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Contemporary Management of Pulmonary Embolism
Lowell I. Gerber M.D.
Associate Professor of Medicine
KCOM
PULMONARY EMBOLISM
• Estimated 650,000 cases annually in the US
• Third most common cause of death in US– 50,000 to 200,000 deaths per year
• 15% of all in-hospital deaths
• Difficult to diagnose
• Approx. 10% of patients in whom diagnosis is established die within first 60 minutes
Estimated 10+% of all PE
3-7X increased mortality over non-massive PEUPET 36% vs 5%ICOPER 58% vs 15%MAPPET 31%
MASSIVE PULMONARY EMBOLISM
PULMONARY EMBOLISMPATHOLOGY
PULMONARY EMBOLISMPATHOPHYSIOLOGY
THE SPECTRUM OF PULMONARY EMBOLISM
Right Ventricular
Dysfunction
Hemodynamic
Instability
Stable Hemodynamics and Cardiac Function
CLINICAL RISK FACTORS FOR VTE
• AGE > 40• MAJOR SURGERY OR
TRAUMA• IMMOBILIZATION• VENOUS STASIS• OBESITY• DIABETES• FRACTURE• VARICOSE VEINS
• CHF , MI, CVA• PRIORHX VTE HIP• PREGNANCY /
POSTPARTUM• CONTRACEPTIVES• CANCER• ANTIPHOSPHOLIPID
AB SYNDROME
HERITABLE RISK FACTORS FOR VTE
• FACTOR V LEIDEN MUTATION
• HYPERHOMOCYSTEINEMIA
• PROTEIN C DEFICIENCY
• RESISTANCE TO ACTIVATED PROTEIN C
• PROTEIN S DEFICIENCY
• ANTITHROMBIN III DEFICIENCY
HERITABLE RISK FACTORS FOR VTE
• PROTHROMBIN MUTATION G20210A
• HEPARIN COFACTOR II
• DYSFIBRINOGENEMIA
• DYSPLASMINOGENEMIA
RISK STRATIFICATIONVARIABLE HAZARD RATIO (95% CI)
Age >70 years 1.6 (1.1-2.3)
COPD 1.8 (1.2-2.7)
Systolic blood pressure <90mmHg 2.9 (1.7-5.0)
Right ventricular hypokinesis 2.0 (1.3-2.9)
Congestive Heart Failure 2.4 (1.5-3.7)
Cancer 2.3 (1.5-3.5)
Respiratory rate <20/min 2.0 (1.2-3.2)
Goldhaber, et al. Lancet.353:1386-89; 24 Apr 1999
RISK STRATIFICATIONUsing a Clinical Decision Rule
• Clinical signs and symptoms of DVT 3.0• Alternative diagnosis less likely than PE 3.0• Heart rate >100/min 1.5• Immobilization (>3days) or surgery in 4wks 1.5• Previous PE or DVT 1.5• Hemoptysis 1.0• Malignancy (Rxing or Rxed in last 6 mos) 1.0
>4 pts: Clinical probability of PE is likely4 or less pts: Clinical probability of PE is unlikely
Wells, et al Thromb Haemost 2000;83:416-420
MORTALITY PE/DVT IN ELDERLY
INHOSPITAL 1 YEAR
21% / 3% 39% / 21%
Kniffin et al. Arch Intern Med. 1994 Apr 25
CLINICAL PROFILE PE
STEIN, P.D. ET AL. CHEST 100:598, 1991
SYMPTOMS FREQUENCY (%)
DYSPNEA 73
PLEURITIC PAIN 66
COUGH 37
LEG SWELLING / PAIN 28 / 26
SIGNS FREQUENCY (%)
TACHYPNEA (>20/MIN) 70
RALES 51
TACHYCARDIA 30
S4 / INCREASED S2 24 / 23
CXR
• PULMONARY VASCULATURE
ENLARGED RIGHT DESCENDING PULMONARY ARTERY
WEDGE-SHAPED INFILTRATE
OFTEN NORMAL
ELECTROCARDIOGRAM PULMONARY EMBOLISM
T-wave inversion in leads III, aVF, or in leads V1-V4QS in leads III and aVF
Incomplete or complete right bundle branch block
QRS axis > 90 or indeterminate axisTransition zone shift to V5
ELECTROCARDIOGRAM PULMONARY EMBOLISM
• S1,Q3,T3 most specific• Normal or Sinus Tachycardia
most frequent
LABORATORY TESTING D-DIMER ELISA
• Sensitive but nonspecific test for PE
• High negative predictive value when concentrations <500ng/ml
• Omit if high clinical suspicion or patient with systemic illness
Goldhaber, et al. JAMA. 1993. 270:2819-2822
Bounameaux, et al. Thromb Haemost. 1994; 71; 1-6
LABORATORY TESTINGBioMarkers in Pulmonary Embolism
LABORATORY TESTINGBioMarkers in Pulmonary Embolism
BNP• Normal BNP: Benign Prognosis
• Elevated BNP associated with adverse outcome
• Other causes of elevated BNP in RV pressure overload:– Primary pulmonary hypertension
– Chronic thromboembolic pulmonary hypertension
– Chronic lung disease
Circulation. 2003 Apr 1;107(12):1576-8
LABORATORY TESTINGBioMarkers in Pulmonary Embolism
Troponin
LABORATORY TESTINGBioMarkers in Pulmonary Embolism
Troponin
LABORATORY TESTINGBioMarkers in Pulmonary Embolism
Troponin• In acute pulmonary embolism elevated troponin levels have been shown to
predict an adverse outcome.
