Drugs ten years later: epirubicin

Impedimetric DNA Sensors for Epirubicin Detection Based on Polythionine Films Electropolymerized from Deep Eutectic Solvent

An electrochemically active polymer, polythionine (PTN), was synthesized in natural deep eutectic solvent (NADES) via multiple potential scans and characterized using cyclic voltammetry and electrochemical impedance spectroscopy (EIS). NADES consists of citric acid monohydrate, glucose, and water mixed in the molar ratio of 1:1:6. Electrodeposited PTN film was then applied for the electrostatic accumulation of DNA from salmon sperm and used for the sensitive detection of the anticancer drug epirubicin. Its reaction with DNA resulted in regular changes in the EIS parameters that made it possible to determine 1.0-100 µM of epirubicin with the limit of detection (LOD) of 0.3 µM. The DNA sensor developed was successfully applied for the detection of epirubicin in spiked samples of artificial and natural urine and saliva, with recovery ranging from 90 to 109%. The protocol of the DNA sensor assembling utilized only one drop of reactants and was performed with a minimal number of steps. Together with a simple measurement protocol requiring 100 µL of the sample, this offers good opportunities for the further use of the DNA sensor in monitoring the drug level in biological samples, which is necessary in oncology treatment and for the pharmacokinetics studies of new antitumor drugs.

Global longitudinal strain at 3 months after therapy can predict late cardiotoxicity in breast cancer

BACKGROUND

Cancer therapy-related cardiovascular toxicity (CTR-CVT) is a major contributor to poor prognosis in breast cancer (BC) patients undergoing chemotherapy. Left ventricular global longitudinal strain (LV GLS) has predictive value for CTR-CVT, while few researchers take into account late-onset CTR-CVT. This study sought to provide a guide for the prediction of late-onset CTR-CVT in primary BC over the 2 years follow-up via strain and contrast-enhanced echocardiography.

METHODS

Anthracycline and anthracycline + targeted medication groups were created from 111 patients with stage I-III primary BC who were prospectively included. The left ventricular diastolic function, LV global long-axis strain (GLS); left ventricular ejection fraction by contrast-enhanced echocardiography (c-LVEF), and electrocardiograms were collected at baseline, 3, 6, 12, and 24 months after the start of cancer treatment. The high-sensitivity troponin-T and NT-pro BNP at baseline and 3 months after chemotherapy were measured.

RESULTS

(1) LV GLS decreased in BC patients over time. (2) After 12 months' follow-up, the LV GLS in the anthracycline+ targeted group was lower than in the anthracycline group. After 24 months' follow-up, the GLS and c-LVEF in the anthracycline + targeted group declined while the E/e' increased. (3) Decreased LVEF (56%) and arrhythmia (38%) are the common causes of CTR-CVT. Lower LVEF was a major factor in late-onset CTR-CVT. (4) Combination of LV GLS and c-LVEF at 3 months were used as predictors for CTR-CVT and exhibited a higher AUC than either one alone (AUC = 0.929, 95% CI: 0.863-0.970). LV GLS at 3 months can predict the late-onset CTR-CVT (AUC = 0.745, p < 0.001), and the cut-off is 20.32%.

CONCLUSIONS

As time went on, the systolic and diastolic dysfunction of BC patients get worsened. The combination of LV GLS and c-LVEF is better in the prediction of CTR-CVT. Only the LV GLS at 3 months can predict the late-onset CTR-CVT.

Do Bacteria Provide an Alternative to Cancer Treatment and What Role Does Lactic Acid Bacteria Play?

Cancer is one of the leading causes of mortality and morbidity worldwide. According to 2022 statistics from the World Health Organization (WHO), close to 10 million deaths have been reported in 2020 and it is estimated that the number of cancer cases world-wide could increase to 21.6 million by 2030. Breast, lung, thyroid, pancreatic, liver, prostate, bladder, kidney, pelvis, colon, and rectum cancers are the most prevalent. Each year, approximately 400,000 children develop cancer. Treatment between countries vary, but usually includes either surgery, radiotherapy, or chemotherapy. Modern treatments such as hormone-, immuno- and antibody-based therapies are becoming increasingly popular. Several recent reports have been published on toxins, antibiotics, bacteriocins, non-ribosomal peptides, polyketides, phenylpropanoids, phenylflavonoids, purine nucleosides, short chain fatty acids (SCFAs) and enzymes with anticancer properties. Most of these molecules target cancer cells in a selective manner, either directly or indirectly through specific pathways. This review discusses the role of bacteria, including lactic acid bacteria, and their metabolites in the treatment of cancer.

Magnetic Nanoparticles in Medicine: Progress, Problems, and Advances

The review presents an analysis of the current state of research related to the design, development, and practical application of methods for biomedical radioelectronics and nanomedicine, including the use of magnetic nanoparticles. The important role of rational scientific physical approaches and experimental methods in the design of efficient and safe magnetic nanoparticle-based agents for therapy, controlled targeted drug delivery, and diagnostics, including spatial imaging, is emphasized. Examples of successful practical application of magnetic nanoparticles in medicine based on these methods are given, and an analysis of the main problems and prospects of this area of science is conducted.

Anti-Tumor Effect of Apatinib and Relevant Mechanisms in Liposarcoma

Background

Primary retroperitoneal liposarcomas (RLPSs) are rare heterogeneous tumors for which there are few effective therapies. Certain anti-angiogenic tyrosine kinase inhibitors have demonstrated efficacy against various solid tumors. The aims of this study were to investigate the effect of Apatinib against retroperitoneal liposarcoma cells and its underlying mechanism and to explore the anti-tumor efficacy of a combination of Apatinib and Epirubicin.

Methods

CD34 immunohistochemical staining was used to measure microvessel density (MVD) in 89 retroperitoneal liposarcoma tissues. We used CCK-8 cell proliferation, clone formation, Transwell migration, invasion assays and flow cytometry to evaluate the effects of Apatinib alone and the combination of Apatinib and Epirubicin on liposarcoma cells. High-throughput RNA sequencing and western-blotting was used to identify key differentially expressed genes (DEGs) in SW872 cell line after application of Apatinib. Murine patient-derived tumor xenograft (PDX) was established to assess the efficacy and safety of Apatinib monotherapy and the combination of Apatinib and Epirubicin in RLPS.

