Ultrasound-guided upper extremity blocks

Question 1

The implications for regional anesthesia include

Answer 1

primary anesthetic
post-operative pain management
history of severe PONV or risk of MH
patient is too ill for general anesthesia 
physician (surgeon) preference

Question 2

Absolute contraindications include

Answer 2

patient refusal (make sure they’re saying no for the right reasons)
active bleeding in an anticoagulated patient
proven allergy to a local anesthetic
local infection at the site of proposed block

Question 3

Relative contraindications include

Answer 3

respiratory compromise
inability to cooperate/understand the procedure
an anesthetized patient?–> more pediatric blocks are done under general anesthesia
bloodstream infection
bleeding diathesis secondary to an anticoagulant or genetic disorder
preexisting peripheral neuropathy

Question 4

Describe the benefits that ultrasound offers over traditional landmark technique.

Answer 4

Visualization- anatomic structure, real-time needle movements, & spread of local anesthetic
safer-> yes but there is a learning curve

Question 5

How much local anesthetic should be infused?

Answer 5

20-40 mLs/blocker

some authors have demonstrated successful, complete interscalene blocks with as little as 5 mL

Question 6

Amount & type of local anesthetic depends on:

Answer 6

patient factors
timing of the procedure
procedure
purpose of block

Question 7

Describe which esters have a fast onset and slow onset

Answer 7

procaine- slow
tetracaine-slow
chloroprocaine- fast

Question 8

Describe which amides have a fast onset and slow onset

Answer 8

lidocaine- fast
mepivacaine- fast
ropivicaine- slow
bupivicaine- slow

Question 9

Prior to beginning any procedure

Answer 9

verify the correct patient
obtain informed consent
verify the correct procedure
verify the correct extremity 
gather all necessary equipment
place the patient on oxygen 
obtain baseline VS and monitor during the procedure
administer proper/adequate sedation

Question 10

Indications for a cervical plexus block include

Answer 10

carotid endarterectomy
superficial neck surgery
clavicle fractures

Question 11

Cervical plexus block is performed at

Answer 11

branches of cervical nerve roots C2-C4

Question 12

Major nerves of the cervical plexus include **

Answer 12

transverse cervical nerve
greater auricular nerve
lessor occipital nerve
supraclavicular nerve
-phrenic nerve- maybe not full block but will get some sort of phrenic nerve involvement

Question 13

Cervical plexus block provides anesthesia to

Answer 13

the anterolateral neck, the anterior and retro-auricular areas and the anterior chest just inferior to the clavicle

Question 14

Describe the cervical plexus technique.

Answer 14

patient positioned with head turned to non-operative side
transducer placed at midpoint of SCM m. moved laterally until posterior edge is identified
identify brachial plexus between anterior and middle scalene m.
cervical plexus located in plane above prevertebral fascia
needle passed lateral to medial, in-plane to area between SCM and prevertebral fascia
following negative aspiration, inject 5-10 mL of LA

Question 15

Cervical plexus pearls include

Answer 15

visualization of nerves in plexus is not necessary

since plexus nerves are purely sensory, low concentration LA used (0.25% is typically max)

Question 16

Poor needle visualization when performing a cervical plexus block can result in

Answer 16

intrathecal injection due to close proximity of vertebral nerve roots
potential intravascular injection in vertebral artery

Question 17

The brachial plexus consists of

Answer 17

ventral rami of the C5-T1 nerve roots

contribution from C4 & T2 are often minor or absent

Question 18

Describe the path of the brachial plexus

Answer 18

roots–> trunks–> divisions–> cords–> branches–> nerve terminals

Question 19

With a few exceptions, the brachial plexus supplies

Answer 19

sensory & motor innervation to the upper extremity

Question 20

Describe the amount of roots, trunks, divisions, cords, & branches of the brachial plexus

Answer 20

Five roots
three trunks
six divisions
three cords
five branches

Question 21

The proximal branches of the brachial plexus include

Answer 21

dorsal scapular, phrenic, long thoracic

Question 22

The lateral branches of the brachial plexus include

Answer 22

suprascapular, subclavius, lateral pectoral

Question 23

The medial branches of the brachial plexus include

Answer 23

medial pectoral, medial cutaneous to arm and forearm

Question 24

The posterior branches of the brachial plexus include

Answer 24

thoracondorsal

upper & lower subscapular

Question 25

The posterior cord is responsible for

Answer 25

extensions

Question 26

Describe the motor innervation that C5 provides

Answer 26

shoulder abduction

Question 27

Describe the motor innervation that C6 provides

Answer 27

elbow flexion

Question 28

Describe the motor innervation that C7 provides

Answer 28

elbow extension

Question 29

Describe the motor innervation that C8 provides

Answer 29

finger flexion

Question 30

Describe the motor innervation that T1 provides

Answer 30

finger abduction/adduction

Question 31

The baseline block evaluation includes

Answer 31

have the patient “push, pull, pinch, pinch”

