SPINAL ANAESTHESIA

Spinal Anaesthesia
Dr PARTHA PRATIM DEKA

History
•CSF Discovered – Domenico Catugno 1764
•CSF Circulation – F Magendie 1825
•First spinal analgesia - J Leonard Corning 1885
•First planned spinal analgesia – August Bier (16
th

August 1898)

August Bier 1885

Indications
Surgeries of lower limbs, perineum,
pelvis, abdomen
It is ideal in
•Renal failure – onset is rapid, spread is
greater by two or three segments,
duration is shorter
•Cardiac disease
•Liver disease
•Obstetric anaesthesia

Indications
•Immunosuppressed patients – does not
impair cell mediated immunity
•Elderly patients
•Diabetes mellitus

Contra-indications
Absolute
•Patient refusal
•Infection at the site of injection
•Increased intracranial pressure
•Hypovolemia
•Shock – haemorrhagic, septic
•Septicemia
•Severe aortic and mitral stenosis
•Coagulopathies

Contra-indications
Relative
•Spinal cord and peripheral nerve diseases-
poliomyelitis, multiple sclerosis,
demyelinating diseases
•Brain tumors, CNS syphilis, meningitis
•Severe anemia
•Uncontrolled hypertension
•Valvular heart diseases
•Anticoagulant therapy

Contraindications
Relative
•Spinal congenital anomalies
•Acquired spinal anomalies
•Post-traumatic vertebral injuries
•Prior back surgery at the site of injection
•Metastatic lesions in the vertebral column
•Intestinal obstruction
•Obstructed hernia
•Mentally disturbed patients
•Uncooperative and apprehensive patients

Anatomy

Skin.
Subcutaneous fat
Supraspinous ligament.
Interspinous ligament.
Ligamentum flavum.
Epidural space.
Dura.
Subarachnoid space.
Anatomy

The spinal cord usually ends at the level of L1
in adults and L3 in children.
Dural puncture above these levels is
associated with a slight risk of damaging the
spinal cord and is best avoided.
An important landmark to remember is that a
line joining the top of the iliac crests is at
L4 to L4/5
Anatomy

Where Spinal Cord Ends

Cauda Equina

Surface anatomy
•Spinous processes
are palpable over the
spine and help define
the midline
•In cervical area
First palpable
spinous process is C2
Most prominent
spinous process is C7

Surface anatomy
•Spinous process of
T7 – inferior angle of
scapula
•Tuffier’s line –
body of
L4 or
L4-L5
interspace

Dermatomal levels
•T10 – umbilicus
•T6 – xiphoid
•T4 – nipples
•T12, L1 – inguinal
ligament , crest of
ileum
•S2-S4 – perineum

Procedure
•Preparation of the patient
•Pre-medication
Sedatives – benzodiazepines , opioids
To decrease acid secretions – H2
blockers, proton pump inhibitors
•Monitors
•Intravenous line – preloading with fluids

Positions
•Lateral flexed position
-most commonly used
-back parallel to edge
of table
-hips and knees
flexed, neck and
shoulder flexed
towards knees
-nose to knees

Positions
•Sitting position
-for saddle block
anaesthesia
-obese patients,
pregnant patients,
patients with
abnormal spinal
curvatures

Positions
•Sitting position
-patient should sit on
the table with knees
resting on the edge,
legs hanging over the
side and feet
supported by a stool
below

Positions
•Prone position
- suitable for
hypobaric techniques
-patient should be in
prone position with
OT table flexed under
his flanks, just above
the iliac crests

Technique
•Hands and lower forearms scrubbed for at
least 3 minutes
•Sterile gloves should be applied
•A large area of L-S spine from lower
border of scapula to iliac crests should be
painted using antiseptic solution
•Excess antiseptics removed after waiting
for sufficient time for the antiseptic to act

Technique
•Area is draped – view of T12 to S1 and
laterally of quadratus lumboram muscles
•Selection of space – tuffier’s line
•Raise a skin wheal with 2ml of 2%
lignocaine solution after negative
aspiration for blood

