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Anatomy, Patient Positioning

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Last Update: November 5, 2021.

Introduction

Appropriate patient position can facilitate proper physiologic function during pathophysiologic processes and also facilitate access to certain anatomical locations during surgical procedures. Multiple factors should be considered when choosing the patient's position. These factors include patient age, weight, and size as well as past medical history, including respiratory or circulatory disorders.

Structure and Function

The most common patient positions with common indications and concerns include the following.[1][2][3][4]

Supine Position

This is the most common position for surgery with a patient lying on his or her back with head, neck, and spine in neutral positioning and arms either adducted alongside the patient or abducted to less than 90 degrees.

  • Arm abduction maintained less than 90 degrees prevents undue pressure of the humerus on the axilla, thereby preventing brachial plexus injury.
  • Arm adduction with hands and forearms maintained in neutral position with palms facing the body or supinated decreases external pressure on the ulnar nerve and prevents injury. A “draw sheet” that passes under the body and over the arm before tucking under the torso can hold the arm in proper position against the body.

Supine Position Variations

Lawnchair position: A variation of supine in which the hips and knees are slightly flexed and above the level of the heart relieves pressure on the back, hips, and knees and facilitates venous drainage from the lower extremities, and reduces tension on the abdominal musculature

Frog-leg position: A variation of supine in which the hips and knees are flexed, and the hips are externally rotated facilitates access to the perineum, groin, rectum, and inner thigh, but the knees must be supported to avoid stress and dislocation of the hips.

Trendelenburg position: A variation of supine in which the head of the bed is tilted down such that the pubic symphysis is the highest point of the trunk facilitates venous return and improves exposure during abdominal and laparoscopic surgeries

  • Hemodynamic changes, including increased venous return and cardiac output, are temporary, with most hemodynamic variables returning to baseline within ten minutes.
  • Respiratory changes, including upward displacement of the abdominal contents into the diaphragm, decrease functional residual capacity and respiratory compliance, therefore, requiring higher airway pressures to maintain ventilation.
  • Gravitational changes from prolonged head-down positioning can result in increased intracranial pressure, increased intraocular pressure, swelling of the face, larynx, and tongue, increasing the risk for postoperative airway obstruction.
  • Sliding and shifting of a patient in Trendelenburg positioning are often prevented with shoulder braces. However, caution must be used to prevent undue pressure, potentially resulting in compression or stretch injury to the brachial plexus.

Reverse Trendelenburg position: A variation of supine in which the head of the bed is tilted upward such that the head is the highest point of the trunk facilitates upper abdominal surgery

  • Hemodynamic changes include decreased venous return and can result in hypotension.
  • Gravitational changes in concert with hemodynamic changes can result in decreased cerebral perfusion, and invasive arterial monitoring should be considered.
  • Sliding and shifting a patient in reverse Trendelenburg positioning can increase pressure over the posterior calcaneus.

Lithotomy Position

Commonly used during gynecologic, rectal, and urologic surgeries with a patient lying supine with legs abducted 30 to 45 degrees from midline with knees flexed and legs held supported with the foot of the bed lowered or removed to facilitate the procedure.

  • Legs are raised and lowered in concert with one another to prevent spinal torsion and muscular injury; prolonged procedure time increases the risk for lower extremity compartment syndrome secondary to inadequate perfusion; recommendations include periodically lowering the extremities throughout prolonged procedures.
  • Lower extremity padding prevents nerve compression against leg supports; common peroneal nerve injury is most common as the peroneal nerve wraps around the head of the fibula, which rests against leg supports
  • Hemodynamic changes include the increased venous return and transient increases in preload and cardiac output.
  • Respiratory changes result from cephalad displacement of abdominal contents resulting in decreased lung compliance, functional residual capacity, and tidal volume.

Lateral Decubitus Position

Commonly used during surgery requiring access to the thorax, retroperitoneum, or hip with a patient lying on the nonoperative side and careful positioning of the extremities.

