Ana Mae Quintal-Quetua, M.D.Mary Antoniette Tan, M.D.
Mortality & morbidity conference
Case Objectives
To present a case of a patient with Myelodysplastic Syndrome who had multiple medical problems, and developed acute ST-elevation myocardial infarction
To discuss the management and treatment options for a patient with MDS who had STEMI
Hematologic- overview of AA and MDS Cardiac
Patient Data
M.L. 61 years old Female Known HPN, on Diltiazem Known asthmatic Non-diabetic Obese class II
Patient Data March 2009, 2nd week - consult at MMC for
pancytopenia; BMA done Bone Marrow cytology report (Mar-17-09)60-70% marrow hypercellularity with
erythroid hyperplasia and mild dyserythropoiesis
Diagnostic comment: correlation with cytogenetic studies for chromosomal haploinsufficiency is recommended
Started on Prednisone; platelet counts improve with increased doses
Patient Data March 2009, 4th week- sought 2nd opinion
at SLMC; 2nd BMA done Bone Marrow cytology report (Apr-03-09)5-10% marrow hypocellularity with
pancytopenia with relative lymphocytosis; marrow space occupied mainly by fibroadipose tissue
Cellular smears with dyserythropoiesis and dysgranulopoiesisConclusion: Thrombocytopenia secondary to Severe Aplastic Anemia , cannot rule out low-grade Hypoplastic Myelodysplastic Syndrome
Patient Data April 5- 9, 2009 - admitted at MMC for
ATG administration (with Solumedrol) and was started on Cyclosporine 300mg OD; discharged stable
April 2009, 4th week - Prednisone dose was increased up to 100mg OD
Steroid-induced hyperglycemia, on Humulin R 8-0-2 and Humulin N 28-0-10
History of Present Illness
3 days PTA, (+) productive cough, throat irritation and hoarseness but (-) fever, DOB, chest pain, bleeding
12 hours PTA, (+) blood-tinged sputum
May 6, 2009 - admitted for blood transfusion due to decreased platelet count (PC 10,000)
Physical Examination on Admission
General Survey
Conscious, coherent, ambulatory, not in respiratory distress
Vital Signs BP = 110/70 BMI = 31kg/m2
HR = 78 bpm RR = 20 cpm Temp = 37.0C
HEENT Anicteric sclerae, pale palpebral conjunctivae, (+) TPC with whitish plaques on pharyngeal mucosa, (-) CLAD
Chest/ Lungs Clear breath sounds, symmetric chest expansion, no rales or wheezes
CVS Adynamic precordium, normal rate, regular rhythm, distinct S1 and S2, no murmurs
Abdomen Flabby, soft, normoactive bowel sounds, (-) masses or tenderness, no splenomegaly
Extremities Full and equal pulses, no pedal edema, no cyanosis, no clubbing
Admitting Impression
Severe Aplastic Anemia vs Hypoplastic Myelodysplastic Syndrome
Upper Respiratory Tract Infection vs Community Acquired Pneumonia
Laryngitis, Oral Candidiasis
COURSE IN THE WARDS
PROBLEM-BASED
1. Pancytopenia
BM biopsy (May-29-09, MMC) 10-20% hypocellularity with
panhypoplasia, dyserythropoiesis, left- shift granulocytic maturation focal collagen fibrosis, Inc Iron stores
CONCLUSION: presence of significant dysplasia favors a diagnosis of Hypocellular Myelodysplatic Syndrome
MYELODYSPLASTIC SYNDROME
Ineffective hematopoiesis due to abnormal differentiation and maturation, leading to bone marrow failure
Peripheral cytopenia, dysfunctional blood elements
Possibility of leukemic conversion
APLASTIC ANEMIA
Marrow failure secondary to inability to produce blood cell components
Maybe immune- mediated (T- cells) or due to direct bone marrow injury (drugs, chemicals)
Pancytopenia, Bone marrow hypocellularity
MYELODYSPLASTIC SYNDROME
Bone marrow maybe hypercellular, hypocellular or normal
Cytogenetic abnormality involving chromosome 5, 7, 11, 12 and 20 deletions, and/or trisomy 8
