Oncology Supportive Care Sec.2 PDF

Summary

This document provides information on Oncology Supportive Care, specifically focusing on various aspects of patient management. It includes details on anemia, different antineoplastic therapies, and methotrexate toxicity, along with explanations of the mechanisms of action and potential side effects.

Full Transcript

Oncology
Supportive
Care
Sec.2
Table of contents

01 Anemia Part. II 04 Diarrhea

02 Miscellaneous 05 Dose Adjustment
Antineoplastics for Organ
Dysfunction

03 Methotrexate
Toxicity
 01
Anemia Part. II
Management of anemia and fatigue:-
1) Erythropoiesis-stimulating agents “ESAs”:-
Erythropoiesis Stimulating Agents (ESAs) are medications that
stimulate the production of red blood cells, primarily used to treat
anemia, especially in patients with chronic kidney disease or those
undergoing chemotherapy.

These agents work by mimicking erythropoietin, a hormone produced
by the kidneys that promotes red blood cell formation. While effective
in increasing hemoglobin levels.

According to the most recent guidelines, ESAs are initiated once a
patient’s Hgb drops below 10 g/dL.
Management of anemia and fatigue:-
1) Erythropoiesis-stimulating agents “ESAs”:-
Examples:- Epoetin (Epogen®)& Darbepoetin alfa (Aranesp ®).

The goal:- to decrease the need for transfusion.

It is important to distinguish between the use of these agents for
chemotherapy-associated anemia and cancer-associated anemia. The
latter is not an approved use.

Its use is associated with increased deaths and reduced
chemotherapy outcome; so, its use is restricted to non-curative
settings.
Erythropoiesis-stimulating agents “ESAs”:- :-
Side effects:-
The use of Erythropoiesis-Stimulating Agents (ESAs) carries several
risks, particularly in cancer patients:-

1) Increased Mortality: a potential increase in overall mortality
associated with ESA use, particularly in patients with certain cancers.

2) Thromboembolic Events: There is a heightened risk of venous
thromboembolism (VTE), including deep vein thrombosis and
pulmonary embolism, among patients receiving ESAs.
3) Cardiovascular Risks: ESAs can elevate the risk of serious
cardiovascular events such as stroke, heart attack, and heart failure,
especially when targeting higher hemoglobin levels (>11 g/dL).

4) Tumor Progression: Concerns have been raised that ESAs may
stimulate tumor growth in cancer patients, leading to
recommendations against their use in those not receiving active
treatment or with curable malignancies.

Healthcare providers must carefully weigh these risks against the
benefits when considering ESA therapy for anemia management.
Management of anemia and fatigue:-
2) Transfusion :-
Transfusions are an option if patients are symptomatic.
Transfusion goal is to maintain Hgb at 8–10 g/dL.
 02
Miscellaneous
antineoplastics
Miscellaneous Antineoplastic Therapy:-
Methotrexate toxicity.
Diarrhea.
Dose Adjustment for Organ
Dysfunction.
 03
Methotrexate
toxicity
Methotrexate (MTX)
Methotrexate remains a cornerstone in the treatment of various
cancers and autoimmune diseases due to its efficacy in controlling
cell proliferation and modulating immune responses.

Awareness of the types of toxicity and their risk factors is essential for
optimizing treatment outcomes while minimizing adverse effects.

Regular follow-up with healthcare providers and supportive care are
critical components in managing patients receiving methotrexate
therapy to ensure its safe and effective outcomes.
Mechanism of action
Inhibits nucleotide synthesis, affecting rapidly dividing cells.
Methotrexate toxicity
Hematologic Toxicity: Methotrexate can cause bone marrow
suppression, leading to conditions such as leukopenia (low white
blood cell count), thrombocytopenia (low platelet count), and
anemia. This toxicity typically appears within 1 to 3 weeks of
treatment and may resolve within a similar timeframe.

Hepatotoxicity: Liver damage is one of the most serious side
effects, with potential outcomes including elevated liver enzymes,
fibrosis, and cirrhosis. Long-term use increases the risk, especially in
patients with pre-existing liver conditions or those consuming
alcohol
Methotrexate toxicity
Renal Toxicity: Acute kidney injury (AKI) occurs in approximately
2% to 12% of patients receiving high-dose methotrexate. This is
often due to crystallization of the drug in renal tubules, which can
lead to tubular necrosis.

Gastrointestinal Toxicity: Severe mucositis and gastrointestinal
bleeding may occur, particularly with high doses.
Risk Factors for Toxicity
Several factors can increase the risk of methotrexate
toxicity: Concomitant Medications: Drugs such as NSAIDs and
proton pump inhibitors can enhance methotrexate toxicity by
affecting its metabolism or clearance.

Pre-existing Conditions: Liver disease, renal impairment, and
infections significantly heighten the risk of adverse effects.

Dose and Duration: Higher doses (particularly high-dose
methotrexate) and prolonged treatment duration correlate with
increased toxicity risks
 Third Space Accumulation: Methotrexate (MTX) is known to
accumulate in "third spaces," such as pleural effusions and ascitic
fluid, which can significantly impact its pharmacokinetics and lead to
severe toxicity.
Management
Management strategies for methotrexate toxicity include:
Leucovorin Rescue: Administering leucovorin (folinic acid) can
mitigate some toxic effects, particularly in cases of high-dose
methotrexate administration.

Hydration and Urine Alkalinization: These measures help prevent
renal toxicity by enhancing the solubility of methotrexate in urine4

Monitoring: Regular blood tests to monitor liver function, kidney
function, and blood cell counts are essential for early detection of
toxicity
 Fluid Drainage: It is recommended to drain any significant third
space fluids prior to administering high-dose methotrexate. This
intervention helps prevent the prolonged half-life of methotrexate
and mitigates the risk of toxicity.

Monitoring Methotrexate Levels: Regular monitoring of serum
methotrexate levels is essential, especially in patients with known
third space accumulation. Adjustments in dosing or administration of
leucovorin rescue therapy may be necessary based on these levels.
 04
Diarrhea
Management of Diarrhea
Intensive loperamide therapy using doses higher than the
recommended dose was initially described for irinotecan induced
diarrhea.
 05
Dose adjustment
for organ
dysfunction
Dose Adjustment for Organ Dysfunction
Conflicting recommendation for dose adjustment have been reported.

Many drugs have not been studied in patients with organ
dysfunction.

Dose adjustment for renal dysfunction may be considered for
methotrexate, carboplatin, cisplatin, etoposide, bleomycin, tobotecan
and lenalidomide.

Dose adjustment for hepatic dysfunction may be considered for
doxorubicin, vincristine, vinblastine, docetaxel, paclitaxel, sorafenib
and pazopanib.
Thank YOU!
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