.co.uk/what-we-treat/neurological/neurosurgery/ (Accessed 14/06/2022)</ref>.  
Generally, the goals of physiotherapy post craniotomy are to maintain and/ or increase [[Range of Motion|range of motion]] and [[Muscle Strength Testing|muscle strength]], reduce and prevent [[spasticity]] and [[Contracture Management for Traumatic Brain Injury|contractures]], functional [[Transfer Aids|transfer]] or [[gait]] training, and to improve [[balance]] and [[Coordination Exercises|coordination]]<ref>Physio.co.uk. Neurosurgery. Available from: https://www.physio.co.uk/what-we-treat/neurological/neurosurgery/ (Accessed 14/06/2022)</ref>.  


Within Neurological Intensive Care Units, physiotherapy intervention is both safe and beneficial<ref name=":2">Sottile PD, Nordon-Craft A, Malone D, Luby DM, Schenkman M, Moss M. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4498141/ Physical Therapist Treatment of Patients in the Neurological Intensive Care Unit: Description of Practice]. Phys Ther. 2015; 95:1 006-1014. </ref>. The benefits include decreased length of hospital stay, decreased time on ventilation, improved muscle strength and increased independence in activities of daily living<ref>Li Z, Peng X, Zhu B, Zhang Y, Xi X. [https://pubmed.ncbi.nlm.nih.gov/23127305/ Active mobilization for mechanically ventilated patients: a systematic review]. Arch Phys Med Rehabil. 2013; 94: 551–561.</ref><ref>Garzon-Serrano J, Ryan C, Waak K, Hirschberg R, Tully S. Bittner E. et al. [https://pubmed.ncbi.nlm.nih.gov/21497316/ Early mobilization in critically ill patients: patients' mobilization level depends on health care provider's profession]. PM&R. 2011; 3: 307–313.  
Within Neurological Intensive Care Units, physiotherapy intervention is both safe and beneficial<ref name=":2">Sottile PD, Nordon-Craft A, Malone D, Luby DM, Schenkman M, Moss M. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4498141/ Physical Therapist Treatment of Patients in the Neurological Intensive Care Unit: Description of Practice]. Phys Ther. 2015; 95:1 006-1014. </ref>. The benefits include decreased length of hospital stay, decreased time on [[Ventilation and Weaning|ventilation]], improved muscle strength and increased independence in activities of daily living<ref>Li Z, Peng X, Zhu B, Zhang Y, Xi X. [https://pubmed.ncbi.nlm.nih.gov/23127305/ Active mobilization for mechanically ventilated patients: a systematic review]. Arch Phys Med Rehabil. 2013; 94: 551–561.</ref><ref>Garzon-Serrano J, Ryan C, Waak K, Hirschberg R, Tully S. Bittner E. et al. [https://pubmed.ncbi.nlm.nih.gov/21497316/ Early mobilization in critically ill patients: patients' mobilization level depends on health care provider's profession]. PM&R. 2011; 3: 307–313.  


</ref>. It has been found patients undergoing intercranial pressure monitoring received less frequent and intensive physiotherapy<ref name=":2" />, despite the evidence standard physiotherapy practice is safe for these patients<ref>Brimioulle S, Moraine JJ, Norrenberg D, Kahn RJ. [https://pubmed.ncbi.nlm.nih.gov/9413447/ Effects of positioning and exercise on intracranial pressure in a neurosurgical intensive care unit.] Phys Ther. 1997. Dec; 77: 1682-9</ref><ref>Anneli Thelandersson. [https://gupea.ub.gu.se/bitstream/handle/2077/41549/gupea_2077_41549_3.pdf;jsessionid=A657A807EEDF4EB3C490AE8D22007785?sequence=3 Early Physiotherapy in the Neurointensive Care Unit Passive Physiotherapy Interventions] [Dissertation] Gothenburg: University of Gotherburg. 2016</ref>. At present there are no set protocols for physiotherapy post craniotomy<ref>Srivastava A., Sharma N., Srivastav A K., Gehlot A. Functional rehabilitation in intensive care units for post craniotomy patients: study protocol. J. Physiother. Res. 2021: 11: 569-582</ref>, and instead care is directed by the physiotherapists' assessment findings.  
</ref>. It has been found patients undergoing intracranial pressure monitoring received less frequent and intensive physiotherapy<ref name=":2" />, despite the evidence standard physiotherapy practice is safe for these patients<ref>Brimioulle S, Moraine JJ, Norrenberg D, Kahn RJ. [https://pubmed.ncbi.nlm.nih.gov/9413447/ Effects of positioning and exercise on intracranial pressure in a neurosurgical intensive care unit.] Phys Ther. 1997. Dec; 77: 1682-9</ref><ref>Anneli Thelandersson. [https://gupea.ub.gu.se/bitstream/handle/2077/41549/gupea_2077_41549_3.pdf;jsessionid=A657A807EEDF4EB3C490AE8D22007785?sequence=3 Early Physiotherapy in the Neurointensive Care Unit Passive Physiotherapy Interventions] [Dissertation] Gothenburg: University of Gotherburg. 2016</ref>. At present there are no set protocols for physiotherapy post craniotomy<ref>Srivastava A., Sharma N., Srivastav A K., Gehlot A. Functional rehabilitation in intensive care units for post craniotomy patients: study protocol. J. Physiother. Res. 2021: 11: 569-582</ref>, and instead care is directed by the physiotherapists' assessment findings.  