Recurrent chromosome deletions- Loss of tumor
suppressor genes are involved in the pathogenic process
APLASTIC ANEMIA
Bone marrow consists primarily of fatty space and stromal cells
Evolution of AA to MDS/ AML is marked with increased proliferative activity +/- development of cytogenetic abnormalities
9% risk of developing to AML
Differentiating AA from Hypoplastic MDS: Diagnosis dictates management and prognosis A hypocellular bone marrow is
seen in 20% of MDS , which maybe confused with AA
Hypoplastic MDS- cytopenia, marrow dysplasia and marrow hypocellularity
Incidence of 7.7% among a large series of MDS patients evaluated
Increase in mast cells and lymphoid cells
Cytogenetic studies: changes in chromosome 7, especially monosomy 7
3/5 cases transforming from AA to H- MDS showed monosomy 7
Monosomy 7 found in Hypoplastic MDS indicates a poor prognosis, with patients progressing to refractory cytopenia, with 80% risk of evolving into Acute Myeloid Leukemia
Trisomy 8- immune pathophysiology; often responds clinically to immunosuppressive Tx
International Prognostic Scoring System
Treatment Algorithm
TreatmentMYELODYSPLASTIC Poor response to
cytotoxic chemotherapy Stem Cell
Transplantation offers cure, 50% survival rate at 3 yrs
Demthylating agents-Pyrimidine analogues (Azacitidine, Decitabine)
Lenalidomide, Cyclosporine, ATG, GCSF
APLASTIC ANEMIA Immunosuppression
:Combination of Cyclosporine & Anti- Thymocyte Globulin
Stem Cell Transplantation
Supportive - transfusion
1. Pancytopenia
ISSUES Hemoglobin: 6.3 – 12.4 g/dl WBC: 410 – 5,100 Platelet count: 2,000 – 160,000 Persistent pancytopenia despite
multiple blood transfusion and repeated GCSF admin.
Risk for severe infection, hemodynamic instability and bleeding
1. Pancytopenia
MANAGEMENT Multiple transfusion of blood products ATG Cyclosporine Repeated GCSF administration Steroid administration Erythropoietin, thrombopoietin Vitamin K and tranexamic acid
administration
Effect of Multiple Blood Transfusion
Supportive therapy: PLT transfusion However, repeated PLT transfusion may
fail to show the desired increment in PLT counts
PLT refractoriness develop in 30-70%; maybe due to the underlying condition (fever, sepsis, drugs) or it may be due to alloimmunization
Patients with transfusion failure due to HLA- antibodies may be given HLA- matched PLT components
ETIOLOGY
Thrombocytopenia secondary to Severe Hypoplastic Myelodysplastic Syndrome
Platelet refractoriness secondary to multiple blood transfusion
Unresolving Sepsis secondary to Pneumonia in the Immunocompromised
1. Pancytopenia
2. Pneumonia and Fungal Laryngitis in the Immunocompromised
ISSUES Severe infection; sepsis Unresolving lung infiltrates and
persistent pleural effusion Persistent wheezing/bronchospasm
sec. to hyperreactive airways
2. Pneumonia and Fungal Laryngitis in the Immunocompromised
MANAGEMENT Sputum cultures, blood cultures Chest radiographs, chest UTZ, chest CT
scan Attempted thoracentesis/chest pigtail
insertion Use of broad-spectrum antibiotics,
antifungals, antivirals Inhaled and systemic bronchodilators and
mucolytics; steroid administration
CT scan of the chest, plain(May 31, 2009)
Pneumonia, left lower lobe Soft tissue density in the LUL and
pulmonary nodular opacities in the right lung may still be related to the infectious process
Subcentimeter granuloma, RLL Minimal pleural effusion, left Calcified lymph nodes, right paratracheal
and right hilar regions. These were already noted in the study of April 4, 2009.