Technique
•Insert an introducer in the
midline
Uses -prevents deflection of
spinal needle
-fine gauge needles can
be used
-decreases incidence of
postpuncture headache
-decreases infections
-avoids skin fragments
from entering

Technique
•Spinal needle is inserted with the stylet
through the introducer
•Needle should be inserted in the midline
and directed cranially at an angle of less
than 50 degrees to the longitudinal axis of
the vertebral column
Bevel of the spinal needle should be kept
parallel to the longitudinal axis of the spine
Loss of resistances can be felt after
puncturing ligamentum flavum and the
duramater

Layers traversed by the spinal
needle (posterior to anterior)
•Skin
•Subcutaneous tissue
•Supraspinous
ligament
•Interspinous ligament
•Ligamentum flavum
•Duramater
•Sub dural space
•Arachnoidmater
•Subarachnoid space

Technique
•Remove stylet to observe free flow of CSF
•Attach 5 ml Luer Lok syringe containing
anaesthetic mixture to the spinal needle
•Stabilize the spinal needle and attach the
syringe by grasping the hub of spinal
needle with thumb and index finger while
propping the remaining fingers against the
patient’s back to provide support
(bromage grip)

Technique
•Inject at the rate of 0.2ml/sec
•Aspirate small amount of spinal fluid to
determine if the needle is still placed
properly
•Remove spinal needle and introducer
quickly and simultaneously

Technique
Paramedian approach
•1.5 cm lateral to
midline
•Spinal needle is
inserted at an angle
of 25 degrees with the
midline and without
deviation cephalad or
caudad

Technique
Paramedian approach
•Needle lies lateral to supraspinous and
interspinous ligaments and penetrates
ligamentum flavum and duramater in the
midline
•Useful in arthritis , deformed spine

Taylor technique
•A 12 cm spinal needle
is inserted 1 cm
medially and 1 cm
above the lowest
prominence of
posterior superior iliac
spine
•Needle is directed
upwards medially and
forwards at an angle of
50 degrees

Technique
Taylor technique
Uses :
•Spinal fusion
•Arthritic spine
•Opisthotonus
•Skin infection in lumbar region

Spinal needles
Three parts
–Hub
–Canula
–Stylet
•Point of the canula is beveled and has a
sharp edge
•Lumenal sizes : 18 gauge to 30 gauge
•Length : 3.5 to 4 inches

Spinal needles
•Quincke Babcock needle

Spinal needles
•Whitacre needle

Spinal needles
•Sprotte needle

Spinal needles
•Pitkin needle

Spinal needles
•Touhy needle

Spinal needles
•Greene needle

Drugs used in spinal
anaesthesia
Lidocaine
•Rapid onset of action , intermediate
duration and low toxicity
•Disadvantages – Transient neurological
symptoms

Drugs used in spinal
anaesthesia
Bupivacaine
•Amide local anaesthetic
•Exhibits sensory/motor split
•Dose of 7.5mg – ambulatory surgery
•Low concentrations(0.1-0.125%) –
postoperative analgesia

Drugs used in spinal
anaesthesia
Ropivacaine
Compared to bupivacaine
•Longer onset of block to T10 (5 min vs 2
min)
•Lower median maximal block height ( T7 vs
T5)
•Shorter regression of sensory block to T10
(55 min vs 110 min)
•Quicker mobilization (253 min vs 331 min )
•Less CNS and cardiac toxicity

Drugs used in spinal
anaesthesia
Levobupivacaine
•Isolated (S) entantiomer of bupivacaine
•Similar to bupivacaine

