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Pulmonary Embolism - (PE)

The document discusses pulmonary embolism (PE), including its causes, diagnosis, risk factors, and treatment. It highlights the process by which blood clots from the venous system can travel to the lungs and cause serious complications. Various diagnostic methods, including imaging techniques and tests such as D-dimer and ultrasound, are outlined, along with the symptoms and potential indicators associated with PE.

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Introduction to Pulmonary Embolism (PE) as a critical medical condition.

Key objectives: Understanding Causes, Diagnosis, Risk Factors, and Treatment of PE.

Describes blood flow to the lungs, and how clots can travel and cause Pulmonary Embolism.

Lung blood flow dynamics; highlights that PEs are more common in lower lungs and can cause infarction.

Identifies key risk factors increasing susceptibility to Pulmonary Embolism.

Typical and atypical symptoms of Pulmonary Embolism including tachycardia and signs of DVT.

Variety of diagnostic methods (ABG, Ultrasound, and Echo) used to confirm or rule out PE.

Details on VQ scans and CT Pulmonary Angiography (CTPA) used for diagnosing Pulmonary Embolism.

Discusses the Pulmonary Angiogram as the gold standard for PE diagnosis; treatment approaches.

Use of IVC filters and the mechanism of anticoagulation in PE management.

Guidelines for anticoagulation dosage calculations; discusses prevention strategies for PE.

Final reminders related to the presentation on Pulmonary Embolism.

