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H57 Hematology Toronto Notes 2023
Bacterial Infection
• Gram-positive:S.aureus,S’
, epidermidis.Bacillus cereus
• Gram-negative: Klebsiella, Serratia, Pseudomonas, Yersinia
• overall risk is 1/100000 for RBC and 1/10000 for platelets
• neverstore blood >4 h after bag hasleft blood bank
• treatment:stop transfusion, blood cultures,IV antibiotics, fluids
Hyperkalemia
• due to K ’release from stored RBC
• risk increases with storage time and if blood isirradiated; decreases with fresh blood
• occursin 5% of massively transfused patients
• treatment:see Nephrology. NP14
Citrate Toxicity
• occurs with massive transfusion and in patients with liver disease - patients are unable to clear citrate
from blood
• citrate binds to Ca -
1
and causessigns and symptoms of hypocalcemia and exacerbates coagulopathy
• treatment IV calcium gluconate 1 g
Dilutional Coagulopathy
• occurs with massive transfusion (>10 units)
• pRBC contains no coagulation factors,fibrinogen, cryoprecipitate,or platelets
• treatment FP,cryoprecipitate,and platelets
Delayed Blood Transfusion Reactions
IMMUNE
Delayed Hemolytic
• due to alloantibodies to minor antigens such as Rh, Kell, Duffy, and Kidd
• level of Ab at time of transfusion is too low to be detected and to cause hemolysis; Ab levelsincrease
later due to secondary stimulus and causes extravascular hemolysis
• occurs 3-14 d after transfusion
• presentation:anemia and mild jaundice
• treatment no specific treatment required;important to note for future transfusion
• N.B.serologic transfusion reactions are the development of alloantibodies in the absence of frank
hemolysis
Transfusion-Associated Graft Versus Host Disease
• transfused T-lymphocytes recognize and react against “host" (recipient)
• occurs 4-30 d following transfusion
• most patients already have severely impaired immune systems (e.g. Hodgkin lymphoma or leukemia)
• presentation:fever, diarrhea, liver function abnormalities,and pancytopenia
• can be prevented by giving irradiated blood products
Allogeneic SCTGVHD
To reduce risk of GVHD development
after allogeneicSCI.administer
inhibitors of T-cefl activation,including
cyclosporin A or tacrolimus
NONIMMUNE
Iron Overload
• due to repeated transfusions overlong period of time (e.g. p-thalassemia major)
• can cause secondary hemochromatosis
• treatment iron chelators or phlebotomy if no longer requiring blood transfusion and not anemic
Viral Infection Risk
• HBV 1/7000000
• HCV 1/12000000
. HIV 1/20000000
• Human T-lvmphotropic virus (HTLV ) 1/600000000
• other infections include HBV, CM V, WNV (West Nile virus)
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H58 Hematology Toronto Notes 2023
Common Medications
Antiplatelet Therapy
• see iigurc 12a, H27
SS£
"'
h---0 -
ACTIVATED
PLATELET
Clopidogrel
Ticlopidine
Prasugrel
Ticagrelor
splltihllaR
0 2
S
! AggrenoV j
|
3
2
1/3
0 :
t
§
5
a
so
AMP DEGRANULATION
Adhesive proteins
a Prothrombotic tsctors
Proinflammatory factors
A Platelet agonists
1
-c
ACTIVATED
PLATELET
AC - adenylyl cyclase
PDE - phosphodiesterase ©
Figure 17. Mechanisms of action of antiplatelet therapy
Table 40. Antiplatelet Therapy
Mechanism of Action Typical Dose/
Route of
Administration
Onset/Peakf
Duration
Specific Side
Effects
Remarks
Aspirin5 Irreversibly acetylates COX,
inhibiting thromboxane A2|tXA2) 300 mgP0.followed Peak:0.25-3 h
synthesis,thus inhibiting platelet by dose of 75-100 mg Duration:3-6 h
P0 daily
Single loading 200- Onset:5-30 rain Gl ulceo'bleeding
Tinnitus
Bronchospasm
(platelet inhibition Angioedema
lasts 7-10 d) Reye's syndrome in
pediatric patients
Indicated for stroke/MI prophylaxis
Reduce incidence of recurrent Ml
Decrease mortality in post-MI patients
Contrandicated in patients with Glulcers
(ASA)
aggregation
Dipyridamole increases
intracellular cAMP levels.
