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Surgical Positioning

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Title: Surgical Positioning


1
Surgical Positioning
0
Jeffrey Groom PhD, CRNANurse Anesthetist
ProgramFlorida International University
2
SURGICAL POSITIONING OBJECTIVES
  • Identify the role and responsibility of the
    anesthesia provider in patient positioning.
  • Describe the complications associated with
    improper patient positioning.
  • Describe the physiological changes that occur
    with the various positions.
  • Identify scenarios involving medicolegal
    liability associated with improper patient
    positioning.

3
Surgical table
4
Surgical Positioning
SUPINE
5
Surgical Positioning
Trendelenberg Reverse Trendelenberg
6
Surgical Positioning
Lateral Tilt
7
Surgical Positioning
Lithotomy
8
Surgical Positioning
Sitting Beach Chair
9
Surgical Positioning
JackKnife - Kneeling
10
Surgical Positioning
11
(No Transcript)
12
Surgical Positioning
13
Surgical PositioningOR Table Attachments
14
Surgical Positioning
0
  • All positioning schemes have 3 goals
  • 1. Maximum exposure to the surgical area while
    maintaining homeostasis and preventing injury
  • 2. Position must provide the Anesthetist with
    adequate access to the patient for airway
    management, ventilation, medications, and
    monitoring
  • 3. Promote the enhancement of a satisfactory
    surgical result

15
Surgical Positioning
0
What happens when the anesthetized patient cant
care for themselves?
16
Surgical Positioning
When you sleep, you reposition yourself to
prevent pressure ischemia. Under anesthesia, the
patient does not reposition (protect) them self
so the responsibility falls to the surgical team
to prevent pressure ischemia positioning
injuries.
17
Surgical Positioning
Why is there a risk for injury ?
  • Positioning and Anesthesia
  • Blunted or obtunded reflexes prevent patients
    from repositioning themselves for relief of
    discomfort
  • Anesthesia may blunt compensatory sympathetic
    nervous system reflexes that would minimize
    systemic BP changes with abrupt position changes
  • Rendering patients unconscious and relaxed may
    permit placement in position they may not have
    normally tolerated in an awake state

18
Patient Injury and Surgical Positioning
  • Most are nerve injuries due to overstretching
    and/or compression.
  • 90 undergo complete recovery.
  • 10 are left with residual weakness or sensory
    loss.
  • Many injuries can produce lasting disability.
  • Many injuries lead to litigation.
  • General anesthesia removes many of the bodies
    natural protective mechanisms.
  • Recognition of risks and prevention is essential.

19
How do nerves get injured? Example
0
20
Nerve fiber
21
Peripheral Nerves from Spinal Cord
0
  • only sensory fibers run in the dorsal root
  • motor fibers (somatic and autonomic) leave the
    cord via the ventral roots
  • sympathetic fibers leave the cord via ventral
    roots from T1 - L2

22
Peripheral Nerve Injury
23
Preoperative History and Physical Assessment
  • Preexisting patient attributes associated with
    increased incidence of perioperative
    neuropathies
  • extremes of age or body weight,
  • preexisting neurologic symptoms,
  • diabetes mellitus,
  • peripheral vascular disease,
  • alcohol dependency,
  • smoking,
  • and arthritis.

24
Surgical Positioning ASA Closed Claims
  • 1999 - 670 claims for anesthesia-related nerve
    injuries
  • 1 - Ulnar nerve (28)
  • 2 - Brachial plexus (20)
  • 3 - Common peroneal (13)

25
Surgical Positioning
  • Ulnar nerve injury
  • Caused by arms along side patient in pronation
  • Ulnar nerve compressed at elbow between table and
    medial epicondyle.
  • Prevented by positioning arms in supination.
  • Hypotension and hypoperfuison increase risk.

26
Ulnar Nerve
27
Yo sup dude?
28
Surgical Positioning
  • Brachial Plexus Injury
  • Excessive arm abduction or external rotation.
  • Prevented by avoiding more than 90o abduction.
  • Secure arm to prevent arm from falling off of
    table or arm board.

29
Brachial Plexus
30
Surgical Positioning
  • Brachial Plexus
  • Abduct arms to no more than 90 degrees.
  • Minimize simultaneous abduction, external arm
    rotation, and opposite lateral head rotation.
  • In prone position, maintain abduction and
    anterior flexion of arms above head to no more
    than 90 degrees.
  • In lateral position, place chest roll under
    lateral thorax to minimize compression of humerus
    into axilla.

