Week 2 - Neurosurgery / Stereotactic Neurosurgery and Sitting Craniotomies

Question 1

What should be included in the preop evaluation for neurosurgery?

Answer 1

• Assess intracranial compliance (signs/symptoms of increased ICP – review CT)
• Know features/location of the mass – vascular lesion? infiltrating lesion? surrounding edema?
• Assess Electrolytes – imbalances common (fluid restriction, diuretics & steroids, central endocrine abnormalities

Question 2

What are the features of a normal head CT?

Answer 2

Symmetrical Structures

Ventricles Midline (appropriately sized)

No Compression (gray/white matter differentiation)

Question 3

What are preop anesthetic considerations for neurosurgery?

Answer 3

• Preop sedation?? – be very careful, rarely indicated
• increased likelihood of resp depression –> hypoxemia/hypocapnia
• Pharmacological interventions if indicated (steroids, diuretics, anticonvulsants)
• Monitors as indicated (a-line, second PIV, foley, central line)

Question 4

Why are steroids given in neurosurgery cases?

Answer 4

Improve viscoelastic properties of intracranial space within 24 hrs (reduce vasogenic edema associated tumors within 48 to 72 hrs)

• started at least 48 hours prior to tumor extirpation
• continued intra and postoperatively to maintain effects achieved preoperatively

*Studies in head injury patients show mixed results – Recent clinical trials—not recommended in moderate to severe TBI

• Dexamethasone most common – 10mgIVq6hrs

Question 5

Why are diuretics given in neurosurgery cases?

Answer 5

Reduce intra and extracellular fluid compartments
-osmotic diuresis preferred to loop diuretics— mannitol has faster effects — 0.25 – 1.5 g/kg (larger doses have prolonged effects)

Mannitol and Furosemide may be used in combination
– Mannitol draws fluid out of brain
– Furosemide hastens intravascular water excretion
– Furosemide blocks neuronal chloride channels – Possibly preventing rebound swelling
– Furosemide reduces CSF production

*Studies show hypertonic saline (23%) boluses more effective than mannitol in reducing ICP

Question 6

Why are anticonvulsants given in neurosurgery cases?

Answer 6

• Acute cortical irritation can result in seizures (Head injury, Subarachnoid blood, Cortical incisions, Brain retraction)
• Seizures increase CMRO2 increase CBF & ICP
• Reduce the incidence of pre and postoperative seizures
• Phenytoin (Dilantin) ???
• Keppra now most popular ! 1 Gram IV with induction

Question 7

What are the goals of induction during a neurosurgery case?

Answer 7

Smooth induction without increases in ICP or compromise of CBF

Avoid: HTN, HoTN, Hypoxia, Hypercarbia, Coughing/Bucking/Straining

Question 8

What factors promote brain relaxation?

Answer 8

• Adequate oxygenation (prevents cerebral vasodilation)
• Hyperventilation (promotes cerebral vasoconstriction)
• Venous Drainage (HOB up as tolerated by surgeon, 30*)
• Muscle relaxation (prevents movement, straining, bucking
• Mannitol (0.25-1.5 g/kg IV)
• Furosemide (10-20 mg IV)

Question 9

What is the “Tight Brain” Checklist?

Answer 9

• Pressures (Are the pressures controlled?) – Jugular venous pressure
• Head rotation/neck flexion/direct jugular compression?
• Head-up posture? – Airway Pressure
• Obstruction/ bronchospasm/ straining/coughing/ pneumothorax? – PaO2/PaCO2
• Arterial Pressure – Metabolic Rate (Is metabolic rate controlled?)
• Pain/arousal/seizures?
• Vasodilators (Are vasodilators in use?)
• N2O/Volatiles/SNP/Calcium channel blockers?
• Mass Lesions (Are there any unrecognized mass lesions?) – Blood/Air/N2O?

Question 10

What are anesthetic considerations for the maintenance phase during neurosurgery?