1capsuleP0 810 Peak:75 min More effecbve than ASA in secondary prevention of stroke
Dipyridamole potentiates antiplatelet action of ASA
Aggrenox H/A
(ASA *
Dipyridamole) which inhibits TXA2 synthesis,
leading todecreased platelet
aggregation
Dyspepsia
N/V
Abdominal pain
Cardiac failure
Kemorrboids
Clopidogrel
(Plavix )
Onset:2 h
(loading dose)
Peak:6 h
(loading dose)
Duration:5 d
Irreversibiity inhibits ADP
binding toplatelets,thus
decreasedplatelet aggregation
loading dose 300
mg PO.then 75 mg
URI Prevention of cardiovascular events inhigh-risk patients
Clopidogrel is a prodrug icquiring two- step activation lo active metabolite
CYP2C19 poor metabolirers have diminished response to clopidogrel
Caution with hepatic/renal impairment
Chest pain
daily HA
Flu-like syndtome
Depression r T
Utl ij
Gl hemorrhage
Pancytopenia
May cause TIP
Onset:30 min Oiaainess
(loading dose) HA
Peak:4h (loading Nervousness
dose)
Duration:5-10 d
Sameasclopidogiel loading dose 60
mg.then5-10mg
P0 daily
Alternative loclopidogrel for prevention of cardiovasculai events in high-risk
patients
Higher potency compared to clopidogrel
No significant drug-drug interactions,although more data is required
Prasugrel
(Effient | +
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H59 Hematology Toronto Notes 2023
Table 40. Antiplatelet Therapy
Mechanism of Action Typical Dosel
Route of
Administration
Onset/Peak/
Duration
Specific Side
Effects
Remarks
Ticagrelor
(Brilinta )
Reversibly inhibits ADP binding
to platelets
Loading dose180
rag.then 90 rag
P0 BID
Onset 30 nun
(loading dose)
Peak:1.5 h for
prodrug.2.Sb for
active metabolite
Difficulty or laboured Alternative todopidogrel for prevention of cardiovascular events inhigh-risk
patients
Shortness of breath Higher potency compared to dopidogrel
lightness in chest
Oneness
breathing
Ticagrelor does not need metabolic activation to serveits antiplatelet
function
Drug-drug interactions with CYP3A4 inhibitors and inducers
Prasugrel is a prodrug requiring metabolic actnrabon mainly by CYP3A5 and
CYP2B6
Glycoprotein
llb/llla
Inhibitors
Reopror
(abciiimab).
Integrilin'
(eptifibatide)
BockingGPblti'HIa receptor
inhibits fibrinogen and VWF
binding,leading to decreased
platelet aggregation
Variable IV Used most commonly in cardiac catheteruaton
Contraindicated in PUD
Monitoring aPTT/activated dottingtime
Variable Hypotension
Back pain
NY
Chestpain
Abdominal pain
Thrombocytopenia
Anticoagulant Therapy
Table 41. Anticoagulant Therapy
Dose/Route of Onset/Peak/ Reversing Monitoring
Administration Duration Agent
Specific Side
Effects
Mechanism of
Action
Remarks
Heparin Inhibition of factor Variable,depends Onset:
Xa and factor on indication:can
lla.mediatedvia be used IV or SC
antithrombin
Warfarin VitaminIf
antagonist inhibits dosing by
production of monitoring
Factors IUVII.DC.X. PT/INR:P0
proteins C and S
Mainly fador Xa
(enoiaparin. inhibition,some
dalteparin. Ftla inhibibon.