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Pulmonary EmbolismPulmonary Embolism
Learning OutcomesLearning Outcomes  CausesCauses  DiagnosisDiagnosis  Risk FactorsRisk Factors  TreatmentTreatment
Blood flow to the lungsBlood flow to the lungs  Venous system fromVenous system from upper and lower partsupper and lower parts of the body drains intoof the body drains into the right atrium andthe right atrium and then pumped into thethen pumped into the right ventricleright ventricle  The right ventricleThe right ventricle pumps blood to thepumps blood to the lungslungs
The Clot TravelsThe Clot Travels  So if a clot occurs in anySo if a clot occurs in any vein it will eventually (if itvein it will eventually (if it breaks free) end up in thebreaks free) end up in the right side of the heartright side of the heart  The heart then pumps itThe heart then pumps it into the pulmonaryinto the pulmonary arteriesarteries  As the pulmonary arteryAs the pulmonary artery becomes smaller, thebecomes smaller, the blood clot will becomeblood clot will become caught in the lungs. Thiscaught in the lungs. This is a Pulmonary Embolismis a Pulmonary Embolism
Lung Blood FlowLung Blood Flow  Typically there isTypically there is more flow to the lowermore flow to the lower area of the lungs, duearea of the lungs, due to gravityto gravity  PEs can occurPEs can occur anywhere in the lung,anywhere in the lung, but more are seen inbut more are seen in the lower portion thanthe lower portion than upper portionupper portion  No preference toNo preference to which side it occurswhich side it occurs
Saddle EmbolusSaddle Embolus  This is where a clotThis is where a clot occurs at the point ofoccurs at the point of the pulmonary arterythe pulmonary artery branchingbranching  This can be fatal, dueThis can be fatal, due to the large amount ofto the large amount of blood flow that isblood flow that is inhibitedinhibited
Incidence of PEIncidence of PE  In the UK, PE occurs in 3-4 per 10 000In the UK, PE occurs in 3-4 per 10 000 peoplepeople  This could be possibly higher as this isThis could be possibly higher as this is only based on clinical dataonly based on clinical data  Between 2005-2008 it was mentioned onBetween 2005-2008 it was mentioned on the death certificates of 12 - 13 000the death certificates of 12 - 13 000 peoplepeople  It is thought that this figure could be asIt is thought that this figure could be as high as 60 000 per year in the UKhigh as 60 000 per year in the UK (NICE 2013)(NICE 2013)
DiagnosingDiagnosing  A large number ofA large number of patients arepatients are misdiagnosed andmisdiagnosed and only found to have aonly found to have a PE on autopsyPE on autopsy  We can test for themWe can test for them but results can comebut results can come back as negative (orback as negative (or inconclusive)inconclusive)
DiagnosingDiagnosing  Most PEs come fromMost PEs come from Deep VenousDeep Venous Thrombosis (DVT)Thrombosis (DVT)  Most DVTs (75%) comeMost DVTs (75%) come from the legs,from the legs,  20% of clots embolise20% of clots embolise with higher incidencewith higher incidence above the knee ratherabove the knee rather than belowthan below  The emboli travel via theThe emboli travel via the Inferior Vena Cava (IVC),Inferior Vena Cava (IVC), to the heart, to the lungsto the heart, to the lungs PEPE
 In the lungs the blood clotIn the lungs the blood clot gets lodged in thegets lodged in the pulmonary artery, sopulmonary artery, so there is no morethere is no more perfusion to that area ofperfusion to that area of lung, thus ventilationlung, thus ventilation occurs without perfusionoccurs without perfusion forming a dead spaceforming a dead space  The blood that shouldThe blood that should have gone to that area ishave gone to that area is then diverted to otherthen diverted to other areas of the lung, thisareas of the lung, this causes a V/Q Mismatchcauses a V/Q Mismatch
Lung InfarctLung Infarct  There is also an increaseThere is also an increase in resistance to bloodin resistance to blood flow, this can cause aflow, this can cause a cardiac arrestcardiac arrest  The lungs may infarct, butThe lungs may infarct, but this is difficult due to thethis is difficult due to the dual blood supply, fromdual blood supply, from both the pulmonary arteryboth the pulmonary artery and also from the aorta,and also from the aorta, as it sends branches toas it sends branches to the lungthe lung
Risk FactorsRisk Factors  Orthopaedic Procedure – THR, TKR, #sOrthopaedic Procedure – THR, TKR, #s Lack of mobilisationLack of mobilisation  No thrombo-prophylaxis – TEDS, Flowtrons,No thrombo-prophylaxis – TEDS, Flowtrons, Dalteparin , WarfarinDalteparin , Warfarin  Abdo / Pelvic surgery - especially for CaAbdo / Pelvic surgery - especially for Ca  ObesityObesity  Women >30yrs on oral contraceptive who smokeWomen >30yrs on oral contraceptive who smoke  Hyper-coaguable state – Protein C & S deficiencies,Hyper-coaguable state – Protein C & S deficiencies, Factor V LeidenFactor V Leiden  PregnancyPregnancy
SymptomsSymptoms  May be normalMay be normal  TachycardiaTachycardia  AFAF  Reduced chest movementReduced chest movement (due to pain)(due to pain)  TachypnoeaTachypnoea  Pleural rubPleural rub  Haemoptysis (especially inHaemoptysis (especially in lung infarction)lung infarction)  Low grade feverLow grade fever  Signs of DVTSigns of DVT  PP22 Sound,Sound,  Right Heart failure-Right Heart failure- CO,CO, JVP,JVP, BP and PerfusionBP and Perfusion PressurePressure
DiagnosisDiagnosis  ABG –ABG – pH /pH /  pCOpCO22//  pOpO22 (or lower normal range)(or lower normal range)  Respiratory AlkalosisRespiratory Alkalosis   pOpO22 due to V/Q Mismatchdue to V/Q Mismatch   pCOpCO22 due to tachypnoea (trying to make room for Odue to tachypnoea (trying to make room for O2)2)  Alveolar-arterial oxygen (A-a) gradientAlveolar-arterial oxygen (A-a) gradient  PPAAOO22 - P- PaaOO22  Alone they are not diagnostic of pulmonary embolismAlone they are not diagnostic of pulmonary embolism (PE), but they may be useful in excluding the diagnosis(PE), but they may be useful in excluding the diagnosis of PE if their values fall within the normal rangeof PE if their values fall within the normal range
Alveolar-arterial oxygen (A-a)Alveolar-arterial oxygen (A-a) gradientgradient  PPAAOO22 - P- PaaOO22 should equal (Age (years) / 4) + 4should equal (Age (years) / 4) + 4  PPAAOO22 = [(F= [(FiiOO22) x (760 – 47)] – (P) x (760 – 47)] – (PaaCOCO22 / 0.8)/ 0.8) Barometric Pressure = 760mmHgBarometric Pressure = 760mmHg Water Vapour Pressure = 47mmHgWater Vapour Pressure = 47mmHg Respiratory Coefficient = 0.8Respiratory Coefficient = 0.8 UseUsePPaaOO22 andandPPaaCOCO22 in mmHg not KPain mmHg not KPa Eg 40 Yr old,Eg 40 Yr old, FFiiOO22 0.60.6 PPaaCOCO22 32.5 mmHg32.5 mmHg (4.27KPa)(4.27KPa) PPaaOO22 65 mmHg (8.55KPa)65 mmHg (8.55KPa) PPAAOO22 =(0.6 x 713) – 40.6 = 387.2=(0.6 x 713) – 40.6 = 387.2 PPAAOO22 - P- PaaOO22 = 387.2 – 65 = 322.2= 387.2 – 65 = 322.2 (40/4) = 10 (+4) = 14(40/4) = 10 (+4) = 14 Therefore 322.2 > 14Therefore 322.2 > 14 So if the A-a gradient > 14 it may be indicative of a PESo if the A-a gradient > 14 it may be indicative of a PE
Chest X-rayChest X-ray  Chest X ray – most common finding with aChest X ray – most common finding with a PE is a normal x-rayPE is a normal x-ray  But they are useful as X-rays help to ruleBut they are useful as X-rays help to rule out pneumonia and pneumothorax asout pneumonia and pneumothorax as causes of dyspnoea etccauses of dyspnoea etc  Possible signs indicating a PE are asPossible signs indicating a PE are as followsfollows
Hamptons HumpHamptons Hump  Not always seenNot always seen  Wedged shapedWedged shaped pleural based lesionpleural based lesion  PE in one areaPE in one area (Bottom arrow) and(Bottom arrow) and everywhere else iseverywhere else is infarctinfarct  Causes pleurisy,Causes pleurisy, irritationirritation
Westermark SignWestermark Sign  On this X-ray PE is inOn this X-ray PE is in Left lungLeft lung  Increase in blood flowIncrease in blood flow to right side.to right side.  Minimal blood flowMinimal blood flow seen to Left lungseen to Left lung  So the side that looksSo the side that looks clearer is the sideclearer is the side with reduced bloodwith reduced blood flow, therefore the clotflow, therefore the clot