3. Respiratory FailureCAUSES Severe infection (laryngeal candidiasis
and unesolving pneumonia) and sepsis in the immunocompromised
Pulmonary congestion sec.to hypervolemia, hypoalbuminemia
Persistent wheezing/bronchospasm sec. to hyperreactive airways
Anemia Airway and intrathoracic bleeding Empyema/pyothorax considered
3. Respiratory Failure
MANAGEMENT Alternating BIPAP and in-line neb. Endotracheal intubation and
subsequent tracheostomy Inhaled and systemic bronchodilators
in increased doses Inhaled and systemic mucolytics
4. HypoalbuminemiaCAUSES Nutritional Hepatic failure
ISSUES Third spacing: congestion, effusion and
edema
MANAGEMENT Repeated IV infusions of 25% human
albumin
5. HyperglycemiaCAUSES Steroid-induced Stress-induced
ISSUES Risk for uncontrolled infection,
cardiovascular/coronary events
MANAGEMENT CBG monitoring and insulin administration
6. Renal Failure
CAUSES Sepsis Decreased renal perfusion sec. to
anemia (shunting of blood away from the kidney for protection of O2 delivery to vital organs)
Drugs (Cyclosporine, Amphotericin, antibiotics)
6. Renal Failure
ISSUES Hypervolemia (increased BP and
CVP 14-19 cmH2O, edema) due to multiple transfusions, steroid admin.
On the 22nd HD, (+) oliguria with rising serum crea 2.0 from 0.9 mg/dl (est. crea clearance 21 ml/min from 47 ml/min)
6. Renal Failure
MANAGEMENT Dose adjustments of antibiotics
and other medications 12-hour urine collection Diuresis (Furosemide,
Spironolactone, Bumetanide) Subsequent hemodialysis
7. Abdominal Distension
CAUSES Septic ileus Ileus sec.to metabolic derangement Pseudomembranous colitis considered
ISSUES Increasing abdominal girth with
intermittent episodes of voluminous watery stools
7. Abdominal Distension
MANAGEMENT NPO Plain film of the abdomen CT scan of the abdomen Prokinetics, laxatives, enemas Vancomycin per orem Rectal tube insertion Total parenteral nutrition
CT scan of the abdomen, plain(May 31, 2009)
Ileus Few descending colon diverticula Distended gall bladder Atrophic pancreas Possible right renal cortical cyst Subcentimeter appendicolith vs.
inspissated barium with no associated inflammatory changes
The rest is normal
8. Metabolic Encephalopathy
CAUSES Sepsis Electrolyte derangements Hypovolemia episodes during
hemodialysis Hepatic failure
8. Metabolic EncephalopathyMANAGEMENT Referral to Neurology service on the 27th
HD Cranial MRI and MRA of intracranial
vessels requested EEG showed encephalopathy probably
sec. to hypovolemia (hypotension episodes during dialysis)
Correction of electrolyte abnormalities; manage sepsis
9. Elevated Blood Pressure (130-200/70-100 mmHg)CAUSES Volume overload sec. to multiple
blood transfusion, steroid use Increased cardiac output sec. to
tachycardia Catecholamine release (stress-
induced)
9. Elevated Blood Pressure (130-200/70-100 mmHg)MANAGEMENT Ca-channel blockers (Amlodipine,
Nicardipine, Verapamil) Clonidine Diuresis
10. Tachycardia with PACs and PVCs (100 – 180 bpm)CAUSES Sepsis/stress-induced Anemia Metabolic derangements (i.e.
electrolyte imbalance) Bronchodilators in increased doses
10. Tachycardia with PACs and PVCs (100 – 180 bpm)MANAGEMENT 2D-echocardiogram with CFDS Electrolyte correction Beta-blockers (Metoprolol, Nebivolol) Digoxin stat doses Verapamil Amiodarone Ivabradine Trimetazidine
2D-echocardiogram with CFDS (baseline) May 15, 2009 - Normal LV dimension
with NWMC, EF 75%; calcified non- coronary cusp of aortic valve without restriction of motion. Calcified aortic walls; normal MV, TV, PV; minimal pericardial effusion; color flow Doppler= MR, mild; TR, mild; mild pulmonary hypertension as evidenced by pulmonary acceleration time of 100 msec; Doppler evidence of impaired LV relaxation.
