Category Archives: Wilderness Medicine

Reduction of Uncomplicated Shoulder Dislocation in the ED

At long last, UK EMIG QuickHits returns from hiatus with a rundown on shoulder dislocations and how to handle them in the ED, from 4th year UK med student Michael Greene

Quickhit: 

-Shoulder joint dislocations are a common reason for a visit to the emergency department (50% of all joint complications treated in the ED) so it’s important to be familiar with them

-Pathophysiology: Glenohumeral dislocation. Usually occurs with indirect force applied to the shoulder through the arm during abduction and external rotation, leading to the humeral head slipping out of the glenoid fossa.

-Up to 95% are anterior dislocations but posterior and inferior dislocations occur

-Further subdivided into subcoracoid, subglenoid, subclavicular, or intrathoracic, depending on where the humeral head ends up

-Workup: Most important is history and physical. Shoulder x-ray in three planes (AP, lateral, axillary) is the initial imaging modality of choice.

-As with any MSK injury, be sure to do a neurovascular check distal to the dislocation, including the axillary nerve innervation of cutaneous deltoid distribution. If vascular or neurological deficits are identified, more rapid reduction is required.

-Management: Rapid, closed reduction! The sooner the reduction is performed the easier it is, as prolonged dislocation increases the muscle spasms and tightness which is keeping the humeral head from moving back into place

-For all methods (see below for more details) listen or feel for the clunk. With the awake patient, look for relief of pain and improvement of range of motion

-Complications: Bankart’s lesions and Hill-Sach’s deformities. While initial x-rays should pick them up, more subtle presentations may only be seen on CT or MRI.

-Post-reduction care: sling for three weeks to let the shoulder girdle recover and tighten. Ortho follow-up, particularly with recurrence or complications

Also… most things here apply only to anterior shoulder dislocations. Posterior or inferior dislocations are less common and more prone to long-lasting complications. An ortho consult is always in order for these.

Keep reading for a more in-depth take on shoulder dislocation reductions

As mentioned above, the shoulder is most commonly dislocated joint. It’s the most mobile joint in the human body, but with great mobility comes great instability. As we can see in the image below, there’s not much keeping the humeral head nestled in the glenoid fossa besides soft tissue stabilizers like rotator cuff muscles, ligaments and the joint capsule. It is most commonly dislocated anteriorly via indirect pressure applied to the arm during abduction and extrinsic rotation. It can be sub-categorized based on where the humeral head ends up: subcoracoid, subglenoid (the two most common) or subclavicular or intrathoracic (both very rare).  There is a bimodal distribution in the patient population seen with shoulder dislocations: young, active men and elderly women.

shoulder anatomy

Image source: via https://www.studyblue.com/notes/note/n/shoulder/deck/1978417

Presentation: Patients typically come in with a history of trauma supporting their flexed, externally rotated arm. The shoulder will have a classic squared off appearance and a gap between the humeral head and the acromion can be palpated. Usually not the trickiest diagnosis, although the image below is dramatic.

dislocation-of-the-shoulder2

Image source: http://www.firstaidevents.com/articles/dislocation-of-the-shoulder

X-ray will verify the dislocation and can also visualize any associated bony lesions or fractures

anterior-shoulder-dislocation-1

Image source: Case courtesy of Dr Frank Gaillard, From case 7958

Reduction methods:

The goal of reduction is to restore pain-free, functional anatomy and range of motion while maintaining shoulder stability. In order to accomplish this, the muscular spasm which occurs during dislocation and keeps the humeral head from spontaneous reduction must be overcome to relocate the humeral head into the glenoid fossa.

There are as many methods to do this as there are ways to dislocate your shoulder, but we’re going to highlight some of the most popular. For all methods, listen or feel for the clunk. With an awake patient, look for relief of pain and improvement of range of motion

Traction/Countertraction

  • Often used in the ED for its simplicity and ability to quickly overcome tight muscles from prolonged dislocation
  • Detractors point to the increased use of force and potential neurovascular complications or enlargement of bony complications

fx_traction_countertraction_shoulder

Image source: dundeemedstudentnotes.wordpress.com

Stimson

  • Patient lies in the prone position with the effected arm hanging off the bed, attached to a 5-10lb weight
  • Over the course of 20-30 minutes the muscles of the shoulder girdle will grow tired and relax, allowing the humerus to slip back into place

stimson

Image source: intranet.tdmu.edu.ua

Milch

  • Forward elevation: arm initially is elevated 10 to 20 degrees in forward flexion and slight abduction. Forward flexion is continued until the arm is directly overhead. Abduction is increased, and outward traction is applied to complete the reduction.

    Figure 25. Milch Technique

    Image source: www.ebmedicine.net/

Snowbird

  • The patient is seated in a chair, and the affected arm is supported by the patient’s unaffected extremity.

    A 3-foot loop of stockinette is placed along the forearm with the elbow at 90 degrees.

    The patient sits up and gets some support from the physician. Traction is directed downward on the forearm by a foot in the loop, while the forearm is supported and the provider’s other hand is free for pressure or rotation as needed.