ECGECG  SSIIQQIIIIIITTIIIIII  Can be seen in anyCan be seen in any cor-pulmonalecor-pulmonale syndrome wheresyndrome where pulmonary arterypulmonary artery systolic pressure issystolic pressure is elevatedelevated  Eg Normal PQRSTEg Normal PQRST
ECGECG  LeadLead II  Exaggerated S waveExaggerated S wave  LeadLead IIIIII  Exaggerated Q waveExaggerated Q wave  T Wave inversionT Wave inversion  Not specific to PE, butNot specific to PE, but gets you to possibly thinkgets you to possibly think of the diagnosisof the diagnosis
ECG – Precordial LeadsECG – Precordial Leads  Peaked T wavesPeaked T waves  V1-V4V1-V4  Makes you think about :-Makes you think about :- Right Heart Strain,Right Heart Strain, PE, Cor-pulmonalePE, Cor-pulmonale  Tachycardia nearlyTachycardia nearly always seen in PE butalways seen in PE but also most other problemsalso most other problems so non-specificso non-specific
D-dimerD-dimer  By-product of fibrinBy-product of fibrin degradationdegradation  As clot degraded byAs clot degraded by enzymes, Fibrinenzymes, Fibrin Degradation ProductsDegradation Products (FDP) are released, one(FDP) are released, one of these is the D-dimerof these is the D-dimer  Little clots in body releaseLittle clots in body release D-dimers, therefore if testD-dimers, therefore if test +ve - do not know if it is+ve - do not know if it is from a PE,from a PE,  But test is so sensitiveBut test is so sensitive that if no D-dimer ( –ve)that if no D-dimer ( –ve) you can rule out PEyou can rule out PE
UltrasoundUltrasound  Non-invasiveNon-invasive  Looks at lower limbsLooks at lower limbs  Doppler USS looks atDoppler USS looks at vein for flow andvein for flow and compressibilty to seecompressibilty to see if clot presentif clot present
USS ResultsUSS Results  If +ve for DVT and patient hasIf +ve for DVT and patient has respiratory distress symptomsrespiratory distress symptoms you can rule in a PE, since theyou can rule in a PE, since the DVTs can embolise easily andDVTs can embolise easily and enter the lungs causingenter the lungs causing respiratory problemsrespiratory problems  If -ve for DVT, unsure whetherIf -ve for DVT, unsure whether there is a PE or not, as a clotthere is a PE or not, as a clot from other part of body mayfrom other part of body may have embolised the lung, or ahave embolised the lung, or a whole DVT may have travelledwhole DVT may have travelled to the lungto the lung  So a –ve result does not give aSo a –ve result does not give a thorough answer, whilst a +vethorough answer, whilst a +ve result may rule it inresult may rule it in
ECHOECHO  Sometimes beneficialSometimes beneficial  The right ventricleThe right ventricle pumps blood to lungspumps blood to lungs  If clot is present theIf clot is present the pressure at site of clotpressure at site of clot increases and soincreases and so does the pressure indoes the pressure in the right ventriclethe right ventricle
ECHOECHO  The severity of this PulmonaryThe severity of this Pulmonary Artery Pressure (PAP) and theArtery Pressure (PAP) and the severity of the clot, is found byseverity of the clot, is found by looking at the tricuspid valvelooking at the tricuspid valve and noting how much regurgeand noting how much regurge occurs (Tricuspid jet)occurs (Tricuspid jet)  If tricuspid jet is high then PAPIf tricuspid jet is high then PAP differential between RA anddifferential between RA and RV is great and the clot burdenRV is great and the clot burden is largeis large  All these tests may help in theAll these tests may help in the possible diagnosis of a PE, butpossible diagnosis of a PE, but are not definitive testsare not definitive tests
VQ ScanVQ Scan  Nuclear medicine scanNuclear medicine scan  Looks at perfusion and ventilationLooks at perfusion and ventilation  In pneumonia for example, you would getIn pneumonia for example, you would get decreased perfusion and decreased ventilationdecreased perfusion and decreased ventilation due to the purulent material present this is adue to the purulent material present this is a “Matched Deficit”“Matched Deficit”  In a PE there is decreased perfusion of the lungIn a PE there is decreased perfusion of the lung in the area but ventilation remains the same thisin the area but ventilation remains the same this is an “Unmatched Deficit”is an “Unmatched Deficit”  Does Not affect patient in renal failureDoes Not affect patient in renal failure  Impaired view if patient has pneumonia etcImpaired view if patient has pneumonia etc
VQ ScanVQ Scan  The patients ventilation isThe patients ventilation is assessed by themassessed by them breathing in Xenonbreathing in Xenon  For perfusion the patientFor perfusion the patient is injected with Technigasis injected with Technigas (T(Tcc99mMAA)99mMAA)  Use Gamma Camera (aUse Gamma Camera (a glorified Geiger counter)glorified Geiger counter) to measure the nuclearto measure the nuclear materialmaterial
Probability of PEProbability of PE  Normal - Full ventilationNormal - Full ventilation and perfusion seenand perfusion seen  Low Pobability for PE –Low Pobability for PE – (<20%)(<20%)  Intermediate probabilityIntermediate probability for PE-for PE- V andV and P inP in same areasame area (Matched deficit) (20-(Matched deficit) (20- 80%)80%)  High Probability for PE –High Probability for PE – Normal V andNormal V and P (Un-P (Un- Matched deficit) (>80%)Matched deficit) (>80%)
CTPACTPA  Contrast injected into body,Contrast injected into body,  CT Scan obtained as this isCT Scan obtained as this is occurringoccurring  Vessels viewed on end andVessels viewed on end and seen if they light up withseen if they light up with contrast.contrast.  If only partially light up withIf only partially light up with contrast there may be a bloodcontrast there may be a blood clot present stopping flowclot present stopping flow  Do not use if in renal failureDo not use if in renal failure ((Creatanine) (could useCreatanine) (could use HCOHCO33 cover to stopcover to stop nephrotoxic effect of contrast)nephrotoxic effect of contrast)  Unlike VQ Scan if patient hasUnlike VQ Scan if patient has a pneumonia it will not affecta pneumonia it will not affect resultsresults
CTPACTPA  In 2006 ‘The Christopher Study’ showed that ifIn 2006 ‘The Christopher Study’ showed that if you perform a CTPA that was negative for ayou perform a CTPA that was negative for a blood clot with a –ve D-dimer result, it wasblood clot with a –ve D-dimer result, it was shown to be safe to withhold anticoagulation,shown to be safe to withhold anticoagulation, this supports the reasoning that you should notthis supports the reasoning that you should not do a repeat CT scan if first found to be –ve for ado a repeat CT scan if first found to be –ve for a clotclot  The CTPA is the test of choice for diagnosis ofThe CTPA is the test of choice for diagnosis of PE, if unable to perform this due toPE, if unable to perform this due to Creatanine, the next choice would be a VQCreatanine, the next choice would be a VQ Scan.Scan.  BUT, these are not the ‘Gold Standard’BUT, these are not the ‘Gold Standard’
Gold StandardGold Standard  Pulmonary Angiogram –Pulmonary Angiogram – Most accurate test, butMost accurate test, but not always best fornot always best for patient (most invasive)patient (most invasive)  Catheter inserted intoCatheter inserted into right side of the heart,right side of the heart, dye is injected directlydye is injected directly into pulmonary artery,into pulmonary artery, observed underobserved under fluoroscopyfluoroscopy  Dangerous,Dangerous,  mortality rate,mortality rate, especially in patients withespecially in patients with PEPE
TreatmentTreatment  AnticoagulationAnticoagulation  Eg Warfarin / HeparinEg Warfarin / Heparin -Blood thinning-Blood thinning -Prevent new clots-Prevent new clots Non-thrombolyticNon-thrombolytic treatmenttreatment  ThrombolyticsThrombolytics -Dissolve Clot,-Dissolve Clot, -not solely used for-not solely used for PE treatmentPE treatment  DVT Treatment 3-6 monthsDVT Treatment 3-6 months  PE Treatment 6-9 monthsPE Treatment 6-9 months