Spinal anaesthetic agents
Drug preparationPerineum,
lower limbs
(mg) dose
Lower
abdomen
(mg)dose
Upper
abdomen
(mg)dose
Duration
(min)
procaine 10% solution75 125 200 45
tetracaine1% solution
in 10%
glucose
4-8 10-12 10-16 90-120
lidocaine5% in 7.5%
glucose
25-50 50-75 75-100 60-75
bupivacaine0.75% in
8.25%
dextrose
4-10 12-14 12-18 90-120
0.5% in 8%
dextrose
7.5 to 12.512.5-17.517.5-2590-120
ropivacaine0.2-1%
solution
8-12 12-16 16-18 90-120

•Local anaesthetic solution injected into the
subarachnoid space blocks conduction of impulses
along all nerves with which it comes in contact,
although some nerves are more easily blocked than
others.
•There are three classes of nerve: motor, sensory and
autonomic.
•Stimulation of the motor nerves causes muscles to
contract and when they are blocked, muscle paralysis
results.
Mechanism of action

Mechanism of action
•Sensory nerves transmit sensations such
as touch and pain to the spinal cord and
from there to the brain, whilst autonomic
nerves control the calibre of blood vessels,
heart rate, gut contraction.
•Generally, autonomic and sensory fibres
are blocked before motor fibres. This has
several important consequences.

Mechanism of action
•For example, vasodilation and a drop in blood
pressure may occur when the autonomic fibres
are blocked.
•Practical implications of physiological
changes. The patient should be well hydrated
before the local anaesthetic is injected and
should have an intravenous infusion in place so
that further fluids or vasoconstrictors can be
given if hypotension occurs.

Mechanism of action of local
anaesthetics on nerve conduction
•Interacts with the receptor situated within
the voltage sensitive sodium channel and
raises the threshold of channel opening
•Decreases the entry of sodium ions during
upstroke of action potential

Mechanism ……..
•Local depolarization fails to reach the
threshold potential and conduction block
ensues
•Onset time of blockade is related to the
pKa of the LA
•Lower pKa – fast acting

Adjuvants used
Opioids
•Addition of opioids improves analgesic
quality, prolongs sensory block, reduces
local anaesthetic requirements, reduces
duration of motor blockade and improves
haemodynamic stability
•Fentanyl – 12.5 mcg
•Sufentanyl – 2.5 – 5 mcg
•Diamorphine – 0.3 mg
•Morphine – 0.1 – 0.2 mg

Adjuvants used
Epinephrine
•Dose - 0.2 mg
•Decreases blood flow
Clonidine
•Dose – 15 – 45 mcg
•Prolongs duration of sensory analgesia
Neostigmine
•Dose – 5-100 mcg
•Inhibits breakdown of acetylcholine

Baricity
Density of a solution in relation to density
of CSF
•Hypobaric solutions : raise against gravity
•Isobaric solutions : tend to remain in the
same sight where they are injected
•Hyperbaric solutions : tend to follow
gravity

Factors affecting block height
(postulated)
•Patient characteristics
–Age
–Height
–Weight
–Gender
–Intra abdominal pressure
–Anatomic configuration of spinal column
–Position

Factors affecting block height
(postulated)
•Technique of injection
–Site of injection
–Direction of injection
–Direction of the bevel
–Use of barbotage
–Rate of injection

Factors affecting block height
(postulated)
•Characteristics of anaesthetic solution
–Density
–Amount
–Concentration
–Temperature
–Volume
–Vasoconstrictors

Factors affecting block height
(postulated)
•Characteristics of spinal fluid
–Volume
–Pressure
–Density

Factors influencing block height
Controllable factors
•Dose ( volume x concentration)
•Site of injection
•Baricity of local anaesthetic solution
•Posture of patient

Factors influencing block height
Factors not controllable
•Volume of CSF
•Density of CSF

Levels of block
Sympathetic paralysis
Sensory block
Motor nerve blockade

Sequence of nerve modality block
1.Vasomotor block – dilatation of
cutaneous vessels and increased
cutaneous blood flow
2.Block of cold temperature fibres
3.Sensation of warmth felt by the patient
4.Temperature discrimination is lost
5.Los of slow pain
6.Loss of fast pain

