Monteggia Fractures – Causes, Symptoms, Treatment

Monteggia fractures most commonly result from a direct blow to the forearm with the elbow extended and forearm in hyperpronation. The energy from the ulnar fracture gets transmitted along the interosseous membrane leading to rupture of the proximal quadrate and annular ligaments, disrupting the radiocapitellar joint. In conjunction with the bimodal distribution, diaphyseal forearm fractures in young males are commonly due to high-energy trauma, for example, falls from height, sports injuries, motor vehicle accidents, and fractures in elderly females are due to low-energy trauma such as a ground-level fall.[rx][rx][rx]

Classification System of Monteggia Fractures

In 1967, Dr. Jose Luis Babo classified Monteggia fractures into four types. These types depend on the direction of the radial head dislocation.[rx]

Type I

• The proximal ulna is fractured and radial head dislocation is directed anteriorly.
• Most common type in children accounts for 70% of cases, 15% of cases in adults.
• Mechanism of Injury: (1) direct blow to the posterior elbow, (2) hyper-pronated force on an outstretched arm, (3) contracted biceps resists forearm extension causing dislocation and followed by impact leading to ulna fracture.

Type II

• Both the ulnar shaft fracture and radial head dislocation are directed posteriorly
• Mechanism of Injury: Axial load directed up the forearm with a slightly flexed elbow.
• Most common type in adults accounting for approximately 80% of cases.
• Associated with an instability of the ulnohumeral joint and high rates of radial head fracture and posterior interosseous nerve injury.

Type III

• Ulnar fracture with a radial head dislocation directed laterally.
• Mechanism of Injury: Varus force on an extended elbow leads to a greenstick fracture of the ulna.
• More frequently seen in children.

Type IV

• Fractures of the ulnar and radial shafts with an anterior radial head dislocation
• Rarest type and poorly understood mechanism.

Causes of Monteggia Fractures

Mechanisms include:

• Fall on an outstretched hand with the forearm in excessive pronation (hyper-pronation injury). The ulna fractures in the proximal one-third of the shaft due to extreme dislocation. Depending on the impact and forces applied in each direction, degree of energy absorption determines pattern, the involvement of the radial head, and whether or not open soft tissue occurs.
• Direct blow on the back of the upper forearm would be a very uncommon cause. In this context, isolated ulnar shaft fractures are most commonly seen in defense against blunt trauma (e.g. nightstick injury). Such an isolated ulnar shaft fracture is not a Monteggia fracture. It is called a ‘nightstick fracture’.

Diagnosis of Monteggia Fractures

Laboratory tests should be done as an adjunct in overall medical status for surgical treatment.

• CBC, ESR test
• Random blood sugar, glucose, and routine diabetes test if the patient has diabetes mellitus.
• Microscopic urine examination test, and stool test.
• ECG, EKG test for heart abnormality is present
• Ultrasonography test in some cases.
• Normalized hemoglobin, hematocrit test
• Coagulation profile with bleeding time and coagulation time test, prothrombin time (PT) test for surgery if needed,
• Partial thromboplastin time (PTT), and platelet counts will be needed for operative intervention.
• Serum creatinine test,
• Serum lipid profile
• Serum uric acid test

Associated nerve injury

– paralysis of deep branch of the radial nerve is most common;
– the posterior interosseous nerve may be wrapped around the neck of radius, preventing reduction;
– note: that patients whose operative treatment is delayed may be found to have a progressive PIN palsy from
constant pressure exerted by the dislocated radial head;
– spontaneous recovery is usual & exploration is not indicated;

– Radiographs:
– dislocation of radial head may be missed, even though frx of the ulna is obvious (need AP, lateral and oblique X-rays of the elbow)
– a line is drawn thru radial shaft and radial head should align w/ capitalism in any position if the radial head is in normal position
– this is esp true on the lateral projection;
– the apex of angular deformity of ulna usually indicates the direction of radial head dislocation;