IVC FilterIVC Filter  If anticoagulationIf anticoagulation treatmenttreatment contraindicatedcontraindicated IVCIVC FilterFilter If clot travels it getsIf clot travels it gets caught in IVC Filtercaught in IVC Filter
IVC FilterIVC Filter  It is possible for blood clot to be caught andIt is possible for blood clot to be caught and develop in IVC filterdevelop in IVC filter  Cochrane Collaboration recommends IVC forCochrane Collaboration recommends IVC for 1.1. Recurrent PE despite use of anticoagulation,Recurrent PE despite use of anticoagulation, or in absolute contra-indication toor in absolute contra-indication to anticoagulationanticoagulation 2.2. Proximal DVT with massive pulmonaryProximal DVT with massive pulmonary thrombosis – next one could kill patientthrombosis – next one could kill patient 3.3. Trauma Patient – needing operationTrauma Patient – needing operation
AnticoagulationAnticoagulation  Ideally start Fast acting and slow acting anticoagulants,Ideally start Fast acting and slow acting anticoagulants, when slow acting anticoagulants at desired level, stopwhen slow acting anticoagulants at desired level, stop fast actingfast acting  Fast acting -Heparin productsFast acting -Heparin products Heparin (IV) orHeparin (IV) or Low Molecular Weight Heparin (S/C)Low Molecular Weight Heparin (S/C)  Slow acting – Vitamin K AntagonistsSlow acting – Vitamin K Antagonists WarfarinWarfarin
Fast ActingFast Acting  Heparin productsHeparin products IV HeparinIV Heparin Aim for therapeutic APTTAim for therapeutic APTT Can be startedCan be started immediatelyimmediately Quick AnticoagulationQuick Anticoagulation actionaction If bleeding occurs canIf bleeding occurs can stop it and reducedstop it and reduced effects occur within feweffects occur within few hours as it has a shorthours as it has a short half life (45-60min)half life (45-60min)
Heparin InducedHeparin Induced ThrombocytopaeniaThrombocytopaenia Can cause highest incidence of HITCan cause highest incidence of HIT -Usually occurs 5-14 days after starting-Usually occurs 5-14 days after starting HeparinHeparin (even if discontinued) or sooner if previously had(even if discontinued) or sooner if previously had heparinheparin -Immune response to heparin-Immune response to heparin -Antibodies combine with heparin and platelets-Antibodies combine with heparin and platelets causing platelet activation of microparticles whichcausing platelet activation of microparticles which initiate the formation of blood clots; the plateletinitiate the formation of blood clots; the platelet count falls as a result, So,count falls as a result, So, -Platelet count drops by >50%-Platelet count drops by >50% -Get hyper-coaguable state, get more clotting-Get hyper-coaguable state, get more clotting even though platelet count loweven though platelet count low -If this occurs change from heparin products-If this occurs change from heparin products
Fast ActingFast Acting  Low Molecular Weight Heparin (SC)Low Molecular Weight Heparin (SC) Eg clexane, dalteparin, fondaparinuxEg clexane, dalteparin, fondaparinux Give twice per day dependent on Creatanine Clearance (CrCl)Give twice per day dependent on Creatanine Clearance (CrCl) (20-29ml/min)(20-29ml/min) Or if CrCl ≥30ml/min give once a dayOr if CrCl ≥30ml/min give once a day Problem is if given, anticoagulation is present for next 12 orProblem is if given, anticoagulation is present for next 12 or 24hrs (as half life is four times as long as heparin, about 4 hrs)24hrs (as half life is four times as long as heparin, about 4 hrs) Incidence of HIT is lower than IV HeparinIncidence of HIT is lower than IV Heparin Easy and quick to administerEasy and quick to administer  Also available is rivaroxaban, a fast acting oral medication, TheAlso available is rivaroxaban, a fast acting oral medication, The effects lasts 8 to 12 hours, but factor Xa activity does not return toeffects lasts 8 to 12 hours, but factor Xa activity does not return to normal within 24 hours so once-daily dosing is possible.normal within 24 hours so once-daily dosing is possible.
To work out CrClTo work out CrCl  Takes into accountTakes into account Patients Age, Gender,Patients Age, Gender, Ideal Weight (Kg) SerumIdeal Weight (Kg) Serum Creatanine (μmol/L) fromCreatanine (μmol/L) from last 24hrslast 24hrs  Use the equationUse the equation ((140-Age) x (ideal weight) /((140-Age) x (ideal weight) / Cr) x1.23(male) = CrClCr) x1.23(male) = CrCl ((140-Age) x (ideal weight) /((140-Age) x (ideal weight) / Cr) x1.04(female) = CrClCr) x1.04(female) = CrCl Use STH treatment ofUse STH treatment of Thromboembolic DiseaseThromboembolic Disease Dalteparin PrescriptionDalteparin Prescription ChartChart
ExamplesExamples Eg Age 67 yrsEg Age 67 yrs Gender - MaleGender - Male Ideal Weight 85KgIdeal Weight 85Kg Cr 73 μmol/LCr 73 μmol/L Eg (140-67 = 73)Eg (140-67 = 73)  73 x 85 = 620573 x 85 = 6205  6205/ 73 =856205/ 73 =85 85 x 1.23 = 104.ml/min85 x 1.23 = 104.ml/min So, 18 000 iu Dalteparin once per day as CrCl > 30ml/minSo, 18 000 iu Dalteparin once per day as CrCl > 30ml/min Age 85 yrsAge 85 yrs Gender – FemaleGender – Female Ideal Weight 60KgIdeal Weight 60Kg Cr – 160 μmol/LCr – 160 μmol/L (140-85 = 55)(140-85 = 55)  55 x 60 = 330055 x 60 = 3300  3300 / 160 = 20.63300 / 160 = 20.6  20.6 x 1.04 =20.6 x 1.04 = 21.24ml/min21.24ml/min So, 5000iu Dalteparin am and 5000iu Dalteparin pm as CrCl 20-29ml/minSo, 5000iu Dalteparin am and 5000iu Dalteparin pm as CrCl 20-29ml/min If patient weighed more than 100Kg split dose if CrCl ≥30ml/minIf patient weighed more than 100Kg split dose if CrCl ≥30ml/min
Slow ActingSlow Acting  Slow – Vitamin K antagonistsSlow – Vitamin K antagonists eg warfarin 5mg po odeg warfarin 5mg po od Affects factors 2, 7, 9, 10, C and SAffects factors 2, 7, 9, 10, C and S If started on 10mg po od can get a drop inIf started on 10mg po od can get a drop in protein C and S (shortest acting vitamin Kprotein C and S (shortest acting vitamin K dependent factors), which can cause adependent factors), which can cause a hyper-coaguable statehyper-coaguable state Takes 2-3 days to reach desired level shownTakes 2-3 days to reach desired level shown by INR of 2-3by INR of 2-3 If any medication changes, check INR as canIf any medication changes, check INR as can be affectedbe affected
PreventionPrevention  Bilateral Lower ExtremityBilateral Lower Extremity Sequential CompressionSequential Compression DevicesDevices TEDs and FlowtronsTEDs and Flowtrons When the legs areWhen the legs are squeezed the veins release asqueezed the veins release a factor which thins the bloodfactor which thins the blood stopping clot formation,stopping clot formation, the rhythmic motion copiesthe rhythmic motion copies that of leg movementthat of leg movement  ThromboprophylaxisThromboprophylaxis DalteparinDalteparin
Genetic Blood TestsGenetic Blood Tests  25-50% of patients with VTE have an inherited disorder25-50% of patients with VTE have an inherited disorder  There are genetic causes of metabolism which may be tested forThere are genetic causes of metabolism which may be tested for - Factor V Leiden – causes increased clotting as variant cannot beFactor V Leiden – causes increased clotting as variant cannot be inactivated by Factor Protein C (5% of popinactivated by Factor Protein C (5% of popnn and 20% of pts withand 20% of pts with thrombus)thrombus) - Factor Protein C Deficiency – results in normal cleaving of FactorFactor Protein C Deficiency – results in normal cleaving of Factor Va and Factor VIIIaVa and Factor VIIIa - 20210 (prothrombin) Mutation – 2-3 times risk of clot formation20210 (prothrombin) Mutation – 2-3 times risk of clot formation - MTHMFR affects regulation of homocysteineMTHMFR affects regulation of homocysteine - Lupus anticoagulant- prothrombotic agent which can causeLupus anticoagulant- prothrombotic agent which can cause inappropriate clottinginappropriate clotting - Anti phospholipid antibody – confused autoimmune responseAnti phospholipid antibody – confused autoimmune response If any of these are positive and patient has a clot then may needIf any of these are positive and patient has a clot then may need treatment for longertreatment for longer
So, RememberSo, Remember

