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31	SOLUBILIZATION OF SOME POORLY SOLUBLE DRUGS BY COSOLVENTS (FORMULATION, IDEALITY, POLARITY). RUBINO, JOSEPH THOMAS. January 1984 (has links) The solubilities of three poorly water soluble drugs, phenytoin, diazepam and benzocaine, were measured in various cosolvent-water mixtures. The data were generally described by the relationship: log (S(m)/S(w)) = Σf₁σ₁ where S(m) is the solubility of the drug in the cosolvent-water mixture, S(w) is the solubility of the drug in water, f₁ is the volume fraction of cosolventi and σ₁ is the slope of the log(S(m)/S(w)) vs. f₁ plot. In most cases, some positive or negative deviation from the log-linear solubility equation is observed. The deviation is similar for all three drugs in many of the cosolvent-water mixtures. This suggests that the deviation is primarily due to interactions between the solvent components. However, it could not be predicted from any of the physical properties of the solvent mixtures. Changes in the solute crystal structure could not be identified as a source of nonideality. The deviations from the log-linear solubility equation may involve such factors as changes in solvent structure, hydrophobic hydration, density changes and hydrogen bonding differences between solute and cosolvent. The slopes, σ₁, of the solubilization plots were related to various indexes of solvent polarity including dielectric constant, solubility parameter, partition coefficient, surface tension and interfacial tension. The best correlations were obtained with measures of solvent cohesive forces such as interfacial tension and solubility parameter. In general, the solubilities in mixtures of aprotic cosolvents and water are higher than predicted by any of the polarity indexes. The slopes are thus related to the hydrogen bonding ability of the cosolvent as expressed by the density of proton donor and acceptor groups of the neat cosolvent. The slopes of the solubilization plots can be predicted from linear relationships with polarity indexes of the cosolvent. Therefore it is possible to estimate the slope, σ, in any cosolvent-water mixture from the solubilities in two solvents for a given drug. Furthermore, the solubility in any cosolvent water mixture can be estimated by combining the log-linear solubility equation with the estimated slopes. Drugs -- Solubility. Drug carriers (Pharmacy) Phenytoin -- Solubility. Solubilization.
32	Predictions of kinetic parameters for the CYP2C9 substrates phenytoin and tolbutamide and the inhibitor fluconazole / Qiu, Wei, January 2000 (has links) Thesis (Ph. D.)--University of Washington, 2000. / Vita. Includes bibliographical references (leaves 128-147).
33	In vivo Dilantin treatment alters expression levels and nuclear localization of cyclins A and B1 during mouse preimplantation embryo development Tolle, Michelle D. January 2009 (has links) Access to abstract permanently restricted to Ball State community only / Access to thesis permanently restricted to Ball State community only / Department of Biology Phenytoin--Side effects Cyclins Mice--Embryology--Effect of drugs on
34	Dilantin alters levels of DNA polymerase [delta symbol] in preimplantation mouse embryos during G1 and S phase in vivo / Dilantin alters levels of DNA polymerase in preimplantation mouse embryos during G1 and S phase in vivo Cornielle Dipre, Aide R. 08 July 2011 (has links) Dilantin (DPH) is a common anticonvulsant drug used to prevent seizures. It is known to be a human teratogen causing fetal hydantoin syndrome (FHS). FHS is characterized by multiple developmental and growth related abnormalities and mental retardation. Previous studies demonstrated that DPH slowed growth and division in preimplantation mouse embryos in vivo and in vitro. DHP exposure in utero decreased the crown to rump length and weight of 25-35% of embryos and reduced the rate of endochondral bone conversion from cartilage. In vitro preimplantation mouse embryos treated with DPH at 5, 10 and 20 μg/ml showed a reduction of 25-35% in their development, and block at 2-cell or 3-4-cell stages. These embryos also showed a prolonged DNA synthesis (S) phase during the second cell cycle. Nuclear localization and concentration levels of cyclin A , the S phase cyclin, were also altered in vivo in 2-cell DPH treated embryos compared with NaOH control embryos during G1, S phase and G2 of the first, second and third cell cycles. DPH altered patterns of expression of cyclin A were associated with cell cycle disregulation during preimplantation development. The