• Serum troponin levels should help stratify patients with submassive acute pulmonary embolism into a group in which aggressive medical or surgical intervention would be considered
Curr Opin Pulm Med. 2003 Sep;9(5):374-7.
V/Q SCAN
NORMAL PERFUSION
ABNORMAL PERFUSION
NORMAL- AND HIGH-PROBABILITY SCANS ARE CONSIDERED DIAGNOSTIC
PIOPED: PREDICTIVE VALUE V/Q SCAN
SCAN CATEGORY CLINICAL SUSPICION
80-100% 20-79% 0-19%
HIGH 96% 88% 56%
INTERMEDIATE 66% 28% 16%
LOW 40% 16% 4%
PIOPED INVESTIGATORS. JAMA.1990; 263: 2753-2759
PULMONARY ANGIOGRAPHY
• Gold Standard• Death in 0.5%• Major, nonfatal
complications in 1%• Visualizes distal
segments• Role in primary
therapy for PE
ANGIOGRAPHIC SEVERITY SCORING
Miller, et al. Amer Journ Roent,Rad Therapy & Nuc Med. 125(4):895-9, 1975 Dec.
Multi Slice CT
92 % SENSITIVITY , 95% SPECIFICITY COMPARED TO ANGIOGRAPHY OR TO HIGH-PROB OR NORMAL SCINTIGRAM (3rd generation scanner, 1mm slice thickness)
van Rossum,et al.Radiology.1996;201:467-70
Multi Slice CT
Effectiveness of Managing Suspected Pulmonary Embolism Using an Algorithm Combining
Clinical Probability, D-Dimer Testing, and Computed Tomography
JAMA 2006; 295:172-179January 11, 2006
Writing Group for the Christopher Study Investigators
Effectiveness of Managing Suspected Pulmonary Embolism Using an Algorithm Combining
Clinical Probability, D-Dimer and CT
VTE Events During 3 month F/U in 3138 patients
PE unlikely and Nl D-Dimer 1028 5(0.5) 0(0)
PE excluded by CT 1436 18(1.3) 7(0.5)– CT Normal 764 9(1.2) 3().4)
– CT alternative Dx 672 9(1.3) 4(0.6)
PE diagnosed by CT 674 20(3) 11(1.6)
mortality 7.2% (55)
Inconclusive CT 20 2+by V/Q, 1/18 non-fatal PE
mortality 5% (1/20)
CT indicated but not done 50 3+by V/Q, 2 had DVT by CUS
1/45 fatal PE,
mortality 14% (7/50)
Pts Total VTE Fatal PE
ECHOCARDIOGRAPHY PULMONARY EMBOLISM
• Direct visualization of thrombus
• Right ventricular dilatation & hypokinesis (except apex, McConnell’s sign)
• Abnormal interventricular septal motion
• Tricuspid valve regurgitation >2.8 m/s
• Lack of decreased inspiratory collapse of inferior vena cava
TRANS ESOPHAGEAL ECHOCARDIOGRAPHYAND PATENT FORAMEN OVALE
in PULMONARY EMBOLISM
Patent foramen ovale detected on TEE is an important predictor of adverse outcome in patients with major pulmonary embolism.