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Pulmonary Embolism - (PE)

  • 1.
  • 2.
    Learning OutcomesLearning Outcomes CausesCauses  DiagnosisDiagnosis  Risk FactorsRisk Factors  TreatmentTreatment
  • 3.
    Blood flow tothe lungsBlood flow to the lungs  Venous system fromVenous system from upper and lower partsupper and lower parts of the body drains intoof the body drains into the right atrium andthe right atrium and then pumped into thethen pumped into the right ventricleright ventricle  The right ventricleThe right ventricle pumps blood to thepumps blood to the lungslungs
  • 4.
    The Clot TravelsTheClot Travels  So if a clot occurs in anySo if a clot occurs in any vein it will eventually (if itvein it will eventually (if it breaks free) end up in thebreaks free) end up in the right side of the heartright side of the heart  The heart then pumps itThe heart then pumps it into the pulmonaryinto the pulmonary arteriesarteries  As the pulmonary arteryAs the pulmonary artery becomes smaller, thebecomes smaller, the blood clot will becomeblood clot will become caught in the lungs. Thiscaught in the lungs. This is a Pulmonary Embolismis a Pulmonary Embolism
  • 5.
    Lung Blood FlowLungBlood Flow  Typically there isTypically there is more flow to the lowermore flow to the lower area of the lungs, duearea of the lungs, due to gravityto gravity  PEs can occurPEs can occur anywhere in the lung,anywhere in the lung, but more are seen inbut more are seen in the lower portion thanthe lower portion than upper portionupper portion  No preference toNo preference to which side it occurswhich side it occurs
  • 6.
    Saddle EmbolusSaddle Embolus This is where a clotThis is where a clot occurs at the point ofoccurs at the point of the pulmonary arterythe pulmonary artery branchingbranching  This can be fatal, dueThis can be fatal, due to the large amount ofto the large amount of blood flow that isblood flow that is inhibitedinhibited
  • 7.
    Incidence of PEIncidenceof PE  In the UK, PE occurs in 3-4 per 10 000In the UK, PE occurs in 3-4 per 10 000 peoplepeople  This could be possibly higher as this isThis could be possibly higher as this is only based on clinical dataonly based on clinical data  Between 2005-2008 it was mentioned onBetween 2005-2008 it was mentioned on the death certificates of 12 - 13 000the death certificates of 12 - 13 000 peoplepeople  It is thought that this figure could be asIt is thought that this figure could be as high as 60 000 per year in the UKhigh as 60 000 per year in the UK (NICE 2013)(NICE 2013)
  • 8.
    DiagnosingDiagnosing  A largenumber ofA large number of patients arepatients are misdiagnosed andmisdiagnosed and only found to have aonly found to have a PE on autopsyPE on autopsy  We can test for themWe can test for them but results can comebut results can come back as negative (orback as negative (or inconclusive)inconclusive)
  • 9.
    DiagnosingDiagnosing  Most PEscome fromMost PEs come from Deep VenousDeep Venous Thrombosis (DVT)Thrombosis (DVT)  Most DVTs (75%) comeMost DVTs (75%) come from the legs,from the legs,  20% of clots embolise20% of clots embolise with higher incidencewith higher incidence above the knee ratherabove the knee rather than belowthan below  The emboli travel via theThe emboli travel via the Inferior Vena Cava (IVC),Inferior Vena Cava (IVC), to the heart, to the lungsto the heart, to the lungs PEPE
  • 10.
     In thelungs the blood clotIn the lungs the blood clot gets lodged in thegets lodged in the pulmonary artery, sopulmonary artery, so there is no morethere is no more perfusion to that area ofperfusion to that area of lung, thus ventilationlung, thus ventilation occurs without perfusionoccurs without perfusion forming a dead spaceforming a dead space  The blood that shouldThe blood that should have gone to that area ishave gone to that area is then diverted to otherthen diverted to other areas of the lung, thisareas of the lung, this causes a V/Q Mismatchcauses a V/Q Mismatch
  • 11.
    Lung InfarctLung Infarct There is also an increaseThere is also an increase in resistance to bloodin resistance to blood flow, this can cause aflow, this can cause a cardiac arrestcardiac arrest  The lungs may infarct, butThe lungs may infarct, but this is difficult due to thethis is difficult due to the dual blood supply, fromdual blood supply, from both the pulmonary arteryboth the pulmonary artery and also from the aorta,and also from the aorta, as it sends branches toas it sends branches to the lungthe lung
  • 12.
    Risk FactorsRisk Factors Orthopaedic Procedure – THR, TKR, #sOrthopaedic Procedure – THR, TKR, #s Lack of mobilisationLack of mobilisation  No thrombo-prophylaxis – TEDS, Flowtrons,No thrombo-prophylaxis – TEDS, Flowtrons, Dalteparin , WarfarinDalteparin , Warfarin  Abdo / Pelvic surgery - especially for CaAbdo / Pelvic surgery - especially for Ca  ObesityObesity  Women >30yrs on oral contraceptive who smokeWomen >30yrs on oral contraceptive who smoke  Hyper-coaguable state – Protein C & S deficiencies,Hyper-coaguable state – Protein C & S deficiencies, Factor V LeidenFactor V Leiden  PregnancyPregnancy
  • 13.
    SymptomsSymptoms  May benormalMay be normal  TachycardiaTachycardia  AFAF  Reduced chest movementReduced chest movement (due to pain)(due to pain)  TachypnoeaTachypnoea  Pleural rubPleural rub  Haemoptysis (especially inHaemoptysis (especially in lung infarction)lung infarction)  Low grade feverLow grade fever  Signs of DVTSigns of DVT  PP22 Sound,Sound,  Right Heart failure-Right Heart failure- CO,CO, JVP,JVP, BP and PerfusionBP and Perfusion PressurePressure
  • 14.
    DiagnosisDiagnosis  ABG –ABG– pH /pH /  pCOpCO22//  pOpO22 (or lower normal range)(or lower normal range)  Respiratory AlkalosisRespiratory Alkalosis   pOpO22 due to V/Q Mismatchdue to V/Q Mismatch   pCOpCO22 due to tachypnoea (trying to make room for Odue to tachypnoea (trying to make room for O2)2)  Alveolar-arterial oxygen (A-a) gradientAlveolar-arterial oxygen (A-a) gradient  PPAAOO22 - P- PaaOO22  Alone they are not diagnostic of pulmonary embolismAlone they are not diagnostic of pulmonary embolism (PE), but they may be useful in excluding the diagnosis(PE), but they may be useful in excluding the diagnosis of PE if their values fall within the normal rangeof PE if their values fall within the normal range
