Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q06643 (non-Hodgkin's lymphoma)
 11,307 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Paclitaxel is a new anticancer agent with a novel mechanism of action. It promotes polymerisation of tubulin dimers to form microtubules and stabilises microtubules by preventing depolymerisation. In noncomparative trials, continuous infusion of paclitaxel 110 to 300 mg/m2 over 3 to 96 hours every 3 to 4 weeks produced a complete or partial response in 16 to 48% of patients with ovarian cancer and 25 to 61.5% of patients with metastatic breast cancer, many of whom were refractory to treatment with cisplatin or doxorubicin, respectively. 23 to 100% of patients with ovarian cancer achieved complete or partial responses with paclitaxel in combination with cisplatin, carboplatin, cyclophosphamide, altretamine and/or doxorubicin. Similarly, response rates of 30 to 100% were observed with paclitaxel plus doxorubicin, cisplatin, mitoxantrone and/or cyclophosphamide in patients with metastatic breast cancer. Comparative trials in patients with advanced ovarian cancer showed paclitaxel therapy to produce greater response rates than treatment with parenteral hydroxyurea (71 vs 0%) or cyclophosphamide (when both agents were combined with cisplatin) [79 vs 63%]. Paclitaxel was also more effective than mitomycin in 50 patients with previously untreated breast cancer (partial response in 20 vs 4% of patients). Paclitaxel therapy also produced promising results in patients with advanced squamous cell carcinoma of the head and neck, malignant melanoma, advanced non-small cell lung cancer (NSCLC), small cell lung cancer (SCLC), germ cell cancer, urothelial cancer, oesophageal cancer, non-Hodgkin's lymphoma or multiple myeloma, and was successfully combined with cisplatin, carboplatin and/or etoposide in patients with NSCLC, SCLC or advanced squamous cell carcinoma of the head and neck. Hypersensitivity reactions were initially a concern with administration of paclitaxel, although current dosage regimens have reduced the incidence of these events to less than 5%. The major dose-limiting adverse effects of paclitaxel are leucopenia (neutropenia) and peripheral neuropathy. Other haematological toxicity was generally mild. Cardiac toxicity was reported in small numbers of patients and most patients developed total alopecia. Several aspects of paclitaxel use remain to be clarified, including the optimal treatment schedule and infusion time, confirmation of the tolerability profile and efficacy of combination regimens in an expanded range of malignancies. Long term follow-up of paclitaxel recipients will also allow the effects of the drug on patient survival to be determined. Nevertheless, paclitaxel is a promising addition to the current therapies available, with significant activity reported in patients with advanced ovarian or breast cancer or other types of tumors.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Paclitaxel. A review of its pharmacodynamic and pharmacokinetic properties and therapeutic potential in the treatment of cancer. 753 Jun 32

Epirubicin is the 4' epimer of the anthracycline antibiotic doxorubicin, and has been used alone or in combination with other cytotoxic agents in the treatment of a variety of malignancies. Comparative and noncomparative clinical trials have demonstrated that regimens containing conventional doses of epirubicin achieved equivalent objective response rates and overall median survival as similar doxorubicin-containing regimens in the treatment of advanced and early breast cancer, non-small cell lung cancer (NSCLC), small cell lung cancer (SCLC), non-Hodgkin's lymphoma, ovarian cancer, gastric cancer and nonresectable primary hepatocellular carcinoma. Recently, dose-intensive regimens of epirubicin have achieved high response rates in a number of malignancies including early and advanced breast cancer and lung cancer. The major acute dose-limiting toxicity of anthracyclines is myelosuppression. In vitro and clinical studies have shown that, at equimolar doses, epirubicin is less myelotoxic than doxorubicin. The lower haematological toxicity of epirubicin, as well as the recent introduction of supportive measures such as colony-stimulating factors, has allowed dose-intensification of epirubicin-containing regimens, which is particularly significant because of the definite dose-response relationship of anthracyclines. Cardiotoxicity, which is manifested clinically as irreversible congestive heart failure and/or cardiomyopathy, is the most important chronic cumulative dose-limiting toxicity of anthracyclines. Epirubicin has a lower propensity to produce cardiotoxic effects than doxorubicin, and its recommended maximum cumulative dose is almost double that of doxorubicin, thus allowing for more treatment cycles and/or higher doses of epirubicin. In summary, dose-intensive epirubicin-containing regimens, which are feasible due to its lower myelosuppression and cardiotoxicity, have produced high response rates in early breast cancer, a potentially curable malignancy, as well as advanced breast, and lung cancers. Furthermore, there is evidence to suggest that improved response rates can improve quality of life in some clinical settings, but whether this leads to prolonged survival has not yet been determined. Recently implemented supportive measures such as colony-stimulating factors, prophylactic antimicrobials and peripheral blood stem cell support may help achieve other potential advantages of dose-intensive epirubicin-containing regimens such as reductions in morbidity and length of hospital admissions.
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PMID:Epirubicin. A review of its pharmacodynamic and pharmacokinetic properties, and therapeutic use in cancer chemotherapy. 768 69

