UMEM Educational Pearls - Orthopedics

Joint Fluid Analysis:

This is hte session in Baltimore for crab eating and beer drinking so we begin to see an increase in Gout pain.  For those that are presenting with their first episode and you are concerned that they might have a septic joint, I am including this pearl to help analysis the fluid you will obtain from arthrocentesis.

 

Synovial Fluid Interpretation

Diagnosis	Appearance	WBC	PMNs	Glucose % of Blood Level	Crystals
Normal	Clear	<200	<25	95 - 100	None
Degenerative Joint Disease	Clear	<4000	<25	95 - 100	None
Traumatic Arthritis	Straw colored	<4000	<25	95 - 100	None
Acute Gout	Turbid	2000 - 50,000	>75	80 - 100	Negative birefringence
PseudoGout	Turbid	2000 - 50,000	>75	80 - 100	Positive birefringence
Septic Arthritis	Purulent / turbid	5000 - > 50,000	>75	< 50	None
Rheumatoid Arthritis	Turbid	2000 - 50,000	50-75	~75	None

 To view a gout crystal click this link.

To view a pseudogout crystal. Click this link

Pearls: 

• A WBC Count >50,000 is septic arthritis until cultures are negative. 
• Due to the wide range of WBC for septic arthritis have a high index of suspicion and do not discount the diagnosis because the WBC count is only 10,000.

Show References

Calcaneus Fractures

Normally occur due to axial loading mechanism such as:

•     Fall from height
•     Motor Vehicle collisions
•     Repetitive impacts on a hard surface such as seen with running or jumping.

Miscellanous Facts:

1. 70% of calcaneal fractures are intra-articular
2. 10-15% are associated with spinal compression fractures
3. Estimated that 7-10% will have a fracture of the contralateral foot
4. Monitor for compartment syndrome of the foot.  Deep central compartment is most commonly affected with calcaneus fractures

Pearls:

1. Strongly consider getting Lumbar Spine Films and x-rays of the opposite foot in anybody that has a calcaneus fracture.
2. Perform frequent reassessments, and do not hesitate to check compartment pressures if you suspect they might be elevated.

Hip Fractures:

Typically divided into four types:

1. Intracapsular,
   1. femoral head and neck fractures
2. Extracapsular
   1.  trochanteric,
   2. Intertrochanteric
   3. subtrochanteric fractures. 

• Non-displaced fractures, especially in osteoporotic elderly patients, may be missed on plain films. This is estimated to occur in 2-9% of cases. 
• It can take up to 72 hours for a fracture to be seen on bone scan. And it is estimated that only 80% of fractures will be seen at 24 hours.
• MRI is now the preferred imaging modality (100% sensitivity and specificity) to confirm a hip fracture when plain films are negative and equivocal. A MRI will have positive findings in as little as 4 hours after a fracture.
• Consider CT scan of the hip if MRI is not available at your center.

Here is a link to a picture with a good representation of the different types of fractures.

Show References

  Lisfranc Fracture:

Typically consists of a fracture of the base of the second metatarsal and dislocation, though it can also be associated with fractures of a cuboid.  Common current  mechanism is when a person steps into a hole and twists the foot.Originally described when a horseman would fall of their horse with their foot still trapped in a stirrup.

Diagnosis should be considered if patient has difficult weight bearing with pain on palpation over the 2^nd and 3^rd metacarpal head with an appropriate mechanism.

Pearls:

• Fracture findings on plain films may be subtle.
• Can obtain weight bearing AP views of the foot to demonstrate dislocation/fracture.
• If still suspicious consider a CT scan of the foot.

I remember being taught as a medical student that clavicle fractures could be treated conservatively.  A direct quote was "if both ends of the clavicle are in the same room it will heal".

Though conservative treatment with a sling for 6 weeks with early pendulum ROM exercises for the shoulder is appropriate for the vast majority of clavicle fractures surgery should be considered for those that have:

1. An open fracture
2. Significant angulation with tenting of the skin
3. Midshaft fractures that have overlap or displacement greater than 1 cm.
4. Displaced fractures of the distal clavicle [high rate of non-union]
5. Surgery can also be beneficial to those that do a lot of lifting or want to return to work as quick as possible.