– Reduction:
– immobilize forearm in neutral rotation w/ slight supination, w/ cast carefully molded over the lateral side of the ulna at the level of fracture;
– keep elbow flexed ( > 90 deg), to relax biceps so that full supination can be avoided w/o losing reduction;

– Non-Operative Treatment:
– realize that even w/ successful closed reduction of the ulna (and accompanying reduction of the radial head) that subsequently
there may be slow and progressive shortening and angulation;
– hence, these patients will require close follow up;

Treatment of Monteggia Fractures

• Nonoperative
  • closed reduction 
    • indications
      • more common and successful in children
      • must ensure stabilty and anatomic alignment of ulna fracture
    • technique
      • cast in supination for Bado I and III
• Operative
  • ORIF of ulna shaft fracture
    • indications
      • acute fractures which are open or unstable (long oblique)
      • comminuted fractures
      • most Monteggia fractures in adults are treated surgically
  • ORIF of ulna shaft fracture, open reduction of radial head
    • indications
      • failure to reduce radial head with ORIF of ulnar shaft only
        • ensure ulnar reduction is correct
      • complex injury pattern
  • IM Nailing of ulna
    • indications
      • transverse or short oblique fracture

Do no HARM for 72 hours after injury

• Heat – Heat applied to fracture and injured side by hot baths, electric heat, saunas, heat packs, etc has the opposite effect on the blood flow. Heat may cause more fluid accumulation in the fracture joints by encouraging blood flow. Heat should be avoided when inflammation is developing in the acute stage. However, after about 72 hours, no further inflammation is likely to develop and heat can be soothing.
• Alcohol –  stimulates the central nervous system that can increase bleeding and swelling and decrease healing.
• Running and movement – Running and walking may cause further damage, and causes healing delay.
• Massage – A massage also may increase bleeding and swelling. However, after 72 hours of your fracture, you can take a simple message, and applying heat may be soothing the pain.

Medication

The following medications may be considered by your doctor to relieve acute and immediate pain, long term treatment

• Antibiotic – Cefuroxime or Azithromycin, or  Flucloxacillin or any other cephalosporin/quinolone, meropenem antibiotic must be used to prevent infection or clotted blood removal to prevent further swelling, inflammation, and edema.
• NSAIDs – Prescription-strength drugs that reduce both pain and inflammation. Pain medicines and anti-inflammatory drugs help to relieve pain and stiffness, allowing for increased mobility and exercise. There are many common over-the-counter medicines called non-steroidal anti-inflammatory drugs (NSAIDs). They include first choice NSAIDs is Ketorolac, then Etoricoxib, then Aceclofenac, naproxen. As you are taking pain medication or NSAIDs, your doctor must prescribe a standard anti-ulcer drug, such as omeprazole, pantoprazole, esomeprazole, dexlansoprazole, etc.
• Muscle Relaxants –  These medications provide relief from spinal muscle spasms, spasticity.  Muscle relaxants, such as baclofen, tolperisone, eperisone, methocarbamol, carisoprodol, and cyclobenzaprine, may be prescribed to control postoperative muscle spasms, spasticity, stiffness, contracture.
• Calcium & vitamin D3 – To improve bone health, blood clotting, helping muscles to contract, regulating heart rhythms, nerve functions, and healing fractures. As a general rule, too absorbed more minerals for men and women age 50 and older should consume 1,200 milligrams of calcium a day, and 600 international units of vitamin D a day to heal back pain, fractures, osteoarthritis.
• Neuropathic Agents – Drugs(pregabalin & gabapentin) that address neuropathic—or nerve-related—pain. This includes burning, numbness, tingling sensation, and paresthesia.
• Glucosamine & Diacerein, Chondroitin sulfate – can be used to tighten the loose tendon, cartilage, ligament, and cartilage, ligament regenerates cartilage or inhabits the further degeneration of cartilage, ligament. The dosage of glucosamine is 15oo mg per day in divided dosage and chondroitin sulfate approximately 500mg per day in different dosages, and diacerein minimum of 50 mg per day may be taken if the patient suffers from osteoarthritis, rheumatoid arthritis, and any degenerative joint disease.[rx]
• Topical Medications and essential oil – These prescription-strength creams, gels, ointments, patches, and sprays help relieve pain and inflammation in acute trauma, pain, swelling, tenderness through the skin. If the fracture is closed and not open fracture then you can use this item.
•  Antidepressants – A drug that blocks pain messages from your brain and boosts the effects of endorphins in your body’s natural painkillers. It also helps in neuropathic pain, anxiety, tension, and proper sleep.
• Corticosteroids – Also known as oral steroids, these medications reduce inflammation. To heal the nerve inflammation and clotted blood in the joints.
• Dietary supplement – To eradicate the healing process from fracture your body needs a huge amount of vitamin C, and vitamin E. From your dietary supplement, you can get it, and also need to remove general weaknesses &  improved health.
• Cough Syrup – If your doctor finds any chest congestion or fracture-related injury in your chest, dyspnoea, post-surgical breathing problem, then advice you to take bronchodilator cough syrup.

