G. Gahrton scite author profile

In the light of previous findings that treatment of leukemia patients with DNA-linked doxorubicin gave higher doxorubicin concentrations in leukemic cells than treatment with doxorubicin alone, the Leukemia Group of Middle Sweden performed a randomized clinical trial to compare the effects of doxorubicin and doxorubicin-DNA in patients with acute non-lymphoblastic leukemia. One hundred and twenty consecutive patients within the age range 15 to 60 years were randomized to one of three treatment groups. In two of these, remission induction treatment was performed with prednisolone, vincristine, ara-C and thioguanine combined with either doxorubicin or doxorubicin-DNA. Patients entering a complete remission received intensive consolidation during 16 months with 4 courses each of doxorubicin (+/ - DNA)/ara-C, doxorubicin (+/ - DNA)/azacytidine, ara-C and amsacrine. The third treatment group followed a protocol from a previous study with daunorubicin and ara-C for induction therapy and a less intensive maintenance therapy. No further patients were assigned to this "control" group after 3 years or to the two other groups after 6 years. This report is based on a follow-up 31 months thereafter. The overall rate of complete remission was 67% and the mean time to complete remission was 71 days, with no differences between the treatment groups. Patients treated with the doxorubicin-DNA conjugate had a significantly longer survival [median for all patients 27.2 months (p < 0.01) and for patients in CR 47.0 months (p < 0.025)] and longer duration of first remission (median 23.6 months, p < 0.025) than the other groups. There were significantly fewer reports of cardiotoxicity (p < 0.05) and severe intestinal toxicity (p < 0.02) in patients treated with the doxorubicin-DNA conjugate and there was a tendency towards less hepatic (p < 0.08) and renal toxicity (p < 0.08). The frequency of myelosuppression, fever and infectious complications was similar in all three groups. Complex binding to DNA appears to increase the therapeutic effects and reduce some toxic effects of doxorubicin in patients with ANLL.

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Erratum: International uniform response criteria for multiple myeloma

Durie¹,

Miguel²,

Bladé³

et al. 2006

Leukemia

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Relevance of an Academic GMP Pan-European Vector Infra-Structure (PEVI)

Cohen-Haguenauer

Cruz

Tunc

et al. 2010

CGT

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In the past 5 years, European investigators have played a major role in the development of clinical gene therapy. The provision of substantial funds by some individual member states to construct GMP facilities makes it an opportune time to network available gene therapy GMP facilities at an EU level. The integrated coordination of GMP production facilities and human skills for advanced gene and genetically-modified (GM) cell therapy, can dramatically enhance academic-led "First-in-man" gene therapy trials. Once proof of efficacy is gathered, technology can be transferred to the private sector which will take over further development taking advantage of knowledge and know-how. Complex technical challenges require existing production facilities to adapt to emerging technologies in a coordinated manner. These include a mandatory requirement for the highest quality of production translating gene-transfer technologies with pharmaceutical-grade GMP processes to the clinic. A consensus has emerged on the directions and priorities to adopt, applying to advanced technologies with improved efficacy and safety profiles, in particular AAV, lentivirus-based and oncolytic vectors. Translating cutting-edge research into "First-in-man" trials require that pre-normative research is conducted which aims to develop standard assays, processes and candidate reference materials. This research will help harmonise practices and quality in the production of GMP vector lots and GM-cells. In gathering critical expertise in Europe and establish conditions for interoperability, the PEVI infrastructure will contribute to the demands of the advanced therapy medicinal products* regulation and to both health and quality of life of EU-citizens.

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Reducing the cardiotoxicity of anthracyclines by complex-bindin to DNA

Paul

Gahrton

et al. 1981

Cancer

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Three patients with acute myeloblastic leukemia received high doses of daunorubicin, first in the free form and later as complex with DNA. Two of the patients also received doxorubicin-DNA. Two patients showed symptoms of cardiotoxicity with signs of congestive heart failure after cumulative doses of 910 and 250 mg of noncomplexed daunorubicin/m2 body surface area, respectively. Thereafter they tolerated daunorubicin-DNA complex up to total doses of 1430 mg and 1200 mg daunorubicin/m2, respectively, with no further signs of cardiotoxicity. One of them entered another complete remission after therapy with the complex. The third patient had received 820 mg daunorubicin/m2 and was in his second relapse when he was switched to daunorubicin-DNA complex. A new remission was induced and the patient received a total daunorubicin dose of 1480 mg/m2 with no clinical signs of cardiotoxicity. However, a cardiac biopsy showed minor myocardial changes, which could have been due to daunorubicin. During a third relapse the patient received 270 mg/m2 doxorubicin-DNA. At autopsy still only minor signs of cardiomyopathy were seen. Thus, complex-binding of anthracyclines with the DNA appears to enhance the usefulness of these drugs in the treatment of patients with leukemia.

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G. Gahrton

Chlorambucil/prednisone vs. CHOP in symptomatic low-grade non-Hodgkin's lymphomas: A randomized trial from the Lymphoma Group of Central Sweden

A Randomized Comparison of Doxorubicin and Doxorubicin-DNA in the Treatment of Acute NonLymphoblastic Leukemia

Erratum: International uniform response criteria for multiple myeloma

Relevance of an Academic GMP Pan-European Vector Infra-Structure (PEVI)

Reducing the cardiotoxicity of anthracyclines by complex-bindin to DNA

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