On the 35th hospital day…
Tracheostomy done O2 desaturation noted ~ 90% HR much controlled: 78 bpm BP 104/55 mmHg 12-lead ECG post-trache showed:
new T-wave inversions at V1 – V3, ST-elevations at II and AVF
Cardiac Enzymes
May 13: TCPK 60, CKMB 1.5, Trop I 0.08
June 10: TCPK 47, CKMB 7, Trop T 0.51
June 11: TCPK 29, CKMB 2.9, Trop I 0.37
May 13: serum BNP 4,071
2D-echocardiogram with CFDS (repeat) June 11, 2009 - concentric LVH with
NWMC, EF 55%; color flow Doppler = MR, mild; Doppler evidence of LV diastolic dysfunction (E/A velocity ratio and isovolumic relaxation time); mild pulmonary hypertension by pulmonary acceleration time 108 msec; compared with previous study done may 15, increase in LV wall thickness; no note of pericardial effusion.
On the 41st hospital day…
While on hemodialysis, ST-segment elevations were noted on cardiac monitor, and patient had 3 episodes of HR 30s – 40s (5 – 10 secs)
BP = 100-130/60-80 mmHg Awake, responsive (-) chest pain 12-lead ECG showed….
11. STEMI
ISSUES Risk factors: age, atherosclerosis,
anemia, obesity, HPN, hyperglycemia, dyslipidemia, hemodialysis, multiple blood transfusion (blood viscosity? increased platelet aggregation? endothelial damage?), heparin-induced thrombocytopenia (?)
11. STEMI
MANAGEMENT Nitroglycerin drip Nicorandil 5mg/tab 1 tablet BID Coronary angiogram Options: anti-platelet and anti-
coagulation (?), PTCA (?)
Coronary Angiogram Results:
Left ventriculogram – intentionally omitted due to elevated LV EDP 31mmHgCoro angio – L main coronary artery normally patent; LAD normal; L circumflex has slow flow with abrupt cut off distally which indicates an endovascular thrombus; RCA is dominant and normal.
Assessment: Coronary thrombus involving L circumflex artery
Recommedation: Consider Cilostazol at low dose 50mg BID
How Was The Patient Managed? Post- coronary angiography recommendations:
Interventional Cardiology - low-dose Cilostazol 50 mg BID
Cardiology – Enoxaparin 40mg SC OD Hematology service, however, did not agree Due to persistent pancytopenia, Interventional
Cardiology entertained the possibility of HIT, and suggested discontinuation of Heparin and use of Bilvalirudin and Aspirin 325 mg OD
Heparin- Induced Thrombocytopenia? HIT is a pro-thrombotic, immune- mediated
adverse reaction to heparin therapy;
It should be suspected whenever the PLT falls at least 50% and/ or thrombosis occurs between day 4 and 14 following initiation of heparin
Based on results reported by Warkentin et al. and a meta- analysis of 15 studies, it appears that HIT type II occurs in 1-3% of all patients receiving UFH & in only 0.3- 0.8% receiving LMWH
Heparin-InducedThrombocytopenia? When heparin is administered in the
presence of platelet factor 4 (PF4), an immune complex can form and result in the production of anti-PF4/ Heparin antibody (HIT antibody)
This complex initially causes PLT aggregation, followed by a decrease in the PLT count (due to consumption and elimination from the circulation) & the development of thrombosis.