The retinoblastoma gene (RB) is a growth suppressor gene on the human chromosome 13q14. It encodes a 105 kDa phosphoprotein (p105), with DNA-binding capacity. P105 is thought to be involved in cell cycle control. Inactivation of RB is responsible for the development of retinoblastomas and occurs frequently in osteosarcomas and small cell lung cancer. In this study we looked at the RB-structure and expression in cell lines and primary lymphoma samples from patients with high grade non-Hodgkin's lymphoma (NHL). Forty five primary high grade NHL, the B-lymphoblastoid cell line IM-9 and the NHL cell line WSU-NHL were studied for RB structure by Southern blotting and for RB-expression by Northern blotting, Western blotting and immunocytochemistry. In all experiments freshly cryopreserved material was used. Southern and Northern experiments were performed with the 0.9 kb and 3.8 kb RB-cDNA probe. For the detection of p105 two different anti-p105-monoclonal antibodies were used in immunocytochemistry and Western blotting experiments. No RB mRNA and no p105 could be found in IM-9 cells. Twenty six high grade NHL samples (58%) showed no p105 expression. In the subgroup of centroblastic lymphomas 16 out of 21 and in Burkitt's lymphomas five out of eight showed no p105-expression. P105 expression is absent in 58% of high grade NHL, particularly in centroblastic and Burkitt's lymphomas, suggesting that inactivation of RB may play a crucial role in the pathogenesis of high grade NHL.
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PMID:Altered expression of the retinoblastoma gene product in human high grade non-Hodgkin's lymphomas. 828 6

The capacity of pretherapeutically assessed neuron-specific enolase (NSE) to differentiate between small cell lung cancer (SCLC) and mediastinal tumors was investigated retrospectively in a series of 320 patients. NSE was found to be increased in 95/130 (73.1%) patients with SCLC, in 4/62 (6.5%) patients with Hodgkin's disease, in 10/58 (17.2%) patients with non-Hodgkin's lymphoma, in 5/16 (31.3%) patients with teratoma, and in 6/54 (11.1%) patients with thymoma. The cut-off value, defined as the 95% percentile of a reference population suffering from benign pulmonary disorders (n = 192), was set at 13.8 ng/ml. When this discrimination level was increased to 26.4 ng/ml, which corresponds to a 95% specificity versus the total group with mediastinal tumors, SCLC was recognized with a detection rate of only 49.2%. In conclusion, increased NSE concentrations in a patient with a hilar mass and/or mediastinal widening on X-ray are not always diagnostic of SCLC due to the high rate of elevated NSE values associated with mediastinal tumors. However, in a patient who presents with a hilar mass and a high NSE level, bronchoscopy is always indicated to obtain adequate specimens for histology in order to plan an appropriate therapeutic regimen.
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PMID:Do neuron-specific enolase levels discriminate between small-cell lung cancer and mediastinal tumors? 893 52

Three cases of secondary acute myeloid leukemia (AML) that developed after long term treatment with oral etoposide were reported. Case 1 was a 72-year-old male in whom small cell lung cancer was diagnosed in January 1987. He developed AML (M4) in February 1993 after long-term treatment with oral etoposide (total dose 14,650 mg) t(9; 11) (p21; q23) with rearrangement of MLL genes was recognized. Case 2 was a 68-year-old female non-Hodgkin's lymphoma (NHL) was diagnosed in February 1989. AML (M4Eo) with inv(16) (p13q22) developed in March 1994 after long-term treatment with oral etoposide (total dose 5,100 mg). Case 3 was a 39-year-old male in whom NHL was diagnosed in January 1991. He developed AML(M2) with t(11; 19) (q23; p13) in May 1994 after long-term treatment with oral etoposide (total dose 20,450 mg). These three cases suggest that long-term treatment with oral etoposide may be associated with a risk of developing a secondary AML in patient with malignancies.
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PMID:[Three cases of secondary acute myeloid leukemia after long-term treatment with oral etoposide]. 896 Jun 61