31
Brachial Plexus
32
Surgical Positioning
  • Peroneal nerve
  • Caused by direct pressure on the nerve with the
    legs in lithotomy position.
  • Nerve compressed against neck of fibula.
  • Prevented by adequate padding of lithotomy poles.

33
Surgical Positioning
34
Surgical Positioning
35
Surgical Positions and Anesthesia Implications
36
Surgical Positioning
SUPINE
37
Surgical PositioningSupine
  • Most frequently used position.
  • Cervical, thoracic, lumbar vertebrae should be in
    a straight, horizontal line.
  • Minimal effects on circulation.
  • FRC decreases 25-30 from upright.
  • Arm boards and arm must be less than 90o
    abduction angle to the torso.

38
Surgical PositioningSupine (con't)
  • Arms at greater than 90o angle results in stretch
    of the subclavian and axillary vessels resulting
    in radial pulse obliteration and arterial
    thrombosis.
  • Injuries have been reported with as little as 60o
    abduction.
  • Palms up- relieves pressure on the ulnar nerve as
    it passes through the humeral notch at the elbow.

39
Surgical PositioningSupine
  • Ulnar nerve injury
  • Hypotension and hypoperfusion increase risk
  • Inability to abduct or oppose the 5th finger
  • Atrophy of the intrinsic muscles of the hand
    (claw hand).

40
Surgical PositioningSupine
  • Extreme rotation of the head can cause occlusion
    and thrombosis of the vertebral artery.
  • Pressure from a mask or head strap can cause
    injuries of the supraorbital and facial nerves.
  • Relaxation of the paraspinous muscles and
    flattening of the normal lumbar convexity
    results in tension on the interlumbar and
    lumbosacral ligaments causing a backache.

41
Surgical PositioningSupine
42
Surgical PositioningProne
0
43
Surgical PositioningProne
  • Induction completed on stretcher, then patient
    logrolled to OR table under command of CRNA
  • Body logrolled as a unit in a smooth, slow, and
    gentle manner.
  • Neck in alignment with spinal column.
  • Eyes and ears protected and not depressed.
  • Chest rolls, or bolsters are placed lengthwise on
    both sides of the thorax, extending from the
    acromioclavicular joints to iliac crest-?adequate
    lung expansion and diaphragm excursion.

44
Surgical PositioningProne
  • Protect female breasts male genitalia.
  • Pillow under legs ankles to flex knees and
    prevent pressure on toes and plantar flexion of
    feet.
  • Arms at side or extended alongside the head on
    arm boards
  • Documentation pressure points padded, free
    abdominal and chest expansion, position of the
    arms, eye care

45
Surgical PositioningProne
  • Cardiac
  • Pooling of blood in extremities
  • Compression of abdominal muscles
  • Decrease preload, c.o., and blood pressure
  • Increased SVR and PVR
  • Decreased stroke volume and cardiac index
  • TEDS or pneumatic sequential compression
    stockings to minimize pooling of blood

46
Surgical PositioningProne
  • Respiratory
  • Decreased lung compliance
  • Increased work of breathing
  • Thoracic Outlet Syndrome-secondary to thoracic
    nerve compression (agonizing, debilitating, and
    unremitting pain post-operatively following
    overhead arm placement
  • ETT dislodgement - Extubation

47
Surgical Positioning
Trendelenberg Reverse Trendelenberg
48
Surgical PositioningTrendelenburg
  • Cardiac
  • Activation of baroreceptors
  • Decrease in C.O., PVR, HR, and BP
  • Does not improve C.O. in hypotension
    hypovolemia
  • Respiratory
  • Decreased FRC, total lung capacity and pulmonary
    compliance secondary to shift of abdominal
    viscera
  • Increased V/Q mismatching
  • Atlectasis
  • Increased likelihood of regurgitation
  • Use of shoulder braces to prevent cephalad mvmt

49
Surgical PositioningReverse Trendelenburg
  • Cardiac
  • Decrease in c.o., preload, and arterial pressure
  • Baroreflexes increase sympathetic tone, HR , PVR.
  • Respiratory
  • Work of breathing decreased
  • Increase in FRC

