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Hematology
Ajay Zachariah, MD
11/20/2014
Venous Thromboembolism
DVT and PE
Venous Thromboembolism
VTE
DVT: Deep vein thrombosis
PE: Pulmonary embolus
Clinical Risk Factors
Virchow’s Triad
Stasis
Endothelial injury
Hypercoagulability
Other
Familial thrombophilia
Obesity
Previous clot
Malignancy
Pregnancy/postpartum
Rudolph Virchow (1821-1902)
Discounted the Theory of Humors
Introduced science to medicine
Father of Modern Pathology
Deep Vein Thrombosis
Pre-test Probability and Diagnosis
Deep Vein Thrombosis
Symptoms
Pain and swelling of an extremity
Usually lower extremity
Deep Vein Thrombosis
Differential Diagnosis
Cellulitis: chemical (ex, with venous insufficiency) or bacterial
Superficial thrombophlebitis: palpable, tender, superficial veins
Venous valvular insufficiency: associated with past history of DVT
Lymphedema: usually chronic problem
Popliteal (AKA Baker’s) Cyst
Distention of the bursa or posterior herniation of joint capsule, likely leaking/ruptured, causing
calf swelling.
Can be concurrent with DVT if popliteal vein is compressed
Knee Joint Pathology: (e.g. ACL tear) can cause unilateral pain, inflammation, swelling
Drug-educed edema: Ex. CCBs.
Calf muscule pull/tear: i.e. Non-Achilles tendon injury
Deep Vein Thrombosis
Well’s Criteria: Quantified Pretest Probability of DVT
Cancer: Treatment within last 6 months (+1)
Paralysis/weakness/immobilization of LE (+1)
Bedridden for > 3 days OR major surgery in past 4 weeks (+1)
Tenderness along deep veins (+1)
Entire leg swollen (+1)
Calf swollen > 3 cm compared to asymptomatic leg (+1)
Pitting edema in affected leg (+1)
Collateral non-varicose superficial veins (+1)
Alternative diagnosis more likely (-2)
Deep Vein Thrombosis
Well’s Criteria: Quantified Pretest Probability of DVT (con’t)
≥ 3: High Probability
1-2: Moderate Probability
0: Low Probability
Deep Vein Thrombosis
Diagnosis:
High Pretest Probability
Perform Venous Compression Ultrasound
If negative, repeat in 5-7 days
Moderate Pretest Probability
Low Probability
Perform Venous Compression Ultrasound
Check D-dimer to RULE OUT DVT
D-dimer
Sensitivity: 95%
Specificity: 40-60%
Venous Compression Ultrasound
94% Positive Predictive Value (chance that a positive result is a true positive)
Source: Up To Date
Know your allergies…
Pulmonary Embolism
Pre-test Probability and Diagnosis
Pulmonary Embolism: Diagnosis
Symptoms
Non-specific EKG, CXR, symptoms, physical findings.
Pulse Ox, pO2 not particularly useful
Classic symptoms
Pleuritic chest pain
Dyspnea
Tachycardia
Hemoptysis
Cough
Symptoms of DVT
Pulmonary Embolism: Diagnosis
Modified Well’s Criteria: Quantified Pretest Probability of PE
Symptoms of DVT (+3)
Other diagnosis less likely (+3)
HR > 100 (+1.5)
Immobilization or surgery in last 4 weeks (+1.5)
Previous DVT/PE (+1.5)
Hemoptysis (+1)
Malignancy (+1)
Pulmonary Embolism: Diagnosis
Modified Well’s Criteria: Quantified Pretest Probability of PE (con’t)
>6: High
2-6: Moderate
<2: Low
Pulmonary Embolism: Diagnosis
Diagnosis: Base on pretest probability
Low: Check D-dimer
Low: Rules out PE
High: Check Spiral CT
Moderate or High:
Pulmonary angiography (gold standard): not recommended as first choice imaging
Spiral CT: High sensitivity and specificity
Pulmonary Embolism: V/Q Scan
Ventilation/Perfusion Lung Scan
Uses medical isotopes to evaluate flow of blood and air in the lungs.
Indications: renal failure, contrast allergy
V/Q Scan Probability Results [PIOPED (1994): 933 patients]
Normal: Rules out PE regardless of Well’s score
Low
4% chance of PE
If low Well’s score, PE ruled out
High
95% chance of PE
If high Well’s score, PE confirmed
All other combinations equivocal
Pulmonary Embolism: V/Q Scan
V/Q Normal
V/Q Low
V/Q High
Well’s Low
PE Ruled out
PE Ruled out
Equivocal
Well’s Mod
PE Ruled out
Equivocal
Equivocal
Well’s High
PE Ruled out
Equivocal
PE Confirmed
Equivocal requires either angiography or other imaging.