tinzaparin) both mediated via
antithrombin
Fondaparinui Selective factor
Xa inhibition,
mediated via
antithrombin
Rivaroiaban Dired factor Xa
inhibitor
Protamine
Immediate (IV): sulfate
20-30 min (SC)
aPTT (intrinsic Hemorrhage
pathway).UFH (anti- HIT
Xa)levels
Pregnancy:sale (does not cross placenta)
Increased liver
enryraes
Hemorrhage
Cholesterol embolism
syndrome
Intraocular
hemorrhage
Individualized Onset:24-72 It Vitamin K
Peak:5-7d PCC
Duration:2-5 d fP
INR:maintain 2-3
(2.5-3.S for certain
mechanical valves)
Pregnancy:not used,can crossplacenta (teratogenic)
LMWH Variable,
weight-based
dose,depends on
indication;SC/IV
Onset1-2 h
Peak:3-5 h
Duration:
12-24h
Partial
reversibility
Anh-Xa levels in Hemorrhage
pediatrics,eitremes fever
of weight,or renal Increased liver
insufficiency
Higher bioavailability than heparin
Can accumulate in patents with low CrCl (<30mb'min)
Standard treatment of VTEinpregnancy and patients
with malignancy
with
protamine
sulfate
enzymes
«1% HIT
Onset:2 h
Peak:2-3 h
Long half-life(17-21h)
Contraindicated inrenal failure
Variable
SC daily
Hot reversible Hone Anemia
fever
Nausea
Rash
Onset1-3h
Peak:1-3 h
Syncope
Gt hemorrhage
Menorrhagia
Gastroenlritis
Indicated for treatment of acuteVTE.secondary
VIE prevention,thrombopropbylaiis inorthopaedic
patients and strokeprophylaiis m non-valvular Afib:
ensure CrCl>30ml,
‘
min:must be taken withlood:
contraindicated in mechanical heart valves
Indicated for treatment of acute VIE.secondary
VIE prevention,thrombopropbylaiis inorthopaedic
patients and strokeprophylaiis innon-valvular Afib;
ensure CrCl >25 ml/min:contraindicatedin mechanical
heart valves
Indicated for treatment of acute VIE.secondary VTE
prevention,stroke prophytans innon-valvular Afib;
contraindicatedinmechanicalheart valves;dose
reduction in renal insuffidency.avoidinCrCl <15 mL/min
Indicated for treatment ofheparin-induced
thrombocytopenia.PCI:contraindicated in mechanical
heart valves
Indicated for treatment of acuteVIE(after 5-10 d
parenteral therapy),secondary VIE prevention,
thrombopropbylaiisin orthopaedic patients and
stroke prophylaiis innoa-valvular Afib:ensure CrCl
>30ml/min:shouldbe storedinoriginal packaging:
conlraindicated in mechanical heart valves
Variable,depends
on indication:PO
Andeianet o Anti Xa levels
validated for
rivaroiaban may
be used todetect
presence of drug only Cough
Apiiaban Direct Factor Xa
inhibitor
P0 BID Onset:1-3 h
Peak:1-3 h
Andeianet a Anb-Xa levels
validated for
apiiaban may be
used to detect
presence of drug only
Andeianet a Hot typically
available
Hemorrhage
Nausea
Anemia
Direct factor Xa
inhibitor
P0 daily Onset1-2h
Peak:1-2h
Edoiaban Hemorrhage
Direct thrombin
inhibitor
Onset 5-10min Hot reversible aPTT
Duration:20-40
Dyspnea
Hypotension
fever
Idarucizumab Dilute thrombin G!upset
bme may be used to Dyspepsia
detect presence of
drug only:IIalso
sensitive lor drug
presence
Argatroban Variable
IV
min
Direct thrombin
inhibitor
150 mg P0 BID Onset:1-3h
Peak:1-3h
Dabigatran
Adverse Reactions to Heparin
• hemorrhage:depends on dose, age, and concomitant use of antiplatelet agents or thrombolytics
• HIT a hematologic emergency associated with venous or arterial thrombosis(see Table 22, H30)
• osteoporosis:with long-term use
Low Molecular Weight Heparin (enoxaparin, dalteparin,tinzaparin)
• increased bioavailability7
compared to unfractionated heparin
• increased duration of action
• SC route of administration
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H60 Hematology Toronto Xotes 2023
• do not need to monitor aPTT
• adverse reactionsless common than U1 H
• patients with renal failure (CrCl <30 mL/min) can accumulate LMWH,therefore may need to adjust
dose
• only partially reversible with protamine sulfate
• HIT isless common
