Local hyperthermia enhances the effect of cis-diamminedichloro-platinum(II) on nonirradiated and preirradiated rat solid tumors.

PURPOSE: We have investigated differences in the efficacy of combined treatment with cis-diamminedichloroplatinum(II) (cDDP) and local hyperthermia (HT) in nonirradiated and preirradiated experimental tumors. METHODS AND MATERIALS: Survival of R-1 rhabdomyosarcoma cells was assessed after treatment with various cDDP-concentrations at 37 degrees C and 42 degrees C in vitro. Rats bearing R-1 rhabdomyosarcomas of 190 mm3 (SE 15 mm3) were treated with cDDP (6 mg/kg i.p.), HT (1 h at 43 degrees C), or cDDP+HT (45 min interval) without preirradiation or at day 16 after the first dose of fractionated irradiation. Fractionated irradiation consisted of four daily doses of 5 Gy of x-rays each and tumor volumes had regrown to their original volume at the time of treatment. Experimental endpoint was tumor growth delay (TGD). RESULTS: Hyperthermia-enhanced cDDP cytotoxicity in vitro by a factor of about 5. Treatment with cDDP or HT alone resulted in a similar TGD in non- and preirradiated tumors (7.2 vs. 7.4 days and 1.1 vs. 0.9 days, respectively). In non- as well as in preirradiated tumors, HT given in combination with cDDP significantly enhanced the effect of cDDP, prolonging the TGD (11.1 days (p = 0.0001) and 16.2 days (p < 0.0001), respectively) corresponding to a TGD-enhancement of 1.54 and 2.19, respectively. The TGD after cDDP+HT in preirradiated tumors was significantly longer than in nonirradiated tumors (p = 0.0003). CONCLUSIONS: In this tumor model, HT enhanced the antitumor effect of cDDP. Previous radiation treatment did not reduce the HT-enhanced effect of cDDP. Combined cDDP and HT may be useful in the treatment of nonirradiated tumors as well as previously irradiated tumors.

Hyperthermia-enhanced effectiveness of mitoxantrone in an experimental rat tumour.

The influence of local hyperthermia (HT) on Mitoxantrone (MITOX) effectiveness was studied in an experimental rat tumour. R-1 rhabdomyosarcomas were treated with MITOX (5 mg/kg ip), HT (43 degrees C for 1 h) or combinations applied at various time intervals up to 24 h. Tumour growth delay and tumour cell clonogenicity were assessed in correlation with the pharmacokinetics in blood plasma and with MITOX-concentrations in tumour tissue. Combined treatments were more effective than expected on the basis of simple addition of effects of single treatments. With increasing time intervals between treatments up to 8 h, an increase in effectiveness was observed. Unfortunately, treatment with an 8-h interval resulted in a high mortality: 80% of the rats died with 5-10 days after treatment. Treatment with a 3-h interval between MITOX and HT was the most effective combination resulting in the highest therapeutic ratio. Even local tumour controls (14/18 rats) were observed. These enhanced effects were associated with a higher MITOX-concentration in the fraction of intact cells recovered from tumours. However, no differences were observed in MITOX-concentration in total tumour tissue nor in plasma concentrations. In conclusion, timing between MITOX and HT is important for drug availability, for interaction of the two modalities to increase damage in tumour cells and for limiting the toxicity to normal tissues.

Local hyperthermic treatment does not enhance mitoxantrone effectiveness for responses of a rat solid tumour regrowing after irradiation.

Tumours regrowing after irradiation may respond differently to chemo-hyperthermia as compared to non- irradiated tumours. In this study, the efficacy of combined treatment of previously irradiated tumors with mitoxantrone and local hyperthermia (HT) was investigated. Rat R-1 tumours were irradiated with dose fractions of 5Gy X-rays applied on 4 consecutive days. Animals were retreated with mitoxantrone (5mg/kg i.p.), HT (1 h at 43 degrees C) or mitoxantrone + HT (3-h interval) on day 9 after the start of irradiation when tumour volumes were decreasing, or on day 16 when tumour volumes were increasing again. Pharmacokinetics were studied in relation to tumor cell survival and tumour growth delay. No Ht=induced changes in the pharmacokinetics of mitoxantrone were observed. The data on clonogenic survival correlated well with these findings and combined treatment were not more effective than mitoxantrone alone. In the treatment schedule applied, HT did not induce pharmacokinetic changes in irradiated tumours leading to an enhanced cytotoxicity of mitoxantrone. The HT- enhanced effectiveness of the drug observed in non- irradiated tumours is much less in pre-irradiated tumours. Responses of regrowing tumours to combined chemo- hyperthermia depend in a complex way on the stage of regrowth and on the treatment schedule.

Enhancement of the effectiveness of methotrexate for the treatment of solid tumours by application of local hyperthermia.

Investigations were performed to assess the influence of hyperthermia on the pharmacokinetics of a chemotherapeutic drug and on the effectiveness of combined treatments for induction of tumour cell death and growth delay of experimental tumours. Treatments consisted of methotrexate (MTX, 20 mg/kg ip), hyperthermia at 43 degrees C during 60 min (HT60) or 90 min (HT90) and combined chemo-hyperthermia using various time intervals up to 24 h. The results indicate that, for MTX + HT90, concentrations in excess of 0.02 mg/kg are maintained in tumour tissue during at least 22 days, whereas after the other single and combined treatments, the concentration decreased below this level within 5-8 days. The combinations of MTX + HT90 also were more effective with respect to tumour growth delay, 26-28 days, and frequency of partial remissions, 75-100%, as compared to the other treatments: 7-12 days and 0-28% respectively. These observations correlate well with cell survival data. It is concluded that hyperthermia can enhance the effectiveness of MTX and that variation of time-intervals between administration of MTX and hyperthermia as well as the duration of the hyperthermic treatment have a great influence on tumour responses. Unfortunately, also toxic effects were induced distantly from the site of local hyperthermic treatment by the combination of MTX + HT90 which was most effective with respect to tumour eradication.