7. Tactile sensation is lost
8. Motor paralysis
9. Pressure sense abolished
10. Proprioception and joint sense is lost
Sequence of nerve modality block

Testing for levels of block
Sympathetic block
•Skin temperature sensation
•Changes in the skin temperature

Testing for levels of block
Sensory level
•Pin prick using sterile needle
•Loss of touch is two dermatomes lower
than pin prick

Testing for levels of block
Motor block
•Modified Bromage scale of onset of motor
block

Indirect effects of SA drugs
Cardiovascular effects
Due to sympathetic blockade there is
vasodilatation of both resistance and
capacitance vessels
Fall in peripheral vascular resistance

Posture dependent fall in cardiac output
Fall in BP

Indirect effects of SA drugs
Cardiovascular effects
•Marey’s law :baroreceptors in the carotid
sinus and the aortic arch normally respond
to a fall in blood pressure by producing a
compensatory tachycardia

Indirect effects of SA drugs
Cardiovascular effects
•Bain bridge reflex predominates during
spinal anaesthesia : venous pooling in the
periphery reduces stimulation of volume
receptors - diminishes the action of
cardiac sympathetic nerves- vagal
preponderance - bradycardia
•Oxygen consumption is reduced due to
hypotension and muscle relaxation

Indirect effects of SA drugs
Respiratory effects
•High spinal may cause paralysis of
intercostal nerves
•Bronchodilatation secondary to
hypotension or to reduced pulmonary
blood volume

Indirect effects of SA drugs
Gastro-intestinal effects
•Contracted bowel and relaxed sphincters
due to sympathetic blockade
•In the absence of vagal block – increase
in peristalsis and intraluminal pressure
Bladder and urogenital dysfunction

Spinal anaesthesia in pregnancy
Decreased dose requirement due to
•Mechanical factor : compression of IVC
causes shunting of blood to the venous
plexus in the vertebral canal- decreased
vertebral canal space and CSF volume
•Hormonal factor – higher progesterone
levels

Complications
1. Immediate complications
- Hypotension
- Bradycardia and Cardiac arrest.
- High and Total spinal block leading to
respiratory arrest.
- Urinary retention.
- Epidural hematoma, Bleeding.

Complications
2. Late complications
- Post dural puncture headache (PDPH)
- Backache
- Nausea
- Focal neurological deficit
- Bacterial meningitis
- Sixth Cranial nerve palsy
- Urinary retention

Treatment of complications
Hypotension is due to vasodilation and a
functional decrease in the effective
circulating volume.
1. Vasoconstrictor drugs
2. All hypotensive patients should be given
OXYGEN by mask until the blood pressure is
restored.
3. Raising their legs thus increasing the return
of venous blood to the heart.

Treatment of complications
4. Increase the speed of the intravenous
infusion to maximum until the blood pressure is
restored to acceptable levels.
5. Treatment of bradycardia- give atropine
intravenously.

Pregnancy & Spinal
•Aortocaval
Occlusion
•Pre loading with IV
Fluids
•Left lateral Position
•Vasopressors
•Oxygen therapy

How to prevent Delayed
Complication
•Use Thin Spinal needles
•Sterile Precaution

It is widely considered that pencil-point needles
(Whiteacre or Sprotte) make a smaller hole in the
dura and are associated with a lower incidence of
headache (1%) than conventional cutting-edged n
eedles (Quincke)

Treatment of spinal headache
Remain lying flat in bed as this relieves the pain.
They should be encouraged to drink freely or, if
necessary, be given intravenous fluids to mainta
in adequate hydration.

Treatment of spinal headache
Simple analgesics such as paracetamol,
aspirin or codeine may be helpful,
Caffeine containing drinks such as tea,
coffee or Coca-Cola are often helpful.

Treatment of spinal headache
Prolonged or severe headaches may be
treated with
•epidural blood patch performed by aseptically
injecting 15-20ml of the patient's own blood int
o the epidural space.
•This then clots and seals the hole and
prevents further leakage of CSF.

SPINAL ANAESTHESIA

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