Results

The microvessel density (MVD) varied widely among retroperitoneal liposarcoma tissues. Compared with the low-MVD group, the high-MVD group had poorer overall survival. Apatinib inhibited the liposarcoma cell proliferation, invasion and migration, increased the proportion of apoptosis, and induced G1 phase arrest. In addition, the combination of Apatinib and Epirubicin enhanced the foregoing inhibitory effects. High-throughput RNA sequencing showed that Apatinib downregulated the expression of TYMS and RRM2. Western blotting verified that Apatinib downregulated the TYMS/STAT3/PD-L1 pathway and inhibited liposarcoma proliferation by suppressing the RRM2/PI3K/AKT/mTOR pathway. In the murine PDX model of retroperitoneal liposarcoma, Apatinib and its combination with Epirubicin significantly inhibited microvessel formation and repressed tumor growth safely and effectively.

Conclusions

Apatinib and its combination with Epirubicin showed strong efficacy against liposarcoma both in vitro and in vivo. Apatinib might inhibit liposarcoma cell proliferation through the RRM2/PI3K/AKT/mTOR signaling pathway and downregulate PD-L1 via the TYMS/STAT3 signaling pathway.

Mitomycin «C» and Vinorelbine as Second Line Chemotherapy for Metastatic Breast Carcinoma

Aims and background

Patients with metastatic breast carcinoma resistant to first line chemotherapy may require further treatment. Results o second line chemotherapy are still largerly unsatisfactory. For this reason a phase II study on the combination of mitomycin C and vinorelbine was carried out.

Methods

Forty patients with anthracycline pretreated metastatic breast cancer were treated with a combination of mitomycin C 10 mg/m2 i.v. on day 1, and vinorelbine 25 mg/m2 i.v. on days 1 and 8. This cycle was repeated every 28 days. Responses were evaluated according to the WHO criteria.

Results

A major objective response was recorded in 16 cases (40%; 95% confidence limits 32%-48%), with 2 patients (5%) obtaining a complete response with a median duration of 8.0+ months, and 14 (35%) a partial response with a median duration of 7.3+ months. Nine patients (23%) showed no change, and 15 progressed. Patients who did not meet the minimal required criteria to be evaluable were considered as treatment failures. Responses were seen at all sites of disease, but skin, nodal, and soft tissue lesion were more che-mosensitive than liver, lung, and bone ones. The mean survival of patients with complete and partial responses was 8.9+ months, whereas that of patients with no change or progressive disease was 7.8 and 6.0 months respectively. Treatment was very well tolerated by most patients. Gastrointestinal toxicity was mild. Grade 2 leukopenia was recorder in 45% of patients, and grade 3 leukopenia in only 10%. Grade 2 thrombocytopenia was seen in 5%. Reversible mild to moderate constipation occurred in 45%, but no case of severe neurotoxicity was observed.

Conclusions

Our data suggest that the combination of mitomycin C and vinorelbine is active in metastatic breast carcinoma refractory to first line chemotherapy containing anthracyclines, and may be safely administered on an outpatient basis.

Mitoxantrone, 5-Fluorouracil and Low-dose Leucovorin in Doxorubicin-resistant Advanced Breast Cancer Patients: A Phase II Study

Aim

Twenty-two anthracycline-resistant advanced breast cancer patients were entered from June 1995 till November 1997 in a phase II study to assess the activity and tolerability of second-line chemotherapy consisting of mitoxantrone, 5-fluorouracil and low-dose leucovorin.

Study Design

Patients were eligible if they failed to respond to doxorubicin-containing chemotherapy, given as first-line chemotherapy for metastatic disease. Treatment consisted of mitoxantrone, 12 mg/m2 iv infusion on day 1, and leucovorin, 50 mg iv 1 hr before 5-fluorouracil, 350 mg/m2 iv infusion on days 1-3, every three weeks.

Results

Nineteen patients were eligible for response, 2 refused further therapy after 2 cycles, and 1 was excluded because grade 3 myelotoxicity developed during the first cycle. Partial remission of 15 months duration occurred in 1 patient, in 7/19 women disease remained stable with a median duration of 11 months (range, 5-24), and 11/19 patients experienced progressive disease. Median time to disease progression was 2 months (range, 0-17), and median survival was 8 months (range, 0-24). Toxicity was generally mild and acceptable. One patient was excluded because of grade 3 granulocytopenia and thrombocytopenia, and one due to cardiotoxicity assessed by the drop of left ventricular ejection fraction to more than 20% below the initial value.

Conclusions

In spite of the very low objective response rate, almost one-fourth of our anthracycline-resistant patients achieved a disease stabilization of 27 weeks duration during mitoxantrone-based second-line chemotherapy. Hence, mitoxantrone in combination with 5-fluorouracil, especially continuous infusion, should be further investigated in this setting, particularly if new and expensive drugs, considered the most active, are not readily available.

Synthesis, Functionalization, and Design of Magnetic Nanoparticles for Theranostic Applications

In order to translate nanotechnology into medical practice, magnetic nanoparticles (MNPs) have been presented as a class of non-invasive nanomaterials for numerous biomedical applications. In particular, MNPs have opened a door for simultaneous diagnosis and brisk treatment of diseases in the form of theranostic agents. This review highlights the recent advances in preparation and utilization of MNPs from the synthesis and functionalization steps to the final design consideration in evading the body immune system for therapeutic and diagnostic applications with addressing the most recent examples of the literature in each section. This study provides a conceptual framework of a wide range of synthetic routes classified mainly as wet chemistry, state-of-the-art microfluidic reactors, and biogenic routes, along with the most popular coating materials to stabilize resultant MNPs. Additionally, key aspects of prolonging the half-life of MNPs via overcoming the sequential biological barriers are covered through unraveling the biophysical interactions at the bio-nano interface and giving a set of criteria to efficiently modulate MNPs' physicochemical properties. Furthermore, concepts of passive and active targeting for successful cell internalization, by respectively exploiting the unique properties of cancers and novel targeting ligands are described in detail. Finally, this study extensively covers the recent developments in magnetic drug targeting and hyperthermia as therapeutic applications of MNPs. In addition, multi-modal imaging via fusion of magnetic resonance imaging, and also innovative magnetic particle imaging with other imaging techniques for early diagnosis of diseases are extensively provided.