 

Extensor Tendon Injuries [Mallet Finger]

• Due to jamming the finger or to use a Pittsburgh term "stoving it".
• Can result in a swan neck deformity or permanent flexion of the DIP joint.
• Due to stretching of the extensor tendon,or avulsion of the extensor tendon off the distal phalanx.
• Approximately 50% will develop a complication.
• Conservative treatment is splinting the DIP joint in full extension for 5-6 weeks. 
  • The DIP joint must not be flexed for the full treatment period.
  • If the patient does flex their DIP, the 5-6 week time frame needs to completely restart.
• Due to the high complication rate all of these patients should be referred to a hand specialist early.

Posterior Interosseous Nerve Compression Syndrome

As eluded to last week Posterior Interosseous Nerve (PIN) Compression Syndrome, a deep branch of the radial nerve, is felt to be radial tunnel syndrome with paralysis.

• Symptoms depend on whether the PIN is compressed before or after it divides into medial and lateral branches.
  • Before: Results in complete paralysis of the digital extensors, and extensor Capri ulnaris. Wrist will become dorsoradial deviated.
  • After-Medial Branch: Paralysis of extensor carpi ulnaris, extensor digiti quinti, and extensor digitorum communis
  • After-Lateral Branch: Paralysis of abductor pollicis longus, extensor pollicis brevis, extensor pollicis longus, and extensor indicis proprius
• Common causes:
  • Synovitis and Joint Ganglions
  • Nerve compression following fracture repair
  • Idiopathic Compression can occur at these sites
    • Fibrous bands anterior to the radial head
    • Tendinous origin of Extensor Carpri Radialis Brevis
    • Arcade of Froshe –Most common, it is the tendinous proximal border of supinator
    • Distal Edge of Supinator –Least Common
• Exam:
  • Increased pain with resisted supination of the forearm
  • Supination with Wrist Flexion symptoms will likely be reproduced.
  • Pain with resisted extension of the middle finger
  • Unable to extend thumbs or fingers at MCP joints, but can extend at PIP and DIP joints

For those at the University of Maryland that got the chance to hear my lecture this week, you learned about Cubital tunnel syndrome [ulnar neuropathy], the second most common compressive neuropathy.  Carpal Tunnel syndrome remains the number one compressive neuropathy, and this pearl, for the sake of completeness, will address Radial tunnel syndrome.

Radial Tunnel Syndrome

• Believed to be due to overuse, frequently due to excessive elbow extension or forearm rotation.
• May actually just be an early stage of posterior interosseous nerve syndrome.
• Due to compression of the radial nerve as it passes a fibrous band that is attached to the radiocapitellar joint, and the tendinous origins of two muscles, extersor carpi radialis brevis and the supinator.
• Patients typically have l pain along the anteriolateral forearm.
• Pain is increased by extending the elbow and pronating the forearm.
• This syndrome is associated mostly with pain
• Weakness and numbness are not often seen.

 

Stay tuned for next week for Posterior Interosseous Nerve syndrome.

Turf Toe:

Most commonly seen in atheletes who compete on artificial turf.  Presents as pain over the 1st Metatarsalphalangeal  (MTP) joint. 

• Due to a tear of the Metatarsal phalangeal Joint Capsule
• Results in subluxation or dislocation of the MTP joint
• Occurs due to:
  • Hyperextension (most common)
  • Hyperflexion
  • Valgus stress
• Treatment:
  • NSAIDS
  • Rest
  • Orthosis -- Prevents dorsiflexion during athletic activities

 

Achilles Tendon Rupture

• Most commonly occurs in males age 30-50 years that participate in occasional high intensity sports that are associated with jumping or quick starts.  [i.e.: Basketball, racquetball, tennis, squash, etc].
  • Exact mechanism is a sudden eccentric force that is applied to a dorsiflexed foot.
• Rupture is also associated with fluoroquinolone and glucocorticoid use.
• Patient will often hear or feel a sudden snap in the back of the ankle or calf.
• Typically ruptures 2-6cm proximal to its insertion on to the calcaneous where its blood supply is the least.
• On physical exam:
  • the patient is unable to plantar flex the foot, raise up on toes, and may have calf swelling. 
  • You may be able to palpate a gap in the achilles tendon.
  • Two specific tests for achilles tendon rupture.
    • Thompson test:  with the leg extended and the foot in neutral position, squeeze the calf muscles.  A positive test is when the foot does not plantar flex when the muscles are squeezed.
    • O’Brien needle test:  Insert a small gauge needle perpendicular to the skin into the proximal (about 10 cm from the calcaneous) achilles tendon. Passively dorsiflex and plantar flex the ankle and foot. If the needle moves in the opposite direction of the movement then the achilles tendon is intact.
• Treatment
  • Refer to orthopedics
  •  Place the patient in a posterior splint with the foot and ankle in slight plantar flexion. 
    • Ideally this will bring the two tendon ends together and speed healing.