Question 32

The post-procedure block evaluation includes

Answer 32

differential blockade

mantel effect

Question 33

Describe the order in which nerves are blocked.

Answer 33

Sympathetic, sharp pain, proprioception, motor

Type B, Type C, Type A beta, gamma, & delta, & then Type A alpha

Question 34

Describe the different types of brachial plexus blocks

Answer 34

supraclavicular
interscalene
infraclavicular
axillary

Question 35

The supraclavicular block is a reliable upper extremity block for procedures involving the

Answer 35

upper arm & hand

Question 36

The supraclavicular block is performed at the

Answer 36

trunk & division level

Question 37

At this level, the brachial plexus is most compact

Answer 37

supraclavicular

Question 38

Describe the SCB technique

Answer 38

transverse image using in-plane needle insertion
the trunks/divisions are found lateral to the pulsating subclavian artery & superior to the first rib
needle is inserted lateral to medial toward the inferior aspect of the plexus where the rib & artery meet (aka “the corner pocket”)
following negative aspiration, incremental injections of 5 mL is accomplished

Question 39

Side effects and complications of the supraclavicular block include

Answer 39

increased risk of phrenic nerve paralysis & stellate ganglion block
pneumothorax is the most important complication
b/c of the proximity of the subclavian artery, there is the possibility for inadvertent arterial puncture

Question 40

The interscalene block is a

Answer 40

root level block

Question 41

The interscalene block is the primary brachial plexus block for procedures involving the

Answer 41

shoulder & proximal upper arm

-suprascapular nerve

Question 42

Nerve roots C5-C7 are found in the interscalene groove between

Answer 42

the anterior & middle scalene muscles

Question 43

Describe the interscalene block technique.

Answer 43

Supine position with head turned to non-operative side
high-frequency linear array transducer placed in the mid-clavicular fossa and moved cephalad
hypoechoic roots located between the ASM & MSM
6 cm, B bevel needle
incremental injection of 5 mL up to 20-30 mL

Question 44

If damaged, this nerve can cause winged scapula

Answer 44

long thoracic nerve

Question 45

Recent studies for the interscalene block demonstrate that the “stoplight” or “snowman” sign may result from

Answer 45

the branching of either C5 or C6

Question 46

For the interscalene block, a pre-procedure scan with

Answer 46

color Doppler should be performed prior to injection to limit potential inadvertent injections and identify anatomic variations

Question 47

Side-effects/complications of interscalene blocks include

Answer 47

Phrenic blockade occurs nearly 100% of the time
local anesthetic system toxicity (LAST)
high spinal
injury to the dorsal scapular and long thoracic nerves
Stellate ganglion block (aka Horner’s syndrome) is common- Ptosis, miosis, anhidrosis

Question 48

The infraclavicular block is a

Answer 48

cord level block

Question 49

The infraclavicular block is a good alternative to the

Answer 49

supraclavicular block, especially in patients with severe COPD or respiratory insufficiency

Question 50

The infraclavicular cords are labeled by

Answer 50

their relation to the axillary artery

lateral, posterior, & medial

Question 51

The infraclavicular block can be used for

Answer 51

lower upper arm (mid humeral shaft) and down

Question 52

Describe the infraclavicular block technique.

Answer 52

Patient placed in supine position with their head turned to the non-operative side
transducer is placed perpendicular to the clavicle just medial to the coracoid plexus
short-axis image
cords are arranged around the axillary artery
22 gauge, 8 cm needle inserted in-plane, cephalad to caudal
incremental injection of 20-30 mLs of local anesthetic around axillary artery

Question 53

For the infraclavicular block, depending on the patient’s body habitus,

Answer 53

a low-frequency transducer may be required

Question 54

For the infraclavicular block, sliding the needle medially increases the potential for

Answer 54

pneumothorax & hemothorax

Question 55

With the infraclavicular block, the _______ pass between the pectoral muscles so doppler may be used to prevent inadvertent puncture.