Characterization of DNA topoisomerase I in three SN-38 resistant human colon cancer cell lines reveals a new pair of resistance-associated mutations

BACKGROUND

DNA topoisomerase I (Top1) is a DNA unwinding protein and the specific target of the camptothecin class of chemotherapeutic drugs. One of these, irinotecan, acting through its active metabolite SN-38, is used in the treatment of metastatic colorectal cancer. However, resistance to irinotecan represents a major clinical problem. Since molecular alterations in Top1 may result in resistance to irinotecan, we characterized Top1 in three human colon cancer cell lines with acquired resistance to SN-38.

METHODS

Three SN-38 resistant (20-67 fold increased resistance) cell lines were generated and compared to wild-type parental cells with regards to: TOP1 gene copy number and gene sequence, Top1 expression (mRNA and protein), Top1 enzymatic activity in the absence and presence of drug, and Top1-DNA cleavage complexes in drug treated cells. TOP1 mutations were validated by PCR using mutant specific primers. Furthermore, cross-resistance to two indenoisoquinoline Top1-targeting drugs (NSC 725776 and NSC 743400) and two Top2-targeting drugs (epirubicin and etoposide) was investigated.

RESULTS

Two of three SN-38 resistant cell lines carried TOP1 gene copy number aberrations: A TOP1 gene copy gain and a loss of chromosome 20, respectively. One resistant cell line harbored a pair of yet unreported TOP1 mutations (R364K and G717R) in close proximity to the drug binding site. Mutant TOP1 was expressed at a markedly higher level than wild-type TOP1. None or very small reductions were observed in Top1 expression or Top1 activity in the absence of drug. In all three SN-38 resistant cell lines Top1 activity was maintained in the presence of high concentrations of SN-38. None or only partial cross-resistance were observed for etoposide and epirubicin, respectively. SN-38 resistant cells with wild-type TOP1 remained sensitive to NSC 743400, while cells with mutant TOP1 was fully cross-resistant to both indenoisoquinolines. Top1-DNA cleavage complex formation following drug treatment supported the other findings.

CONCLUSIONS

This study adds to the growing knowledge about resistance mechanisms for Top1-targeting chemotherapeutic drugs. Importantly, two yet unreported TOP1 mutations were identified, and it was underlined that cross-resistance to the new indenoisoquinoline drugs depends on the specific underlying molecular mechanism of resistance to SN-38.

A supramolecular nanovehicle toward systematic, targeted cancer and tumor therapy

A supramolecular nanovehicle (denoted as SNV) was fabricated by encapsulating zinc phthalocyanine (ZnPc) and doxorubicin (DOX) into a copolymer (PVP-b-PAA-g-FA), so as to achieve systematic and synergistic chemotherapy-photodynamic therapy (PDT), targeted tumor imaging and therapy. The sophisticated copolymer designed in this work can load the PDT photosensitizer (ZnPc) and chemotherapy drug (DOX) simultaneously, which exhibits an excellent performance in chemotherapy-PDT targeted cancer and tumor therapy for both in vitro studies performed with HepG2 cells and in vivo tests with mice. This work provides a new drug formulation with a chemotherapy-PDT synergistic effect by virtue of the supramolecular material design, which possesses the advantages of an ultra-low drug dosage and highly-efficient in vivo targeted tumor imaging/therapy.

Epirubicin inhibits growth and alters the malignant phenotype of the U‑87 glioma cell line

Epirubicin, an anthracycline derivative, is one of the main line treatments for brain tumors. The aim of the present study was to verify that epirubicin alters the growth and morphological characteristics of U‑87 glioma cells. In the present study, the effects of epirubicin were tested using cellular and biochemical assays, which demonstrated its anti‑proliferative and cytotoxic effects, with an IC50 of 6.3 µM for the U‑87 cell line, while rat normal neuronal cells were resistant to epirubicin. Epirubicin also reduced the secretion of matrix metalloproteinase‑9 by 48 and 56% at concentrations of 2.5 and 5 µM, respectively. Exposure to epirubicin also diminished levels of vascular endothelial growth factor in U‑87 cells. Furthermore, a cell migration assay showed a significant decrease in cell migration from 28 to 59% following exposure to 1 µM epirubicin. The present study demonstrated the cytotoxic, anti‑proliferative and anti‑migrative potential of epirubicin against glioma cells in vitro.

Preparation and tumor cell model based biobehavioral evaluation of the nanocarrier system using partially reduced graphene oxide functionalized by surfactant

Background

Currently, surfactant-functionalized nanomaterials are tending toward development of novel tumor-targeted drug carriers to overcome multidrug resistance in cancer therapy. Now, investigating the biocompatibility and uptake mechanism of specific drug delivery systems is a growing trend, but usually a troublesome issue, in simple pharmaceutical research.

Methods

We first reported the partially reduced graphene oxide modified with poly(sodium 4-styrenesulfonate) (PSS) as a nanocarrier system. Then, the nanocarrier was characterized by atomic force microscope, scanning electron microscope, high-resolution transmission electron microscope, ultraviolet–visible (UV-vis) spectroscopy, Fourier transform infrared spectroscopy, X-Ray powder diffraction, and Raman spectroscopy. Epirubicin (EPI) was attached to PSSG via π–π stacking, hydrogen bonding, and physical absorption to form conjugates of PSSG–EPI. The adsorption and desorption profiles, cytotoxicity coupled with drug accumulation, and uptake of PSSG and PSSG–EPI were evaluated. Finally, the subcellular behaviors, distribution, and biological fate of the drug delivery system were explored by confocal laser scanning microscope using direct fluorescence colocalization imaging and transmission electron microscopy.

Results

The partially reduced graphene oxide sheets functionalized by surfactant exhibit good dispersibility. Moreover, due to much less carboxyl groups retained on the edge of PSSG sheets, the nanocarriers exhibit biocompatibility in vitro. The obtained PSSG shows a high drug-loading capacity of 2.22 mg/mg. The complexes of PSSG–EPI can be transferred to lysosomes in 2 hours through endocytosis, then the drug is released in the cytoplasm in 8 hours, and ultimately EPI is delivered into cell nucleus to exhibit medicinal effects in 1 day.

Conclusion

The comprehensive exploration of the biological uptake mechanism of functional graphene-mediated tumor cell targeting model provides a typical protocol for evaluation of drug delivery system and will benefit the discovery of new surfactant-modified nanocarriers in nanomedicine.