Paradoxical thrombosis in the presence of thrombocytopenia is a hallmark of HIT
Heparin- Induced Thrombocytopenia?
Diagnostic tests include C-Serotonin Release Assay, Platelet aggregation test, Heparin- induced platelet aggregation test, ELISA
Treatment is prompt discontinuation of heparin and use of an anti-thrombin agent (ie, Argatroban, Bivalirudin) to prevent thrombotic complications
Associated thrombotic events frequently noted are Deep Vein Thrombosis, Pulmonary Thromboembolism, Mesenteric Arterial Thrombosis
Bivalirudin
Newer direct thrombin inhibitor; binds to the substrate- binding site of thrombin, with high affinity
Has a rapid, dose- dependent anticoagulation, with half- life 25 minutes
Eliminated by the kidneys As with all direct thrombin inhibitors, it
has no structural similarities to heparin and has no cross- reactivity with HIT antibodies
Patient Outcome
Hematology service did not agree on the diagnosis of HIT; however agreed on the use of Aspirin 325 mg OD (only 1 dose was given)
3rd day post MI and post angiogram, persistent pancytopenia and hemodynamic instability
Ventricular fibrillation After 4o minutes of CPR, patient expired
IS IT POSSIBLE TO DOPERCUTANEOUS CORONARY INTERVENTIONSIN PATIENTS WITH MYELODYSPLASTIC SYNDROME?
Myelodysplastic Syndrome & Myocardial Infarction
The association of CAD and thrombocytopenia due to MDS is rare, and published data on the management of obstructive lesions through PCI is limited
This presents a challenge to interventional cardiology, because PCI requires preventing both intracoronary thrombosis with antiplatelet agents, and bleeding after the procedure
61/ M, known case of MDS, hypertensive, presented with pressure- like chest pain,
Dx: Unstable Angina; submitted to coronary angiography and stenting
Platelet count was 40,000; prophylactic, 10 unit platelet transfusion 2 days
prior to coronary angiography 80% stenosis of the RCA and 30% in the LAD
After a 6- day Clopidogrel 75 mg OD regimen, and 2 hrs after another 10 unit PLT transfusion, stenting DES of the RCA lesion was done
6F catheter, femoral approach; introducer was removed 4 hrs after the procedure
100 IU/ kg Heparin during the procedure Local compression for 20 minutes; no bleeding nor
hematoma was observed after the removal of introducers
Discharged with Clopidogrel 75 mg OD to complete 30 days of continuous use.
Platelet count remained stable at 40,000 on Clopidogrel 6 months later, TMST showed ST depression in the
inferior leads; repeat coronary angiography showed a 70% in-stent stenosis; He refused another PCI
20 months after stenting, patient remained asymptomatic, maintained on the same medication (Clopidogrel 75 OD, propranolol 40 mg BID, Simvastatin 20 mg OD)
His last platelet count was 104,000
In spite of the low PLT, this patient evolved with progressively unstable angina, suggesting that regardless of the small number, platelet function remained normal, thereby justifying the use of anti- platelet agents
Clopidogrel alone was the treatment of choice in this study, since it is better tolerated than Ticlodipine
This case report suggest that PCI in patients with thrombocytopenia is a safe procedure, provided that prophylactic platelet transfusion is done, although restenosis may occur
Is it possible to do stent placement? •Bare- Metal Stent vs Drug- Eluting Stent?
Management Dilemmas
If patient tolerates stent implantation, is it possible to maintain her on an anti- thrombotic regimen?
•Single or Dual Anti- PLT therapy? •ASA vs Clopidogrel vs Cilostazol?• Dose and duration?