Table 42. Recommended Management of a Supratherapeutic INR
INR Bleeding Present Recommended Action
^Therapeutic No
to 4.5
>4.5 to 10.0 No
Lowerwarfarindose or omit a dose andresume warfarin at a lower dose when INR isin therapeutic
range or no dose reduction needed if INR isminimally prolonged
Omit thenext1-2doses of warfarin,monitor INR more frequently and resume treatment at a lower
dose when INR isin therapeutic rangeOR omit adose and administer oral vitamin K1-2.5 mg in
patients withincreased risk of bleeding
Hold warfarinandadminister oral vitaminK 2.5 to 5 mg:monitor INR more frequently and
administer more vitamin K as needed:resume warfarin at a lower dose when INR is in therapeutic
range
Hold warfarin andadminister vitamin K 10 mgby slowIV infusion:supplementwith four-factor
prothrombin complex concentrate:monitor and repeat as needed
>10.0 No
Serious or life
threatening
Any
Adapted from:American Callage of Chest Physicians Evidence-Based Clinical Practice Guidelines.Chest 2012:(2suppq:e152S
Chemotherapeutic and Biologic Agents Used in Oncology
Table 43. Selected Chemotherapeutic and Biologic Agents
Class Example Mechanism of Action or Target
Damage 0NA via alkylation of base pairs
Leads to cross-linking of bases,abnormal base-pairing. DNA
breakage
chlorambucil,cyclophospham.de.melphalan
(nitrogen mustards)
carboplatin, cisplatin
dacarbazine.procarbazine
busulfan
bendamustine
Alkylating Agent
Antimetabolites methotrexate (folic acid antagonist)
6-mercaptopurine.Iludarabine(purine
antagonist)
5-fluorouracil (5-FU) (pyrimidine antagonist)
hydroxyurea
cytarabine
adriamycin (anthracycline)
bleomycin
mitomycin C
daunorubicin
Inhibit DNA synthesis
Antibiotics Interfere with DNA and RNA synthesis
Stabilize microtubules against breakdown once cell division
complete
Taxanes paditaxel
docetaxel
Vinca-alkaloids vinblastine
vincristine
vinprelbine
Inhibit microtubule assembly (mitotic spindles),blocking cell
division
Topoisomerase Inhibitors irinotecan,topotecan|topoI)
etoposide (topo II)
Interfere with DNA unwinding necessary for normalreplication
and transcription
Steroids prednisone Immunosuppression
dexamethasone
Purine Analogues fludarabine Interferes with DNA synthesis
cladribine
HER2 antagonist
VEGF antagonist
rituximab (Rituxan -
). olatumumab (Arzerra'
). CD20 antagonist
obinutuzumab|Gayzva:
) EGFR antagonist
cetuximab|Erbitux s)
daratumumab
Monoclonal Antibodies trastuzumab (Herceptm '
)
bevacizumab (AvasbnT)
CD38 antagonist
BCR-ASL inhibitor
BCR ASt inhibitor
BCR ASL inhibitor
BCRASL inhibitor
EGFR antagonist
EGFR antagonist
26S proteasorre inhibitor
VEGFR.PDGFR antagonist
BTK inhibitor
P13K inhibitor
JAK2 inhibitor
BCRABL inhibitor
Bcl-2inhibitor
Immunomodulators
imatinib mesylate (Gleevec !
)
dasatinib
nilotinib
bosutinib
erlotinib (Tarcevar)
gefitinib (Iressa -
)
bortezomib (Velcade;
)
sunitinib (Sutent1)
ibrutinib (Imbruvica '
)
idealasib (Zyedlig *)
nixolitinib (Jakavi - )
venetodax
lenalidomide.pomalidomide
Small Molecule Inhibitors
r
+
CARIcell therapy tisagenledeucel (Kymriahr) Target CD19
axicabtagene ciloleucel(Yescarta:
)
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H61 Hematology Toronto Notes 2023
Landmark Hematology Trials
Trial Name Reference Clinical TrialDetails
Hematologic Malignancies and RelatedDisorders
Long term outcomes of imatinib
treatment for chronic myeloid
leukemia
NEJM 2017;376:917-927 Title:Long-Term Outcomes of Imatinib Treatment forChronic Myeloid Leukemia
Purpose:To compare the efficacy of imatinib with that of IFN-aplus low-dose cytarabine innewly diagnosed chronic-phase CML.
Methods:T10 patients with Ph-positive CML in the chrome phase were randomized1:1to imatinib or interferon aplus cytarabine.
Crossover to matinrb were allowed if no response by 6mo or major cytogenetic response by12mo.