Overcoming multiple drug resistance by spatial-temporal synchronization of epirubicin and pooled siRNAs

One-pot solution mineralization can encapsulate epirubicin (EPI) and pooled siRNAs (Pgp and Bcl-2 siRNAs) in calcium phosphate (CaP). The resulting EPI-RNA-CaP nanocomplexes can achieve a spatial-temporal synchronous effect to full-scale overcome sophisticated multiple drug resistance (MDR) by simultaneous inhibitions of drug efflux and intracellular anti-apoptotic defense to maximize the therapeutic efficacy.

A phase III randomized trial of high-dose CEOP + filgrastim versus standard-dose CEOP in patients with non-Hodgkin lymphoma: 10-year follow-up data: Australasian Leukaemia and Lymphoma Group (ALLG) NHL07 trial

Increasing dose intensity (DI) of chemotherapy for patients with aggressive non-Hodgkin lymphoma (NHL) may improve outcomes at the cost of increased toxicity. This issue was addressed in a randomized trial aiming to double the DI of myelosuppressive drugs. Between 1994 and 1999, 250 patients with previously untreated aggressive NHL were randomized to treatment with six cycles of 3-weekly standard (s) or intensive (i) chemotherapy: s-CEOP-cyclophosphamide 750, epirubicin 75, vincristine 1.4 mg/m(2) all on day 1, and prednisolone 100 mg days 1-5; i-CEOP-cyclophosphamide 1,500, epirubicin 150, vincristine 1.4 mg/m(2) all on day 1, and prednisolone 100 mg days 1-5. Primary endpoint was 5-year overall survival (OS). Relative to s-CEOP patients, i-CEOP patients achieved a 78% increase in the DI of cyclophosphamide and epirubicin. Despite this, there was no significant difference in any outcome: 5-year OS (56.7% i-CEOP; 55.1% s-CEOP; P = 0.80), 5-year progression free survival (PFS; 41% i-CEOP; 43% s-CEOP; P = 0.73), 5-year time to progression (TTP; 44% i-CEOP; 47% s-CEOP; P = 0.72), or complete remission (CR) + unconfirmed CR (CRu) rates (53% i-CEOP; 59% s-CEOP; P = 0.64). Long-term follow up at 10 years also showed no significant differences in OS, PFS, or TTP. The i-CEOP arm had higher rates of febrile neutropenia (70 vs. 26%), hospitalisations, blood product utilisation, haematological and gastrointestinal toxicities, and lower quality of life scores during treatment, although without significant differences 6-month later. In the treatment of aggressive NHL in the prerituximab era, increasing DI did not result in improved outcomes, while at the same time lead to increased toxicity.

pH-responsive controlled release of epirubicin from Fe@Si-PW hybrid nanoparticles

An efficient drug delivery system has been fabricated through an electrostatic interaction between epirubicin and H3PW12O40-functionalized silica encapsulated maghemite nanoparticles. The obtained nanoparticles were characterized for morphology, size distribution, drug loading efficiency, drug content and drug release behavior. Our results indicate that the hybrid nanoparticles possess high adsorption capacity for epirubicin (20.6wt.%) and high drug loading efficiency (82.6%). The drug release is greater in acetate buffer (95.8%) as compared to phosphate buffered saline (47.5%). The pH-responsive release of the hybrid drug carrier and high drug loading efficiency are its advantages as a promising carrier.

Comparison of blood dynamics of anticancer drugs (cisplatin, mitomycin C, epirubicin) in treatment groups of hepatic arterial infusion, hepatic arterial infusion with lipiodol and transcatheter arterial chemoembolization with lipiodol plus gelatin sponge particles in a swine model

AIM

  To compare the blood dynamics of anticancer drugs (cisplatin, mitomycin, epirubicin) and the negative effect on normal liver tissue among the following procedures: hepatic arterial infusion (HAI), HAI with lipiodol (Lp-HAI) and transcatheter arterial chemoembolization (TACE) with Lp plus particles (Lp-TACE).

METHODS

  Nine swine were divided into three groups: (i) HAI group animals were infused with 5 mg/mL cisplatin, 1 mg/mL mitomycin and 4 mg/mL epirubicin in 0.1 mL/kg contrast medium; (ii) Lp-HAI group animals, with the same doses in 0.1 mL emulsified fluid (0.05 mL/kg, Lp); and (iii) Lp-TACE group animals, with the same doses in 0.1 mL emulsified fluid plus gelatin sponge particles. Outflow ratio (area under plasma concentration curve [AUC(0-60) ] / total infused dose of anticancer drug) and necrosis volume ratio (necrosis volume / total slice volume × 100) were explored.

RESULTS

  Outflow ratios (AUC(0-60) /mg) of cisplatin, mitomycin and epirubicin, and the necrosis volume ratio (%) of the livers, were 2.30, 6.91, 0.97 and 0, respectively, in the HAI group; 1.71, 5.43, 0.79 and 1.37, respectively, in the Lp-HAI group; and 1.23, 3.37, 0.47 and 20.88, respectively, in the Lp-TACE group. The significantly lowest outflow ratio for each anticancer drug (P = 0.05/3) and the significantly highest necrosis volume ratio (P = 0.05/3) were found in Lp-TACE, followed by Lp-HAI and HAI.

CONCLUSION

  Although the necrosis volume ratio of the liver was tolerable, Lp-TACE caused the greatest delay in outflow ratio for each cancer drug and the greatest negative effect to liver in a swine model.

Epirubicin: is it like doxorubicin in breast cancer? A clinical review

Anthracyclines are among the most effective chemotherapy treatments available for various types of cancer. The anthracyclines commonly used in treatment of breast cancer are either epirubicin or doxorubicin. Epirubicin is an epimer of doxorubicin with important role in the chemotherapy treatment of both early and metastatic breast cancer. The efficacy of epirubicin is similar to doxorubicin while epirubicin has a different toxicity profile particularly in regard to cardiotoxicity. Epirubicin has been incorporated into most of the anthracycline containing chemotherapy combinations in well-conducted clinical trials involving large numbers of patients. It has also been investigated in studies involving the administration of epirubicin in dose-dense chemotherapy schedules. Short term follow up of dose-dense clinical trials demonstrated safety comparable to that of doxorubicin. This review summarizes published clinical trials investigating epirubicin in the treatment of early and advanced breast cancer.