This addition was sent in my Dr. Andrew Milstein:

Thanks for the Orthopedics update.  A few pearls for Achilles Tendon Rupture --> often these patients may present like a typical ankle sprain patient and are placed in a hallway chair.  You can't do an adequate Thompson Test while someone is sitting in a chair.  If you're concerned, lay them down on a stretcher to do the test.

DeQuervain and Intersection Syndromes:
 

• DeQuervain's Syndrome (Tenosynovitis of the Abductor Pollicus Longus and Extensor Pollicus Brevis tendons) is a common disorder that has received a lot of press lately as BlackBerry Thumb or Gamer's Thumb.
  • This condition can be diagnosised by the Finklestein test [Have the patient bend their thumb into the palm of their hand, and then make a fist.  They should then ulnar deviate their wrist.  Pain along the tendons secures the diagnosis.]
  • The pain of DeQuervain's syndrome is typically along the distal end of the radius at the base of the thumb.
• Intersection syndrome is a less common disorder though closely related to DeQuervain's Syndrome
  • The pain is usually felt on the top of the forearm about three inches proximal to the wrist. 
  • The pain from this condition is due to tenosynovitis of the Extensor carpi radialis longus and Extensor Carpi radialis brevis muscles/tendons caused by the intersection of them with the Extensor pollicus brevis and Abductor pollicus longus tendons.
  • Occurs due to excessive wrist movements.
  • Intersection syndrome can be seen in weight lifters, skiers, and can be seen in homeowners in the fall and winter when they rake a lot of leaves or shovel snow.
• Treatment is the similar for both conditions and consists of:
  • NSAIDS
  • Cortisone injections can be effective
  • Thumb and wrist immobilization with a Thumb Spica Splint or Cock Up Wrist Splint
     

Sternoclavicular Dislocation:

• A rare cause of chest/shoulder pain following trauma, but one that can be associated with serious vascular injuries.
• Anterior dislocations of the Sternoclavicular(SC) Joint are much more common  than posterior and  usually resulting from  blow to the anterior shoulder that rotates the shoulder backward and transmits the stress to the medial clavicle and SC joint.
• A blow to the posteior shoulder that drives the shoulder forward or a direct blow to the medial clavicle can cause a posterior dislocation.
• Anterior SC dislocations
  
  • Generally not associated with any underlying injury and can be safely reduced in the ED. 
  • Ligaments and joint capsule entrapment can make it difficult to reduce the joint, and often it is difficult to maintain the reduction. 
  • It is not uncommon for these to require open reducation and internal fixation.
  • Can be reducted by abducting, extending, and applying traction to the ipsilateral arm/shoulder while applying posterior and inferior pressure on the medial clavicle.
• Posterior SC dislocations
  
  • Rare
  • Associated with injuries to the underlying vasculature,  dyspnea due to tracheal compression, and parasthesias.
  • Often missed on plain films (CXR, Shoulder Series or Clavicular Series)
  • Best visualized with enhanced CT Scan of the Chest.  IV enhancement recommended to ensure that their is no associated vascular injury.
  • Can be reducted by abducting, extending, and applying traction to the ipsilateral arm/shoulder while pulling the clavicle forward.  Several references recommend using a towel clip to grasp the clavicle if you are unable to grab it effectively with your fingers. 

Sorry this is being delivered to you late.

 

Metacarpal Neck Fractures (i.e.: Boxer’s Fracture if 5^th Metacarpal)

Depending on the MCP joint involved a certain amount of angulation is permissible before it adversely affects normal function.

• 2^nd and 3^rd Metacarpal fractures < 10۫ angulation ideally these should be perfectly aligned.
• 4^th Metacarpal fracture <20۫ angulation allowed
• 5^th Metacarpal fracture <30۫ angulation. 
  • Studies have shown that even 30۫ angulation will decrease normal function by 20%.  
  • Normal excursion of the 5^th MCP is 15۫ to 25۫.
• No amount of rotation deformity should be allowed.