These patients had a death rate of 33% as opposed to 14% in patients without PFO
There is significantly higher incidence of ischemic stroke (13% versus 2.2%; P=.02) and peripheral arterial embolism (15 versus 0%; P<.001).
Overall, the risk of a complicated in-hospital course was 5.2 times higher in this patient group (P<.001).
Circulation. 1999 Jun 29;99(25):3323.
RV OVERLOAD
DIASTOLE SYSTOLE
RV DILATATION & ABNORMAL SEPTAL MOTION
MORTALITY RV DYSFUNCTION
Goldhaber, et al. Lancet. 353: 1386-89;24 April 1999
RV HYPOKINESIS
NO RV HYPOKINESIS
PRIMARY THERAPY VS SECONDARY PREVENTION
HEPARIN
NORMAL BP RV DYSFUNCTION SBP<90
THROMBOLYSIS
MECHANICAL INTERVENTION
Heparin Anticoagulation
• While diagnostic work-up in progress begin with UFH 80/kg IV bolus, then 18 U/kg per hour, target PTT 60-80 secs
• Rapid reversibility for patients who may require thrombolysis, thrombectomy, or who have alternative diagnosis
Heparin Anticoagulation
• For stable patients recommendations include either weight based protocols for UFH, or
• Low Molecular weight heparin, trials suggest better efficacy with less bleeding
• LMWH can be considered as alternative to oral anticoagulation
• Monitor platelet counts and CBC
• When HIT complicates therapy, use direct thrombin inhibitors– Argatroban– Lepirudin
Low Molecular Weight Heparins
THROMBOLYSISUNSTABLE PATIENTS
Heparin Strep/heparin
Survived 0 4
Dead 4 0
Jerges-Sanchez et al. J Thromb Thrombolysis 1995;2:227-229
Cardiac CT
Cardiac CT
THROMBOLYSIS RV DYSFUNCTION
Goldhaber et al. The Lancet 341:8844; 507-511, Feb 27 1993
THROMBOLYSIS STABLE MAJOR PE
Konstantinides S et al. Circulation. 1997;96:882-888
THROMBOLYSIS STABLE MAJOR PE
ONLY INDEPENDENT PREDICTOR OF SURVIVAL (719 PATIENTS)
Konstantinides et al. Circulation.1997;96:882-888
Management Strategies and Prognosis of Pulmonary Emobolism
MAPPET-3• Rt-PA + Heparin vs Heparin alone
• 256 patients with RV dysfunction but no hypotension/shock
• Primary endpoint: death or escalation of therapy eg: need for catecholamine, thrombolytics, CPR, intubation, embolectomy
• Primary endpoint achieved in 25% of patients with heparin alone vs 10% patients with rt-PA plus heparin (p=0.006)
• No ICH in the controlled trial
• ICH occurred in 3.0% of 304 patients receiving thrombolytics in registry (2454 pts)
NEJM 2002 347:1143
THROMBOLYSIS CONTRAINDICATIONS
• Active internal bleed• CVA• Diastolic HTN>110 • Surgery < 10 days• CPR• Pregnancy• Post-partum < 10 days• Trauma
THROMBOLYSIS COMPLICATIONS
• Major bleeding frequency after noninvasive diagnosis= 4.2%
• Major bleeding frequency after invasive diagnosis= 14%
• Fewer complications would occur with noninvasive management
Stein et al.Annals of Internal Medicine.121:313-317, Sept 1994
THROMBOLYSISIN-VITRO
• Streptokinase has slowest rate of clot lysis.
• Urokinase has intermediate rate of clot lysis, but most fibrinolytic specificity.
• rt-PA improved efficacy early, but rt-PA and urokinase difference dissipated after 30 min.