Chemotherapy for breast cancer in pregnancy: evidence and guidance for oncologists

It has been estimated that up to 3.8% of breast cancers may be diagnosed in women who are pregnant, with an estimated 1 in 3000-3500 deliveries occurring in women with breast cancer. Owing to the lack of large randomized trials available to guide our clinical practice, our decisions regarding adjuvant systemic management are based on retrospective analyses, case reports and a small number of prospective studies. A tailored approach to treatment is required with careful consideration given at all stages to the needs of the mother and risks to the foetus. Management is critically influenced by the stage of pregnancy, especially the first trimester. Anthracycline-based chemotherapy may be administered during the second and third trimesters, with apparently few short-term implications. Limited data shows the taxanes may also be given with few adverse events at these stages. Weekly fractionation regimens may allow closer monitoring of pregnancy with prompt termination of agents, if necessary. Data concerning the long-term risks of systemic anticancer treatment are limited. All stages of patient management should be discussed within a multidisciplinary team and a clear consensus of treatment options communicated to the mother. Delaying chemotherapy until after delivery may be reasonable in some cases, but where the delay is likely to be prolonged, a decision must be made on the basis of risks versus benefits.

Effect of phospholipid composition on pharmacokinetics and biodistribution of epirubicin liposomes

The effects of phospholipid composition on the pharmacokinetics (PK) and biodistribution of epirubicin (EPI) liposomes, as well as the in vitro macrophage uptake of various liposome formulations, were investigated. Three liposome formulations were investigated: HSPC:Chol (L-EPI; 5:4 molar ratio), HSPC:Chol:DSPG (D-EPI; 5:4:1 molar ratio), and HSPC:Chol:DSPG:DSPE-mPEG(2000) (S-EPI; 5:4:1:0.3 molar ratio). Small unilamellar liposomes were prepared by the modified thin-film hydration method with extrusion through polycarbonate filters, and EPI was remote loaded into liposomes by the transmembrane ammonium sulfate gradient method. Macrophages were used to evaluate in vitro the cellular uptake of EPI-loaded liposomes. The following decreasing order of uptake amount was observed: L-EPI>D-EPI>S-EPI. D-EPI showed a relatively low level of uptake, probably because of the steric hindrance provided by the glycerol head group on DSPG, protecting it from the direct recognization by cell-membrane receptors. With the presence of serum, uptake values for all liposome formulations were increased for the activation of the complement system. In the PK study, S-EPI showed significantly prolonged circulating time and reduced clearance. The following increasing order of area under the concentration versus time curve was observed among the various liposome formulations: L-EPI<D-EPI<S-EPI. The biodistribution study indicated that S-EPI decreased drug disposition in the liver, spleen, lung, and heart and increased that in the kidney with respect to the other liposomes. The encouraging property of S-EPI, in terms of prolonging circulating time and reducing heart toxicity, might describe a promising perspective toward clinical application, and all the results would support further research into liposome-based drug carriers.

A multicenter prospective phase II randomized trial of epirubicin/vinorelbine versus pegylated liposomal doxorubicin/vinorelbine as first-line treatment in advanced breast cancer. A GOIM study

BACKGROUND

To evaluate activity and tolerability of two anthracycline-containing regimens as first-line treatment for anthracycline-naïve relapsed breast cancer patients.

METHODS

Patients with relapsed breast cancer not previously treated with adjuvant anthracyclines were randomly assigned to epirubicin/vinorelbine (arm A: EPI/VNB, EPI 90 mg/m2 on day 1, VNB 25 mg/m2 on days 1,5 plus G-CSF subcutaneously on days 7-12, with cycles repeated every 21 days), or to pegylated liposomal doxorubicin/VNB (arm B: PLD/VNB, PLD 40 mg/m2 on day 1, VNB 30 mg/m2 on days 1, 15, with cycles repeated every 4 weeks). Primary objective was to evaluate the efficacy of the two regimens in terms of response rate, secondarily toxicity, progression free survival and overall survival.

RESULTS

One hundred and four patients have been enrolled (arm A 54, arm B 50): characteristics were well balanced between the 2 arms. Responses were as follows: arm A, 3 (5.6%) CR, 20 (37%) PR, (ORR 42.6%, 95%CI 29.3%-55.9%); arm B, 8 (16%) CR, 18 (36%) PR, (ORR 52%, 95%CI 38.2%-65.8%). Median progression free survival was 10.7 months in arm A (95% CI, 8.7-12.6), and 8.8 months in arm B (95% CI, 7.1-10.5). Median overall survival was 34.6 months in arm A (95%CI, 19.5-49.8) and 24.8 months in arm B (95%CI, 15.7-33.9). As toxicity concerns, both treatment regimens were well tolerated; myelosuppression was the dose-limiting toxicity, with G3-4 neutropenia occurring in 18.5% and 22% of the patients of arm A and B, respectively. No relevant differences in main toxic effects have been observed between the two arms, except for alopecia, more common in arm A, and cutaneous toxicity, observed only in arm B. No clinical congestive heart failures have been observed, one case of tachyarrhythmia was reported after the last EPI/VNB cycle, and two reversible ≥ 20% LVEF decreases have been observed in arm A.

CONCLUSIONS

Both anthracycline- containing regimens evaluated in the present study seem to be active and with a satisfactory tolerability in anthracycline-naïve relapsed breast cancer patients.

Self-assembled nanoparticles of cholesterol-conjugated carboxymethyl curdlan as a novel carrier of epirubicin

The purpose of this study was to develop nanoparticles made of cholesterol-conjugated carboxymethyl curdlan (CCMC) entrapping epirubicin (EPB) and establish their in vitro and in vivo potential. CCMC was synthesized and characterized by Fourier transform infrared spectra (FT-IR) and proton nuclear magnetic resonance spectra ((1)H NMR). The degrees of substitution (DS) of the cholesterol moiety were 2.3, 3.5 and 6.4, respectively. EPB-loaded CCMC-3.5 nanoparticles were prepared by the remote loading method. The physicochemical characteristics, drug loading efficiency and drug release kinetics of EPB-loaded CCMC-3.5 nanoparticles were characterized. The in vitro release profiles revealed that EPB release was sensitive to the pH as well as the drug loading contents. The cellular cytotoxicity and cellular uptake were accessed by using human cervical carcinoma (HeLa) cells. The EPB-loaded CCMC-3.5 nanoparticles were found to be more cytotoxic and have a broader distribution within the cells than the free EPB. The in vivo pharmacokinetics and biodistribution were investigated after intravenous injection in rats. Promisingly, a 4.0-fold increase in the mean residence time (MRT), a 4.31-fold increase in the half-life time and a 6.69-fold increase in the area under the curve (AUC 0-->infinity) of EPB were achieved for the EPB-loaded CCMC-3.5 self-assembled nanoparticles compared with the free EPB. The drug level was significantly increased in liver at 24 and 72 h; however, it decreased in heart at 8 and 24 h compared with the free EPB. The in vivo anti-tumor study indicated that the EPB-loaded CCMC-3.5 self-assembled nanoparticles showed greater anti-tumor efficacy than the free EPB. Taken together, the novel CCMC self-assembled nanoparticles might have potential application as anti-cancer drug carriers in a drug delivery system due to good results in vitro and in vivo.