Answer 10

• Brain parenchyma devoid of pain fibers
• Anesthetic requirements substantially lower than during craniotomy and dural opening
• Limit anesthetic supplements to short acting agents to facilitate postoperative neuro exam
• Volatile agents may be used to prevent awareness and hypertension
• Maintain muscle relaxation (especially if in pins)
• Continue hyperventilation (if indicated)

Question 11

What are the indications for hyperventilation in a neurosurgery case? What is the target PaCO2?

Answer 11

Indications = high or uncertain ICP, improve condition of surgical field

PaCO2 28-32

• institution and extent of hyperventilation should be discussed with the neurosurgical team
• reduction in CBF is not sustained - duration 6-18hrs, brain HCO3 is reduced and pH normalized
• hypocapnia (PaCO2 <20?) induced cerebral ischemia – pH related alteration in enzyme function, increased lactate formation, may worsen neurological outcome in head injury pts

Question 12

How do barbiturates provide cerebral protection?

Answer 12

• Most profound reduction in CMRO2
• May improve outcome following focal or incomplete global ischemia
• max effect during “electrical silence”
• not compatible with goals for rapid, complete emergence

Question 13

How does body temperature affect CMRO2?

Answer 13

CMRO2 varies directly with brain temperature — 7% per degree C

Avoid hyperthermia which increases CMRO2

-hypothermia trials in humans have not shown benefit in the context of aneurysm surgery

Question 14

What are fluid and electrolyte management goals in neurosurgery?

Answer 14

Maintain euvolemia and slightly hyperosmolar state

• Crystalloid administration
• Maintain serum osmolarity at 305-320 mOsm – 0.9% NS (309 mOsm) may be preferred to LR (272 mOsm)
• Colloids (5% Albumin)
• Transfusion based on hematocrit and comorbidities
• Monitor for hypokalemia, hyponatremia, hyperglycemia, marked hypersomolarity

Question 15

What are anesthetic considerations for emergence during neurosurgery case?

Answer 15

• Allow gradual normalization of ETCO2
• Hypertension should be controlled – Adequate pain control (narcotics), Labetolol, Esmolol, Nitroprusside, Nitroglycerine
• Reverse neuromuscular blockade – After head dressing is placed
• Prompt wakeup without straining/coughing
• Neuro exam in room preferable after wakeup

Question 16

What are anesthetic considerations for tumors?

Answer 16

Vary depending on location:

• supratentorial
• pituitary
• posterior fossa

Tumor Type:

• vasculatiry
• invasiveness
• location

Question 17

What are common tumor types and locations?

Answer 17

Primary (50%):

• Gliomas (most common and also the worst) – astrocytoma, brainstem glioma, ependymomas, optic nerve glioma, oligodendroglioma
• Meningiomas
• Schwannomas
• Medulloblastomas
• Craniopharyngiomas

Metastatic (50%):
-Lung, Breast, Colon

Question 18

What are the anesthetic considerations for Supratentorial tumors?

Answer 18

• Potential for blood loss (Larger tumors, Invasive tumors, Tumors encroaching on sagittal sinus)
• Low risk for VAE unless tumor near sagittal sinus – Full VAE precautions for tumors near posterior half of sagittal sinus
• Craniopharyngioma (dissection around hypothalamus) – Sympathetic responses-hypertension, Diabetes insipidus (2-24 hours postop)
• Frontal lobe involvement/subfrontal approaches – Delayed awakening
• Gliomas and meningiomas are most frequent tumor types
• most common neurosurgical procedure

Question 19

What are the anesthetic considerations for a Transphenoidal Hypophysectomy for a Pituitary tumor?

Answer 19

• Tumors within sella turcica/suprasellar extension
• ICP usually not issue d/t small tumor size
• Oral RAE tube preferred
• Hyperventilation – To reduce arachnoid bulging into sella turcica
• Major bleeding – 2 large PIVs
• A-line not usually necessary???
• Throat packs/nasal packs intra-op
• Smooth emergence vital!!!

Question 20

What endocrine abnormalities are seen with pituitary tumors?

