Fibrinolytics

• Fibrinolytics convert plasminogen to plasmin, which degrades fibrin and dissolves intravascular clots.
• Major ED/ICU uses: acute ischemic stroke, ST-elevation myocardial infarction (STEMI) when PCI unavailable, and high-risk (massive) pulmonary embolism with hemodynamic compromise. Selected uses: catheter-directed thrombolysis for PE/DVT/line thrombosis, acute limb ischemia, and some mechanical valve thromboses.
• Alteplase (tPA) is the workhorse for ischemic stroke and is also used for PE and (less commonly now) STEMI. Tenecteplase (TNK) is standard for STEMI in many systems and is increasingly used off-label for stroke. Reteplase and streptokinase are primarily legacy MI agents with decreasing use in many regions.
• Systemic thrombolysis carries a significant risk of major bleeding and intracranial hemorrhage (ICH). Patient selection and strict contraindication screening are critical.
• Time is critical: for stroke and STEMI, benefit is highest when given as early as possible after symptom onset. Delayed administration offers diminishing benefit and higher relative bleeding risk.
• Fibrinolytics do not replace mechanical reperfusion (PCI, thrombectomy) but are important when definitive mechanical options are delayed or unavailable.

• Generic Names: Alteplase (tPA), Tenecteplase (TNK-tPA), Reteplase (rPA), Streptokinase (SK)
• Brand Names: Alteplase: Activase, Cathflo Activase; Tenecteplase: TNKase; Reteplase: Retavase; Streptokinase: Streptase (various)

Fibrinolytics / Thrombolytics – Plasminogen Activators (systemic and catheter-directed)

Mechanism of Action:

• All fibrinolytics act by converting plasminogen to plasmin, the active enzyme that degrades fibrin and fibrinogen, leading to clot breakdown (fibrinolysis)
• Alteplase and tenecteplase are recombinant tissue plasminogen activators (tPA) with relative fibrin selectivity: they preferentially activate plasminogen bound to fibrin within a thrombus
• Reteplase is a modified tPA variant with a longer half-life and less fibrin specificity than alteplase, allowing double-bolus dosing
• Streptokinase is a bacterial protein that forms a complex with plasminogen to generate plasmin; it is non-fibrin–specific, often generates systemic fibrinolysis, and is immunogenic (antibody formation)
• By promoting fibrinolysis, these agents can restore perfusion to ischemic tissue but also disrupt hemostatic plugs at other sites, causing systemic bleeding complications

Pharmacokinetics:

• Alteplase (tPA): Initial half-life ~5 minutes (rapid clearance) with a terminal phase 30–60 minutes; requires bolus plus infusion for systemic indications
• Tenecteplase (TNK-tPA): Longer half-life (~20–24 minutes) supports single-bolus administration; genetically modified tPA with greater fibrin specificity
• Reteplase (rPA): tPA derivative with reduced fibrin specificity and longer half-life than alteplase; allows two small IV boluses 30 minutes apart
• Streptokinase (SK): Non-enzymatic protein that forms complex with plasminogen; antibody formation after prior exposure can reduce efficacy and increase allergic reactions

Alteplase (tPA):

• Acute ischemic stroke (primary indication)
• STEMI when PCI is unavailable or delayed
• Massive PE with hemodynamic compromise
• Low-dose catheter-directed use for PE/DVT and catheter occlusion

Tenecteplase (TNK-tPA):

• STEMI (approved widely; single IV bolus dosing)
• Acute ischemic stroke (increasingly used off-label in some centers and guidelines)

Reteplase (rPA):

• STEMI as a double-bolus regimen (not commonly used for stroke)

Streptokinase (SK):

• Historically used widely for STEMI, PE, and DVT (use has declined due to antigenicity, hypotension, and higher bleeding rates)

Other Uses:

• Catheter-directed thrombolysis for PE, DVT, or peripheral arterial thrombosis (lower doses delivered locally via catheter)
• Acute limb ischemia (highly protocolized, managed by vascular surgery/interventional radiology)
• Mechanical valve thrombosis (selected cases)

Available Forms:

• Alteplase: 50 mg and 100 mg vials (reconstituted for IV use); 2 mg vials (Cathflo Activase for catheter clearance)
• Tenecteplase: 50 mg vial (reconstituted for single-bolus IV use)
• Reteplase: 10.4 unit (10 mg) vials for IV bolus
• Streptokinase: 250,000 unit, 750,000 unit, and 1.5 million unit vials for IV infusion

Systemic Fibrinolytic Dosing – Adult (ED/ICU; always follow local protocols):

Pulmonary Embolism – Systemic Thrombolysis (Adult; examples):

Catheter-Directed and Other Dosing Examples:

• Alteplase for catheter-directed PE/DVT: Low-dose infusions (e.g., 0.5–1 mg/h per catheter, with maximum daily dose limits) per interventional and institutional protocols
• Alteplase for central venous catheter occlusion: 2 mg in 2 mL instilled into the catheter lumen (dwell 30–120 min), repeat once if needed (adult dosing; pediatric volumes are smaller)
• Acute limb ischemia: Fibrinolytic dosing is highly protocolized and usually managed by vascular surgery/interventional radiology