  • 15.
    Alveolar-arterial oxygen (A-a)Alveolar-arterialoxygen (A-a) gradientgradient  PPAAOO22 - P- PaaOO22 should equal (Age (years) / 4) + 4should equal (Age (years) / 4) + 4  PPAAOO22 = [(F= [(FiiOO22) x (760 – 47)] – (P) x (760 – 47)] – (PaaCOCO22 / 0.8)/ 0.8) Barometric Pressure = 760mmHgBarometric Pressure = 760mmHg Water Vapour Pressure = 47mmHgWater Vapour Pressure = 47mmHg Respiratory Coefficient = 0.8Respiratory Coefficient = 0.8 UseUsePPaaOO22 andandPPaaCOCO22 in mmHg not KPain mmHg not KPa Eg 40 Yr old,Eg 40 Yr old, FFiiOO22 0.60.6 PPaaCOCO22 32.5 mmHg32.5 mmHg (4.27KPa)(4.27KPa) PPaaOO22 65 mmHg (8.55KPa)65 mmHg (8.55KPa) PPAAOO22 =(0.6 x 713) – 40.6 = 387.2=(0.6 x 713) – 40.6 = 387.2 PPAAOO22 - P- PaaOO22 = 387.2 – 65 = 322.2= 387.2 – 65 = 322.2 (40/4) = 10 (+4) = 14(40/4) = 10 (+4) = 14 Therefore 322.2 > 14Therefore 322.2 > 14 So if the A-a gradient > 14 it may be indicative of a PESo if the A-a gradient > 14 it may be indicative of a PE
  • 16.
    Chest X-rayChest X-ray Chest X ray – most common finding with aChest X ray – most common finding with a PE is a normal x-rayPE is a normal x-ray  But they are useful as X-rays help to ruleBut they are useful as X-rays help to rule out pneumonia and pneumothorax asout pneumonia and pneumothorax as causes of dyspnoea etccauses of dyspnoea etc  Possible signs indicating a PE are asPossible signs indicating a PE are as followsfollows
  • 17.
    Hamptons HumpHamptons Hump Not always seenNot always seen  Wedged shapedWedged shaped pleural based lesionpleural based lesion  PE in one areaPE in one area (Bottom arrow) and(Bottom arrow) and everywhere else iseverywhere else is infarctinfarct  Causes pleurisy,Causes pleurisy, irritationirritation
  • 18.
    Westermark SignWestermark Sign On this X-ray PE is inOn this X-ray PE is in Left lungLeft lung  Increase in blood flowIncrease in blood flow to right side.to right side.  Minimal blood flowMinimal blood flow seen to Left lungseen to Left lung  So the side that looksSo the side that looks clearer is the sideclearer is the side with reduced bloodwith reduced blood flow, therefore the clotflow, therefore the clot
  • 19.
    ECGECG  SSIIQQIIIIIITTIIIIII  Canbe seen in anyCan be seen in any cor-pulmonalecor-pulmonale syndrome wheresyndrome where pulmonary arterypulmonary artery systolic pressure issystolic pressure is elevatedelevated  Eg Normal PQRSTEg Normal PQRST
  • 20.
    ECGECG  LeadLead II Exaggerated S waveExaggerated S wave  LeadLead IIIIII  Exaggerated Q waveExaggerated Q wave  T Wave inversionT Wave inversion  Not specific to PE, butNot specific to PE, but gets you to possibly thinkgets you to possibly think of the diagnosisof the diagnosis
  • 21.
    ECG – PrecordialLeadsECG – Precordial Leads  Peaked T wavesPeaked T waves  V1-V4V1-V4  Makes you think about :-Makes you think about :- Right Heart Strain,Right Heart Strain, PE, Cor-pulmonalePE, Cor-pulmonale  Tachycardia nearlyTachycardia nearly always seen in PE butalways seen in PE but also most other problemsalso most other problems so non-specificso non-specific
  • 22.
    D-dimerD-dimer  By-product offibrinBy-product of fibrin degradationdegradation  As clot degraded byAs clot degraded by enzymes, Fibrinenzymes, Fibrin Degradation ProductsDegradation Products (FDP) are released, one(FDP) are released, one of these is the D-dimerof these is the D-dimer  Little clots in body releaseLittle clots in body release D-dimers, therefore if testD-dimers, therefore if test +ve - do not know if it is+ve - do not know if it is from a PE,from a PE,  But test is so sensitiveBut test is so sensitive that if no D-dimer ( –ve)that if no D-dimer ( –ve) you can rule out PEyou can rule out PE
  • 23.
    UltrasoundUltrasound  Non-invasiveNon-invasive  Looksat lower limbsLooks at lower limbs  Doppler USS looks atDoppler USS looks at vein for flow andvein for flow and compressibilty to seecompressibilty to see if clot presentif clot present
  • 24.
    USS ResultsUSS Results If +ve for DVT and patient hasIf +ve for DVT and patient has respiratory distress symptomsrespiratory distress symptoms you can rule in a PE, since theyou can rule in a PE, since the DVTs can embolise easily andDVTs can embolise easily and enter the lungs causingenter the lungs causing respiratory problemsrespiratory problems  If -ve for DVT, unsure whetherIf -ve for DVT, unsure whether there is a PE or not, as a clotthere is a PE or not, as a clot from other part of body mayfrom other part of body may have embolised the lung, or ahave embolised the lung, or a whole DVT may have travelledwhole DVT may have travelled to the lungto the lung  So a –ve result does not give aSo a –ve result does not give a thorough answer, whilst a +vethorough answer, whilst a +ve result may rule it inresult may rule it in
  • 25.
    ECHOECHO  Sometimes beneficialSometimesbeneficial  The right ventricleThe right ventricle pumps blood to lungspumps blood to lungs  If clot is present theIf clot is present the pressure at site of clotpressure at site of clot increases and soincreases and so does the pressure indoes the pressure in the right ventriclethe right ventricle
  • 26.
    ECHOECHO  The severityof this PulmonaryThe severity of this Pulmonary Artery Pressure (PAP) and theArtery Pressure (PAP) and the severity of the clot, is found byseverity of the clot, is found by looking at the tricuspid valvelooking at the tricuspid valve and noting how much regurgeand noting how much regurge occurs (Tricuspid jet)occurs (Tricuspid jet)  If tricuspid jet is high then PAPIf tricuspid jet is high then PAP differential between RA anddifferential between RA and RV is great and the clot burdenRV is great and the clot burden is largeis large  All these tests may help in theAll these tests may help in the possible diagnosis of a PE, butpossible diagnosis of a PE, but are not definitive testsare not definitive tests
  • 27.