Some quick facts about Knee Injuries:

 

• The most common cause of acute traumatic hemarthrosis of the knee is an anterior cruciate ligament tear.
  • Most patients with an ACL injury will give a history of immediate pain, disability, knee swelling and audible pop.
• The most common ligament injuried in the knee is the medial collateral ligament.
• Patella dislocations
  • Usually lateral dislocations and often spontaneous reduce.
  • Hyperextend the knee to make the reduction easier.
• Dislocation of the knee:
  • Anterior is the most common and usually secondary to hyperextension
  • Popliteal artery injury is commonly seen and must be looked for.  Easy bedside test is Ankle Brachial Indexs.

 

Pediatric Strain versus Fracture

• Due to the fact that tendons are much stronger than the physeal growth plate in pre-pubescent children, one should be extremely cautious when diagnosing a strain/sprain. 
• Pre-pubescent pediatric patients should be treated as if they have a Salter Harris I fracture with an appropriate splint and close follow up.

Review of Salter Harris Fractures

1. A fracture through the physeal growth plate. Typically can not be seen on x-ray unless they growth plate is widened.
2. A fracture through the physeal growth plate and metaphysis.
3. A fracture through the physeal growth plate and epiphysis.
4. A fracture through the physis, physeal growth plate and metaphysis.
5. A crush injury of the physeal growth plate.

Please click here for a pictorial of Salter Harris Fractures from FP Notebook.

Low Back is one of the most common complaints that we see in the Emergency Department.  Our first priority is to rule out those causes that can lead to paralysis or death (i.e.: epidural abscess, pathological fracture, cauda equina syndrome, etc…).  However, most of the back pain that we will see is musculoskeletal in origin.

The American College of Physicians (ACP) and the American Pain Society (APS) recently released some joint recommendations on the evaluation of treatment of individuals with back pain.

In summary their key recommendations are:

1. Routine imaging is not required. However, diagnostic imaging and testing should be obtained for patients with low back pain when severe or progressive neurologic deficits are present or when serious underlying conditions are suspected.
2.  For patients with low back pain, clinicians should consider the use of medications with proven benefits in conjunction with back care information and self-care. For most patients, first-line medication options are acetaminophen or nonsteroidal anti-inflammatory drugs.
3. Medications that have good evidence of short-term effectiveness for low back pain are NSAIDs, acetaminophen, skeletal muscle relaxants (for acute low back pain), and tricyclic antidepressants (for chronic low back pain).

Links to the Clinical Guidelines are listed below:

• Evaluation and Treatment
• Nonpharmacologic Therapies for Acute and Chronic Low Back Pain
• Medications for Acute and Chronic Low Back Pain

Supracondylar fractures in children: To assess the likelihood of a supracondylar fracture in a child look at the anterior humeral line. This is a line drawn down the anterior portion of the humerus on the lateral view of the elbow. This line should pass through the center of the capitellum in the distal humerus. If the line does not pass through the center there is a very high likelihood of a supracondylar fracture. Review of the Appearance of Ossification Centers in Children's Elbows CRITOE Capitellum 1 to 8 months Radial Head 3 to 5 years Medial (Internal)Epicondyle 5 to 7 years Trochlea 7 to 9 years Olecranon 8 to 11 years Lateral ( External) Epicondyle 11 to 14 yeras

Sports Hernia/Athletic pubalgia

 

Hx: Gradually increasing lower abdominal/proximal adductor pain. Usually activity related, resolves with rest. Frequent return despite rest when sports activity resumes.

Most common in athletes who perform cutting/maneuvers in addition to frequent acceleration/deceleration. Think ice hockey and soccer.

Bilateral symptoms not uncommon.

PE:  Resisted sit up with palpation of the inferolateral edge of the distal rectus may recreate symptoms. Similarly, resisted hip adduction may elicit symptoms. 

If for no other reason than to make the diagnosis harder to make, valsalva induced pain may also occur.

Fluoroscopic guided injections can be helpful to isolate the site of pain generation.

First line therapy is rest, non-narcotic analgesia and physical therapy.

With surgery, >80% return to pre injury level of play.

 

http://atlantasportsmedicine.com/orthopedic-surgeon/wp-content/uploads/2009/11/groin-injuries.jpg

 

Show References

https://www.physio-pedia.com/Fulcrum_Test

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4126145/