Ouriel K, et al. J Vasc Surg. 1995; 22: 593-597
Thrombolytic Regimens for Pulmonary Embolism
• Streptokinase: 250K loading dose IV over 30min followed by 100K U/hr for 24 hr (FDA ok)
• Alteplase(t-PA): 100mg, peripheral IV infused over 2 hrs (FDA ok)
• Urokinase 2000 U/lb IV loading dose over 10 min, then 2000 U/lb per hour for 12 to 24 hours (FDA ok)
• Reteplase (retavase): 10U IV over 2min, then 30 min later 10U over 2 min
Potential Indications for Thrombolytic Therapy for VTE
Commonly Accepted• Presence of hypotension or hemodynamic instability
Careful Case Selection• Presence of severe hypoxemia
• Substantial perfusion defect V/Q or thrombus burden CT
• Right ventricular dysfunction associated with PE
• Concomitant extensive deep vein thrombosis
• Free-floating RA/RV thrombus
• Patent Foramen Ovale (PFO) / paradoxical embolus
PERCUTANEOUS
PERCUTANEOUS INTERVENTION
• 1969- Greenfield: Vacuum pump embolectomy
• 1994- Mazeika: Percutaneous catheter fragmentation
• 1994- Dievart: Angiocor Thrombolizer
• 1995- Scmitz-Rode: Pigtail catheter fragmentation
• 1996- Uflacker: Amplatz thrombectomy device
• 1997- Koning: Rheolytic thrombectomy catheter
UROKINASE INTRAPULMONARY INFUSION
• 26 patients with PE received intrapulmonary arterial infusions of urokinase.
• 9/26 had systemic thrombolytic contraindications.
• 20 pts returned to baseline state, 1 minimal change, 5 deaths
McCotter,C.J. et al. Clin. Cardiol.22, 661-664 (1999)
PULMONARY INTRATHROMBUSINFUSION
THROMBOLYSIS AND FRAGMENTATION
IVC FILTERS
TWO PRINCIPAL INDICATIONS– Absolute contraindication to anticoagulation or
complication of anticoagulation therapy.
– Recurrent PE despite adequate duration and level of anticoagulation, or patient not likely to
survive a recurrent PE because of tenuous hemodynamic status and iliofemoral thrombus burden.
IVC FILTERS
• Do not prevent further thrombosis
• Serve as a “nidus” for recurrent thrombus
• Re-hospitalization within 1 year of filter placement for recurrent VTE 2.6 X control.
Arch Intern Med 2000; 160:2033
CURRENT PERMANENT IVC FILTERS
Greenfield
Bird’s Nest
Simon Nitinol
Vena Tech
Stainless steel
Titanium
RETRIEVABLE VENA CAVA FILTERS
• Recovery Nitinol Filter
• Gunther Tulip Filter
• OptEase Filter
Recovery Nitinol Filter
• Bard Peripheral Vascular, Tempe, AZ
• First FDA approved retrievable filter has no barbs for fixation, and therefore has a much longer potential window for retrieval.
• One group has reported successful retrieval of filters as long as 134 days after insertion. There was, however, one filter that migrated after clot capture.
• This emphasizes the one minor weakness of retrievable filters with extended placement times; these filters may have less surface area of contact with the vena cava to avoid tissue ingrowth and fixation.
(Cook Inc., Bloomington, IN) has perhaps the widest experience in both the US and Europe.
There are several reports in the literature supporting its value as a temporary filter
It has the capability of deployment from either a femoral or jugular route. It must be retrieved from a jugular vein approach.
Most authors recommended retrieval within 14 days.
Gunther Tulip Filter
Cordis Endovascular, a Johnson & Johnson company, Miami, FL
Has a unique self-centering design that provides dual-level filtration.
It can be deployed from both the transfemoral and transjugular approaches using the same kit.
It is the only potentially retrievable filter that is recovered from a femoral vein approach and requires a small retrieval system (10F guiding catheter)
OptEase Filter
NEW AND PROPHYLACTIC APPLICATIONSOF IVC FILTERS
Trauma and major orthopedic surgery will most likely encompass the greatest use of retrievable vena cava filters
With the increasing number of obese patients undergoing major operations and bariatric surgery, the use of retrievable filters will
continue to grow.
Ongoing prospective studies will probably support elevated body mass index as a major predictor of pulmonary embolism and will have a tremendous impact on the future of retrievable vena cava filters.
NEW AND PROPHYLACTIC APPLICATIONSOF IVC FILTERS
• Patients with DVT but no PE– Reduced cardiopulmonary function, would not
tolerate a PE– Free-floating DVT despite adequate anticoag– Recent DVT, undergoing major surgery– Pregnancy with proximal DVT, undergoing
catheter directed therapy
PROPHYLACTIC APPLICATIONSOF IVC FILTERS
The treatment of extensive iliofemoral deep venous thrombosis with thrombolytic therapy or surgical thrombectomy can cause pulmonary embolism during the procedure. Although permanent vena cava filters
have been used in this setting, retrieval of the filter after resolution of the deep vein thrombosis is appealing.