Results:Assessing the imatinib arm after a median of11years of follow-upspecifically at the sixth year point,the complete
cytogenetic responserate was 83%.Among patients who attained a major molecular response after 18 mo olimatinib therapy,the
overall survival at 10-years was 93% and freedom from CML-related death 100%
Conclusions.This 116-year update ol IRIS demonstrates the efficacy and safety of imatinib as first !me therapy for CML patients.
Title:Ibrutmib Versus Ofatumumab in PreviouslyTreatedChronic Lymphoid Leukemia
Purpose:To evaluate the efficacy of ibrutinib inpatients with CLL and small lymphocytic lymphoma (SLL) atrisk for poor outcomes.
Methods:391patientswithrelapsed or refractory CLL or SLL were randomly assigned to daily ibrutmib or ofatumumab.
Results:Ibrutinib significantly improved progression-free survival (hazard ratio.0.22;P<0.001).overall survival (0.43;P -0.005)
with a higher overallresponse rate (42.6% vs.4.1%.P<0.001) as compared withpabents on ofatimumab.Overall survival was 90%
in the ibrutmibgroup and 81% in the ofatumumab group at 12 mo.
Conclusion:Ibrutinibsignificantly improved progression-free survival,overall survival,and response rate among patients with
previously treatedCLL or SLL.
Title: Daratumumab.lenalidomide.and Dexamethasone for Multiple Myeloma
Purpose: Toassess if daratumumab lengthens PfSwhen added tolenalidomide and dexamethasone therapyinpatients with
relapsed or refractory myeloma.
Methods:569patients with MM who had been previously treated were randomly assigned to either lerralidomide and
dexamethasone (control group) or daratumumab plus lenalidomide and dexamethasone (daratumumab group).The primary
endpoint was PFS.
Results:PFSat12mo was 83.2% in the daratumumab group and 60.1% in thecontrol group.Daratumumab had a significantly higher
overallresponse as compared to the control group (P< 0.001).Neutropenia was more frequent m the daratumumab group (51.9%
vs.37.0%).
Conclusion:PFS was significantly lengthened by addition of daratumumab to lenakdomide and dexamethasone for patients with
relapsed orrefractory MM but was associated withhigherrates of neutropenia.
Ibrutinib Versus Ofatumumab in
PreviouslyTreated Chronic Lymphoid
Leukemia.Byrd et al.2014
KJM2014:371:213-23
POLLUX NFJM 2016:375:1319-31
NEJM 2017:377:1331-44 Title:Obmutuzumab for the First-Line Treatment of Foi.
iculat lymphoma
Purpose: Tocomparerituximab-based chemotherapywith oii-utuzumab-based chemotherapy in patients withuntreated
advanced-stage follicular lymphoma.
Methods:1202patients were randomlyassigned toreceive induction treatment with obinutuzumab-based chemotherapy
(obinutuzumab) or rituximab-based chemotherapy (rituxiraab).
Results:Risk of progression,relapse,or death was significantly lower on obinutuzumab vsrituemab (estimated 3-yr PFS.80.0% vs.
73.3%;hazardratio for progression,relapse,or death.0.66:95% Cl.0.51-0.85;P-0.001|.There weremore adverse events in the
obinutuzumab group (grade 3-5: 74.6%vs.67.8%:seriousevents:46.1% vs.39.9%).
Conclusion:Obinutuzumab- based chemotherapy resultedinlonger PFS than rituximab-based therapy but more frequent high-grade
adverse events.
6AUIUM
Long-Term Follow-up of C019 CAR NEJM 2018:378:449 -59
Therapy inAcute lymphoblastic
Leukemia.Parket al. 2018
Title:Long-Term Follow-up of C019 CAR Therapy inAcute lymphoblastic leukemia
Purpose: To investigate the use of C A R T in relapsed 8-cellALL
Methods:Phase1trial including 53 adults withrelapsed B-cell ALLreceived an infusion of autologous T cells expressing the 19-28z
i.
:-1
Results:Severe cytokine release syndrome occurred in 26% of patients following infusion (95% Cl.15-40):1patient died.83% of
patients expenenced complete remission.At median 29 mo follow-up.median overall survival was129mo (8.7-23.4) and median
event-free survival was 6.1mo (5.0-11.5).
