• Title/Summary/Keyword: Phthalazinone

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Some Pyridazinone and Phthalazinone Derrivatives and Their Vasodilator Activities

  • Seref Demirayak;Ismai Kayagil;Kevser Erol;Basar Sirmagul;Ahmet Cagri Karaburun
    • Archives of Pharmacal Research
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    • v.27 no.1
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    • pp.13-18
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    • 2004
  • In this study, 6-[( 4-arylidene-2-phenyl-5-oxoimidazolin-1-yl)phenyl]-4,5-dihydro-3(2H)-pyridazinone and 4-[(4-arylidene-2-phenyl-5-oxoimidazolin-1-yl)phenyl]-1(2H)-phthalazinone derivatives were synthesized by reacting 6-(4-aminophenyl)-4,5-dihydro-3(2H)-pyridazinone or 4-(4-aminophenyl)-1(2H)-phthalazinone compound with different 4-arylidene-2-phenyl-5(4H)-oxazolone derivatives. The vasodilator activities of the compounds were examined both in vitro and in vivo. Some pyridazinone derivatives showed appreciable activity.

Synthesis and Characterization of Sulfonated Poly(phthalazinone ether sulfone)(sPPES)/Silica Membrane for Proton Exchange Membrane Materials

  • Kim, Dae Sik;Park, Ho Bum;Nam, Sang Young;Rhim, Ji Won;Lee, Young Moo
    • Korean Membrane Journal
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    • v.6 no.1
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    • pp.44-54
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    • 2004
  • Organic-inorganic composite membranes based on sulfonated poly(phthalazinone ether sulfone) (sPPES)/silica hybrid were prepared using the sol-gel process under acidic conditions. The sulfonation of PPES with concentrated sulfuric acid as sulfonation agent was carried out to prepare proton exchange membrane material. The behaviors of the proton conductivity and methanol permeability are depended on the sulfonation time (5-100 hr). The hybrid membranes composed of highly sulfonated PPES (IEC value: 1.42 meq./g) and silica were fabricated from different silica content (5-20 wt%) in order to achieve desirable proton conductivity and methanol permeability demanded for fuel cell applications. The silica particles within membranes were used for the purpose of blocking excessive methanol cross-over and for forming the path way to transport of the proton due to absorbing water molecules with ≡SiOH on silica. The presence of silica particles in the organic polymer matrix results in hybrid membranes with reduced methanol permeability and improved proton conductivity.

Synthesis of Azelastine.HCl from 4-Chlorophenyl Acetic Acid (4-염화페닐 아세트산을 이용한 염산 아젤라스틴의 합성)

  • Ji, Hyun;Jeong, Noh-Hee
    • Journal of the Korean Applied Science and Technology
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    • v.29 no.3
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    • pp.429-434
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    • 2012
  • A kind of Antihistamines, Azelastine HCl which known as modern H1-blockers, was synthesized by four step process using phthalic anhydride, 4-chlorophenylacetic acid, hydrazine 2HCl. The first step was the reaction of removing carboxyl group and hydroxyl group and the second step was saponification of 3-(4-chlorobenzylidene)phthalide. The third step was the nucleophilic addition reactions of primary amines and the fourth step was addition reaction of N-methyl-1-aza-bicyclo[3,2,0]heptane to 4-(4-chlorobenzyl)-1-(2H)phthalazinone. As a result, product was analyzed by FT-IR and $^1H$-NMR and could be obtained with a yield of 80%.

Preparation and Characterization of Sulfonated Poly(phthalazinone ether sulfone ketone) (SPPESK)/Silica Hybrid Membranes for Direct Methanol Fuel Cell Applications

  • Kim, Dae-Sik;Shin, Kwang-Ho;Park, Ho-Bum;Lee, Young-Moo
    • Macromolecular Research
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    • v.12 no.4
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    • pp.413-421
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    • 2004
  • Sulfonated poly(phthalazinone ether sulfone ketone) (SPPESK) membranes and sol-gel derived SPPESK/silica hybrid membranes have been investigated as potential polymer electrolyte membranes for direct methanol fuel cell (DMFC) applications. In comparison with the SPPESK membrane, the SPPESK/silica membranes exhibited higher water content, improved proton conductivity, and lower methanol permeability. Notably, the silica embedded in the membrane acted as a material for reducing the fraction of free water and as a barrier for methanol transport through the membrane. From the results of proton conductivity and methanol permeability studies, we suggest that the fractions of bound and free water should be optimized to obtain desirable proton conductivities and methanol permeabilities. The highly sulfonated PPESK hybrid membrane (HSP-Si) displayed higher proton conductivity (3.42 ${\times}$ 10$^2$ S/cm) and lower methanol permeability (4.15 ${\times}$ 10$\^$7/ $\textrm{cm}^2$/s) than those of Nafion 117 (2.54 ${\times}$ 10$^2$ S/cm; 2.36 ${\times}$ 10$\^$6/ $\textrm{cm}^2$/s, respectively) at 30$^{\circ}C$. This characteristic of the SPPESK/silica membranes is desirable for future applications related to DMFCs.