    VQ ScanVQ Scan Nuclear medicine scanNuclear medicine scan  Looks at perfusion and ventilationLooks at perfusion and ventilation  In pneumonia for example, you would getIn pneumonia for example, you would get decreased perfusion and decreased ventilationdecreased perfusion and decreased ventilation due to the purulent material present this is adue to the purulent material present this is a “Matched Deficit”“Matched Deficit”  In a PE there is decreased perfusion of the lungIn a PE there is decreased perfusion of the lung in the area but ventilation remains the same thisin the area but ventilation remains the same this is an “Unmatched Deficit”is an “Unmatched Deficit”  Does Not affect patient in renal failureDoes Not affect patient in renal failure  Impaired view if patient has pneumonia etcImpaired view if patient has pneumonia etc
  • 28.
    VQ ScanVQ Scan The patients ventilation isThe patients ventilation is assessed by themassessed by them breathing in Xenonbreathing in Xenon  For perfusion the patientFor perfusion the patient is injected with Technigasis injected with Technigas (T(Tcc99mMAA)99mMAA)  Use Gamma Camera (aUse Gamma Camera (a glorified Geiger counter)glorified Geiger counter) to measure the nuclearto measure the nuclear materialmaterial
  • 29.
    Probability of PEProbabilityof PE  Normal - Full ventilationNormal - Full ventilation and perfusion seenand perfusion seen  Low Pobability for PE –Low Pobability for PE – (<20%)(<20%)  Intermediate probabilityIntermediate probability for PE-for PE- V andV and P inP in same areasame area (Matched deficit) (20-(Matched deficit) (20- 80%)80%)  High Probability for PE –High Probability for PE – Normal V andNormal V and P (Un-P (Un- Matched deficit) (>80%)Matched deficit) (>80%)
  • 30.
    CTPACTPA  Contrast injectedinto body,Contrast injected into body,  CT Scan obtained as this isCT Scan obtained as this is occurringoccurring  Vessels viewed on end andVessels viewed on end and seen if they light up withseen if they light up with contrast.contrast.  If only partially light up withIf only partially light up with contrast there may be a bloodcontrast there may be a blood clot present stopping flowclot present stopping flow  Do not use if in renal failureDo not use if in renal failure ((Creatanine) (could useCreatanine) (could use HCOHCO33 cover to stopcover to stop nephrotoxic effect of contrast)nephrotoxic effect of contrast)  Unlike VQ Scan if patient hasUnlike VQ Scan if patient has a pneumonia it will not affecta pneumonia it will not affect resultsresults
  • 31.
    CTPACTPA  In 2006‘The Christopher Study’ showed that ifIn 2006 ‘The Christopher Study’ showed that if you perform a CTPA that was negative for ayou perform a CTPA that was negative for a blood clot with a –ve D-dimer result, it wasblood clot with a –ve D-dimer result, it was shown to be safe to withhold anticoagulation,shown to be safe to withhold anticoagulation, this supports the reasoning that you should notthis supports the reasoning that you should not do a repeat CT scan if first found to be –ve for ado a repeat CT scan if first found to be –ve for a clotclot  The CTPA is the test of choice for diagnosis ofThe CTPA is the test of choice for diagnosis of PE, if unable to perform this due toPE, if unable to perform this due to Creatanine, the next choice would be a VQCreatanine, the next choice would be a VQ Scan.Scan.  BUT, these are not the ‘Gold Standard’BUT, these are not the ‘Gold Standard’
  • 32.
    Gold StandardGold Standard Pulmonary Angiogram –Pulmonary Angiogram – Most accurate test, butMost accurate test, but not always best fornot always best for patient (most invasive)patient (most invasive)  Catheter inserted intoCatheter inserted into right side of the heart,right side of the heart, dye is injected directlydye is injected directly into pulmonary artery,into pulmonary artery, observed underobserved under fluoroscopyfluoroscopy  Dangerous,Dangerous,  mortality rate,mortality rate, especially in patients withespecially in patients with PEPE
  • 33.
    TreatmentTreatment  AnticoagulationAnticoagulation  EgWarfarin / HeparinEg Warfarin / Heparin -Blood thinning-Blood thinning -Prevent new clots-Prevent new clots Non-thrombolyticNon-thrombolytic treatmenttreatment  ThrombolyticsThrombolytics -Dissolve Clot,-Dissolve Clot, -not solely used for-not solely used for PE treatmentPE treatment  DVT Treatment 3-6 monthsDVT Treatment 3-6 months  PE Treatment 6-9 monthsPE Treatment 6-9 months
  • 34.
    IVC FilterIVC Filter If anticoagulationIf anticoagulation treatmenttreatment contraindicatedcontraindicated IVCIVC FilterFilter If clot travels it getsIf clot travels it gets caught in IVC Filtercaught in IVC Filter
  • 35.
    IVC FilterIVC Filter It is possible for blood clot to be caught andIt is possible for blood clot to be caught and develop in IVC filterdevelop in IVC filter  Cochrane Collaboration recommends IVC forCochrane Collaboration recommends IVC for 1.1. Recurrent PE despite use of anticoagulation,Recurrent PE despite use of anticoagulation, or in absolute contra-indication toor in absolute contra-indication to anticoagulationanticoagulation 2.2. Proximal DVT with massive pulmonaryProximal DVT with massive pulmonary thrombosis – next one could kill patientthrombosis – next one could kill patient 3.3. Trauma Patient – needing operationTrauma Patient – needing operation
  • 36.
    AnticoagulationAnticoagulation  Ideally startFast acting and slow acting anticoagulants,Ideally start Fast acting and slow acting anticoagulants, when slow acting anticoagulants at desired level, stopwhen slow acting anticoagulants at desired level, stop fast actingfast acting  Fast acting -Heparin productsFast acting -Heparin products Heparin (IV) orHeparin (IV) or Low Molecular Weight Heparin (S/C)Low Molecular Weight Heparin (S/C)  Slow acting – Vitamin K AntagonistsSlow acting – Vitamin K Antagonists WarfarinWarfarin
  • 37.
    Fast ActingFast Acting Heparin productsHeparin products IV HeparinIV Heparin Aim for therapeutic APTTAim for therapeutic APTT Can be startedCan be started immediatelyimmediately Quick AnticoagulationQuick Anticoagulation actionaction If bleeding occurs canIf bleeding occurs can stop it and reducedstop it and reduced effects occur within feweffects occur within few hours as it has a shorthours as it has a short half life (45-60min)half life (45-60min)
  • 38.