Answer 20

Nonfunctioning/Nonsecretory Tumors:

• compression/mass effect - panhypopituitarism; SIADH
• adrenal insufficiency - hypocortisolism (steroid replacement)

Functioning Adenoma:

• prolactin secreting amenorrhea; galactorrhea; hypogonadism, ACTH secreting hypercortisolism
• GH secreting acromegaly; giantism; glucose intolerance

Diabetes Insipidus:

• usually occurs 4-12 hrs postop – rare intraop
• polyuria with rising serum osmo + declining urine osmo (specific gravity <1.002)

Question 21

What is stereotactic neurosurgery?

Answer 21

• Involves 3D mapping using a coordinate system (Fiducials placed on scalp to guide/arrange coordinates)
• MRI and CT scans and 3D computer workstations allow neurosurgeons to accurately target any area of the brain in stereotactic space

Question 22

When is stereotactic surgery utilized?

Answer 22

Deep Brain Stimulator placement – Parkinson’s

Epilepsy focus ablation

Brain biopsy

Question 23

What are the anesthetic considerations for stereotactic surgery?

Answer 23

• Performed through burr hole in skull – analgesia via local injection at incision site
• Usually done awake +/- sedation
• Awake techniques require cooperative pt
• Always check with surgeons before giving any sedatives
• Avoid benzodiazepines for seizure focus ablation
• Precedex (0.1-0.3 mg/kg/hr) popular
• Potential difficult airway due to the stereotactic frame

Question 24

What are the indications for an awake craniotomy?

Answer 24

Performed for seizure focus mapping or tumor removal

• “eloquent” cortex if removed results in the loss of sensory processing o linguistic ability, minor paralysis, or paralysis
• left temporal or frontal lobes – speech and language
• bilateral occipital lobes – vision
• bilateral parietal lobes – sensation
• bilateral motor cortex – movement

Minimizes chance of healthy brain injury (need cooperative, motivated pt

Question 25

What are the goals for an awake craniotomy?

Answer 25

Mapping of the eloquent areas:
– Ojemann stimulator used to map areas of aphasia and anomia.
– Pictures on a computer screen
– Stimulate the brain
– Talk to the patient / Say name, abc’s, etc
– This may take hours to do correctly
– Need an awake, cooperative, motivated patient

Surgical resection of ALL tumor without removal of ANY eloquent area

Question 26

What are preop considerations for an awake craniotomy?

Answer 26

Good patient education is a must!

• Sights, sounds, smells, what to expect, need to stay still
• Uncomfortable positioning -Mayfield (PINS)
• Local injections by the surgeon
• Drilling of the cranium (really loud and transmitted directly—disturbing to patient)
• Removal of the bone flap – separating the meninges from the bone, potential for bleeding, can be very painful, unable to localize or induce at this point

Question 27

What are intraop considerations for an awake craniotomy?

Answer 27

• Possibly/Rarely induce GETA for monitor placement and drilling and bone separation?
• Dexmedetomidine, Remifentanil, Ondansetron, Propofol – LMA??
• Patient emerged once the bone flap is being removed
• Position patient for maximal comfort, reassure patient, provide light and air to patient, ability of patient to see Anesthetist

Question 28

What are potential intraop complications during an awake craniotomy?

Answer 28

Seizure Resection Surgery:

• prophylaxis, check drug levels
• is this typical seizure like activity for this pt?
• is it focal or consistent with preop report?
• is it progressing to grandmal?
• does the pt have a reported aura?

Tumor Resection Surgery

• seizure prophylaxis (keppra, DpH)
• treat if they occur (surgeon preference)

Don’t want seizures – treatment may interfere with mapping and prolong procedure, wait for surgeon to request medication for treatment

*If seizure occurs – Propofol 10-20 mg – if continues 100-200mg

Question 29

What are the CV effects of Precedex?

Answer 29

Decreased HR

Decreased SVR

Indirectly decreased CO, SBP, and Contractility

Question 30

What are the pulmonary effects of Precedex?

Answer 30

Decreased minute ventilation but maintains CO2

Question 31

What is the anesthetic premedication dose of Precedex?