Next June…
Management of VTE
Further Work-up and Treatment
Further Work Up After VTE Diagnosis
Malignancy
Patient has 1.3x expected cancer risk
Work up for cancer:
Complete H&P
Rectal and pelvic exams
Labs: CBC, LFT’s, CXR, stool guaiac
Patient will NOT need aggressive cancer screening
Thrombophilia
Screen if diagnosed prior to age 50
History: Family, past VTE
Unusual vascular beds
Warfarin-induced skin necrosis
Labs: Protein C/S, fibrinogen, antithrombin III, Factor V Leiden, Lupus anticoagulant,
anticardiolipin, prothrombin gene mutation
Warfarin-Induced Skin Necrosis
Acquired protein C deficiency from Warfarin use
Treatment of VTE
Treatment is usually outpatient
Criteria for inpatient treatment
Massive DVT
Symptomatic PE
High bleeding risk
Co-morbidities requiring hospitalization
Contraindications
Active Hemorrhage
Platelets < 50,000
Prior history of intracerebral hemorrhage
Treatment of VTE
Lovenox (LMWH) (> Unfractionated Heparin)
Decreased mortality/bleeds
Greater duration of action
Lower risk of HIT
No monitoring
Contraindications: Pork allergy (Lovenox made from intestinal mucosa of pigs)
Unfractionated heparin
Monitor aPTT: must be between 1.5 and 2.5
Monitor platelets: HIT
Heparin can be made from pig intestines or cattle lungs.
Treatment of VTE
Warfarin
Start on day 1 of treatment
INR must be therapeutic (2.0-3.0) for > 24 hours (i.e. two consecutive
measurements) before stopping Lovenox
Duration of Treatment
First VTE 3-6 months
Recurrent VTE: >12 months
Treatment of DVT
Compression stockings
Start within 1 month, then continue for at least 1 year
Prevention of post-thrombotic syndrome (~50% incidence)
Pain
Heaviness
Itching/tingling
Edema
Varicose veins
Skin discoloration
Ulcers
Treatment of DVT
Duration of therapy (first time)
Unprovoked
Calf: 3 months
Proximal (above propliteal vein): 3-6 months
Provoked DVT
Do not exceed 3 months
Treatment of PE
Hemodynamic stabilization
Maintain oxygenation
IVC Filter if anticoagulation is contraindicated
Can be done as outpatient if patient stable and does not require supp. O2
Indications for thrombolysis or embolectomy
Strong indication: Hemodynamically unstable
Weak indications
Right ventricular dysfunction ("submassive PE")
Cardiopulmonary resuscitation
Extensive clot burden: large perfusion or extensive embolus
Severe hypoxemia
Free-floating right atrial or ventricular thrombus
Patent foramen ovale
Treatment of PE
Newer anticoagulants: studies in progress, no labs, no antidote
Pradaxa: Direct thrombin inhibitor
Xarelto: Factor Xa inhibitor
Duration of therapy (first time)
Unprovoked: 3-6 months
Provoked: Do not exceed 3 months.
When placing a foley…
VTE in Pregnancy
Diagnosis and Treatment
Epidemiology of VTE in Pregnancy
Risk
Increases 5x with pregnancy
1/1600 pregnancies
Period of risk is both before AND after delivery
PE most common post partum
If pregnant woman has VTE, 20-50% have underlying thrombophilia
VTE increases risk 3-4 times for subsequent pregnancies
PE in Pregnancy
Evaluation
Do not use d-dimer due to persistent elevation
Aim is to reduce radiation exposure
First, perform CXR (ACOG guidelines)
Looking for
Westermark Sign: Vessel collapse
Hampton’s Hump: Wedge opacity
Normal: Perform V/Q scan
Abnormal: Perform CT
VTE Teatment in Pregnancy
Heparin and Lovenox do not cross placental barrier.
Heparin: Increase dose due to binding proteins, renal clearance, etc
Lovenox: Increase dosing interval due to longer half life.
Warfarin crosses the placental barrier
Highly teratogenic. DO NOT USE during pregnancy.