Phase II study of epirubicin in combination with weekly docetaxel for patients with advanced NSCLC who have failed or relapsed after the frontline platinum-based chemotherapy

BACKGROUND

We conducted a phase II study to evaluate the efficacy and toxicity of weekly docetaxel combined with epirubicin on D15 as second-line chemotherapy in Taiwanese patients with advanced non small cell lung cancer (NSCLC) who failed or relapsed after the frontline platinum-based chemotherapy.

PATIENTS AND METHODS

Patients with histologically confirmed advanced NSCLC (Stage IIIB-IV) were entered into this Phase II trial. Eastern Cooperative Oncology Group performance status was 0 to 2 and adequate organ function was required. Docetaxel, 30 mg/m, was given intravenously on days 1, 8, and 15 for 30 minutes and epirubicin, 60 mg/m, was given intravenously on day 15, then following one week of rest. Treatment was repeated every 4 weeks for a maximal total of 6 cycles.

RESULTS

Of the 43 eligible patients, 39 patients were evaluated for response, and all were evaluated for toxicity. The overall response rate was 11.6% [95% confidence interval (CI), 1.6-21.6%]. The median time to disease progression for all patients was 2.8 months (95% CI 1.3-4.3%). The median survival time for all patients was 7.7 months (95% CI 5.5-9.9%). The 1-year survival was 32.6% (95% CI 25.4%-39.7%). The major hematologic toxicities were neutropenia, 8/43 (19%) with grade 3-4 neutropenia, as well as anemia, 6/43 (14%) with grade 3-4 anemia. Nonhematological toxicities were modest. Fatigue was common, 77.8% in all, but only 3 (7%) patients with grade 3-4 toxicities. Diarrhea was also common but not severe, 7/43 (16%) with grade 1-2 episodes, and 1/43 (2%) with grade 3-4 episodes. Nail changes, peripheral edema, lacrimation, and alopecia were mild. Hepatic and renal impairment was also only mild.

CONCLUSION

Combining weekly doses of docetaxel 30 mg/m with epirubicin 60 mg/m on D15 was not shown to improve both efficacy and tolerability for advanced NSCLC patients who have relapsed disease after frontline platinum-based chemotherapy.

Expert opinion on the use of anthracyclines in patients with advanced breast cancer at cardiac risk

Anthracyclines are considered to be among the most active agents for the treatment of breast cancer. However, their use is limited by cumulative, dose-related cardiotoxicity. Such cardiotoxicity results in a permanent loss of cardiac myocytes and a progressive reduction in cardiac function following each subsequent dose of anthracycline. Initially, damage to the heart is subclinical; however, increasingly impaired cardiac function can result in cardiovascular symptoms, with serious cardiac injury resulting in chronic heart failure. Since the early detection and treatment of cardiotoxicity can reduce its clinical effects, it is important that oncologists are aware of these adverse effects and manage them appropriately. This review examines the risk factors for anthracycline-associated cardiotoxicity and offers recommendations on strategies to reduce the cardiotoxicity of anthracyclines in the management of patients with advanced breast cancer.

Anthracyline-reduced sequential combination chemotherapy for younger patients with good-prognosis aggressive B-cell non-Hodgkin's lymphoma

INTRODUCTION

Anthracyline-based chemotherapy is the treatment of choice for patients with aggressive B-cell non-Hodgkin's lymphoma (NHL). However, anthracyclines have been associated with long-term cardiac toxicity.

METHODS

We conducted a study using a sequential combination chemotherapy with a reduced cumulative dose of anthracyclines in younger patients with good-prognosis aggressive NHL. Chemotherapy consisted of one cycle of vincristine, ifosfamide, etoposide, and dexamethasone, followed by three cycles of epirubicin, cyclophosphamide, vincristine, and dexamethasone, and a fifth cycle containing carboplatin, etoposide, and dexamethasone. 86 patients were treated, 65 without and 21 with additional rituximab. Consolidating involved-field irradiation was applied in patients with stage I/II, bulky disease, or localized residual lymphoma.

RESULTS

Complete and partial remissions were achieved in 67 and 27% of patients, respectively, and the 3-year event-free and overall survival estimates were 75 and 87%. The survival estimates were substantially better in patients who received rituximab. Main toxicity was grade 3/4 leukocytopenia in 89% patients with neutropenic fever in 30%. Two patients died of septic shock.

CONCLUSION

The treatment appears to be effective in this group of patients. The hematological toxicities, particularly after the first and fifth cycle, require the use of G-CSF and/or a dose reduction in selected patients.

Population-based phase I trial of irinotecan and epirubicin

OBJECTIVES

Preclinical studies have demonstrated anticancer synergism with the combination of inhibitors of topoisomerases I and II. A population-based phase I trial was conducted to determine a population-based maximum tolerated dose (pMTD) for combining 2 topoisomerase inhibitors, irinotecan and epirubicin.

METHODS

Two cohorts of patients with advanced solid tumors were enrolled: 27 patients had and 22 patients had not received prior chemotherapy. In each cohort, irinotecan and epirubicin were administered beginning at a predetermined dose level. The dose for each subsequent 21-day cycle was escalated or de-escalated within each patient based on the dose-limiting toxicity observed in the previous cycle and according to a predetermined schema of dose levels. An MTD was determined for each patient (iMTD) and the iMTDs were used to determine a pMTD for each cohort of patients.

RESULTS

The most common dose-limiting toxicity included neutropenia (51%), asthenia (10%), diarrhea (8%), and nausea/emesis (4%). The iMTDs ranged from dose level -3 to dose level 6. For previously chemotherapy-treated patients, the pMTD was 100 mg/m2 of irinotecan and 50 mg/m2 of epirubicin. For chemonaive patients, the pMTD was 150 mg/m2 of irinotecan and 50 mg/m2 of epirubicin.

CONCLUSIONS

We have determined the pMTD of irinotecan and epirubicin administered every 3 weeks using a population-based approach. The pMTD is recommended for conducting phase II trials.