Conclusion:Median overall survival was12.9 mo in the entire cohort.More adverse events occurred inpatients with high disease
burden.
Thrombosis
NEJM 2003:349:146-53 Title:Low-Motecular-Neight Heparin Versus a Coumarin for the Prevention ol Recurrent Venous Thromboembolism in Patients with
Cancer
Purpose: To compare the efficacy of LMWH with an oralanticoagulant for preventing recurrent thrombosis in cancer patients.
Methods:Cancer patients with acute, symptomatic ptoumalDVT.PE. or both were randomly assigned to daHeparin (LMWH) for 5-7 d
plus a coumarin derivative for 6 moor dalteparin alone for 6 mo.
Results:A!6 mo.the rate of recurrent thromboembolism was17%in the oral-anticoagulant groupand 9% in the dalteparin group.
Rates ofmajor bleeding were not significantly differentbetween groups (6% vs.4%,respectively):any bleeding (14% vs.19%).
Conclusions:Dalteparin wassuperior to an oral anticoagulantin cancer patients for reducing recurrentthromboembolism rates
without increasing bleeding risk
3MJ 2011:342:d3036 Title:Influenceof Preceding length of Anticoagulant Ireatment andInitial Presentation of Venous Thromboembolism on Risk of
RecurrenceAfter StoppingIreatment:Analysis of IndividualParticipants' Data From Seven Trials
Purpose: To determine how length of anticoagulation of VIE influences recurrence risk after treatment isslopped.
CAR:Individual participants' data was pooled from 7 RCTs including 2925 men or women witha first VTE who did not have cancer
and had varying durations of anticoagulant treatment.
Results:Recurrence was higher if anticoagulation wasstoppedat1-1.5 mo vs.at >3mo (hazard ratio1.52.1.14-2.02) and similar if
treatment was stopped at 3 mo vs. >6mo (1.19.0.86-1.65).
Conclusion:Risk of recurrent VTE was similar when anticoagulation was stopped after 3 mo vs.stopping after a longer course of
treatment.
NEJM 2012:366:1287-97 Title:Oral Rivaroiaban for the Treatment of Symptomatic Pulmonary Embolism
Purpose:1o investigate the efficacy and safety of a fixed- dose rivaroiaban regimen for the treatment of PE.
Methods:4832 patients who had acute symptomatic PE e DVT were randomly assigned to rivaroiaban or standard therapy with
enoxaparm foUowed by a vitamin K antagonist.
Results: Rnraroxaban wasnoninferior to standard therapy for the primary efficacy outcome (symptomatic recurrent VTE),2.1% in
rivaroiaban vs.1.8% instandard-therapy (hazardratio.1.12:95% Cl.0.75-1.68).Clinically relevant bleeding occurred in10.3% of
patients on rivaroxaban and11.4% of those on standard-therapy (0.90:0.76-1.07:P-0.23).
Conclusion:For initial and long-term treatment of PE.fixed-dose rivaroxaban alone was noninfenor to standard therapy with a
potentially better benefit-risk profile.
CLOT
Influence olPreceding Length
of Anticoagulant Treatment and
InitialPresentation of Venous
Thromboembolism on Risk
of Recurrence After Stopping
Treatment Analysis of Individual
Participants' Data From Seven Trials.
Boubtie et al.2011
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H62 Hematology Toronto Notes 2023
Trial Name Reference Clinical Trial Details
AMPLIFY NEJM 2013;369:799-808 Title;Oral Apixaban for the Treatment of Acute Venous Thromboembolism
Purpose: To Investigate the efficacy and safely of fixed- dose apixaban for the treatment of VIE.
Methods:639S patients with acute VIE were randomly assigned to receive apixaban or conventional therapy (SC enoxaparin,
followed by wailarin).
Results: Apixaban was noninferior to conventional therapy lor the primary efficacy outcome (symptomatic recurrent VIE or death
from VIE)|P<0.001|. Major bleeding or clinically relevant nonmajor bleeding occurred in 4.3% of patients on apixaban vs. 9.7% ol
those on conventional-therapy ( RR . 0.44; 95%Cl.0.36-0.55;P'
0.001).
Conclusion:For the treatment of acute VIE.fixed-dose apixaban alone was noninferior toconventional therapy with significantly
less bleeding.