  • The lower extremities are carefully padded between the knees and below the dependent knee to avoid excessive external pressure over bony prominences. The dependent lower extremity is somewhat flexed to avoid stretch or compression of the lower extremity nerves.
  • Upper extremities are placed in front of the patient with neither arm abducted more than 90 degrees to prevent brachial plexus injury; an axillary roll should be placed below the axilla to prevent compression of the brachial plexus and axillary vascular structures.
  • The dependent upper extremity is flexed at the shoulder and slightly flexed at the elbow and secured on a padded arm board with padding under bony prominences; invasive arterial monitoring should be placed in the dependent arm to better detect compression of the axillary vascular structures.
  • The non-dependent upper extremity is flexed at the shoulder and slightly flexed at the elbow and often secured with a suspended armrest with care not to abduct the arm more than 90 degrees and to pad the bony prominences.
  • The head and neck are maintained in a neutral position to prevent lateral rotation and stretch injury to the brachial plexus; care must be given to avoid folding or rolling the dependent ear or undue external pressure on the dependent eye.
  • Respiratory changes from the lateral weight of the mediastinum and cephalad displacement of abdominal contents result in decreased pulmonary compliance, and lateral decubitus positioning favors ventilation of the nondependent lung.

Prone Position

Commonly used during surgery requiring access to the posterior fossa of the skull, posterior spine, buttocks or perirectal area, or lower extremities with the patient lying on his or her front with head, neck, and spine maintained in a neutral position; the patient is turned from supine to prone while maintaining the neutral position of the head, neck, and spine.

  • The risk of dislodgement of monitors and tubes can be minimized by disconnecting as many monitors, lines, and catheters as possible before turning the patient; temporary disconnection of the ventilator from the endotracheal tube prevents dislodgement.
  • Many commercially available headrests and pillows are designed to support the forehead and malar regions with openings for the eyes, nose, and chin, preventing external pressure on these structures; special caution must be taken to avoid undue pressure on the eyes as perioperative vision loss is an avoidable complication of the prone position.
  • Respiratory changes result in alveolar recruitment and increased oxygenation without affecting cardiac output and, therefore, is a useful maneuver in severely hypoxemic patients in early acute respiratory distress syndrome (ARDS)

Fowler's Position

This is the most common position for patient resting comfortably, whether inpatient or in the emergency department, with knees either straight or slightly bent and the head of the bed between 45 and 60 degrees.

  • Respiratory changes result in increased oxygenation by maximizing chest expansion, minimizing abdominal muscular tension, and minimizing the effects of gravity on the chest wall; therefore, a useful maneuver for patients in mild to moderate respiratory distress.
  • High Fowler's position with the head of the bed between 60 and 90 degrees is useful during placement of orogastric and nasogastric tubes as it decreases the risk of aspiration

Blood Supply and Lymphatics

Lower extremity compartment syndrome is a rare but serious complication of the lithotomy position resulting from inadequate perfusion of the lower extremity. The resulting tissue ischemia, edema, and muscle breakdown increase facial compartmental pressure. Recommendations include periodically lowering the legs of patients in lithotomy position during prolonged procedures to promote perfusion.

Nerves

Nerves are most commonly injured during surgical procedures secondary to external compression or stretch. The most commonly injured nerve is the ulnar nerve from malpositioning of the upper extremity in the supine position. Ensure that the arm is supinated or in the neutral position to avoid ulnar nerve compression and abducted no more than 90 degrees from the body to prevent stretch injury to the brachial plexus.[5][6][7][8]

Lower extremity nerve injuries are less common, though precautions can still be taken. Common peroneal nerve compression can result from direct compression over the fibular head in the lithotomy position; ensure proper padding between bony prominences and supports. Sciatic nerve stretch can result from flexion at the hip in the lithotomy position; take care when positioning the patient to move the lower extremities in concert with one another and prevent hyperflexion at the hip.[9][10]

Muscles

Muscle strain is a less common side effect of patient positioning but can result from the patient’s inability to react to the movement of the extremities. Take care, especially with the lower extremities, to move simultaneously to avoid muscle and joint injury.