Answer 55

Thoraco-acromial artery & pectoral veins

Question 56

With the infraclavicular block, poor needle visualization may result in inadvertent

Answer 56

pneumothorax/hemothorax
vascular puncture
LAST event

Question 57

The axillary block is directed at the

Answer 57

terminal branches of the brachial plexus

Question 58

The axillary block anesthetized these nerves:

Answer 58

axillary nerves
radial nerves
ulnar nerves
& median nerves

Question 59

The axillary block is an excellent block for procedures

Answer 59

below the elbow

Question 60

Ultrasound has made the axillary block

Answer 60

less attractive because other blocks can be done as efficiently with minimal complications

Question 61

Describe the axillary block technique.

Answer 61

patient is placed in the supine position with head turned to the non-operative side, arm abducted & rotated externally
high-frequency linear array transducer is placed in the crease formed by the biceps muscle and pectoris major
22 gauge, 5 cm B bevel needle inserted in-plane
incremental injection of 20-40 mLs

Question 62

With the axillary block, the _____ nerve is missed

Answer 62

musculocutaneous

Question 63

With the axillary block, the _____ nerve is blocked first

Answer 63

radial nerve because of its deep location

Question 64

With the axillary block, compressing the veins may

Answer 64

decrease the risk of vascular puncture

Question 65

Complications of an axillary block include

Answer 65

uncommon but there is an increased risk of vascular puncture because the needle must be re-directed several times to achieve adequate LA distribution
-multiple veins located around the artery. be cautious

Question 66

Paresthesia from multiple needle punctures in the axillary block may result in

Answer 66

neuropathy

Question 67

Nerve blocks at the level of the elbow are performed as

Answer 67

a rescue for an incomplete block

Question 68

Nerve blocks at the elbow are

Answer 68

localized procedures and address the
radial nerve
ulnar nerve
median nerve 
-median and ulnar nerves are blocked with the arm abducted

Question 69

Describe the technique used to anesthetize the median nerve.

Answer 69

courses alongside the brachial artery in the upper arm to the elbow- brachial artery can be verified using color doppler
needle inserted in-plane lateral to medial
following negative aspiration, inject 4-5 mL of LA
additional 2-3 mL can be injected if circumferential spread is not noted

Question 70

Describe the technique used to anesthetize the radial nerve

Answer 70

scan distally along the lateral humerus
identify the nerve as it takes a more anterior course along the humerus
needle inserted in-plane, lateral to medial
following negative aspiration, inject 4-5 mL of local anesthetic
an additional 2-3 mL may be injected if circumferential spread is not obstained

Question 71

Describe the technique used to anesthetize the ulnar nerve.

Answer 71

scan medially to identify the medial epicondyle
scan proximal & distal along the arm to identify where the nerve enters
needle inserted in-plane, medial to lateral
following negative aspiration, inject 4-5 mL of LA
an additional 2-3 mL may be injected if circumferential spread is not obtained

Question 72

The intravenous regional anesthesia is also known as

Answer 72

the Bier block

-may be used for upper or lower extremity procedures

Question 73

Describe the bier block.

Answer 73

A block in which local anesthetic is injected into the venous system of an extremity that has been exsanguinated by compression & isolated by a torniquet

Question 74

Describe the two mechanisms of anesthesia for the Bier block.

Answer 74

direct- local bathing nerve endings in the tissue

indirect- LA transported to the ‘substance’ of the nerves via the vasa nervorum

Question 75

The bier block can be used for

Answer 75

brief surgical procedures & manipulations such as ganglion cyst excision, carpal tunnel release, Duputyren’s contractures, & fracture reduction (mostly in pediatrics)

Question 76

The bier block may also be used as a treatment for

Answer 76

regional pain syndromes
-analgesia
reduce neurogenic inflammation

Question 77

Contraindications to the bier block include

Answer 77

patient refusal

Question 78

Relative contraindications to the bier block include

Answer 78

injuries to the extremity (crush or open fractures)
inability to cannulate peripheral vein
local skin infection or cellulitis
true allergy to local anesthetics
preexisting arteriovenous fistula
sickle cell disease
surgery greater than one hour

Question 79

Describe the procedure for the bier block

Answer 79

1. place IV catheter with as distal as possible in extremity
2. apply a double pneumatic tourniquet on the proximal arm
3. elevate the extremity and apply an Esmarch bandage
4. occlude the axillary artery
5. inflate the proximal cuff 50-100 mmHg above patient’s systolic BP
6. remove Esmarch bandage
7. inject 30-50 mL of 0.5-1% lidocaine
8. if patient complains of tourniquet pain, inflate distal cuff first, then deflate proximal cuff

Question 80

With the bier block, the tourniquet must

Answer 80

remain inflated for at least 30 minutes following the injection of local anesthetic, regardless of surgery length

Question 81

Describe the deflation of the tourniquet for the bier block.