Title:Idarucizumab for Dabigatran Reversal
Purpose:toinvestigate the efficacy and safety of idarucizumab for reversing the anticoagulant effects of dabigatran.
Methods:90 patients with either a serious bleed or one requiring an urgent procedure secondary to dabigatran received
idarucizumab.
Results:Iddiuclrumabnoimalircd test results in 88 98% of patients,which was evident within minutes.Unbound dabigatran
concentrations remained *20 ng/ml at 24 h in 79% of patients.
Conclusion: Thcanticoagulant effect of dabigatran was completely reversed by idarucizumab within minutes.
Title:Anticoagulant Iherapy for Symptomatic Calf Deep Vein Thrombosis (CACTUS):A Randomised. Double-Blind.Placebo-Controlled
RE VERSE AD NEJM 2015;373:511-20
CACIUS lancet Haematol
2016;3:e556-e562 Trial
Purpose:To investigate the efficacy and safety of anticoagulant treatment inpatients with acute symptomatic DVT of the calf.
Methods:259 low-risk outpatients without active cancer or previous VTE with a first acute symptomatic call DVT were randomly
assigned to receive either nadroparin ( LMY/H) or placebo for 6 wk.
Results: No significant difference between groups was seen in the composite primary outcome (extension of calf DVT to proximal
veins,contralateral proximal DVT.and symptomatic pulmonary embolism at day 42).Bleeding occurredin 4% of patients on
nadroparin and no patients on placebo (risk difference 4.1,95% Cl 0.4-9,2;p‘0.0255).
Conclusion:Inlow risk outpatients with symptomatic call DVT. nadroparin was non-superior to placebo inreducing the risk of
proximal extension or VIE.but it did Increasebleeding risk.
Blood Products and Transfusion
fOCUS NEJM 2011:365:2453- Title:Liberal or Restrictive Transfusion in High-Risk Patients after Hip Surgery (FOCUS)
Purpose: To determine whether a higher threshold for blood transfusion would improve recovery in patients who had undergone
surgery for hip fracture.
Methods: 2016 patients >50 yr with a history of or risk factors for cardiovascular disease and Hb level below10 g/dlafter hip
fracture surgery were randomly assigned to a liberal transfusion strategy (a Hb threshold of 10 g/dl) or a restrictive transfusion
strategy (anemia symptoms or at physician discretion foi a Hb level less than 8 g/dl).
Results: The primary outcome was death or inability to walk across a room without human assistance on a 60 d follow-up. Primary
outcome rates were 35.2% in the liberal transfusion strategy group and 34.7% in the restrictive transfusion strategy group.Rates of
complications were similar in the two groups.
Conclusion:A liberal transfusion strategy did not reduce mortality rates or the inability to walk independently on 60 d follow-up
compared to a restrictive transfusion strategy inelderly patients with high cardiovascular risk factors after hip surgery.
NEJM 1999;340:409-17 Title: A Multicenter.Randomized,Controlled Clinical Trial of Transfusion Requirements in Critical Care.Transfusion Requirements in
Critical Care Investigators.Canadian Critical Care Trials Group
Purpose: To determineif equivalent results can be achieved by a restrictive strategy of red-cell transfusion and a liberal strategy in
critically ill patients.
Methods 838 critically illpatients with euvolcmia (after initial treatment and Hb <9 g/dlwithin 72 h of ICU admission) received
cither (1) a restrictive strategy (transfusion it Hb «7.0 g/dl.maintained at 7-9 g/dl) or|2) a liberal strategy (transfusions if Hb <10.0
g/dl,maintained al10-12 g /dl).
Results: Mortalityrates at 30 d were similar between groups.However,among less acutely illpatients and those <55 yr of age.
mortality rates weresignificantly lower in RS than IS:8.7% vs.16.1%,P-0.03 and 5.7% vs.13%,P~0.02.respectively.
Conclusion:In critically ill patients,a RS of red cell transfusion is as effective as a LS transfusion.
Lancet 2012;380:1309-16 Title:TherapeuticPlatelet Transfusion Versus Routine Prophylactic Transfusion inpatients With Haematological Malignancies:An
Open-label. Multicentre. Randomised Study
Purpose: To investigate the influence ola novel therapeutic platelet transfusion strategy on the number of transfusions and safety
in patients with hypoproliferative thrombocytopenia.