There can be long term impairments to a patients function and quality of life<ref>Pfefferkorn T, Eppinger U,  Linn J, Birnbaum T, Herzog J, Straube A. et al. [https://www.ahajournals.org/doi/10.1161/strokeaha.109.550871 Long-Term Outcome After Suboccipital Decompressive Craniectomy for Malignant Cerebellar Infarction]. Stroke. 2009; 40: 3045-3050</ref><ref>Mandona L, Bradaïa N, GuettardaI E, Bonana I, Vahedib K, Bousserb MG, et al. Do patients have any special medical or rehabilitation difficulties after a craniectomy for malignant cerebral infarction during their hospitalization in a physical medicine and rehabilitation department? Annals of Physical and Rehabilitation Medicine. 2010; 53: 86-95</ref>, for which they might require ongoing physiotherapy intervention. Rehabilitation programs should be tailored to the individual patient abilities, prognosis and goals<ref>Parreiras de Menezes KK. [https://www.iomcworld.org/open-access/physical-therapy-rehabilitation-after-traumatic-brain-injury-2155-9562-1000311.pdf Physical Therapy Rehabilitation after Traumatic Brain Injury.] J Neurol Neurophysiol. 2016; 6: 311</ref>.   
There can be long term impairments to a patients function and [[Quality of Life|quality of life]]<ref>Pfefferkorn T, Eppinger U,  Linn J, Birnbaum T, Herzog J, Straube A. et al. [https://www.ahajournals.org/doi/10.1161/strokeaha.109.550871 Long-Term Outcome After Suboccipital Decompressive Craniectomy for Malignant Cerebellar Infarction]. Stroke. 2009; 40: 3045-3050</ref><ref>Mandona L, Bradaïa N, GuettardaI E, Bonana I, Vahedib K, Bousserb MG, et al. Do patients have any special medical or rehabilitation difficulties after a craniectomy for malignant cerebral infarction during their hospitalization in a physical medicine and rehabilitation department? Annals of Physical and Rehabilitation Medicine. 2010; 53: 86-95</ref>, for which they might require ongoing [[Neurology Treatment Techniques|physiotherapy intervention]]. Rehabilitation programs should be tailored to the individual patient abilities, prognosis and [[Goal Setting in Rehabilitation|goals]]<ref>Parreiras de Menezes KK. [https://www.iomcworld.org/open-access/physical-therapy-rehabilitation-after-traumatic-brain-injury-2155-9562-1000311.pdf Physical Therapy Rehabilitation after Traumatic Brain Injury.] J Neurol Neurophysiol. 2016; 6: 311</ref>.   
== Resources <br>  ==
== Resources <br>  ==


Revision as of 13:39, 14 June 2022

Original Editor - Chloe Waller

Top Contributors - Chloe Waller, Kim Jackson, Lucinda hampton, Kirenga Bamurange Liliane, Aminat Abolade and Aya Alhindi  

Description[edit | edit source]

A craniotomy is an operation where a part of the skull is removed in order to perform surgery on the brain[1]. If the removed part of bone is not put back, the operation is instead called a craniectomy, and the following surgery where the skull is reconstructed is called a cranioplasty[2].

Indication[edit | edit source]

A craniotomy may be used in the treatment and/ or diagnosis of a number of conditions including[3][2]:

Types of craniotomy[edit | edit source]

Craniotomies can be classified by the location, size or surgical technique[4]

The location classifications are[5]:

  • Orbitozygomatic


The size can range from the smallest, a Burr Hole craniotomy or a keyhole craniotomy, to operations with bone flaps that are multiple centimeters in diameter[4][6].

Another type of craniotomy is an awake craniotomy, where the patient is woken up during the procedure[7].

Post-Op Physiotherapy[edit | edit source]

The level of physiotherapy intervention and rehabilitation post craniotomy varies widely, and is influenced by a number of factors including the actual surgery, the condition which is being treated, the patients' pre-morbid condition and also the general effects of being in hospital[8].

Generally, the goals of physiotherapy post craniotomy are to maintain and/ or increase range of motion and muscle strength, reduce and prevent spasticity and contractures, functional transfer or gait training, and to improve balance and coordination[9].