Absolute Contraindications (typical; always check local protocol):

• Any prior intracranial hemorrhage
• Known structural cerebral vascular lesion (e.g., AVM, aneurysm) or malignant intracranial neoplasm
• Ischemic stroke within the last 3 months (except acute ischemic stroke being treated with tPA under stroke protocols)
• Suspected aortic dissection
• Active internal bleeding (excluding menses)
• Significant closed-head or facial trauma within 3 months
• Intracranial or intraspinal surgery within recent weeks (timeframes vary by guideline)

Relative Contraindications:

• Severe uncontrolled hypertension (e.g., SBP >180–185 mmHg or DBP >110–115 mmHg) despite antihypertensive therapy
• Recent major surgery (<2–3 weeks), recent internal bleeding, or traumatic/prolonged CPR
• History of ischemic stroke beyond guideline exclusion periods, dementia, or other intracranial pathology increasing bleeding risk
• Pregnancy, active peptic ulcer disease, or current use of anticoagulants with elevated INR or low fibrinogen
• Advanced age and frailty – not absolute, but bleeding risk is higher; requires individualized risk–benefit discussion

Common (Class):

• Minor bleeding: gingival bleeding, ecchymoses, oozing from IV sites
• Hypotension, particularly with streptokinase and rapid infusions
• Nausea, vomiting

Serious:

• Intracranial hemorrhage (ICH): Most feared complication; risk varies with indication, age, blood pressure, and comorbidities
• Major systemic bleeding: Requiring transfusion or procedural intervention (GI bleed, retroperitoneal hemorrhage, hemopericardium)
• Reperfusion arrhythmias: Accelerated idioventricular rhythm, VT/VF after successful coronary thrombolysis
• Allergic reactions and anaphylaxis: Particularly with streptokinase (immunogenic)
• Orolingual angioedema: With alteplase in stroke patients, especially those on ACE inhibitors

Elderly:

• Advanced age increases bleeding risk, particularly intracranial hemorrhage
• Not an absolute contraindication but requires careful risk–benefit assessment
• Stroke guidelines include age-related considerations in extended time windows

Renal Impairment:

• No specific dose adjustments for alteplase, tenecteplase, or reteplase
• Renal dysfunction may increase bleeding risk; assess overall patient risk profile

Hepatic Impairment:

• Severe hepatic dysfunction increases bleeding risk due to coagulopathy
• May be a relative contraindication depending on coagulation parameters

Pregnancy & Lactation:

• Pregnancy is a relative contraindication for systemic fibrinolysis
• Use only when potential benefit justifies the risk (e.g., life-threatening PE, STEMI)
• Limited data on excretion in breast milk; benefits vs. risks should be discussed

Weight-Based Considerations:

• Tenecteplase and stroke-dose alteplase are weight-based with maximum dose caps
• Ensure accurate weight measurement for proper dosing

Neurologic Monitoring:

• Frequent neurologic checks (q15–30 min initially) after stroke thrombolysis to detect early signs of intracranial hemorrhage
• Immediate head CT if sudden neurologic deterioration, severe headache, or new focal deficits occur

Cardiovascular Monitoring:

• Continuous ECG and serial hemodynamics for STEMI and PE patients to assess reperfusion and detect arrhythmias or hypotension
• Monitor for reperfusion arrhythmias (common after successful STEMI thrombolysis)

Blood Pressure Control:

• Strict blood pressure control per indication-specific protocols (e.g., <180/105 mmHg for stroke post-tPA, or as per local guidelines)
• Antihypertensives may be needed to maintain target ranges

Laboratory Monitoring:

• Serial hemoglobin/hematocrit, fibrinogen, and coagulation parameters in patients at high risk of bleeding or receiving prolonged infusions
• Type and screen/crossmatch blood products in case transfusion is needed

Bleeding Surveillance:

• Site checks for bleeding: IV lines, arterial lines, Foley catheter, surgical sites
• Monitor for occult bleeding: abdominal exam, back/flank tenderness, stool guaiac, NG tube aspirate
• Assess for signs of retroperitoneal or intra-abdominal bleeding

• 1. Powers, W. J., Rabinstein, A. A., Ackerson, T., et al. (2019). 2018 Guidelines for the early management of patients with acute ischemic stroke: A guideline for healthcare professionals from the AHA/ASA. Stroke, 50(12), e344–e418.
• 2. O'Gara, P. T., Kushner, F. G., Ascheim, D. D., et al. (2013). 2013 ACCF/AHA guideline for the management of ST-elevation myocardial infarction. Circulation, 127(4), e362–e425.
• 3. Konstantinides, S. V., Meyer, G., Becattini, C., et al. (2019). 2019 ESC guidelines for the diagnosis and management of acute pulmonary embolism. European Heart Journal, 41(4), 543–603.
• 4. Lexicomp. (2024). Alteplase, tenecteplase, reteplase, and streptokinase: Drug information. Wolters Kluwer.
• 5. EMCrit Project. (2023–2024). Pulmonary embolism (IBCC), Acute coronary syndrome (IBCC), and Stroke (IBCC). https://emcrit.org/