50
Surgical PositioningLateral Decubitus
51
Surgical PositioningLateral Decubitus
  • Usually positioned with bean bag or position
    supports.
  • Head must be aligned to support the spinal column
    and prevent compression of dependent arm.
  • Pillows placed between legs and feet
  • Bottom leg flexed to provide stability and
    facilitate venous drainage.
  • Peroneal nerve susceptible to injury

52
Surgical PositioningLateral Decubitus
  • Presents anesthetic challenges-
  • Compression of vena cava with kidney rest
  • Dependent lung is underventilated-pressure of
    abdominal contents and wt of mediastinum.
  • Nondependent lung is overventilated because of
    increased compliance.
  • Blood flows to underventilated lung by gravity.
  • V/Q mismatch may manifest as hypoxemia

53
Surgical PositioningLateral Decubitus
  • Kidney rest- beneath the bony iliac crest, not
    under fleshy waist area
  • Axillary rolls- placed at scapula near the
    axillary space to relieve pressure on the arm and
    foster adequate chest excursion.
  • Dependent shoulder, axilla, and deltoid must be
    padded.
  • Lower arm brought forward to prevent pressure on
    brachial plexus.
  • Chest surgery- upper arm flexed at elbow and
    raised above head to elevate scaplua and widen
    intercostal spaces.

54
Surgical PositioningLateral Decubitus
  • Cardiac
  • Output unchanged unless venous return obstructed
    (kidney rest).
  • May see decrease in arterial blood pressure as a
    result of decreased vascular resistance (R gt L).
  • Respiratory
  • Decreased volume and increased perfusion of
    dependant lung, V/Q mismatch potential

55
Surgical Positioning
Sitting Beach Chair
56
Surgical PositioningSitting
  • Cardiac
  • Pooling blood in lower body decreases central
    blood volume.
  • ABP fall despite increase in HR SVR. (30)
  • C.O. decreases 20-40
  • Increase in sympathetic /parasympathetic tone
  • Intrathoracic blood volume decreases as much as
    500 ml
  • Respiratory
  • Lung volumes are increased.
  • FRC is increased.
  • Work of breathing is decreased.

57
Surgical PositioningSitting
  • Posterior Foss Craniotomy shoulder procedures.
  • Full sitting position is uncommon.
  • Lounge chair, beach chair.
  • Facilitates venous drainage.
  • Venous air embolism risk is potential hazard

58
Surgical PositioningSitting
  • Complications
  • Postural hypotension
  • Air emboli
  • Potentially lethal
  • Chances increase with degree of elevation of op
    site.
  • Dx change in heart rate, murmur, decreased in
    exp CO2, cardiac dysrythmias, change in heart
    sounds generated by a parasternal Dopppler.
  • TEE most sensitive for detection (0.015
    ml/kg/air)
  • Gasp breath may be first indicator
  • Decreased Pa02, etCO2, increased etN

59
Surgical PositioningSitting
  • Complications
  • Ocular compression
  • Pneumocephalus
  • Edema of face, head, and neck due to prolonged
    neck flexion resulting in venous and lymphatic
    obstruction.
  • Sciatic nerve injury
  • Bended knees without flexion of the hips
  • Foot drop is clinical manifestation

60
Surgical Positioning
Lithotomy
61
Surgical PositioningLithotomy
  • Cephalad displacement of the diaphragm.
  • Principle hazards
  • Common peroneal- foot drop
  • Femoral- decreased or absent knee jerk
  • Saphenous-
  • Obturator-inability to adduct leg diminished
    sensation over medial side of the thigh
  • Sciatic nerve- weakness of all skeletal muscles
    below the knee
  • Both legs should be elevated flexed at same
    time to avoid stretching of peripheral nerves
  • Thighs should be no more than 90o

62
AANA Scope and Standards for Nurse Anesthesia
PracticeStandard V
  • Nurse anesthetists should monitor and assess
    patient positioning and protective measures at
    frequent intervals.

Failure to follow professional standards and
guidelines may result in positioning injuries
and liability.
63
Pommier vs Savoy Memorial Hospital
LIABILITY EXAMPLES
  • 55 y.o female w/fractured hip
  • 2hr 20 min surgery
  • Developed peroneal palsy post-op

Protective and monitoring measures were not taken
nor documented. No prior injury present.
Conclusion at trial injury would not have
occurred had there not been negligence res ipsa
loquitur.
64
Shahine vs. Louisiana State University Medical
Center, 680 So. 2d 1352 (La. App., 1996)
  • "6 table with safety strap in place 2" above
    knees - supine with bean bag underneath patient
    post induction catheter insertion into the left
    side, with right side up, per __M.D. __M.D, -
    auxiliary roll in place (1000cc bag IV fluid
    wrapped in muslin cover) - held in place per
    surgeons until bean bag deflated with suction -
    pillow placed under right leg with left leg bent
    slightly - U drape in place per surgeons pre prep
    - left arm extended on padded arm board - right
    arm placed on mayo tray that is padded."

