Impact of Genetics on Metformin Pharmacokinetics
調査の概要
詳細な説明
Twin studies have long been a valuable tool for examining the relative role of environment and heredity in health issues such as disease and drug response. For example, twin studies in the 1960's and 1970's showed for the first time that variability in the elimination of many drugs was largely influenced by heredity. Monozygotic twin pairs showed little variability in the elimination of various drugs while dizygotic twin pairs, sharing only about one half of their genes, showed much greater variability. It is now known that the some of the variability in drug elimination observed in dizygotic twins was due to genetic differences in drug metabolizing enzymes, such as the cytochrome P450's. However, genetic variation in other genes, such as membrane transporters may also contribute to variability in drug response.
Membrane transporters play multiple roles in the body; they help to maintain cellular homeostasis through import and export mechanisms and also play an important role in drug response, affecting both the pharmacokinetics and pharmacodynamics of drugs. Animal studies using mice genetically deficient in drug transporters and reports of drug interaction studies involving transporter substrates have provided convincing evidence that the level of function of several important drug transporters is an important determinant of drug response.
The current study will examine differences in the renal clearance of metformin in monozygotic and dizygotic twin pairs. Metformin is an antidiabetic drug that has no significant hepatic metabolism and is actively secreted by the kidneys. Studies in our lab have shown that metformin is a substrate of the human organic cation transporter, hOCT2, which appears to be a major transporter involved in the renal secretion of cationic drugs. Data in the literature indicate that there is substantial variation in the net secretory clearance of metformin in normal, healthy volunteers. In five healthy volunteers, the ratio of renal clearance to creatinine clearance ranged from 1.5 to 4.2, nearly a 3-fold variation. We hypothesize that genetic variation in secretory transporters in the kidney, like hOCT2, may be responsible for the inter-individual differences in the secretory clearance of metformin and other drugs. Studies examining renal clearance of metformin in monozygotic and dizygotic twins will allow us to better understand the influence of heredity on variation in renal elimination. Furthermore, genotyping monozygotic and dizygotic twin pairs with significant differences in renal clearance of metformin may give us insight into the genes responsible for this variability.
研究の種類
入学 (実際)
段階
- 適用できない
連絡先と場所
研究場所
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California
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San Francisco、California、アメリカ、94143
- University of California San Francsico
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参加基準
適格基準
就学可能な年齢
健康ボランティアの受け入れ
受講資格のある性別
説明
Inclusion Criteria:
- Part of either a monozygotic or dizygotic twin pair.
- Healthy (by medical history and laboratory values).
- Between 18 and 40 years old.
Exclusion Criteria:
- Taking regular medication other than vitamins.
- Individuals with anemia (hemoglobin < 12 g/dL), an elevation in liver enzymes to higher than double the respective normal value, or elevated creatinine concentrations (males ≥ 1.5 mg/dL, females ≥ 1.4 mg/dL Pregnant at time of study.
- Diagnosis of hypoglycemia, phlebitis and/or stroke will be excluded.
研究計画
研究はどのように設計されていますか?
デザインの詳細
- 主な目的:診断
- 割り当て:なし
- 介入モデル:単一グループの割り当て
- マスキング:なし(オープンラベル)
武器と介入
参加者グループ / アーム |
介入・治療 |
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他の:Metformin
Metformin HCl
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Subjects will be given a single oral dose in tablet form containing 850 mg of metformin
他の名前:
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この研究は何を測定していますか?
主要な結果の測定
結果測定 |
メジャーの説明 |
時間枠 |
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To compare metformin pharmacokinetics in monozygotic and dizygotic twin pairs.
時間枠:24 hours
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Comparing renal clearance of metformin in monozygotic and dizygotic twins will allow us to better understand the influence of heredity on variation in renal elimination.
Furthermore, genotyping renal transporter genes in monozygotic and dizygotic twin pairs with significant differences in renal clearance of metformin may give us insight into the genes responsible for this variability.
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24 hours
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協力者と研究者
捜査官
- 主任研究者:Kathleen Giacomini, PhD、University of California San Francsico
出版物と役立つリンク
一般刊行物
- Leabman MK, Giacomini KM. Estimating the contribution of genes and environment to variation in renal drug clearance. Pharmacogenetics. 2003 Sep;13(9):581-4. doi: 10.1097/00008571-200309000-00007.
- Leabman MK, Huang CC, Stryke D, Johns SJ, Kawamoto M, Ferrin TE, DeYoung J, Taylor TR, De La Cruz M, Herskowitz I, Giacomini KM. PharmGKB update: I. Genetic variants of the organic cation transporter 2 (OCT2, SLC22A2). Pharmacol Rev. 2003 Sep;55(3):399. doi: 10.1124/pr.55.3.6. Epub 2003 Jul 17. No abstract available.
研究記録日
主要日程の研究
研究開始
一次修了 (実際)
研究の完了 (実際)
試験登録日
最初に提出
QC基準を満たした最初の提出物
最初の投稿 (見積もり)
学習記録の更新
投稿された最後の更新 (見積もり)
QC基準を満たした最後の更新が送信されました
最終確認日
詳しくは
本研究に関する用語
この情報は、Web サイト clinicaltrials.gov から変更なしで直接取得したものです。研究の詳細を変更、削除、または更新するリクエストがある場合は、register@clinicaltrials.gov。 までご連絡ください。 clinicaltrials.gov に変更が加えられるとすぐに、ウェブサイトでも自動的に更新されます。
Metformin HClの臨床試験
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Tan Tock Seng Hospital募集
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Acologix, Inc.わからない
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University of Kansas Medical CenterNational Cancer Institute (NCI)完了