CPT-11 was synthesized in 1984 at the laboratory of Yakult Honsha. Phase I study of CPT-11 was begun in 1986. The appropriate doses for phase II studies were decided to be 100 mg/m2 weekly or 150 mg/m2 every 2 weeks. Phase II study was conducted and this drug was approved for NSCLC, SCLC, uterine cancer and ovarian cancer by MHW in 1994. It obtained approval for stomach cancer, colorectal cancer, breast cancer, skin cancer and non-Hodgkin's lymphoma in 1995. The combination chemotherapies including CPT-11 have been conducted by using various regimens such as CPT-11 + CDDP, CPT-11 + VP-16, CPT-11 + 5-FU and CBDCA + CPT-11. In stage IV SCLC two prospective randomized controlled trials are on going comparing CPT-11 vs. CPT-11 + CDDP vs. VDS + CDDP and CPT-11 + CDDP vs. VDS + CDDP. In advanced SCLC Japanese Clinical Oncology Group (JCOG) started a randomized controlled trial comparing CPT-11 + CDDP vs. VP-16 + CDDP. In stage III NSCLC the dose escalation studies of CPT-11 (CPT-11) in the combination with TRT are ongoing by JCOG. The problem of CPT-11 in the combination chemotherapy and combined modality is that it is quite difficult to increase the dose of CPT-11 to full dose to obtain the maximum effect.
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PMID:Clinical trials of irinotecan hydrochloride (CPT, campto injection, topotecin injection) in Japan. 899 23

To evaluate the safety and efficacy of lenograstim, a new recombinant human granulocyte colony-stimulating factor (rHuG-CSF), as an adjunct to cancer chemotherapy, 3 phase III randomised clinical trials were recently conducted in Europe in patients with inflammatory breast cancer, non-Hodgkin's lymphoma, and small cell lung cancer. To explore the economic implications of lenograstim therapy, a multinational pharmacoeconomics programme was undertaken using data collected during these clinical trials. This programme consisted of concurrent prospective economic evaluations undertaken by study teams in France (non-Hodgkin's lymphoma), Germany and Italy (a combined evaluation in inflammatory breast cancer) and the UK (small cell lung cancer). In these studies, attention was focused on the direct costs of medical care-principally the costs of cancer chemotherapy as well as its associated morbidity. In 2 of the pharmacoeconomic evaluations (i.e. the French, German/Italian), lenograstim was found to generate cost savings as a result of reductions in morbidity associated with chemotherapy. However, the cost of lenograstim therapy would be likely to exceed these savings, leading to an overall increase in the costs of cancer treatment. Whether the use of lenograstim is cost-effective will therefore largely depend on its impact on patient survival and quality of life, and current practical use. These issues are the focus of additional clinical studies currently underway. In addition, new research is focusing on the clinical benefits of lenograstim in other areas of oncology and haematology. Further pharmacoeconomic studies in these areas are also warranted.
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PMID:Pharmacoeconomic evaluation of lenograstim. Conclusions and future directions. 1015 95

Lenograstim is a recombinant colony-stimulating factor that has been shown to be a useful adjunctive agent in cancer chemotherapy. Clinical trials have demonstrated the efficacy of lenograstim in correcting chemotherapy-induced neutropenia and associated complications in inflammatory breast cancer and non-Hodgkin's lymphoma, and in facilitating dose intensification of chemotherapy in small cell lung cancer. To meet increasing demands for economic data on new drug entities, a lenograstim pharmacoeconomics programme was established. This programme involved prospective economic evaluations of lenograstim that were undertaken as part of phase III randomised clinical trials by a combined German/Italian health-economics team (inflammatory breast cancer), a French team (non-Hodgkin's lymphoma), and a team from the UK (small cell lung cancer).
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PMID:Overview of the lenograstim pharmacoeconomics programme. 1015 96