Patients with Neurological Problems resulting in prolonged immobilization, paralysis, stroke with DVT.
Patients with advanced malignancy and chemotherapy
• Patients with suspected hypercoagulable state
• Case reports in the literature cite success in the use of retrievable vena cava filters for pregnant patients with thromboembolism
• Retrievable vena cava filters “off label” as temporary filters during resection of renal cell cancers
• with tumor thrombus extension into the inferior vena cava.
.
Patent Foramen Ovale
Recognized as a major contributor to morbidity and mortality
Combined procedures of IVC filter and PFO closure may become more frequent
FUTURE APPLICATIONSOF IVC FILTERS
RHEOLYTIC THROMBECTOMY
CATHETER
RHEOLYTIC THROMBECTOMY
CATHETER
PERCUTANEOUS RHEOLYTIC THROMBECTOMY
• Koning et al. (Circulation 1997) - Successful thrombectomy in 2 patients with severe symptomatic pulmonary embolism and contraindications to thrombolytics.
• Voigtlander et al. (Cath Card Interv 1999) - Successful thrombectomy in 3/5 patients with massive pulmonary embolism and contraindications to thrombolytics.
PERCUTANEOUS THROMBECTOMY
• PATIENT 1– 72 Y/O MAN WITH TIA. +DYSPNEA/ +NEAR-
SYNCOPE– TEE : THROMBUS IN RIGHT INFERIOR PA– PULMONARY ANGIOGRAM CONFIRMED– CT SCAN BRAIN: HEMORRHAGIC INFARCT– PERCUTANEOUS THROMBECTOMY WITH
EXCELLENT IMMEDIATE RESULT– DISCHARGED. 1 MO F/U FREE OF THROMBUS
Koning,R et al.Circulation 1997;96:2498-500
PERCUTANEOUS THROMBECTOMY
• PATIENT 2– 74 Y/O MAN, TRAUMA, FX TIBIA– HD 9: RIGHT SIDE CHEST PAIN AND SEVERE
DYSPNEA– P.E., ECG, CXR SUGGESTIVE OF PE– PULMONARY ANGIOGRAM: MASSIVE BILATERAL
EMBOLISM– PERCUTANEOUS THROMBECTOMY TO LLL – DISCHARGED. 1 MO F/U NO THROMBUS LLL.
Koning,R et al.Circulation 1997;96:2498-500
PATIENT CHARACTERISTICS
PATIENT AGE GENDER CLINICAL STATUS CONTRAINDICATION
1 25 M ORTHOPNEA, LOW BP SKULL INJURY
2 70 M CARDIOGENIC SHOCK RECENT SURGERY
3 72 M CARDIOGENIC SHOCK CRITICAL BLEEDING
4 72 M ORTHOPNEA, LOW BP ACTIVE ULCER
5 52 F CARDIOGENIC SHOCK SURGERY 14 D AGO
Voigtlander et al. Cath Card Interv. 47:91-96 1999
CLINICAL RESULTS
• Patients 1,2,3 successfully treated; Pt 2 died on day 12 of cerebral hemorrhage
• Patients 4,5 underwent surgical thrombectomy• 3-month follow-up (Pts 1,3,4,5): normalized RV function
and asymptomatic• Patients 4,5 histological analysis revealed organized thrombi
with partial fibrosis
Voigtlander et al. Cath Card Interv. 47:91-96 1999
ANGIOGRAPHIC RESULTS
PATIENT BEFORE AFTER BEFORE AFTER BEFORE AFTER1 30 24 16 15 11 72 27 23 16 15 11 73 29 26 16 16 11 74 28 27 15 15 13 125 30 30 16 16 14 14
TOTAL MILLER SCORE INVOLVEMENT REDUCTION OF FLOW
(X/34) (X/16) (X/18)
Voigtlander et al. Cath Card Interv.47:91-96 1999
HEMODYNAMIC RESULTS
PRE POST S/P 24H
SYS PAP(mmHG)
60 57 38
Mean PAP(mmHG)
Mean RAP(mmHG)
Artery O2SAT
34
12
84
35
10
90
26
9
98
Voigtlander et al. Cath Card Interv.47:91-96 1999
THROMBECTOMY LIMITATIONS
• RISK OF MECHANICAL PERFORATION ?
