Post on 16-Dec-2015
transcript
Emergency Department Imaging - Indications,
capabilities and pitfalls
Dr David Maritz
The Problem
• Rising costs and cost efficient care
• Waiting times
• Ionising radiation
• Must become fully aware of indications, capabilities and limitations, pitfalls of imaging modalities
• Maximise diagnostic efficiency / improve patient care
Definitions
• Sensitivity– If a patient has the disease, we need to know how often the test will be positive, i.e..
‘’positive in disease’’.
– This is the rate of pick-up of the disease in a test.
• Specificity– If the patient is in fact healthy, we want to know how often the test will be negative, i.e..
‘’negative in health’’
– This is the rate at which a test can exclude the possibility of the disease.
• Positive predictive value – If the test result is positive, what is the likelihood that the patient will have the condition?
• Negative predictive value– If the test result is negative, what is the likelihood that the patient will be healthy?
Overview
• Emergency and critical care imaging– Bedside ultrasound– CT– Radiography
• Decision rules– Canadian CT Head– CT Spine– Knee – Ankle– Elbow– Other ??
1. Bedside Ultrasound
• Improve diagnostic capabilities and guide invasive procedures
• Unexplained hypotension
• Unexplained dyspnoea
• Resuscitative procedures
• Real time imaging
• No ionizing radiation
Cardiac Ultrasound - introduction
• FAST• Severe hypotension / PEA
• LY dysfunction• Volume depletion• Cardiac tamponade• RV outflow obstruction
• Chest pain, tachycardia, dyspnoea• Pericardial effusion / tamponade• Risk stratification in PE
• Acute coronary syndrome• Left ventricular function
• Sepsis• Assess preload and LV dysfunction
Capabilities
• High negative predictive value• Pericardial effusion / tamponade• Acute valvular emergencies
• Low sensitivity • ACS• PE• Thoracic aortic aneurysm / dissection
• Significant expertise• Novice limited to identifying:
• Cardiac standstill• Extent effusion• LV function• RV strain
Limitations and pitfalls
• Subxiphoid views• Obesity• Abdo trauma / distension
• Parasternal• Lung hyper expansion
• Physiological pericardial fluid / epicardial fat pad
Abdominal aortic ultrasound - capabilities
• Imaging test of choice for initial detection and measurement
• Accuracy similar to CT• Rapid• 95 – 98% sensitivity• Even by novices
Limitations and pitfalls
• Sensitive for identification of AAA• Signs of rupture may be absent
• Stable patients – CT follow up• Unstable patients – surgery
• Hindered by bowel gas / obesity
Trauma ultrasound - introduction
• Extended FAST – blunt and penetrating thoracoabdominal trauma• Haemoperitoneum• Haemopericardium• Cardiac tamponade• Pneumothorax / Haemothorax
Capabilities
• Accuracies for Haemoperitoneum• Sensitivities 86 – 94%• Specificities 98%
• Detection solid organ injury• IV contrast improves detection (stabilised micro bubbles)
• Free fluid in penetrating injury• Specific 94%• Positive predictive value 90%• Sensitivity 46%
• Haemopericardium – 100%• Haemothorax – 97% and 99%• Pneumothorax – 98% and 99%
Capabilities
• Sonographic measurement of optic nerve sheath diameter• Detection papilloedema• Setting of raised ICP• Greater 5 mm• 100% sensitive 95% specific• Usefulness ???
Limitations and pitfalls
• Small amounts fluid missed• Trendelenburg• Full bladder
• Adiposity• Bowel gas• Subcutaneous emphysema• Pneumoperitoneum• Rib shadows• Emphysematous lungs• Distended painful abdomens
Pelvic ultrasound - capabilities
• Unstable female patients of childbearing age• Intra-uterine vs. ectopic• Viability
• Female trauma patient• Abruption• Uterine rupture• Foetal distress / death
• Non-pregnant patient• Ovarian torsion / tubo-ovarian abscess
Limitations and pitfalls
• Novice limited to• Diagnosis pregnancy• Ectopic• Foetal demise• Free fluid
• Obesity / bowel gas• Transvaginal vs. transabdominal
2. CT
CT Head - capabilities
• Emergent CT• Minor head injury, headache, suspected intracranial infection
• Third generation scanners – fast and sensitive• Bony injury• Most acute haemorrhages
Limitations and pitfalls
• Not all SOL – but mass effect and shift seen
• Ischemic stroke – lacks sensitivity early
• Minute amounts blood not seen
• Insensitive for early signs of axonal and cellular injury – mass effect and oedema seen
• Beam hardening artefact from skull base
CT head neck angiography / perfusion - introduction
• Rapid imaging vascular anatomy• Identify site of lesion• Replacing digital subtraction angiography
• Acute stroke and thrombolytics• Intracranial aneurysm rupture / SAH• Penetrating neck injuries• Vertebrobasilar disease
Capabilities
• Carotid artery / circle of Willis• Rapid 3D data – advantage over catheter angiography• Visualisation of vessel wall • Venous rather than arterial access• More readily available• Rapid work up needed• Contraindication to MRI• Performed immediately after conventional CT
Limitations and pitfalls
• Limited by technical factors
• Radiation dose safe in adults??