Answer 31

0.33 - 0.67 mcg/kg 15 min before surgery

• decreases induction agent dose
• decreases MAC

Question 32

What is the anesthetic MAC dose of Precedex?

Answer 32

1 mcg/kg over 10 minutes – bolus rarely given

0. 7 mcg/kg/min keeps BIS 70-80
   - slower onset and offset than propofol - similar cardiorespiratory effects

Question 33

What are anesthetic considerations for a DBS for Parkinson’s?

Answer 33

• Typically NO meds the morning of surgery
• Frame placed preoperatively – Surgeon uses local
• CT and MRI guided imaging
• Presents to OR w/ frame in place – Almost impossible to manipulate airway. BE PREPARED!!!!!!
• Beware of increased sensitivity to anesthetic agents
• Beware of Parkinsons symptoms – when stimulating, tremors are much better, when off, tremors markedly worse (No meds!)
• Beware of venous air embolus
• Good communication w/ surgeons about level of consciousness

Question 34

What do you need to beware of during the postop management of DBS for Parkinson’s?

Answer 34

• Beware of hemiplegia
• Beware of seizures
• Beware of excessive post op pain
• Plan on admission and close neuro monitoring for at least 24 hours

Question 35

What are the two stages of DBS for Parkinson’s?

Answer 35

1st Stage = placement of wires in the brain

2nd Stage = placement of generator

• usually 2 weeks after electrode placement
• typically GETA
• can be discharged home the same day

Question 36

What are the indications for a sitting craniotomy?

Answer 36

Posterior Fossa Pathology

-improved surgical access to posterior – midline structures (brainstem, floor of 4th ventricle, pontomedullary junction)

• Sitting position is less prominent than it used to be
• BEWARE of venous air embolus

Question 37

What does the positioning look like during a sitting craniotomy?

Answer 37

More often modified recumbent position – much like a beach chair position with head flexed forward in pins

Keep legs as high as possible – promotes venous return to heart, minimizes hemodynamic alterations

Slow and incremental positioning – minimizes hemodynamic alterations

Head holder must be attached to upper half of table and secured tightly – allows rapid flattening of bed

Question 38

What are the benefits of sitting position for a craniotomy?

Answer 38

• Less blood loss (Lower arterial pressure – less arterial bleeding, Negative venous pressure – eliminates venous oozing)
• Better surgical access (Less brain swelling / less blood in surgical field)
• Better airway access (Prone position makes airway manipulation almost impossible, Improved chest excursion monitoring, ETT adjustment if necessary)
• Improved cerebral drainage (gravity dependent) – Blood and CSF
• Cranial Nerve Preservation

Question 39

What are complications of sitting position for a craniotomy?

Answer 39

• Cardiovascular instability (Posterior fossa)
• Respiratory compromise (Posterior fossa)
• Hemodynamic instability
• Pneumocephalus
• Venous air emboluls
• Paradoxical air embolus
• Paraplegia (rare)

*complications associated occur more than in other positions

Question 40

What is the pathophysiology for an acoustic neuroma?

Answer 40

Benign tumor arising from the Schwann cell sheath of CN VIII

Vestibular Division >95%
Cochlear Division <5% — affects hearing/balance, encapsulated mass that is attached and cannot be separated from the nerve

*Linked with the genetic disorder Neurofibromatosis Type II – autosomal dominant syndrome

Question 41

What are the signs and symptoms of an Acoustic Neuroma?

Answer 41

• Vertigo/Dizziness
• Hearing loss
• Tinnitus
• Headache
• Loss of balance
• Visual problems

Question 42

What are anesthetic considerations for Acoustic Neuromas?

Answer 42

• Take hearing loss into account – approach pt from unaffected side
• Standard Monitors
• A line and large bore IV (potential for blood loss, hemodynamic monitoring)
• CO2 25-30 per surgeon request
• Cranial nerve monitoring by surgical team
• No intraop paralytics (short acting only if used)
• NIMS Tube
• Positioning (table rotated 180, arms tucked) – extreme table rotation
• Ensure depth of anesthesia – pt cannot move
• Plan on SNICU postop
• Nausea is very common