Peripheral blood progenitor cell reinfusion (PBPC) in patients undergoing high-dose chemotherapy (HDC) for poor prognosis malignancies, has been described as causing possible acute gastrointestinal (nausea, vomiting), allergic (oedema, bronchospasm, anaphyl- axis), renal (proteinuria, haematuria) and/or cardiovascular (hypotension, arrhythmia, conduction disturbances, transient ischaemic phenomena) toxicities. To establish the clinical relevance of these observations and the possible relationship with different HDC regimens used, we performed a clinical and instrumental evaluation on 33 patients with advanced breast cancer, non-Hodgkin's lymphoma, Hodgkin's disease, relapsed ovarian cancer, Ewing's sarcoma, extragonadal germinal tumour and small cell lung cancer. They underwent at least one reinfusion each for a total of 51 studied procedures. No patient had a previous history of cardiovascular disease or significant intercurrent illness such as diabetes or liver, renal or neurologic impairment. All patients had totally implanted central venous catheters, through which the transplants had been collected and reinfused without technical consequences. To evaluate cardiovascular function, we continuously monitored 12-lead ECGs, with arterial pressure (AP) measurements every 5 min from the beginning of the procedure to 15 min after the reinfusion ended. We did not observe any significant differences between basal and subsequent steps in AP, heart rate, PQ and QTc time, P wave and QRS complex duration or P wave and QRS electrical axes. No patient showed any ST-T tract pathological abnormality, but one patient developed a transient ectopic atrial rhythm, without any haemodynamic disfunction and with spontaneous reversion to sinus rhythm. No patient complained of symptoms of haemodynamic failure. Gastrointestinal side-effects appeared to be strictly related to speed of reinfusion and to the number of packs reinfused, probably reflecting on the amount of dimethylsulphoxide infused. In one patient a tonic-clonic seizure occurred during a vomiting episode, but no patient developed allergic or renal toxicities. We conclude that PBPC reinfusion, if managed according to the procedure we propose in patients without organic impairment, is a safe procedure not associated either with increased risk of acute arrhythmias or ischaemic or significant systemic acute toxicities. Bone Marrow Transplantation (2000) 25, 173-177.
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PMID:Evaluation of acute toxicities associated with autologous peripheral blood progenitor cell reinfusion in patients undergoing high-dose chemotherapy. 1196 Feb 81

G-3139 is an antisense phosphorothioate oligodeoxynucleotide (AS PS ON) which suppresses bcl-2 expression and is being developed by Genta Inc for the potential treatment of various cancers [308375]. G-3139 is in various stages of phase I/lIa trials. One study, initiated in May 1999, at the Lombardi Cancer Center at Georgetown University Medical Center, US, will examine G-3139 in conjunction with docetaxel. In a phase I/IIa dose-escalating trial to treat non-Hodgkin's lymphoma (NHL), at the Royal Marsden NHS Trust, UK, no serious, clearly drug-attributable or doselimiting adverse effects were noted and in some patients encouraging signs of potential drug activity were observed. The responses included one patient in whom cancer mass was reduced and one who developed a complete response for over 38 weeks in duration [239159,291608,325262]. A new phase II protocol using G-3139 combined with standard chemotherapies in relapsed NHL patients has also begun [325262]. Other phase I/lIa studies include: the safety and efficacy of G-3139 in the treatment of hormone-resistant, metastatic prostate cancer, when administered with mitoxantrone [305822]; the treatment of relapsed follicular NHL, when administered with cyclophosphamide [311217]; the treatment of Stage III and IV metastatic malignant melanoma in combination with dacarbazine [289755]; the treatment of hormone-resistant, metastatic prostate cancer when administered over a significantly longer duration than studied previously and in combination with an androgen-receptor blocking agent [291608]. The National Cancer Institute (NCI) funded and conducted preclinical studies of G-3139 in July 1996 and in June 1998, the NCI and Genta entered into a Cooperative Research and Development Agreement (CRADA) for the development of G-3139 [290153]. Clinical trials,focusing on colorectal cancer, small cell lung cancer and leukemia, were underway as of April 1999. The company licensed the rights for the use of bcl-2 as a target for antisense and gene therapy-based treatments from the University of Pennnsylvania. In June 1998, Genta received two patents relating to its antisense compounds [289685].
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PMID:Technology evaluation: G-3139. 1171 6


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