Methods:Patients (16- 80 yr) undergoing chemotherapy foi AMI or autologous haemopoictlc stem-cell transplantation were
randomly assigned to receive either platelet translusion when bleeding occurred (therapeutic strategy) or when morningplatelet
counts were <10<109/l(prophylactic strategy:current standard of care).
Results:In all patients,the therapeutic strategy reduced the mean number of platelet transfusions by 33.5% (95% Cl 22.2-43.1;
p<0.0001).Major haemorrhage was not increased inpatients who had undergone autologous transplantation.Risk of non-fatal
grade 4 bleedingwas increased in patients with AML.
Conclusion:The therapeutic strategy should be considered for patients followingautologous stem- cell transplantation but not for
patientswith AML.
NEJM 2013:368:11 21 Title: transfusion Strategies for Acute Upper Gastrointestinal Bleeding
Purpose: lo compare the efficacy and safely of a restrictive transfusion strategy with a liberal translusion strategy in patients with
acute upper Gl bleeds.
Methods:921patients with severe acute upper Gl bleeding were assigned to either a restrictive strategy (transfusion when Hb <7 g/
dl;target Hb ~ 7-9 g/dl) or a liberal strategy (transfusion when Hb <9 g/dl;target Hb 9-11g/dl).
Results:Survival at 6 wk was higher in the restrictive-strategy group than inthe liberal-strategy group (95% vs.91%:hazard rabo,
0.55;95% Cl.0.33*0.92:P’
0.02).Further bleeding was more common in patients on restrictive-strategy than liberal-strategy (10%
vs.16%;P-0.01):adverse events were also more common (40% vs.48%;
p-0.02).
Conclusion:A restrictive transfusion strategy led to better outcomes than a liberal strategy in patients with acute upper Gl bleeding.
2462
TRICCBP
Therapeutic Platelet Translusion
Versus Routine Prophylactic
Transfusion in Patients With
Haematological Malignancies:
An Open -Label,Multicenlie,
Randomised Study.Wandl et al. 2012
Transfusion Slralcgies for Acute
Upper Gastrointestinal Bleeding.
Villanueva etal. 2013
ri
L J
+
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H63 Hematology Toronto Notes 2023
Trial Name Reference Clinical Trial Details
Anemia
CHOIR NEJM 2006:355:2085 08 Title:Correction of Anemia with Epoetin o in Chronic Kidney Disease
Purpose:Todetermine the optimal level of Hemoglobin correction by recombinant human erythropoietin (epoetin o) inanemic CKO
patients.
Methods:1432 patients with CKD were randomly assigned to receive a dose ol epoetin alfa targeted to achieve a hemoglobin level
of13.5 g/dl or a dose targeted to achieve a level of 11.3 g/dL.
Results: 125 composite events (death.Ml,hospitaliration tor CHf, or stroke) were seen in the high hemoglobin group,as compared
with 97 events in the low- hemoglobin group (harard ratio.1.34;95% Cl.1.03-1.74;P'0.03).
Discussion:In patients with anemia and CKO.targeting a lower Hb reduced incidence of death. Ml. CHf related hospitaliration.and
stroke.
Other
CRASH-2 Health Technot Assess
2013:17|10):1-79
Title:The CRASH-2 Trial:A Randomised Controlled Trial and Economic Evaluation of theEffects of Tranexamic Acid on Death.Vascular
Occlusive Events and Transfusion Reguirement in Bleeding Trauma Patients
Purpose:To assess how early administration of a short course of tranexamic acid (TXA) influences rates of death,vascular occlusive
events and blood transfusions in trauma patients.
Methods:20211adult trauma patients within8 h of injury that had,or were at risk for.significant bleeding were randomized to
receive TKAor matching placebo.
Results: TXA significantly reduced all-causemortality at 28 d (14.5% in TXA vs.16.0% inplacebo:p'0.0035).Death rates caused by
bleeding were significantly reduced (4.9% vs.5.7%;p'0.0077).the risk of death due to bleeding was increased by treatment given
alter 3 h (4.4% vs. 3.1%; p-0.004|.
Conclusion:The risk of death was safely reduced by early TXA in bleeding trauma patients.8cyond 3 h of Injury,treatment islikely
Ineffective.
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