    Heparin InducedHeparin Induced ThrombocytopaeniaThrombocytopaenia Cancause highest incidence of HITCan cause highest incidence of HIT -Usually occurs 5-14 days after starting-Usually occurs 5-14 days after starting HeparinHeparin (even if discontinued) or sooner if previously had(even if discontinued) or sooner if previously had heparinheparin -Immune response to heparin-Immune response to heparin -Antibodies combine with heparin and platelets-Antibodies combine with heparin and platelets causing platelet activation of microparticles whichcausing platelet activation of microparticles which initiate the formation of blood clots; the plateletinitiate the formation of blood clots; the platelet count falls as a result, So,count falls as a result, So, -Platelet count drops by >50%-Platelet count drops by >50% -Get hyper-coaguable state, get more clotting-Get hyper-coaguable state, get more clotting even though platelet count loweven though platelet count low -If this occurs change from heparin products-If this occurs change from heparin products
  • 39.
    Fast ActingFast Acting Low Molecular Weight Heparin (SC)Low Molecular Weight Heparin (SC) Eg clexane, dalteparin, fondaparinuxEg clexane, dalteparin, fondaparinux Give twice per day dependent on Creatanine Clearance (CrCl)Give twice per day dependent on Creatanine Clearance (CrCl) (20-29ml/min)(20-29ml/min) Or if CrCl ≥30ml/min give once a dayOr if CrCl ≥30ml/min give once a day Problem is if given, anticoagulation is present for next 12 orProblem is if given, anticoagulation is present for next 12 or 24hrs (as half life is four times as long as heparin, about 4 hrs)24hrs (as half life is four times as long as heparin, about 4 hrs) Incidence of HIT is lower than IV HeparinIncidence of HIT is lower than IV Heparin Easy and quick to administerEasy and quick to administer  Also available is rivaroxaban, a fast acting oral medication, TheAlso available is rivaroxaban, a fast acting oral medication, The effects lasts 8 to 12 hours, but factor Xa activity does not return toeffects lasts 8 to 12 hours, but factor Xa activity does not return to normal within 24 hours so once-daily dosing is possible.normal within 24 hours so once-daily dosing is possible.
  • 40.
    To work outCrClTo work out CrCl  Takes into accountTakes into account Patients Age, Gender,Patients Age, Gender, Ideal Weight (Kg) SerumIdeal Weight (Kg) Serum Creatanine (μmol/L) fromCreatanine (μmol/L) from last 24hrslast 24hrs  Use the equationUse the equation ((140-Age) x (ideal weight) /((140-Age) x (ideal weight) / Cr) x1.23(male) = CrClCr) x1.23(male) = CrCl ((140-Age) x (ideal weight) /((140-Age) x (ideal weight) / Cr) x1.04(female) = CrClCr) x1.04(female) = CrCl Use STH treatment ofUse STH treatment of Thromboembolic DiseaseThromboembolic Disease Dalteparin PrescriptionDalteparin Prescription ChartChart
  • 41.
    ExamplesExamples Eg Age 67yrsEg Age 67 yrs Gender - MaleGender - Male Ideal Weight 85KgIdeal Weight 85Kg Cr 73 μmol/LCr 73 μmol/L Eg (140-67 = 73)Eg (140-67 = 73)  73 x 85 = 620573 x 85 = 6205  6205/ 73 =856205/ 73 =85 85 x 1.23 = 104.ml/min85 x 1.23 = 104.ml/min So, 18 000 iu Dalteparin once per day as CrCl > 30ml/minSo, 18 000 iu Dalteparin once per day as CrCl > 30ml/min Age 85 yrsAge 85 yrs Gender – FemaleGender – Female Ideal Weight 60KgIdeal Weight 60Kg Cr – 160 μmol/LCr – 160 μmol/L (140-85 = 55)(140-85 = 55)  55 x 60 = 330055 x 60 = 3300  3300 / 160 = 20.63300 / 160 = 20.6  20.6 x 1.04 =20.6 x 1.04 = 21.24ml/min21.24ml/min So, 5000iu Dalteparin am and 5000iu Dalteparin pm as CrCl 20-29ml/minSo, 5000iu Dalteparin am and 5000iu Dalteparin pm as CrCl 20-29ml/min If patient weighed more than 100Kg split dose if CrCl ≥30ml/minIf patient weighed more than 100Kg split dose if CrCl ≥30ml/min
  • 42.
    Slow ActingSlow Acting Slow – Vitamin K antagonistsSlow – Vitamin K antagonists eg warfarin 5mg po odeg warfarin 5mg po od Affects factors 2, 7, 9, 10, C and SAffects factors 2, 7, 9, 10, C and S If started on 10mg po od can get a drop inIf started on 10mg po od can get a drop in protein C and S (shortest acting vitamin Kprotein C and S (shortest acting vitamin K dependent factors), which can cause adependent factors), which can cause a hyper-coaguable statehyper-coaguable state Takes 2-3 days to reach desired level shownTakes 2-3 days to reach desired level shown by INR of 2-3by INR of 2-3 If any medication changes, check INR as canIf any medication changes, check INR as can be affectedbe affected
  • 43.
    PreventionPrevention  Bilateral LowerExtremityBilateral Lower Extremity Sequential CompressionSequential Compression DevicesDevices TEDs and FlowtronsTEDs and Flowtrons When the legs areWhen the legs are squeezed the veins release asqueezed the veins release a factor which thins the bloodfactor which thins the blood stopping clot formation,stopping clot formation, the rhythmic motion copiesthe rhythmic motion copies that of leg movementthat of leg movement  ThromboprophylaxisThromboprophylaxis DalteparinDalteparin
  • 44.
    Genetic Blood TestsGeneticBlood Tests  25-50% of patients with VTE have an inherited disorder25-50% of patients with VTE have an inherited disorder  There are genetic causes of metabolism which may be tested forThere are genetic causes of metabolism which may be tested for - Factor V Leiden – causes increased clotting as variant cannot beFactor V Leiden – causes increased clotting as variant cannot be inactivated by Factor Protein C (5% of popinactivated by Factor Protein C (5% of popnn and 20% of pts withand 20% of pts with thrombus)thrombus) - Factor Protein C Deficiency – results in normal cleaving of FactorFactor Protein C Deficiency – results in normal cleaving of Factor Va and Factor VIIIaVa and Factor VIIIa - 20210 (prothrombin) Mutation – 2-3 times risk of clot formation20210 (prothrombin) Mutation – 2-3 times risk of clot formation - MTHMFR affects regulation of homocysteineMTHMFR affects regulation of homocysteine - Lupus anticoagulant- prothrombotic agent which can causeLupus anticoagulant- prothrombotic agent which can cause inappropriate clottinginappropriate clotting - Anti phospholipid antibody – confused autoimmune responseAnti phospholipid antibody – confused autoimmune response If any of these are positive and patient has a clot then may needIf any of these are positive and patient has a clot then may need treatment for longertreatment for longer
  • 45.