External rotation

Scapular manipulation

Involves repositioning the glenoid fossa rather than the humeral head; can be used with minimal analgesia or muscle relaxation. Traction on the arm is placed either by the hanging method or by an assistant. During gentle traction, the inferior tip of the scapula is rotated medially, while the superior portion of the scapula is stabilized.

shoulder manipulation

image source: www.hawaii.edu/medicine/pediatrics/pemxray/v4c12.html

Kocher

  • Leverage, adduction, and internal rotation

    -No longer recommended because of a high incidence of associated complications (axillary nerve injury, humeral shaft and neck fractures, capsular damage)

Hippocratic

  • Like the Kocher, not used as much due to potential for complications
  • Traction with the foot in the axilla

hippocrates

image source: http://www.wjgnet.com/2218-5836/full/v5/i1/57.htm

Pain control:

Procedural sedation with benzos, opiates, propofol, ketamine or etomidate has long been the mainstay for reductions in the ED. It’s common, providers are familiar with it, it can give some muscular relaxation and the patients are easy to work with, for obvious reasons. However, it is expensive and requires continual observation and cardiopulmonary monitoring during the course of the sedation.

For those whose time and manpower is limited, intra-articular lidocaine injections have proven to be effective. For the horde of ultrasound enthusiasts, ultrasound-guided interscalene brachial plexus block can also provide effective regional anesthesia for reduction. Some advantages of these methods and avoiding procedural sedation are to reduce cardiopulmonary compromise, to reduce staffing required for monitoring, reduce ED length of stay, and reduce cost. There are some risks, well addressed elsewhere, of vascular puncture during injection and temporary phrenic or recurrent laryngeal nerve paresis, although this is operator dependent.

To rehash some basic anatomy, the brachial plexus runs from C5-T1, under the clavicle, to the axilla and provides innervation to the upper extremities. The interscalene block of the brachial plexus involves the infiltration of lidocaine at the level of the trunks, seen below, which when viewed in the transverse with ultrasound gives you the classic “traffic-light” sign of the three stacked nerve trunks.

brachialplexus

Image source: mymedlife

ACEP_Feb2012_Fig5

Image source: ACEP

lovolanim

Image source: Neuraxiom

Complications:

The common pimp question complications from shoulder dislocation are the Hill-Sach’s and Bankart’s lesions. They are basically the glenoid and the humerus acting on each other. In the Hill-Sach’s deformity, the humeral head is the injured party and in the Bankart’s lesion, the glenoid rim is injured. I keep them straight by the H’s: [H]ill-Sach’s=[H]umeral head

Hill-Sach’s deformity: compression fracture of the humeral head from sliding across the glenoid rim

Bankart’s lesion: avulsion fracture of glenoid rim from impact of humeral head

bankart+hillsachs

Image source: littlemedic.org

More bony injury: greater tuberosity fracture, coracoid fracture, humeral neck/shaft fracture

Ligamentous injury: inferior glenohumeral ligament, more common in younger patients

Muscular: rotator cuff strains and tears, more common in older patients

Neurological: axillary nerve, supplying motor innervation to teres minor and deltoid, and sensory innervation to lateral upper arm over the deltoid.

Vascular: axillary artery; look for it in association with axillary nerve injury

Joint instability and recurrent dislocation is the ultimate outcome for many of these complications, especially Hill-Sach’s, Bankart’s, and inferior glenohumeral ligament injury. All of these complications need an ortho consult, and surgical intervention can help prevent recurrence.

Additional info:

For all you wilderness med maniacs out there, here’s a study published by the Wilderness Medical Society of a reduction method that can be done without assistance, equipment or medications. All it takes is patience and a willing patient.

http://www.ncbi.nlm.nih.gov/pubmed/25823603

Also:

Cunningham’s method

FARES method

-All things shoulder dislocation and reduction:

www.shoulderdislocation.net

-Ultrasound-guided interscalene block guide:

http://www.acep.org/Continuing-Education-top-banner/Focus-On–Ultrasound-Guided-Interscalene-Approach-To-the-Brachial-Plexus-Nerve-Block/

http://www.sonoguide.com/interscalene_plexus_block.html

http://www.neuraxiom.com/html/low_volume_interscalene_block.php

-As always: Rosen’s, Tintinalli’s

Contributor: Michael Greene

Advertisements
Tagged , , , , ,

Keep it Cool with Frostbite

This week – the return of the King.  Sakib himself shares some information on appropriate care for frostbite injuries

Play it cool with frostbite

Quickhit:

–       Risk of cold injuries such as frostbite correlated with temperature, windchill, moisture

  • Risk is <5% when ambient temp (including wind chill) is >5 F (-15C)
  • Most often occur at ambient temp < -4 F (-20C)

–       Pathophys = freezing alone not sufficient to cause tissue death, Thawing contributing to endothelial damage is cause of majority of damage (see continue reading below)

–       Zone of injury = Zone of Coagulation, Zone of Hyperemia, Zone of Stasis

–       Treatment = Rapid re-warming with warm water. Do not debride any tissue initially.

–       Complications

  • 65% pt. experience sequeulae from their injuries
  • Hypersensitivity to cold, pain, ongoing numbness
  • Asthritis, bone deformities, dystrophia

Read below to get more thorough treatment maneuvers and further info on Frostbite Injury!

Continue reading

Tagged , , ,