Within Neurological Intensive Care Units, physiotherapy intervention is both safe and beneficial[10]. The benefits include decreased length of hospital stay, decreased time on ventilation, improved muscle strength and increased independence in activities of daily living[11][12]. It has been found patients undergoing intracranial pressure monitoring received less frequent and intensive physiotherapy[10], despite the evidence standard physiotherapy practice is safe for these patients[13][14]. At present there are no set protocols for physiotherapy post craniotomy[15], and instead care is directed by the physiotherapists' assessment findings.

There can be long term impairments to a patients function and quality of life[16][17], for which they might require ongoing physiotherapy intervention. Rehabilitation programs should be tailored to the individual patient abilities, prognosis and goals[18].

Resources
[edit | edit source]

Brain & Spine Foundation Craniotomy Factsheet

References[edit | edit source]

  1. Brain & Spine Foundation. Craniotomy Factsheet. Available from https://www.brainandspine.org.uk/our-publications/our-fact-sheets/craniotomy/ (Accessed 09/06/2022)
  2. 2.0 2.1 Fernández-de Thomas RJ, De Jesus O. Craniotomy. Treasure Island (FL): StatPearls Publishing, 2022
  3. Johns Hopkins Medicine. Craniotomy. Available from https://www.hopkinsmedicine.org/health/treatment-tests-and-therapies/craniotomy (Accessed 03/06/2022)
  4. 4.0 4.1 Neurosurgeons of New Jersey. Understanding the Types and Purpose of Craniotomy. Available from: https://www.neurosurgeonsofnewjersey.com/blog/types-of-craniotomy/ (Accessed 09/06/2022).
  5. Rao, D., Le, R. T., Fiester, P., Patel, J., Rahmathulla, G. An Illustrative Review of Common Modern Craniotomies. Journal of clinical imaging science. 2020: 10; 81.
  6. Nahed B.V., Oglivy C.S., Anterior Circulation Aneurysms. In: Mohr J.P., Wolf P.A., Grotta J.C., Moskowitz M.A., Mayberg M.R., Kummer R.V. (editors). Stroke (Fifth Edition). W.B. Saunders, 2011. p.1301-1321.
  7. Medindia. Craniotomy. Available from: https://www.medindia.net/surgicalprocedures/craniotomy.htm (Accessed 03/06/2022).
  8. Taylor B.S., Kellner C.P., Connolly, Jr. E. Postcraniotomy Complication Management. In: Lee K.(editor) The NeuroICU Book (Seconds Edition) [Online]. 2017. Available from: https://neurology.mhmedical.com/content.aspx?bookid=2155&sectionid=16396534 (Accessed 13/06/2022)
  9. Physio.co.uk. Neurosurgery. Available from: https://www.physio.co.uk/what-we-treat/neurological/neurosurgery/ (Accessed 14/06/2022)
  10. 10.0 10.1 Sottile PD, Nordon-Craft A, Malone D, Luby DM, Schenkman M, Moss M. Physical Therapist Treatment of Patients in the Neurological Intensive Care Unit: Description of Practice. Phys Ther. 2015; 95:1 006-1014.
  11. Li Z, Peng X, Zhu B, Zhang Y, Xi X. Active mobilization for mechanically ventilated patients: a systematic review. Arch Phys Med Rehabil. 2013; 94: 551–561.
  12. Garzon-Serrano J, Ryan C, Waak K, Hirschberg R, Tully S. Bittner E. et al. Early mobilization in critically ill patients: patients' mobilization level depends on health care provider's profession. PM&R. 2011; 3: 307–313.
  13. Brimioulle S, Moraine JJ, Norrenberg D, Kahn RJ. Effects of positioning and exercise on intracranial pressure in a neurosurgical intensive care unit. Phys Ther. 1997. Dec; 77: 1682-9
  14. Anneli Thelandersson. Early Physiotherapy in the Neurointensive Care Unit Passive Physiotherapy Interventions [Dissertation] Gothenburg: University of Gotherburg. 2016
  15. Srivastava A., Sharma N., Srivastav A K., Gehlot A. Functional rehabilitation in intensive care units for post craniotomy patients: study protocol. J. Physiother. Res. 2021: 11: 569-582
  16. Pfefferkorn T, Eppinger U, Linn J, Birnbaum T, Herzog J, Straube A. et al. Long-Term Outcome After Suboccipital Decompressive Craniectomy for Malignant Cerebellar Infarction. Stroke. 2009; 40: 3045-3050
  17. Mandona L, Bradaïa N, GuettardaI E, Bonana I, Vahedib K, Bousserb MG, et al. Do patients have any special medical or rehabilitation difficulties after a craniectomy for malignant cerebral infarction during their hospitalization in a physical medicine and rehabilitation department? Annals of Physical and Rehabilitation Medicine. 2010; 53: 86-95
  18. Parreiras de Menezes KK. Physical Therapy Rehabilitation after Traumatic Brain Injury. J Neurol Neurophysiol. 2016; 6: 311
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