Protective and monitoring measures were taken and
documented. Brachial plexus injury reported
postop. No prior injury present. Conclusion at
trial injury was a risk of the procedure
however personnel took precautions according to
standards and were not negligent.
65
0
ASA Practice Advisory Sets a legal standard of
careLINK to Advisory in the Course Outline Page
66
Upper extremity positioning
  • Arm abduction should be limited to 90 in supine
    patients patients who are positioned prone may
    tolerate arm abduction greater than 90
  • Arms should be positioned to decrease pressure on
    the postcondylar groove of the humerus (ulnar
    groove).
  • When arms are tucked at the side, a neutral
    forearm position is recommended. When arms are
    abducted on armboards, either supination or a
    neutral forearm position is acceptable
  • Prolonged pressure on the radial nerve in the
    spiral groove of the humerus should be avoided
  • Extension of the elbow beyond a comfortable range
    may stretch the median nerve

67
Lower extremity positioning
  • Lithotomy positions that stretch the hamstring
    muscle group beyond a comfortable range may
    stretch the sciatic nerve
  • Prolonged pressure on the peroneal nerve at the
    fibular head should be avoided
  • Neither extension nor flexion of the hip within
    normal range of motion increases the risk of
    femoral neuropathy

68
  • Protective padding
  • Padded armboards may decrease the risk of upper
    extremity neuropathy
  • The use of chest rolls in laterally positioned
    patients may decrease the risk of upper extremity
    neuropathies
  • Padding at the elbow and at the fibular head may
    decrease the risk of upper and lower extremity
    neuropathies, respectively
  • Equipment
  • Properly functioning automated blood pressure
    cuffs on the upper arms do not affect the risk of
    upper extremity neuropathies
  • Shoulder braces in steep head-down positions may
    increase the risk of brachial plexus neuropathies

69
  • Postoperative assessment
  • A simple postoperative assessment of extremity
    nerve function may lead to early recognition of
    peripheral neuropathies
  • Documentation
  • Charting specific positioning actions during the
    care of patients may result in improvements of
    care by (1) helping practitioners focus attention
    on relevant aspects of patient positioning (2)
    providing information that continuous improvement
    processes can use to lead to refinements in
    patient care and (3) provide medicolegal defense

70
Surgical Positioning
Positioning Checklist
71
  • Positioning Checklist
  • Head, neck and cervical spine supported in a
    straight line.
  • Scalp, head, and face protected from tight
    anesthesia mask/straps.
  • Ears protected from traumatic pressure/objects.
  • Chest and torso kept in physiological position
    for adequate full, bilateral respiratory
    exchange and expansion.
  • Breasts genitalia protected from excessive
    pressure.

72
  • 6. Arms in physiological position and
    supported. - not to exceed 90 degree extension
    at shoulder - in flexion not
    hyperextension - upper arm not hanging over edge
    of table or rubbing on metal part of table -
    elbow area protected from ulnar pressure - hands
    free of pressure and compression - fingers in
    slight flexion or neutral extension - wrist
    restraints loose or padded - palms up on
    armboard - palms towards body when arms at
    side

73
  • Positioning Checklist
  • Genitals free of trauma, pressure, or rubbing.
  • Back in physiological position, spine in straight
    line
  • - slight sacral curvature
  • - soft small positioning devices under sacral
    area and knees to relieve
  • pressure, pain, or stretching.
  • Thighs/legs in straight line of flexed position
    no pressure to iliac crests, greater trochanters,
    area bt back knees, peroneal nerve on lateral
    aspects of knees, or to patellas.
  • Heels/ankles/toes free of pressure or rubbing
    trauma.
  • Safety belt placed snugly over patient w/blanket
    or towel between strap and patients body to
    prevent maceration.
  • Other straps or positioning devices placed only
    over padded body parts.

74
Surgical Positioning
During clinical this semester spend time after
cases learning the operation of the OR table and
proper positioning. Practice on each other to
appreciate positioning from patients
perspective.
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