Improved distribution and reduced toxicity of adriamycin bound to albumin-heparin microspheres

Cremers, H.F.M.; Verrijk, R.; Bayon, L. G.; Wesseling, Martin; Wondergem, J.; Heuff, Gijsbert; Meijer, Sybren L.; Kwon, Glen S.; Bae, You Han; Kim, S.W.; Feijén, Jan

doi:10.1016/0378-5173(94)00408-w

Cited by 6 publications

(4 citation statements)

References 17 publications

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“…At drug doses that were well tolerated by the rat, single injections with doxorubicin alone (sd-DXR; up to 5 mg/kg) did not lead to a change in cardiac performance whereas multiple injections with low-dose doxorubicin alone (mld-DXR; cumulative dose of 10±20 mg/kg) led to a dose-dependent decrease in cardiac function. Using a similar technique to evaluate ex vivo cardiac function, Cremers et al (1995) could not detect a decrease in the heart function of rats after a single bolus injection (intraveno-portal administration of 7.5 mg/kg DXR) either, in spite of the . 2 Relation between cardiac output (ml kPa min A1 g heart A1 ) and cumulative dose of doxorubicin (mld-DXR; mg/kg).…”

Section: Cardiac Performancementioning

confidence: 99%

“…Tables 1, 2). Besides dose and the number of injections, factors such as route of administration, rat strain and gender are reported to play a role in the development of extracardiac toxicities (Bertani et al 1982;Cremers et al 1995;van Hoesel et al 1986;Young et al 1989). van Hoesel et al (1986), for example, showed that male rats are more susceptible to DXR-induced kidney damage than female rats; moreover, the rat strain used in their study (LOU/M/Wsl) developed DXR-induced kidney damage in spite of multiple drug injections.…”

Section: Extracardiac Toxicitiesmentioning

confidence: 99%

“…Experimental research on the combined eects of thoracic irradiation with doxorubicin has put much emphasis on the identi®cation of pathological changes in the heart (Eltringham et al 1975(Eltringham et al , 1979Fajardo et al 1976;Klmler et al 1984). However, prediction and/or quanti®cation of doxorubicin cardiotoxicity based only on morphological studies are questionable as morphological and light-microscopic changes do not always correlate with loss of cardiac function (Cremers et al 1995;Isner et al 1983;Reeves et al 1990) or electrocardiographic alterations (Zbinden and BraÈ ndle 1975). Data on cardiac function after combined treatment are limited (Kitahara et al 1993).…”

Section: Introductionmentioning

confidence: 99%

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Additive effect of concomitant multiple low-dose doxorubicin and thoracic irradiation on ex vivo cardiac performance of the rat heart

Wondergem

Franken

Chin

et al. 1998

Journal of Cancer Research and Clinical Oncology

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The effects of doxorubicin alone or combined with local heart irradiation on ex vivo cardiac performance were studied in Sprague-Dawley rats. Rats were treated with doxorubicin either administered as a single bolus injection or administered weekly during a period of 10 weeks. In "combined" experiments, local heart irradiation with a single dose of 15 Gy was given prior to drug administration. Evaluation of cardiac performance was performed 14 weeks after initiation of treatment. At drug doses that were tolerated by the rat, single injections with doxorubicin (sd-DXR; up to a dose of 5 mg/kg) did not lead to a change in cardiac performance whereas multiple injections with low-dose doxorubicin (mld-DXR; up to a cumulative dose of 20 mg/kg) led to a dose-dependent decrease in cardiac function. Extracardial toxicity as a result of mld-DXR (cumulative dose < or =15 mg/kg) was mild when compared to the toxicities observed after sd-DXR (5.0 and 7.5 mg/kg). When administration of mld-doxorubicin was preceded by 15 Gy, cardiac performance further decreased. The present data indicate that the interaction between doxorubicin and local heart irradiation with a dose of 15 Gy is additive, when the treatments are given concomitantly. Irradiation did not lead to an increase of DXR-mediated extracardial toxicities. The isolated working rat heart preparation offers a reliable method to evaluate the effects of doxorubicin and new anthracycline analogue on the heart.

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Section: Cardiac Performancementioning

confidence: 99%

Section: Extracardiac Toxicitiesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Additive effect of concomitant multiple low-dose doxorubicin and thoracic irradiation on ex vivo cardiac performance of the rat heart

Wondergem

Franken

Chin

et al. 1998

Journal of Cancer Research and Clinical Oncology

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“…If biodegradable, biocompatible ion-exchange microspheres are used, however, this may not be a problem anymore. Recently ion-exchange albumin-heparin conjugate microspheres (AHCMS) were developed, which were shown to be biodegradable and biocompatible and which could be loaded with ADR up to payloads of 34% [10][11][12][13]. The AHCMS are prepared from a soluble conjugate of albumin and heparin.…”

Section: Introductionmentioning

confidence: 99%

Biodegradable ion-exchange microspheres based on modified polylysines

Cremers

Lens

Seymour

et al. 1995

Journal of Controlled Release

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Poly-L-lysine was synthesized via a triethylamine initiated ring-opening polymerization of Z-L-lysine-N'~-carboxyanhydride, followed by deprotection of the E-amino group. Subsequently the polylysine was sulfamated using a pyridinium-sulfate complex to obtain polymers with varying degrees of sulfamation ranging from 0 to 100%. Cytotoxicity of these materials was tested using tetrazolium metabolism (MTI') assays with B16F10 and P388 cell lines. Cytotoxicity of sulfamated polylysines with a degree of sulfamation of 80% and higher was significantly reduced as compared with the native polylysines. In both cell lines, LDso of the sulfamated materials was higher than 5 mg/ml, which was the highest dose tested. LDso of the native polylysines was lower than 0.1 mg/ml in the case of B16F10 and lower than 0.01 mg/ml in the case of P388 cells. Sulfamated polylysines with a degree of sulfamation of 80% were used to prepare microspheres (SPLMS). The microspheres were stabilized using glutaraldehyde or oxidized dextran as a crosslinking agent. The swelling ratio (defined as V~wollen/Vdr~ed) of the SPLMS in aqueous media decreased with increasing ionic strength and crosslink density. The pH (ranging from 3 to 11) had no influence on the swelling ratio of SPLMS. The maximal swelling ratio was approximately 35 (SPLMS crosslinked with 0.5% glutaraldehyde in distilled water). SPLMS could be loaded with adriamycin up to a payload of 60%, which was not influenced by the crosslinking method. The adriamycin release was controlled by the ionic strength of the release medium: no drug was released in non-ionic medium such as distilled water, while 80% of the drug was released in phosphate buffered saline. This effect of the change in ionic strength could be applied to prepare a microsphere suspension in non-ionic medium such as 5% glucose solution, which does not contain free adriamycin. The drug would only be release after intra-arterial administration of this suspension, due to the presence of the blood.

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Solid tumor chemotherapy using injectable gelatin microspheres containing free methotrexate and conjugated methotrexate

Narayani

Rao

1996

International Journal of Pharmaceutics

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Improved distribution and reduced toxicity of adriamycin bound to albumin-heparin microspheres

Cited by 6 publications

References 17 publications

Additive effect of concomitant multiple low-dose doxorubicin and thoracic irradiation on ex vivo cardiac performance of the rat heart

Additive effect of concomitant multiple low-dose doxorubicin and thoracic irradiation on ex vivo cardiac performance of the rat heart

Biodegradable ion-exchange microspheres based on modified polylysines

Solid tumor chemotherapy using injectable gelatin microspheres containing free methotrexate and conjugated methotrexate

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