Anthracycline cardiotoxicity in childhood

Over the last 40 years, a significant advance has been made in the treatment of childhood and adult cancers. However, the increase of the survival rate points out medium- and long-term adverse effects that constitute a serious limitation for the quality of life in adults survived from a childhood cancer. Cardiovascular disease is an important cause of morbidity and mortality in adults treated with chemo- and radiotherapy for childhood cancers. Although some antitumor treatments are potentially cardiotoxic, anthracycline therapy and radiotherapy are mostly responsible for long-term cardiac damage. Anthracycline toxicity is generally limited to the myocardium, while radiation can cause injury to all components of the heart. The purpose of this review is to discuss the mechanisms of action of anthracyclines, their cardiotoxicity, the feasibility of screening, and the prevention of cardiac damage after treatment in childhood.

Cardiotoxicity of antitumor drugs

Many antitumor drugs cause "on treatment" cardiotoxicity or introduce a measurable risk of delayed cardiovascular events. Doxorubicin and other anthracyclines cause congestive heart failure that develops in a dose-dependent manner and reflects the formation of toxic drug metabolites in the heart. Cardiovascular events may occur also with other chemotherapeutics, but the dose or metabolism dependence of such events are less obvious and predictable. Drugs targeted to tumor-specific receptors or metabolic routes were hoped to offer a therapeutic gain while also sparing the heart and other healthy tissues; nonetheless, many such drugs still cause moderate to severe cardiotoxicity. Targeted drugs may also engage a cardiotoxic synergism with "old-fashioned" chemotherapeutics, as shown by the higher than expected incidence of anthracycline-related congestive heart failure that occurred in patients treated with doxorubicin and the anti HER2 antibody Trastuzumab. Mechanism-based considerations and retrospective analyses of clinical trials now form the basis for a new classification of cardiotoxicity, type I for anthracyclines vs type II for Trastuzumab. Such a classification may serve a template to accommodate other paradigms of cardiotoxicity induced by new drugs and combination therapies. Of note, laboratory animal models did not always anticipate the mechanisms and/or metabolic determinants of cardiotoxicity induced by antitumor drugs or combination therapies. Toxicologists and regulatory agencies and clinicians should therefore join in collaborative efforts that improve the early identification of cardiotoxicity and minimize the risks of cardiac events in patients.

Long-Term Results of a Phase-I/II Study of Sequential High-Dose Chemotherapy with Autologous Stem Cell Transplantation in the Initial Treatment of Aggressive Non-Hodgkin's Lymphoma

Aims and Background

To improve the survival of patients with aggressive non-Hodgkin's lymphoma, we evaluated a risk-adapted therapeutic approach using high-dose (HD) or conventional-dose (CD) chemotherapy (CT) for poor-risk and good-risk patients, respectively.

Methods

Twenty patients were treated in each group. In both groups, the first chemotherapy cycle consisted of dexamethasone, vincristine, ifosfamide, and etoposide. Thereafter, the CD or HD patients received 3 or 2 cycles of dexamethasone, vincristine, epirubicin, and cyclophosphamide, respectively, followed by 1 cycle of dexamethasone, carboplatin, and etoposide. In the HD group cyclophosphamide, epirubicin, carboplatin, and etoposide were dose-escalated by a factor of 6, 3, 3, and 3, respectively, as compared to the CD group, and autologous peripheral blood stem cells were administered after each HD-CT cycle.

Results

Grade III-IV toxicities were neutropenia and thrombocytopenia (100%), anemia (55%), and stomatitis (30%) in patients with HD-CT, and neutropenia (90%) in patients with CD-CT. One toxic death occurred in a patient with HD-CT. The overall response rate was 100% in HD-CT patients, including 70% complete remissions, and 80% in CD-CT patients, including 60% complete remissions. The 10-year overall survival was 55% for patients with HD-CT and 80% for patients with CD-CT.

Conclusions

The risk-adapted treatment approach showed tolerable toxicities and was associated with encouraging results.

Defective Taxane Stimulation of Epirubicinol Formation in the Human Heart: Insight into the Cardiac Tolerability of Epirubicin-Taxane Chemotherapies

The antitumor anthracycline doxorubicin induces a dose-related cardiotoxicity that correlates with the myocardial levels of its secondary alcohol metabolite doxorubicinol. Combining doxorubicin with taxanes such as paclitaxel or docetaxel may aggravate cardiotoxicity, presumably because the taxanes cause an allosteric-like stimulation of cytoplasmic aldehyde reductases that convert doxorubicin to doxorubicinol in the heart. A less severe aggravation of cardiotoxicity was observed on combining taxanes with epirubicin, a closely related analog of doxorubicin; therefore, we characterized whether the cardiac tolerability of epirubicin-taxane therapies could be due to a defective taxane stimulation of the conversion of epirubicin to its secondary alcohol metabolite epirubicinol. Comparisons between doxorubicin and epirubicin in isolated human heart cytosol showed that epirubicin exhibited a lower V(max)/K(m) value for reaction with aldehyde reductases and a defective stimulation of epirubicinol formation by paclitaxel or docetaxel. A similar pattern occurred in the soluble fraction of human myocardial strips incubated in plasma with anthracyclines and paclitaxel or docetaxel, formulated in their clinical vehicles Cremophor EL or polysorbate 80. Doxorubicin, but not epirubicin, was also able to generate reactive oxygen species in the membrane fraction of myocardial strips; however, the levels of doxorubicin-derived reactive oxygen species were not further augmented by paclitaxel. These results support the notion that taxanes might aggravate the cardiotoxicity of doxorubicin through a specific stimulation of doxorubicinol formation. The failure of paclitaxel or docetaxel to stimulate epirubicinol formation therefore uncovers an important determinant of the improved cardiac tolerability of epirubicin-taxane combinations.

In vitro modeling of the structure–activity determinants of anthracycline cardiotoxicity

Doxorubicin and other anthracyclines rank among the most effective anticancer drugs ever developed. Unfortunately, the clinical use of anthracyclines is limited by a dose-related life-threatening cardiotoxicity. Understanding how anthracyclines induce cardiotoxicity is essential to improve their therapeutic index or to identify analogues that retain activity while also inducing less severe cardiac damage. Here, we briefly review the prevailing hypotheses on anthracycline-induced cardiotoxicity. We also attempt to establish cause-and-effect relations between the structure of a given anthracycline and its cardiotoxicity when administered as a single agent or during the course of multiagent chemotherapies. Finally, we discuss how the hypotheses generated by preclinical models eventually translate into phase I-II clinical trials.

