ライフサイエンスコーパス: platinum compound

1 mitigating cellular DNA damage formation by platinum compounds.

2 eived adjuvant chemotherapy with taxanes and platinum compounds.

3 stance of cancer cells to therapy, including platinum compounds.

4 ppressor BRCA2 are particularly sensitive to platinum compounds.

5 to bifunctional DNA-damaging agents such as platinum compounds.

6 d affect the ability of cells to internalize platinum compounds.

7 to enhance the sensitivity of SCLC cells to platinum compounds.

8 The trifunctional dinuclear platinum compounds 1,2/c,c [[cis-PtCl(NH(3))(2)]mu-H(2)N

9 Similar results were obtained with platinum compounds' 5-fluorouracil and irinotecan.

10 maximal cytoreduction, dose-intensity of the platinum compound administered, proportion of patients w

11 he formation of covalent adducts between the platinum compound and certain bases in DNA.

12 and fast ultracentrifuge method here for two platinum compounds and a taxane that otherwise bound irr

13 tro transcription of RNA is inhibited by the platinum compounds and indicate G residues as primary bi

14 Prior treatment with camptothecins or platinum compounds and prior pelvic irradiation were not

15 It also enhances the anticancer effects of platinum compounds and taxanes in non-small-cell lung ca

16 year of diagnosis, exposure to radiation and platinum compounds, and length of follow-up) showed a si

17 Several molecules, including multinuclear platinum compounds, belong to the family of platinum dru

18 The platinum compound bound G4 includes multiple complexes f

19 from therapy with PARP inhibitor (PARPi) or platinum compounds, but acquired resistance limits clini

20 cell death ligand 1 (PD-L1) status; type of platinum-compound chemotherapy; number of cycles of neoa

21 The mechanisms of action for the platinum compounds cisplatin and oxaliplatin have yet to

22 has included surgery and chemotherapy with a platinum compound (cisplatin or carboplatin).

23 he hypothesis that activation of the JNKs by platinum compounds controls c-Jun-dependent transcriptio

24 ion of the pharmacological factors affecting platinum compound cytotoxicity such as cellular accumula

25 Platinum compounds display clinical activity against a w

26 ioavailability and toxicity of anthropogenic platinum compounds emitted into the environment from sou

27 Platinum compounds form electrophilic intermediates that

28 Platinum compounds have activity in triple-negative brea

29 utes to cell death by these two broadly used platinum compounds have not yet been carefully explored.

30 s effect was not related to the abundance of platinum compounds in the cochlea, rather cisplatin had

31 Cytotoxic platinum compounds including cisplatin are standard canc

32 ated ovarian cancers previously treated with platinum compounds, including five with acquired platinu

33 PARP-1 also binds to DNA damaged by other platinum compounds, including oxaliplatin and pyriplatin

34 Platinum compounds induce apoptosis in malignant cells a

35 high risk populations and the integration of platinum compounds into treatment regimens will most lik

36 The carrier ligand of the platinum compound is likely to affect the conformation o

37 The combination of paclitaxel and a platinum compound is the most active first-line regimen

38 Resistance to alkylating agents and platinum compounds is associated with elevated levels of

39 elting temperature of CT DNA adducted by the platinum compounds is observed at low salt concentration

40 with colorectal cancer, oxaliplatin, a novel platinum compound, is an active agent.

41 BBR3464, a charged trinuclear platinum compound, is the first representative of a new

42 Treatment with genotoxic agents, such as platinum compounds, is still the mainstay therapeutical

43 dination of the stannylenes to palladium and platinum compounds led to unusual silastannene complexes

44 agents with promising activity, such as new platinum compounds, new taxanes, and other cytotoxic age

45 f supramolecular aggregates of a luminescent platinum compound (Pt(AC)).

46 We show that the anticancer 'rule breaker' platinum compound [Pt[N(p-HC6F4)CH2]2py2] preferentially

47 lesions formed by therapeutically effective platinum compounds [Pt(en)Cl2] and [Pt(dach)Cl2], in add

48 the optical properties of the phosphorescent platinum compounds: Pt(II) (2-(4',6'-difluorophenyl)pyri

49 e with representative bifunctional dinuclear platinum compounds [[PtCl(NH(3))(2)](2)mu-H(2)N(CH(2))(n

50 In non-small-cell lung cancer, platinum compounds represent the cornerstone of systemic

51 Understanding the mechanisms of platinum compound resistance, including cisplatin resist

52 e interplay with the solubility of different platinum compounds revealed potassium tetrachloroplatina

53 with mutated BRCA1 or BRCA2 are sensitive to platinum compounds, such carcinomas eventually develop p

54 effective chemotherapeutic agents, including platinum compounds, taxanes, and vinca alkaloids.

55 In particular, most reactions are caused by platinum compounds, taxanes, epipodophyllotoxins and asp

56 cidence or severity of neuropathy related to platinum compounds, taxanes, or thalidomide.

57 e, vinorelbine, the taxanes, anthracyclines, platinum compounds, topoisomerase I and II inhibitors, a

58 Isocyanide-supported cyclometalated platinum compounds undergo nucleophilic addition with di

59 Jun, significantly protected SCLC cells from platinum compounds, whereas expression of a c-Jun mutant

60 actice, metal-based drugs are represented by platinum compounds, which are constituents of a wide var

61 eous mouse mammary tumor model, we show that platinum compounds, which generate DNA breaks during the

62 Oxaliplatin is a novel platinum compound with clinical activity in several mali

63 le-targeting agents, the effect of combining platinum compounds with programmed cell death 1 (PD-1)/P

64 (4-Me-Py)Cl]+, the interactions of these two platinum compounds with the DNA heptamer CCTG*TCC:GGACAG