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图卡瑞索(589C80;4-[2-甲酰基-3-羟基苯氧基甲基]苯甲酸)作为一种潜在的抗镰状化药物,在健康受试者口服给药后的药代动力学、耐受性和药效学。

The pharmacokinetics, tolerability and pharmacodynamics of tucaresol (589C80; 4[2-formyl-3-hydroxyphenoxymethyl] benzoic acid), a potential anti-sickling agent, following oral administration to healthy subjects.

作者信息

Rolan P E, Parker J E, Gray S J, Weatherley B C, Ingram J, Leavens W, Wootton R, Posner J

机构信息

Wellcome Research Laboratories, Beckenham, Kent.

出版信息

Br J Clin Pharmacol. 1993 Apr;35(4):419-25. doi: 10.1111/j.1365-2125.1993.tb04160.x.

DOI:10.1111/j.1365-2125.1993.tb04160.x
PMID:8485022
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1381554/
Abstract
  1. Tucaresol (589C80; 4[2-formyl-3-hydroxyphenoxymethyl] benzoic acid) interacts stoichiometrically with haemoglobin to increase oxygen affinity. By decreasing the proportion of insoluble deoxy sickle haemoglobin at capillary oxygen concentrations, tucaresol may be of therapeutic benefit in sickle cell anaemia. 2. In this study, which involved the first administration to man, the pharmacokinetics and pharmacodynamics of tucaresol were studied in healthy male volunteers following oral doses of 200-3600 mg. 3. Peak drug concentrations in plasma and erythrocytes were linearly related to dose; mean (s.d.) values were 95.8 (26.1) and 1035 (67) micrograms ml-1, respectively, at the highest dose. Median tmax in plasma was 6.5 h and in erythrocytes 24.5 h, when approximately 60% of the administered dose was in the target tissue. Plasma drug concentrations fell biexponentially with commencement of the apparent terminal elimination phase at approximately 24 h. The terminal elimination half-life from plasma increased with dose (r = 0.77; P < 0.0001) from 133-190 h at 400 mg to a mean (s.d.) of 289 (30) h at 3600 mg. Erythrocyte drug concentrations declined mono-exponentially with a half-life that was always shorter than the apparent terminal half-life in plasma: overall mean (95% CI) of t1/2 erythrocyte/t1/2 plasma ratio was 0.57 (0.53, 0.61). The erythrocyte AUC/plasma AUC ratio increased with dose (r = 0.67; P < 0.001). 4. The proportion of haemoglobin modified to a form with high oxygen affinity (%MOD) increased in a dose-related manner above doses of 800 mg reaching 19-26% after the 3600 mg dose.(ABSTRACT TRUNCATED AT 250 WORDS)
摘要
  1. 图卡雷索(589C80;4-[2-甲酰基-3-羟基苯氧基甲基]苯甲酸)与血红蛋白按化学计量相互作用以增加氧亲和力。通过降低毛细血管氧浓度下不溶性脱氧镰状血红蛋白的比例,图卡雷索可能对镰状细胞贫血有治疗益处。2. 在这项首次对人体给药的研究中,对健康男性志愿者口服200 - 3600毫克剂量的图卡雷索后的药代动力学和药效学进行了研究。3. 血浆和红细胞中的药物峰浓度与剂量呈线性相关;最高剂量时的平均值(标准差)分别为95.8(26.1)和1035(67)微克/毫升。血浆中tmax的中位数为6.5小时,红细胞中为24.5小时,此时约60%的给药剂量在靶组织中。血浆药物浓度以双指数方式下降,在约24小时开始出现明显的终末消除期。血浆的终末消除半衰期随剂量增加(r = 0.77;P < 0.0001),从400毫克时的133 - 190小时增加到3600毫克时的平均值(标准差)289(30)小时。红细胞药物浓度以单指数方式下降,半衰期总是短于血浆中的明显终末半衰期:红细胞t1/2/血浆t1/2比值的总体平均值(95%置信区间)为0.57(0.53,0.61)。红细胞AUC/血浆AUC比值随剂量增加(r = 0.67;P < 0.001)。4. 高于800毫克剂量时,修饰为具有高氧亲和力形式的血红蛋白比例(%MOD)以剂量相关方式增加,3600毫克剂量后达到19 - 26%。(摘要截短至250字)

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本文引用的文献

1
A method for quantitating platelet aggregation and analyzing drug-receptor interactions on platelets in whole blood in vitro.一种体外定量全血中血小板聚集并分析血小板上药物 - 受体相互作用的方法。
J Pharmacol Methods. 1981 Sep;6(2):153-66. doi: 10.1016/0160-5402(81)90038-3.
2
Sickle cell disease: the proportion of liganded haemoglobin needed to prevent crises.
Br J Haematol. 1983 Aug;54(4):579-87. doi: 10.1111/j.1365-2141.1983.tb02137.x.
3
Substituted benzaldehydes designed to increase the oxygen affinity of human haemoglobin and inhibit the sickling of sickle erythrocytes.经设计用于提高人血红蛋白的氧亲和力并抑制镰状红细胞镰变的取代苯甲醛。
Br J Pharmacol. 1984 Jun;82(2):397-407. doi: 10.1111/j.1476-5381.1984.tb10775.x.
4
The painful crisis of homozygous sickle cell disease. A study of the risk factors.
Arch Intern Med. 1987 Jul;147(7):1231-4.
5
Is there treatment for sickle cell anemia?镰状细胞贫血有治疗方法吗?
N Engl J Med. 1988 Dec 1;319(22):1479-80. doi: 10.1056/NEJM198812013192210.
6
Effect of BW12C on oxygen affinity of haemoglobin in sickle-cell disease.
Lancet. 1986 Apr 12;1(8485):831-4. doi: 10.1016/s0140-6736(86)90941-4.
7
Pharmacological modification of oxygen affinity improves deformability of deoxygenated sickle erythrocytes: a possible therapeutic approach to sickle cell disease.对氧亲和力进行药理学修饰可改善脱氧镰状红细胞的可变形性:一种治疗镰状细胞病的可能方法。
Clin Sci (Lond). 1989 Apr;76(4):357-62. doi: 10.1042/cs0760357.
8
Requirement for therapeutic inhibition of sickle haemoglobin gelation.
Nature. 1978 Sep 21;275(5677):238-40. doi: 10.1038/275238a0.
9
Sickle-cell anemia: molecular and cellular bases of therapeutic approaches (third of three parts).镰状细胞贫血:治疗方法的分子和细胞基础(三部分之三)
N Engl J Med. 1978 Oct 19;299(16):863-70. doi: 10.1056/NEJM197810192991605.
10
Sickle-cell anemia: molecular and cellular bases of therapeutic approaches (first of three parts).镰状细胞贫血:治疗方法的分子与细胞基础(三部分中的第一部分)
N Engl J Med. 1978 Oct 5;299(14):752-63. doi: 10.1056/NEJM197810052991405.