What To Eat and What  to avoid

Eat Nutritiously During Your Recovery

All bones and tissues in the body need certain micronutrients in order to heal properly and in a timely manner. Eating a nutritious and balanced diet that includes lots of minerals and vitamins is proven to help heal broken bones and all types of fractures. Therefore, focus on eating lots of fresh food produce (fruits and veggies), whole grains, cereal, beans, lean meats, seafood, and fish to give your body the building blocks needed to properly repair your fracture. In addition, drink plenty of purified mineral water, milk, and other dairy-based beverages to augment what you eat.

• Broken bones or fractures bones need ample minerals (calcium, phosphorus, magnesium, boron, selenium, omega-3) and protein to become strong and healthy again.
• Excellent sources of minerals/protein include dairy products, tofu, beans, broccoli, nuts and seeds, sardines, sea fish, and salmon.
• Important vitamins that are needed for bone healing include vitamin C (needed to make collagen that your body essential element), vitamin D (crucial for mineral absorption, or machine for mineral absorber from your food), and vitamin K (binds calcium to bones and triggers more quickly collagen formation).
• Conversely, don’t consume food or drink that is known to impair bone/tissue healing, such as alcoholic beverages, sodas, fried fast food, most fast food items, and foods made with lots of refined sugars and preservatives.

Delayed Dx:
– when dx is delayed < 3 months, ORIF is indicated;
– when > 3 months has elapsed, consider non-op treatment because bony ankylosis of the elbow may occur following surgery;
– bony ankylosis may be more disabling than the joint instability
– in a child, a dislocated radial head should never be resected, since it will cause cubitus valgus, prominence of the distal end of ulna,
and radial deviation of the head

Pearls and Pitfalls of Technique

• Missing pediatric – Monteggia leads to poor results. All “isolated ulna fractures” must be scrutinized for radio capitellar subluxation. Careful weekly radiographic follow-up, for the first 3 weeks after reduction is important to ensure the maintenance of reduction throughout treatment.
• Radiographic reading – Radiocapitellar line: The radial neck line should bisect the capitellar ossific nucleus.
• Ulnar bow sign: subtle bowing in the direction of the radial head dislocation. The posterior ulnar border should be straight.
• Most pediatric Monteggia fractures can be treated via closed means. Comminution, long oblique, and very proximal ulna fractures have a higher risk of needing operative fixation.
• Residual radiocapitellar instability is almost always a result of residual ulnar deformity.
• Adult fractures often involve collateral ligament injury and radial head and coronoid fractures.
• The surgeon should be prepared to perform appropriate repairs and replacements.
• Osteoporosis must be taken into account when treating adult fractures. The threshold should be low for use of locking plate technology and for replacement instead of repair of the radial head.

References