Answer 81

after 30 minutes, the cuff tourniquet deflation occurs in a cyclical fashion:
cuff deflated, then instantly reinflated
patient evaluated for signs of LAST or other complications
wait 1-2 minutes
repeat

Question 82

Side effects and complications of the Bier block includes

Answer 82

if LE IVRA is performed, there will be 100% incidence of LA leakage under the tourniquet- observe for s/s of LAST
damage to radial, median, & ulnar nerves
compartment syndrome
arterial thrombosis
death or permanent brain damage

Question 83

Regional anesthesia can result in

Answer 83

local anesthetic systemic toxicity (LAST)
nerve injury
intravascular puncture/injection
death

Question 84

____ must be obtained prior to any regional block

Answer 84

informed consent

Question 85

LAST most commonly occurs from

Answer 85

an inadvertent intravascular injection

• initial blocking of inhibitory neurons thought to cause seizures
• blocking of cardiac ion channels results in bradycardia- Vfib is the most serious complication

Question 86

Shorter acting drugs are (related to LAST)

Answer 86

thought to be less cardiotoxic

• chemical properties play a role
• more potent agents higher lipid solubility & protein binding

Question 87

The classic clinical presentation of LAST is

Answer 87

rapid onset, usually within a minute

Question 88

The progression of subjective symptoms of last includes

Answer 88

agitation, tinnitus, circumoral numbness, blurred vision & metallic taste

Question 89

The subjective symptoms of LAST are followed by

Answer 89

muscle twitching, unconsciousness, and seizures

Question 90

Very high levels of intravascular LA can result in

Answer 90

cardiac & respiratory arrest

Question 91

LAST is most commonly seen with

Answer 91

epidural, axillary, & interscalene

Question 92

The incident rate of LAST is

Answer 92

0.4 per 10,000

Question 93

Prevention strategies of LAST include

Answer 93

test dosing
incremental injection with aspiration
use of pharmacologic markers
ultrasound

Question 94

Treatment of Last includes

Answer 94

prompt recognition & diagnosis
airway management priority
seizure suppression- benzodiazepines, succinylcholine
prevent hypoxia & acidosis
lipid emulsion therapy
vasopressors
do not give vasopressin; epinephrine <1 mg/kg

Question 95

The MOA of Lipid emulsion therapy is to

Answer 95

capture local anesthetic in blood (lipid sink)
increased fatty acid uptake by mitochondria
interference of Na+ channel binding
promotion of calcium entry
accelerated shunting

Question 96

Describe the max dose of lidocaine & mepivicaine

Answer 96

4 mg/kg & 7 mg/kg (with epi)

Question 97

Describe the max dose of bupivacaine, tetracaine, & ropivacaine

Answer 97

3 mg/kg

Question 98

Describe the max dose of prilocaine

Answer 98

7 mg/kg & 8.5 mg/kg (with epi)

Question 99

Describe the max dose of procaine

Answer 99

12 mg/kg

Question 100

Nerve injury can be either

Answer 100

direct needle trauma or local anesthetic toxicity

Question 101

The incidence of peripheral nerve injury varies with

Answer 101

location

Question 102

Pre-existing factors for the development of nerve injury is

Answer 102

diabetes, pre-existing neurologic disease, smoking, increased BMI, & male

Question 103

Local anesthetic neurotoxicity is the result of

Answer 103

dose & concentration of LA

additive agents, e.g. epinephrine

Question 104

Ultrasound allows the practitioner to identify important structures close to nerve injury including

Answer 104

dural
pleural
vasculature
& bowel

Question 105

Patient’s perception of postoperative nerve injury can be skewed by

Answer 105

“postoperative blur”

non-operative factors that coincide with the surgical site

Question 106

The nerve injury should be evaluated based on

Answer 106

presenting signs & symptoms as it could be surgical vs. insertion of block