Synthesis of 4, 5, 6, 7-Tetraphenyl-8-(substituted)-3 (2H)-phthalazinone Derivatives Likely to Posses Antihypertensive Activity

  • F.A. Yassin;B.E. Bayoumy;A.F. El-Farargy
    • Bulletin of the Korean Chemical Society
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    • v.11 no.1
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    • pp.7-10
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    • 1990
  • The interaction of tetraphenylphthalic anhydride with o-chlorotoluene under Friedel-Craft condition gives 2-(4-chloro-3-methyl)benzoyl-3,4,5,6-tetraphenyl benzoic acid(1), which on reaction with hydrazine derivatives gave phthalazinones (2a-d). The behaviour of (2a) towards carbon electrophiles and carbon nucleophiles has been investigated. The chlorophthalazinones (4a) also has been synthesized from the action of $PCl_5/POCl_3$ on (2a). The behaviour of (4a) towards nitrogen, and oxygen nucleophiles also have been described.

Bioequivalence of Azela Tablet to Azeptin Tablet (Azelastine Hydrochloride 1 mg) (아젭틴 정(염산아젤라스틴 1 mg)에 대한 아젤라 정의 생물학적 동등성)

  • Cho, Hea-Young;Yun, Ji-Hun;Seo, Yu-Lee;Oh, In-Joon;Lee, Sung-Kwan;Moon, Jai-Dong;Lee, Yong-Bok
    • Journal of Pharmaceutical Investigation
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    • v.31 no.1
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    • pp.57-62
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    • 2001
  • Azelastine, a phthalazinone derivative, is an antiallergic agent which demonstrates histamine $H_1-receptor$ antagonist activity and also inhibits histamine release from mast cells following antigen and non-antigen stimuli. Thus, azelastine may be useful in the management of both asthma and allergic disorders. The purpose of the present study was to evaluate the bioequivalence of two azelastine hydrochloride tablets, $Azeptin^{TM}$ (Bu Kwang Pharmaceutical Co., Ltd.) and $Azela^{TM}$ (Kyung Dong Pharmaceutical Co., Ltd.), according to the guidelines of Korea Food and Drug Administration (KFDA). Eighteen normal male volunteers, $22.44{\pm}2.01$ years in age and $61.99{\pm}6.18\;kg$ in body weight, were divided into two groups and a randomized $2{\times}2$ cross-over study was employed. After two tablets containing 1 mg of azelastine hydrochloride per tablet were orally administered, blood was taken at predetermined time intervals and the concentrations of azelastine in serum were determined using HPLC with fluorescence detector. Pharmacokinetic parameters such as $AUC_t$, $C_{max}\;and\;T_{max}$ were calculated and ANOVA test was utilized for the statistical analysis of the parameters. The results showed that the differences in $AUC_t$, $C_{max}\;and\;T_{max}$ between two tablets were -6.45%, -2.60% and -7.14%, respectively, when calculated against the $Azeptin^{TM}$ tablet. The powers $(1-{\beta})$ for $AUC_t\;and\;C_{max}$ were 96.65% and 88.47%, respectively. Minimum detectable differences $({\Delta})$ at ${\alpha}=0.05$ and $1-{\beta}=0.8$ were less than 20% (e.g., 14.40% and 17.65% for $AUC_t\;and\;C_{max}$, respectively). The 90% confidence intervals were within ${\pm}20%$ (e.g., $-14.87{\sim}1.97$ and $-12.92{\sim}7.72$ for $AUC_t\;and\;C_{max}$, respectively). Two parameters met the criteria of KFDA for bioequivalence, indicating that $Azela^{TM]$ tablet is bioequivalent to $Azeptin^{TM}$ tablet.

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