1 / 20

Compartment Syndrome and the Stryker Intra-Compartmental Pressure Monitor System

Compartment Syndrome and the Stryker Intra-Compartmental Pressure Monitor System. Compartment Syndrome .

vicky
Download Presentation

Compartment Syndrome and the Stryker Intra-Compartmental Pressure Monitor System

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Compartment Syndrome and the Stryker Intra-Compartmental Pressure Monitor System

  2. Compartment Syndrome When pressure is elevated within a confined space, capillary blood flow is compromised. The resulting edema within the soft tissue from ischemia results in further swelling and increased pressure.

  3. Terms • Acute compartment syndrome: An elevation of intercompartmental pressure to a level and for a duration that without decompression will cause tissue necrosis. • Exertional compartment syndrome: Elevation of intercompartmental pressure during exercise causing ischemia, pain, and possibly neurologic symptoms and signs. There is resolution with rest, but it may progress to acute compartment syndrome. • Volkmann ischemic contracture: Irreversible muscle necrosis leading to ischemic contractures. • Crush syndrome: The systemic result of muscle necrosis commonly caused by prolonged external compression of an extremity. Muscle necrosis is established by the time of presentation, but intracompartmental pressure may rise as a result of intracompartmental edema, causing a superimposed acute compartment syndrome.

  4. History • 1850: First report attributed to Hamilton by Hildebrand • 1881: Richard von Volkmann published a summary of his findings: paralysis and contractures occurred after tight bandaging and were caused by prolonged blocking of arterial blood. He recognized that muscle cannot survive for longer than six hours with complete occlusion of blood and not for longer than 12 hours with partial occlusion. • 1888: Peterson recognized that ischemic contracture can occur in the absence of bandaging. • Early twentieth century: The first description of fasciotomy and the importance of its early application were suggested.

  5. History World War I: The belief propagated that compartment syndrome was result of arterial injury and spasm. The excision of the “damaged” artery yielded successful results. Of course, the fascia was released during the exposure. So….can you have compartment syndrome and normal peripheral pulses?

  6. Seddon17 challenged the arterial injury theory as the sole cause of compartment syndrome, noting normal pulses. In 1966, early and gross swelling in the compartments and pressure that was released with fasciotomy were noted. • Nolan and McQuillan18 described a vicious circle of increasing tension in an enclosed compartment causing venous outflow obstruction and subsequent reduction in arterial inflow. They concluded that delay in fasciotomy was the single cause of failure of treatment.

  7. Epidemiology Underlying conditions associated with injury causing acute compartment syndrome presenting to an orthopaedictrauma unit (percentage of cases): • Tibialdiaphyseal fracture (36.0%) • Soft-tissue injury (23.2%) • Distal radial fracture (9.8%) • Crush syndrome (7.9%) • Diaphyseal fracture forearm (7.9%) • Femoral diaphyseal fracture (3.0%) • Tibial plateau fracture (3.0%) • Hand fracture(s) (2.5%) • Tibial pilon fractures (2.5%) • Foot fracture(s) (1.8%) • Ankle fracture (0.6%) • Elbow fracture dislocation (0.6%) • Pelvic fracture (0.6%) • Humeral diaphyseal fracture (0.6%)

  8. Compartment Syndrome Etiology Compartment Size • Tight dressing(bandage or cast) • Localized external pressure,lying on limb • Closure of fascial defects Compartment Content • Bleeding, fixation, vascular injury, bleeding disorders • Capillary permeability: ischemia, trauma, burns, exercise, snake bite, drug Injection, in vitro fertilization

  9. Compartment SyndromeEtiology • Fractures (closed and open) • Blunt trauma • Temporary vascular occlusion • Cast or dressing • Closure of fascial defects • Electrical burns • Exertional states • Gunshot wound • Intravenous A lines • Hemophilia and coagulation • Intraosseous infusion (infant) • Snake bite

  10. Measurement of pressures with the Stryker Intra-Compartmental Pressure Monitor • Turn on. • Assemble the needle, transducer, and syringe. • Seat into chamber and close lid. • Tilt 45° and purge chamber and needle of air. • Prep skin (not on pig). • Just before the needle enters the skin, zero the Stryker Intra-Compartmental Pressure System, and don’t change the angle after this. • Inject <1/3 mL of fluid provided by the manufacturer in the syringe to clear the side port. • Allow time for the reading to stabilize; it may take 15 to 20 seconds.

  11. Compartment SyndromePathophysiology • Normal tissue pressure • 0 to 4 mm Hg • 8 to 10 mm Hg with exertion • Absolute pressure theory • 30 mm Hg (Mubarak et al.20) • Pressure gradient theory • <20 mm Hg of diastolic pressure (Whitesides et al.8 and McQueen and Court-Brown21)

  12. Compartment Syndrome: A Clinical Diagnosis • Pain out of proportion • Palpably tense compartment • Pain with passive stretch • Paresthesia or hypoesthesia • Paralysis • Pulselessness or pallor

  13. Beware • Epidurals • Regional blocks • Unconscious • Insensate

  14. Medical Management • Make sure that the patient is normotensive. Hypotension reduces perfusion pressure and facilitates further tissue injury. • Remove the circumferential bandages and cast. • Maintain the limb at the level of the heart as elevation reduces the arterial inflow and the arteriovenouspressure gradient on which perfusion depends. • Administer supplemental oxygen.

  15. Compartment SyndromePressure Measurements • Suspected compartment syndrome • Equivocal or unreliable examination • Clinical adjunct ONLY after discussing it with the attending physician

  16. When NOT to check pressures • Compartment syndrome is diagnosed on a clinical basis.

  17. Threshold for Decompression • 30 mm Hg: close to capillary blood pressure20,25 • 40 mm Hg13,26 • 50 mm Hg in tibia fixation and normotensive27 • <10 to 30 mm Hg: difference between diastolic and tissue pressure (delta P)8 • Difference between mean arterial pressure and tissue pressure of <30 mm Hg in normal muscle or <40 mm Hg in traumatized muscle22-24,28

  18. Fasciotomy Principles • Make an early diagnosis. • Make longextensile incisions. • Release all fascialcompartments. • Preserve neurovascular structures. • Debride necrotic tissues. • Provide coverage within seven to ten days.

  19. Compartment SyndromeLower Leg • Four compartments • Lateral:peroneuslongus and peroneusbrevis (PB) • Anterior: extensor hallucislongus, extensor digitorumlongus (EDL), tibialis anterior (TA), peroneustertius • Superficial posterior: gastrocnemius (G), soleus (S) • Deep posterior: tibialis posterior (TP), flexor hallucis (FH) longus, flexor digitorumlongus

  20. Compartment SyndromeForearm • Three anatomical compartments • Mobile wad: brachioradialis, extensor carpiradialislongus, and extensor carpiradialisbrevis • Volar: superficial and deep flexors • Dorsal: extensors The pronatorquadratus is described as a separate compartment.

More Related