Surgical Considerations

A significant consideration for patient positioning, especially during prolonged surgical procedures, is compression and damage to underlying nervous and vascular structures. Common surgical positions and frequently associated complications can be found above. Providers should ensure that all bony prominences, as well as foreign bodies held against the patient, are appropriately padded to avoid undue pressure on the skin and soft tissues.

Clinical Significance

Proper positioning of the patient can facilitate access to anatomical locations during surgical procedures and promote appropriate physiologic function during pathologic states, for example, the Trendelenburg position to increase the venous return in a hypovolemic patient. Care to position the patient properly both facilitates procedural aims and aids in preventing subsequent complications.

Review Questions

Lateral Decubitus Position

Figure

Lateral Decubitus Position. Contributed Illustration by Beckie Palmer

Fowler and Semi-Fowler positions, Full upright at 90 degree angle is High/Full Fowler's and tilted back at 30-45 degree angle is Semi-Fowler's position

Figure

Fowler and Semi-Fowler positions, Full upright at 90 degree angle is High/Full Fowler's and tilted back at 30-45 degree angle is Semi-Fowler's position. Contributed by Tammy J. Toney-Butler, AS, RN, CEN, TCRN, CPEN/Own work

Supine and Prone Positions

Figure

Supine and Prone Positions. Contributed by Wikimedia Commons (CC0 1.0) PD

lithotomy position

Figure

lithotomy position. Image courtesy S Bhimji MD

References

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Karkenny AJ, Mendelis JR, Geller DS, Gomez JA. The Role of Intraoperative Navigation in Orthopaedic Surgery. J Am Acad Orthop Surg. 2019 Oct 01;27(19):e849-e858. [PubMed: 30720570]
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Dufault CA. Patient Care During Minimally Invasive Lateral Spine Surgery: 1.7 www.aornjournal.org/content/cme. AORN J. 2018 Aug;108(2):127-139. [PubMed: 30117551]
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Towfigh S. Inguinal Hernia: Four Open Approaches. Surg Clin North Am. 2018 Jun;98(3):623-636. [PubMed: 29754626]
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Lukez A, O'Loughlin L, Bodla M, Baima J, Moni J. Positioning of port films for radiation: variability is present. Med Oncol. 2018 Apr 21;35(5):77. [PubMed: 29680955]
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Hearon BF, Frantz LM. Ulnar Nerve Anterior Transmuscular Transposition in the Lateral Decubitus Position. J Hand Surg Am. 2019 Apr;44(4):346.e1-346.e7. [PubMed: 30685140]
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Kim SJ, Barlog JS, Akhavan A. Robotic-Assisted Urologic Surgery in Infants: Positioning, Trocar Placement, and Physiological Considerations. Front Pediatr. 2018;6:411. [PMC free article: PMC6330297] [PubMed: 30666303]
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de Sa D, Sheean AJ, Morales-Restrepo A, Dombrowski M, Kay J, Vyas D. Patient Positioning in Arthroscopic Management of Posterior-Inferior Shoulder Instability: A Systematic Review Comparing Beach Chair and Lateral Decubitus Approaches. Arthroscopy. 2019 Jan;35(1):214-224.e3. [PubMed: 30455085]
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Mezidi M, Guérin C. Effects of patient positioning on respiratory mechanics in mechanically ventilated ICU patients. Ann Transl Med. 2018 Oct;6(19):384. [PMC free article: PMC6212360] [PubMed: 30460258]
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Katz S, Arish N, Rokach A, Zaltzman Y, Marcus EL. The effect of body position on pulmonary function: a systematic review. BMC Pulm Med. 2018 Oct 11;18(1):159. [PMC free article: PMC6180369] [PubMed: 30305051]
10.
Mourmouris P, Berdempes M, Markopoulos T, Lazarou L, Tzelves L, Skolarikos A. Patient positioning during percutaneous nephrolithotomy: what is the current best practice? Res Rep Urol. 2018;10:189-193. [PMC free article: PMC6214409] [PubMed: 30464930]
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