• AGE OF THROMBUS– Rate of thrombolysis depends on the age of thrombus
ORGANIZED THROMBUS LYSIS RATE 5 MG/ SEC
NONORGANIZED THROMBUS LYSIS RATE 70 MG/ SEC
Stahr P et al. Z Kardiol 1997: 86 (suppl 2): 289
ANEMIA
EMERGENT SURGICAL EMBOLECTOMY
• Operative mortality rate 30-40%
• Independent predictors of mortality : Cardiac arrest & assoc. cardiopulmonary disease
• Major causes of mortality: incomplete thrombus removal with persistent RV dysfunction, and severe reperfusion lung injury
• Consider as primary therapy in PE > 14 days old
Recent series 29 patients treated by a dedicated team
24 hour availabilityEmergency transport
Surgical technique without aortic crossclamp or cardioplegia
IVC Filters in all patients
Moderate/severe RV dysfunction with extensive PENo antecedent CPR
11% 1-month mortality (89% survival; 26/29 patients)Aklog, Circulation 2002
EMERGENT SURGICAL EMBOLECTOMY
THROMBOENDARTERECTOMY HEMODYNAMIC VALUES
Mean PAP(mm Hg)
49 27 24
Cardiac Output(liters/min)
3.8 5.9 4.9
Pulmonaryvascularresistance
997 230 272
PREOP POSTOP 3 moFOLLOW-UP
Moser et al. Circulation 81: 1735,1990
PREVENTION
• In medical ICU, DVT develops in one third of patients; half of these involved the proximal portion of the leg.
• Choose most adequate prophylactic method
• Keep high index of suspicion, especially in high-risk patients
Hirsch et al. JAMA 1995;274:335-7
SUMMARY
• Pulmonary embolism manifests in spectral fashion, and management (diagnostic and therapeutic) may be just as varied and nonuniform due to options available.
SUMMARY
• Echocardiography is a useful tool for risk-stratification of “stable” patients who otherwise might benefit from a more aggressive approach.
• Echocardiographic evidence of RV Dysfunction adds weight to a clinical suspicion of PE in an unstable patient unable to undergo further testing, therefore, expedites therapeutics.
SUMMARY
• The optimum application of thrombolytic therapy remains in doubt. Some authorities argue for treatment of only unstable patients, while others would enlarge indications to include those with echo or CT evidence of RV Dysfunction.
SUMMARY
• A catheter-based approach seems feasible and safe as primary therapy for massive pulmonary embolism in acute cases (< 14 days old) when thrombolysis is contraindicated or unsuccessful.
• Surgical embolectomy may be a better option for older clots (> 14 days old).
SUMMARY
• Further studies are needed to answer the questions regarding effectivenes and clinical benefit of the catheter-based approach and emergency thrombectomy compared to thrombolytics.
Protocol for the Treatment of Massive Pulmonary Embolism in Patients Who
Have Contraindications to Thrombolytic Therapy using the Possis AngioJet System
Inclusion / Exclusion Criteria
Inclusion • Symptomatic massive PE
• RV Dysfunction
• Contraindications to thrombolysis
• Recent PE < 14 days
• Age > 18
Exclusion• Severe Anemia
• Inability to tolerate hemolysis
• Chronic terminal illness
• PE > 14 days
• Inability to obtain informed consent or follow up
Procedure
• Establish Diagnosis
• Diagnostic Studies– VQ Lung Scan
– Spiral CT
• Echocardiogram for RV Function• Pulmonary Angiography• Rheolytic Thrombectomy• Follow Up 24 hours, at hospital D/C and 30 days
Protocol for the Treatment of Patients with Normotensive Submassive Pulmonary Embolism
with Right Ventricular Dysfunction
• Randomize Patients• Standard Care (anticoagulation) vs. Lytic Therapy• Subgroup patients with contraindications or high
risk for bleeding with thrombolytics can be treated with AngioJet
• Exclude patients with chronic terminal illness• Follow Up Assessment
– Cardiopulmonary Treadmill Testing– VQ Lung Scan
Protocol for the Treatment of Patients with Normotensive Submassive Pulmonary Embolism with Right Ventricular Dysfunction:Follow-up
Assessment and End-points
30 day mortality
Bleeding complications
Thrombolytic dose and cost
Echo
V/Q lung scan
Cardiopulmonary Stress test
Contemporary Management of Pulmonary Embolism
Lowell I. Gerber M.D.