purpose of the current study was to determine whether DPH also affects the concentration of DNA pol δ catalytic subunit in 2-cell preimplantation mouse embryos at G1 and S phases, thus delaying DNA synthesis and contributing to FHS. Immunofluorescence and confocal microscopy were used as tools to determine relative levels and distribution of DNA pol δ (for consistency with text) in the cytoplasm and the nuclei of DPH and NaOH treated 2-cell embryos at G1 and S phase of the second cell cycle. DPH decreased DNA pol δdelta total embryo and nuclear levels by 43% and 36%, respectively, in G1 compared with NaOH controls. Similarly, nuclear levels of DNA pol δ in DPH embryos in S phase near the G2 transition of the second cell cycle increased to 144% of NaOH control levels; there was not a statistically significant difference between total embryonic levels of late S phase DNA pol δ in DPH and NaOH treated control embryos. The results indicated that DPH affects the levels of DNA pol δduring G1 and S phase near the G2 transition of the second cell cycle in preimplantation mouse embryos. The significant alteration in the levels of DNA pol δ during S phase and its probable consequent altered polymerase activity could contribute to an explanation for the extension of S phase in preimplantation embryos observed by Blosser and Chatot. Even more, the alteration in the levels of DNA pol δ and potentially in its exonuclease activity could lead to an increase in the rate of mismatches and mutations suggesting a likely explanation for some features of FHS. / Department of Biology Phenytoin--Side effects. Cyclins. DNA polymerases. Mice--Embryology.
35	Uzun süreli fenitoin ve karbamazepin kullanan epilepsi hastalarında manyetik rezonans görüntüleme eşliğinde Cavalieri prensibi ile beyin-beyincik hacim ve hacim oranları hesaplamaları / Yalçın, Mustafa. Oyar, Orhan. January 2005 (has links) (PDF) Tez (Tıpta Uzmanlık) - Süleyman Demirel Üniversitesi, Tıp Fakültesi, Radyodiagnostik Anabilim Dalı, 2005. / Bibliyografya var.
36	Phenytoin-induced gingival overgrowth in epileptic children a clinical, histological and biochemical study / Dahllöf, Göran. January 1986 (has links) Thesis (doctoral)--Karolinska Institutet, Stockholm, 1986. / Extra t.p. with thesis statement inserted. Includes bibliographical references.
37	Phenytoin-sodium induced gingival overgrowth Radomsky, Jack Bernard January 1984 (has links) Magister Chirurgiae Dentium (MChD) / Epilepsy is a fairly common condition and the anti-convulsant drug, phenytoin sodium, has been used in its treatment for over 40 years. Shortly after its introduction, the side-effect of gingival overgrowth was re'{XJrted and has been the subject o t of mw h research. Epidemiological studies showed that; gingival overgrowth developed in approximately half the patients treated with this drug, possibly indicating an individual patient susceptibility to this effect of the drug. Phenytoin-sodium Epilepsy Anti-convulsant drug Gingival overgrowth Patients
38	The Toxicology of Chemical Interactions During Pregnancy in the Mouse: Caffeine and Phenytoin Skalko, R. G., Poche, P. D., Kwasigroch, Thomas E. 14 February 1984 (has links) The toxic interaction of caffeine and phenytoin during pregnancy was investigated in mice of the ICR strain on E10 of gestation. Caffeine, over a range of dosages, showed limited embryotoxic activity. Phenytoin was also weakly teratogenic and dosages needed to elicit embryotoxicity were accompanied by a significant increase in maternal lethality. Pretreatment with caffeine enhanced phenytoin-induced toxicity and teratogenicity and these observations confirm that caffeine has the ability to function as a coteratogen. Pretreatment with phenytoin produced a significant increase in maternal lethality following caffeine administration but no co-teratogenic effect. It is suggested that these results are the consequence of a yet undefined interaction at critical receptor sites in the maternal-embryo unit. Caffeine Cleft palate Coteratogen Maternal lethality Phenytoin Biomedical Sciences
39	Topical Phenytoin Effects on Palatal Wound Healing Doshi, Anuja January 2019 (has links) No description available. Dentistry Topical Phenytoin Wound healing Palatal wounds Periodontology
40	Solubility Improvement by Solid Dispersion and Their Characterization: Indomethacin and Phenytoin Sridhar, Vishak 20 May 2013 (has links) No description available. Pharmaceuticals Pharmacy Sciences Solid Dispersion Indomethacin Phenytoin Solubility Enhancement

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