1. Awake Craniotomy�for low grade tumours�in Eloquent Brain Areas
Mr H El-Maghraby & Mr S Joshi
2. Eloquent Brain Areas A history of cerebral localization
The brain has been known to be the center of voluntary movement, sensation, and intelligence for centuries.
Nevertheless, it was not until the latter third of the 19th century that the functions of its different areas were discovered.
It was the labour of several key men that made possible the accurate localization and, furthermore, the resection of brain neoplasms.
3. Paul Pierre Broca (1861)� In 1861, Pierre Paul Broca was confronted by a patient
who could understand language but could not speak. An
autopsy in this patient revealed a lesion in the posterior region
of the frontal lobe, an area now called the Broca area.
Broca’s keen observations led him to identify eight patients
with similar lesions by 1864. Based on this he declared
“Nous parlons avec ‘hemisphere gauche’!” (“We speak
with our ‘left hemisphere’!”In 1861, Pierre Paul Broca was confronted by a patient
who could understand language but could not speak. An
autopsy in this patient revealed a lesion in the posterior region
of the frontal lobe, an area now called the Broca area.
Broca’s keen observations led him to identify eight patients
with similar lesions by 1864. Based on this he declared
“Nous parlons avec ‘hemisphere gauche’!” (“We speak
with our ‘left hemisphere’!”
4. John Hughlings Jackson (1865)� He had seen 500 patients with hemiplegia by
1865, and he was intrigued by the apparent sparing of
some muscle function in these individuals. Early in his career,
Jackson believed that all sensorimotor function was
subcortical.He had seen 500 patients with hemiplegia by
1865, and he was intrigued by the apparent sparing of
some muscle function in these individuals. Early in his career,
Jackson believed that all sensorimotor function was
subcortical.
5. Roberts Bartholow (1874)� Patient whose brain surface had been exposed by ulcer.
Cortical stimulation – motor & sensory disturbance in contralateral arm & leg
6. Carl Wernicke (1876)�
7. David Ferrier 1876 Used Faradic current stimulation, for the cortical functioning of many different animals
He constructed one of the first detailed cortical maps.
Ferrier summarized his results in the 1876 publication of The Functions of the Brain
8. Sir William Macewon 1870 1st Brain Surgery for abscess
Patient survived
9. Sir Rickman Godlee 1884 1st Brain surgery to remove a brain tumour
Initially patient improved but died one month later from infection
10. Sir Victor Horsely 1886
Appointed in February 1886 as a neurosurgeon by excising an epileptic scar.
By the end of the year, he had performed 10 cranial cases, with only one death
11. Wilder Penfield (1928) �
- Initially applied cortical stimulation to epilepsy surgery & excision of cortical scars
- Galvanic current to outline motor & sensory areas
Proposed map of cerebral localisation remains in use today
- Established Awake Craniotomy for epilepsy surgery
12. History of Awake Craniotomy
13. History of Awake Craniotomy Egyptian Medicine:
Edwin Smith Papyrus (3000 BC)
45 cases of trephination
14. History of Awake Craniotomy 600 AD
Lima, Peru
Early Cranioplasty with a piece of Gold
Well healed by the time of this patient’s death
15. History of Awake Craniotomy
16. Modern Neurosurgery�Brain tumours 1930 - 1970 Clinical cerebral localization
Improvement of General Anaesthetic
Tumour debulking
Avoidance of eloquent brain areas surgery
17. CT Scan Brain 1970- 1980
18. MRI Brain 1980
19. High Grade Tumour
20. High Grade Tumour
21. MRI – Low Grade Tumours - 1990
22. Low Grade Tumour
23. Low Grade Tumour
24. Low Grade Brain Tumour - 1980 Younger patients
Less symptomatic
Possible longer survival (5-7 years)
Tumour transformation to higher grade will happen
25. Low Grade Brain Tumour - 1980 Management options:
Extensive discussions with patient & family
Options:
Expectant approach, regular surveillance scans
Biopsy for tumours in eloquent areas
Resection / Debulking for tumours away from eloquent areas
Radiotherapy: delays time to potential transformation, but no change to life expectancy as can only be given once.
26. Low Grade Brain Tumour - 1980 Role of Surgery
Surgical biopsy is recommended in almost all cases to establish the diagnosis
When herniation threatens from large tumours
Tumours causing obstruction to CSF flow
Large tumours in non eloquent areas (Debulking/resection)
27. Low Grade Brain Tumour 1980 - 1990 No well-designed study has shown any approach for supratentorial low grade gliomas in adults to be clearly superior
These tumours are slow growing – until progression on imaging or malignant degeneration is documented it may be no worse to not treat the patient
Piepmeier, 1987
Medbery, 1988
Shaw 1989
Cairncross & Laperriere, 1989
28. Low Grade Brain Tumour 1980 - 1990 Large tumours in non eloquent areas, had debulking or resection
There is a trend to suggest that complete surgical removal, when possible, is associated with a better prognosis
Laws, 1984
Soffietti, 1989
North et al, 1990
29. Low Grade Brain Tumour 1990 - 2000 Awake Craniotomy
Intra-operative brain mapping
Pre & Intra-operative Brain Navigation
Favours early surgery and aggressive resction for tumours in eloquent areas
30. Low Grade Brain Tumour 1990 - 2000 Advantages of aggressive resection:
Treat disease when neoplasm is smaller
May decrease risk associated with malignant differentiation
May decrease the risk of emergence of intractable seizure disorder
31. Low Grade Brain Tumour 1990 - 2000 Theoretical advantages of radical resection:
Better chance of accurate histological diagnosis
Reduced mass effect / ICP
Reduced tumour burden prior to adjuvant Rx
Reduced chance of transformation of LGG
Prolong Survival
32. Low Grade Brain Tumour 1990 - 2000
33. Low Grade Brain Tumour 2000 - 2010 New Technologies for Imaging
Functional MRI
Brain Mapping
MRI Spectroscopy
Advances in anaesthesia for awake craniotomy
Real time intra-operative Navigation
34. Low Grade Brain Tumour 1990 - 2010
35. The Journey
41. Br J Neurosurg. 2005 Feb;20(1):43-5.�Awake craniotomy using stealth frameless stereotaxy without rigid skull fixation Barazi SA, El-Maghraby H, Selway R, Marsh H.
Abstract
The authors describe a technique using the Medtronic Stealth spinal reference array allowing awake craniotomy to be performed without cranial fixation in the Mayfield pin head rest.
A Medtronic spinal reference array (four-point H-shaped LED array) is fitted to a Yasargil footplate via a three-jointed swingarm.
The Yasargil footplate is directly attached to the cranium after craniotomy and following stereotactic registration the patient is awakened.
The patient is free to move his head during the procedure as the reference array does not move in relation to the cranial contents and the fiducials, preserving accuracy
51. UHCW 10 months
4 cases
All did well
52. Future More cases
Invest in Real Time Intra-operative Navigation
Research in 3D virtual reality Navigation
55. Conclusion Two things we must learn from history....
One is that we are not in ourselves superior to our seniors and that we are shamefully inferior to them if we do not advance beyond them.”
The principles of awake craniotomies were established years ago.
As our understanding of cerebral localization and aesthetic regimens
continues to improve, awake craniotomies will continue to provide
critical insights into the complexities of brain function.
56. ��Thank you