• Iodinated contrast ??
• Children ??
CT Chest - introduction
• Conventional CT / CTA
• Detailed evaluation coronary, pulmonary arteries and aorta• CAD
• PE
• Aortic dissection
• Chest pain??• Triple rule out
• Single high resolution CTA chest
Capabilities
• Coronary heart disease• Exceeding 95%
• Pulmonary embolism• CTA test of choice• MDCT in 10sec• Exceeds 90%
• Aortic dissection• Approaches 100%
Limitations and pitfalls
• CT coronary angiography• Technical expertise• Patient factors
• CT pulmonary angiography• Timing of contrast administration• Sub segmental emboli may be missed
• CT Aorta• False positives – motion artefacts
CT Abdomen - introduction
• Abdominal / pelvic pain
• Stable trauma patient• Sensitivities 69 to 95% / specificities 95 to 100% for bowel mesenteric
injuries
• Bowel obstruction• Highly sensitive
Capabilities
• Right upper quadrant pathology• Right lower quadrant pathology• Left upper quadrant pathology• Left lower quadrant pathology
• MDCT• Rapid • Decreased motion artefact• +- contrast
Limitations
• Children• Fat planes less developed• Radiation exposure
• Obesity
CT Angiography abdomen - Capabilities
• Arterial / venous structures
• Trauma
• 3D reconstructions
Limitations
• Iodinated IV contrast
• Large radiation dose
• Stable patient
• Supine / motionless
3. Radiography
Radiography Chest - capabilities
• Rapid / portable
• Chest pain / dyspnoea / hypotension / thoracic trauma
• Unstable for CT
• Fever unknown source / altered mental status
• Diagnose life threatening conditions
Limitations
• Lacks sensitivity • Eg PE
• Lacks specificity
• Affected by patient position
• Initial screening examination
• Not be used to exclude dangerous conditions definitively
Radiography Abdomen - capabilities
• Lacks sensitivity of CT• No contrast• Portable• Initial study – Abdo pain / vomiting / constipation• Readily demonstrates
• High grade bowel obstruction• Perforated hollow viscus injury• Volvulus• Pneumatosis intestinalis
• Additional findings• Renal / biliary /appendiceal lithiasis• Vascular calcification• etc
Limitations
• Poor sensitivity
• Not a definitive study
• Initial exam
• Follow on with CT if non-diagnostic
4. CT head rule
Summary
• Both have sensitivities approaching 100%
• CCHR more specific for identifying need for neurosurgical intervention 76% versus 12%
• CCHR more specific for identifying clinically important brain injury 50% versus 12%
• CCHR results in lower CT rates 52% versus 88%
5. CT spine
Summary
• NEXUS• Sensitivity 99.6%• Specificity 12.9%• Negative predictive value 99.8%
• Low specificity: ?? Actually increase use of x ray. Therefore Canadian C-spine rule
• CCR validation - ? Selection bias in study• Sensitivity 99.4%• Specificity 45%• Negative predictive value 100%
• Which rule??• Further outside validation needed
Groote Schuur Trauma CT neck
6. Knee
Summary
• Pittsburgh• Sensitivity 99% Specificity 60%• Reduce x rays by 52%
• Ottawa• Sensitivity 97% Specificity 27%• Reduce x rays by 23%
7. Ankle
Summary
• Sensitivity 99%
• Specificity 26 to 47%
• Reduce x rays by 30 to 40%