Pegylated liposomal doxorubicin in combination with vinorelbine as salvage treatment in pretreated patients with advanced breast cancer: a multicentre phase II study

PURPOSE

To investigate the activity and tolerance of pegylated liposomal doxorubicin in combination with vinorelbine in pretreated patients with metastatic breast cancer.

PATIENTS AND TREATMENT

Thirty-six women with metastatic breast cancer were enrolled. The median age was 64 years, 80% of the patients had a performance status of 0-1, 30 (83%) had visceral disease and 83% had received prior taxanes while 50% anthracyclines. Treatment consisted of pegylated liposomal doxorubicin (40 mg/m2 on day 1) and vinorelbine (25 mg/m2 on days 1 and 15) every 4 weeks.

RESULTS

In an intention-to-treat analysis 2 (6%) complete and 12 (33%) partial responses were observed (overall response rate 39%; 95% CI: 23-54.8%); 8 (22%) and 14 (39%) patients experienced stable and progressive disease, respectively. The median TTP was 6.5 months and the median survival time 14.2 months. The 1-year survival rate was 54.1%. Grade 3 and 4 neutropenia occurred in 21 (58%) patients, grade 3-4 anemia in four (11%) and grade 4 thrombocytopenia in one (3%). Two (6%) patients developed febrile neutropenia. Non-hematologic toxicity was mild and easily manageable. There was no clinically important cardiac toxicity or treatment-related deaths.

CONCLUSIONS

The combination of pegylated liposomal doxorubicin and vinorelbine is an active and well tolerated salvage regimen in patients with metastatic breast cancer which merits further evaluation.

Defective One- or Two-electron Reduction of the Anticancer Anthracycline Epirubicin in Human Heart

One-electron quinone reduction and two-electron carbonyl reduction convert the anticancer anthracycline doxorubicin to reactive oxygen species (ROS) or a secondary alcohol metabolite that contributes to inducing a severe form of cardiotoxicity. The closely related analogue epirubicin induces less cardiotoxicity, but the determinants of its different behavior have not been elucidated. We developed a translational model of the human heart and characterized whether epirubicin exhibited a defective conversion to ROS and secondary alcohol metabolites. Small myocardial samples from cardiac surgery patients were reconstituted in plasma that contained clinically relevant concentrations of doxorubicin or epirubicin. In this model only doxorubicin formed ROS, as detected by fluorescent probes or aconitase inactivation. Experiments with cell-free systems and confocal laser scanning microscopy studies of H9c2 cardiomyocytes suggested that epirubicin could not form ROS because of its protonation-dependent sequestration in cytoplasmic acidic organelles and the consequent limited localization to mitochondrial one-electron quinone reductases. Accordingly, blocking the protonation-sequestration mechanism with the vacuolar H+-ATPase inhibitor bafilomycin A1 relocalized epirubicin to mitochondria and increased its conversion to ROS in human myocardial samples. Epirubicin also formed approximately 60% less alcohol metabolites than doxorubicin, but this was caused primarily by its higher Km and lower Vmax values for two-electron carbonyl reduction by aldo/keto-reductases of human cardiac cytosol. Thus, vesicular sequestration and impaired efficiency of electron addition have separate roles in determining a defective bioactivation of epirubicin to ROS or secondary alcohol metabolites in the human heart. These results uncover the molecular determinants of the reduced cardiotoxicity of epirubicin and serve mechanism-based guidelines to improving antitumor therapies.

Long-term cardiac toxicity after adjuvant epirubicin-based chemotherapy in early breast cancer: French Adjuvant Study Group results

BACKGROUND

The aim of the study was to evaluate and compare incidence and risk factors of left ventricular dysfunction (LVD) in early breast cancer patients receiving (E+) or not (E-) epirubicin-based adjuvant chemotherapy.

PATIENTS AND METHODS

Among eight FASG trials, 3577 assessable patients were analyzed retrospectively: 2553 received epirubicin, 662 received hormonotherapy alone and 362 had no systemic treatment. Chemotherapy was FEC regimen in 86% of cases (fluorouracil, epirubicin, cyclophosphamide). Epirubicin cumulative dose was < 300 mg/m2 in 1040 patients, 300-600 in 1155, > or = 600 in 279, followed by radiotherapy in 96% of cases.

RESULTS

Twenty delayed LVD occurred: two in E- patients and 18 in E+ patients. In E+ patients, 14 patients normalized their cardiac function or did not require further investigations, one patient was stabilized with specific treatment, two patients worsened their functions and one died of congestive heart failure. The 7-year risk of LVD was 1.36% (95% CI 0.85-1.87) in E+ patients and 0.21% (95%CI: 0.00-0.52) in E- patients (P = 0.004). Two significant risk factors were identified: age > or = 65 years and body mass index > 27 kg/m2.

CONCLUSION

After a long-term follow-up, epirubicin-related LVD risk was acceptable (1.36%) with one toxic death (0.04%). In 78% of cases, LVD were transient or well controlled.

Comparison of epirubicin and doxorubicin cardiotoxicity in children and adolescents treated within the German Cooperative Soft Tissue Sarcoma Study (CWS)

PURPOSE

Up to now, cardiotoxicity of epirubicin has been studied almost exclusively in adult cancer patients. The aim of this study was to investigate epirubicin in children and adolescents, in comparison with doxorubicin.

METHODS

About 172 soft tissue sarcoma patients (mean age at diagnosis: 8.3 years), treated with epirubicin (median cumulative dose: 450 mg/m2) or doxorubicin (median cumulative dose: 240 mg/m2) within the high-risk group of the CWS-96 study, were examined in a prospective multicentre study. Heart function was analysed by echocardiography, measuring left-ventricular fractional shortening (FS). The median follow up was 27.7 months.

RESULTS

Incidence of clinically manifest cardiomyopathy was 0% (0/60; 95% CI: 0-6.0%) in patients treated with epirubicin, and 0.9% (1/108; 95% CI: 0-5.1%) in patients treated with doxorubicin. A further three patients showed subclinical cardiomyopathy. There was no difference in FS between the two treatment arms.

CONCLUSIONS

Cardiotoxicity was low in our study. For the short term, cardiotoxicity seems to be only a minor problem in patients treated with epirubicin as applied in this cohort.