STENTS
Stents are used in the management of ACS and its use has improved the outcomes of percutaneous coronary revascularization
The metallic surface of the bare-metal stent (BMS) can stimulate thrombosis before it becomes entirely covered with endothelial tissues
Disadvantage: subsequent development of an in- stent restenosis due to significant loss of lumen
STENTS
Drug – eluting stents (DES) are believed to inhibit re-stenosis by inhibition of cytokine- mediated and GF- mediated proliferation of lymphocytes and smooth muscle cells
DES indicated for high- risk patients (diabetics, long lesions, small vessels, presence of a thrombus)
DES and dual anti- PLT therapy with ASA and Clopidogrel reduce stent re-thrombosis rates to <2%
However the consequences for patients with potential bleeding conditions are potentially life- threatening
Drug- Eluting stents vs Bare metal stents: Off- label indications, A Propensity- score Matched Outcome Study
Stent Thrombosis
Catastrophic, mortality rate of 20-45% Most commonly, about 1% occurs in the first
month after stent implantation ( subacute ) and about 0.19% occur after a few months to a few years ( late )
BMS are associated with higher incidence of stent thrombosis compared to DES
Timing of thrombosis appears to be delayed in DES (higher early stent thrombosis with BMS, and late thrombosis with DES)
Drug- Eluting stents vs Bare metal stents: Off- label indications, A Propensity- score Matched Outcome Study
BMS or DES ?
DES is indicated inhigh- risk patients:diabetic, small vessel, long lesion, presence of a thrombus (off- label)
BMS - Shorter duration of anti- platelet therapy (minimum of 2 weeks to 1 month for those at risk of bleeding) thereby minimizing the risk of bleeding
• However, BMS are prone to early stent thrombosis
Aggressive: PCI
BMS has a shorter duration of anti- platelet therapy (minimum of 2 weeks to 1 month for those at risk of bleeding)
for post- BMS stent, Clopidogrel 75 mg OD for at least 1 month (ideally up to 1 year if not at risk for bleeding; then it should be given for a minimum of 2 weeks if at risk)
a lower dose of 75- 162 mg of ASA is reasonable (during the initial period after stent placement) in patients at risk of bleeding
Cilostazol has similar anti- PLT affects with less serious side effects;
Use of ANTI- PLATELET
AGENTS in
Hematologic Patients
Literature reports on ITP patients who underwent PTCA/ PCI, with use of anti-PLT:
62/M with PLT 3,000, underwent LAD stenting, tolerated 4wks of ASA and 2wks of Clopidogrel; no bleeding (Caputo, et al.)
68/F with PLT 22,000, underwent LAD stenting, maintained on Ticlodipine, no bleeding (Kikuchi et al.)
54/M with PLT 8,000, underwent BMS stenting, given Enoxaparin; discontinued due to epistaxis (Marques et al.)
77/M with PLT 70,000, underwent PTCA, on ASA and Clopidogrel; discontinued due to petechiae
Use of Anti- Platelet AgentsASPIRINIrreversible inhibition of COX-1, which prevents formation of
PGH2, the precursor of thromboxane A2
Patients with thrombocytopenia from whatever cause
(PLT 50,000) are at extremely high- risk of excessive bleeding. Therefore, Aspirin is harmful in these patients and should not be administered (Class III RECOMMENDATION)
In those who underwent stent placement, a lower dose of 75- 162 mg of ASA is reasonable (during the initial period after stent placement) in patients at risk of bleeding
The Society of Thoracic Surgeons Practice Guideline Series : ASA and other Anti- Platelet agents during operative coronary revascularization, 2003
CLOPIDOGRELInhibits binding of PLT to ADP receptors
2007 STEMI guideline• For STEMI patients not undergoing PCI (medical or
PTCA without stenting), treatment with Clopidogrel 75mg OD x 14 days
• Recommends all post- PCI stent patients receiving a DES, Clopidogrel 75 mg OD for at least 12 months if patient is not at high risk of bleeding; for post- BMS stent, Clopidogrel 75 mg OD for at least 1 month (ideally up to 1 year if not at risk for bleeding; then it should be given for a minimum of 2 weeks if at risk)– Level of evidence, B