Breast feeding
Anticoagulants do not cross into breast milk
VTE Teatment in Pregnancy
Start with Lovenox
Convert to unfractionated heparin during last month of gestation
After delivery
Start with compression stockings
Vaginal delivery: restart anticoagulation after 4-6 hours
C-section: restart anticoagulation after 6-12 hours
Warfarin for 6 weeks to 6 months
Overly-attached vertebral body…
Anemia
Causes and Features to Evaluate
Causes: Kinetic Approach
Decreased RBC production
Deficiency of substrate (e.g. iron, protein)
Suppression/disorder of marrow (e.g. anti-neoplastics, myelodysplasia)
Decreased hormonal stimulation (i.e. erythropoietin)
Chronic illness (i.e. anemia of chronic disease)
Increased RBC destruction
Hemolysis
Inherited (e.g. sickle cell)
Acquired (e.g. CLL, SLE)
Bleeding
Occult (e.g. UGIB)
Obvious (e.g. trauma)
Workup: Morphologic Approach
CBC
Mean Corpuscular Volume (MCV)
Mean Corpuscular Hemoglobin (MCH)
Mean Corpuscular Hemoglobin Concentration (MCHC)
Hypochromic (e.g. iron deficiency)
Normochromic (e.g. B12 deficiency)
Hyperchromic (e.g. hereditary spherocytosis, sickle cell disease)
Red Cell Distribution Width (RDW)
High RDW = anisocytosis
Used to indicate mixed causes (e.g. iron deficiency + B12 defiency)
Workup: Morphologic Approach
Macrocytic
MCV > 100
Causes
B12/folate deficiency
Myelodysplasia
EtOH abuse
Liver disease
Hypothyroidism
Workup: Morphologic Approach
Microcytic
MCV < 80
Causes
Iron Deficiency
Decreased Heme Synthesis
Lead toxicity
Sideroblastic anemia
Decreased Globin Synthesis
Thalassemia
Hemoglobinopathy
Chronic Illness
Unlikely but possible
More likely to be normocytic)
Workup: Morphologic Approach
Normocytic
MCV 80-100
Causes
Acute blood loss
Acute hemolysis
Hypersplenism
Chronic Illness
Iron Deficiency Anemia
Iron Studies
Low Iron
High TIBC
Low Ferritin
Causes
Low intake
Chronic Blood loss
Menstrual
GI (malignancy or otherwise)
Iron Deficiency Anemia
Treatment
FeSO4 325mg PO TID
Duration: 3 months after H/H is normal
Increase absorption
Acids
Vitamin C
Avoid
Calcium, Magnesium, Tea
Caution patient about nausea, constipation, dark stools
Megaloblastic Anemia
Causes
Deficiency: B12, Folate
Elevated: Methylmalonic acid
Symptoms/Signs
Glossitis
Anorexia
Diarrhea
Signs of Posterior Column Degeneration (with B12 deficiency)
Paresthesias
Ataxia
Weakness
Upward Babinski
ER Hires ‘Dilaudid Nazi’ to
Dispense (or not) Dispense
Narcotics
Sickle Cell Disease
Pathology and Management
Sickle Cell Disease: Pathology
Hemoglobin S
Diagnostic of disease
Detected with hemoglobin electrophoresis
Genetics
Homozygous: Sickle Cell Disease
Heterozygous: Sickle Cell Trait
Sickling
Poor solubility when HbS is deoxygenated
Polymerization of HbS, deforming RBCs
Presents in life after fetal hemoglobin has decreased
Sickle Cell Disease: Complications
Anemia
Elevated reticulocytes
MCV normal/high
Causes
Intravascular hemolysis
Splenic Sequestration: sudden acute anemia
Vaso-occlusive events
Muscular pain
CVA
Renal infarction
Priapism
Retinopathy
Sickle Cell Disease: Complications
Infection
Pneumococcus
Haemopilus
Salmonella
Aplastic crisis from Parvovirus B19 bone marrow suppression
Acute chest syndrome
Pneumonia
Infarct
Sickle Cell Disease: Management
Immunizations
Strep. pneumoniae
Neisseria meningitidis
H. influenzae, type B (HiB)
Hepatitis B
Annual Influenza
Antibiotics Prophylaxis
Age 3 months to 3 years: Penicillin V PO 125mg BID
Age 3 years to 5 years: Penicillin V PO 250mg BID
> Age 5: Case-by-case. Discuss with specialist
Hemophilia
Genetics and Pathology
Hemophilia
X-linked recessive: Predominantly affects males
Types
Hemophilia A: Factor VIII Deficiency
Hemophilia B: Factor IX Deficiency
Usually first symptoms occur before age 2
Not always diagnosed at circumcision
Bleeding
Muscles
Hematuria
GI
Epistaxis/oral
Joints: leads to arthritis
Can be treated with factor concentrates
Thrombotic Thrombocytopenic
Purpura (TTP)
Causes, Pathology, and Treatment
Thrombotic Thrombocytopenic Purpura
(TTP): Causes
Usually idiopathic
Shiga-like toxin from E. Coli 0157:H7
ADAMTS13 (vWF protease) Deficiency
Causes platelet aggregation
Medications
Ticlopidine
Plavix
Quinine
Mitomycin
Tacrolimus
Thrombotic Thrombocytopenic Purpura
(TTP): Pathology and Treatment
Classic Pentad
Thrombocytopenia
Hemolytic Anemia (caused by microangiopathy)
Acute renal dysfunction
Neurologic Symptoms
Fever
Curative treatment with plasma exchange therapy