2007 Focused Update on STEMI Guideline
• Premature discontinuation of Clopidogrel is associated with a marked increase in risk of stent thrombosis, & is the leading independent predictor in multiple studies
• For every 100 patients treated with Clopidogrel + ASA, 2 events of CV death, non- fatal MI, or stroke will be prevented but 1 patient will suffer a major bleed (ie, ICH)
1 Prevention of Premature Discontinuation of Dual anti- Platelet Therapy2 AHA 2007 Focused Guideline on STEMI3 CURE (Clopidogrel in Unstable angina to prevent Recurrent Event )Trial
Predictors of Thrombosis
CLINICAL Advanced Age Acute coronary Syndromes Diabetes Renal Failure Low ejection Fraction
Premature Discontinuation of Dual anti- PLT Therapy in Patients with Stents (Journal of AHA, 2007)
CILOSTAZOL-Phosphodiesterase III inhibitor; anti- proliferative effect
Cilostazol for RESTenosis (CREST) clinical trial in post BMS
Preliminary results suggested that Cilostazol (phosphodiesterase III inhibitor) reduces restenosis by nearly 40% over standard therapy alone
It has similar anti- PLT affects with less serious side effects (esp bleeding) ; common SE include thrombocytopenia and leukopenia/ agranulocytosis
CILOSTAZOL
In the study “Triple vs Dual Anti- platelet Therapy After Coronary Stenting”, addition of Cilostazol resulted in further reduction of PLT activation due to additional suppression of P- selectin (a marker of PLT activity)
The rate of major bleeding was similar in both groups
However, patients with known bleeding disorders and PLT< 150T were excluded in the study
Recommended dose 100 mg BID, but may be decreased to 50 BID if with concomittant use of CYP450 inhibitors (ie, Diltiazem)
SINGLE ANTI- PLATELET THERAPY
OR
DUAL ANTI- PLATELET THERAPY
Current ACC/ AHA/ Society of Cardiovascular Angiography & Interventions for prevention of stent thrombosis post PCI
_________________________________________
At minimum, patients should be treated with :
Clopidogrel 75 mg OD &
ASA 325 mg OD for 1 month after BMS, 3-6 months after DES,
and ideally up to 1 year if they are not at risk for bleedingDual Anti- PLT Therapy for Prevention of Ischemic
Cardiovascular Events & Stent Thrombosis
Use of a single anti- platelet regimen may possibly reduce the risk of bleeding
• Aspirin - 75- 162 mg is reasonable (during the initial period after stent placement) in patients at risk of bleeding
• Cilostazol has similar anti- PLT affects with less serious side effects;
Outcome
Hematology service agreed on Aspirin 325 mg OD
3rd day post angiogram, persistent pancytopenia and hemodynamic instability
ventricular fibrillation After 45 minutes of CPR, patient
expired
Final Diagnoses
Cardiopulmonary Arrest sec.to Ventricular Fibrillation post STEMI, anterolateral wall
Myelodysplastic Syndrome Sepsis sec.to Pneumonia and Laryngeal
Candidiasis in the Immunocompromised Acute Renal Failure, multifactorial Steroid-induced Hyperglycemia Hypertensive Atherosclerotic
Cardiovascular Disease
Arrhythmia is a serious complication of STEMI
Possibility of another infarction may have precipitated the arrhythmia
In retrospect, in an immunocompromised patient with severe hematologic disorder with a coronary artery thrombus, who was septic, undergoing dialysis for acute renal failure, with impending liver failure, would an aggressive approach like PCI do more harm than good?
CONCLUSION
It is apparent that any medical or surgical intervention has both systematic and random effects, some of which are beneficial and some are unintended negative consequences
Therefore , the practice of medicine often necessitates a probabilistic balancing of these conflicting effects, and management should be individualized, depending on the risk: benefit ratio
Thank You
“….. The science of medicine becomes a structured and organized way of using probability, uncertainty, and facts in preventive medicine and clinical care to best benefit the patient and the community…”
-Jenicek, Foundations of Evidence- Based Medicine