Calarge Chadi A, Murry Daryl J, Ziegler Ekhard E, Arnold L Eugene
1 Department of Psychiatry and Behavioral Sciences, Baylor College of Medicine , Houston, Texas.
2 Department of Pediatrics, Baylor College of Medicine , Houston, Texas.
J Child Adolesc Psychopharmacol. 2016 Jun;26(5):471-7. doi: 10.1089/cap.2015.0194. Epub 2016 Feb 19.
Iron deficiency disrupts dopaminergic signaling in rodents, resulting in cognitive deficits that may be reversed with psychostimulants. In humans, iron deficiency with or without anemia has similarly been found to cause neuropsychological and behavioral impairments. However, the clinical effects of low body iron stores in antipsychotic-treated children have not been examined.
Medically healthy, 5- to 17-year-old boys treated with risperidone for at least 1 year were enrolled between February 2009 and November 2013 in a multiphase study, examining the skeletal effects of calcium and vitamin D supplementation in risperidone-induced hyperprolactinemia. Anthropometric measures were collected and medical and pharmacy records were reviewed to obtain treatment history. Psychiatric diagnoses were based on clinical interviews, structured interviews, rating scales, and a review of their medical records. Extrapyramidal symptoms were assessed, and a food frequency questionnaire was completed in a subsample. Laboratory tests, including ferritin concentration (a marker of body iron status), were obtained upon study entry.
A total of 114 participants (mean age: 11.0 ± 2.6 years) were included, the vast majority (>90%) having attention-deficit/hyperactivity disorder and/or disruptive behavior disorder. They had taken risperidone for an average 3.1 ± 2.0 years. Their serum ferritin concentration was 37.3 ± 25.6 μg/L with 21% of the sample having a level <20 μg/L, despite appropriate daily dietary iron intake. Ferritin concentration was inversely associated with weight gain following risperidone treatment onset but was not significantly associated with prolactin. After adjusting for the weight-adjusted dose of psychostimulants and risperidone and the daily dose of selective serotonin reuptake inhibitors, ferritin was inversely associated with the severity of disruptive behavior and positively associated (albeit marginally) with prosocial behavior. No association was found between ferritin concentration and extrapyramidal symptoms.
Body iron stores are inversely related to risperidone-induced weight gain, even after extended treatment and despite adequate iron intake. Low iron stores are associated with poorer treatment response. Future research should examine iron absorption during antipsychotic treatment and whether repleting iron stores would facilitate clinical response.
缺铁会破坏啮齿动物的多巴胺能信号传导,导致认知缺陷,而精神兴奋剂可能会逆转这种缺陷。在人类中,无论有无贫血,缺铁同样会导致神经心理和行为障碍。然而,尚未研究抗精神病药物治疗儿童体内低铁储存的临床影响。
2009年2月至2013年11月期间,对医学上健康、5至17岁、使用利培酮治疗至少1年的男孩进行了一项多阶段研究,研究钙和维生素D补充剂对利培酮引起的高催乳素血症的骨骼影响。收集人体测量数据,并查阅医疗和药房记录以获取治疗史。精神病诊断基于临床访谈、结构化访谈、评定量表以及对其病历的审查。评估锥体外系症状,并在一个子样本中完成食物频率问卷。在研究开始时进行实验室检查,包括铁蛋白浓度(身体铁状态的标志物)。
共纳入114名参与者(平均年龄:11.0±2.6岁),绝大多数(>90%)患有注意力缺陷多动障碍和/或破坏性行为障碍。他们服用利培酮的平均时间为3.1±2.0年。尽管每日饮食中铁摄入量适当,但他们的血清铁蛋白浓度为37.3±25.6μg/L,21%的样本水平<20μg/L。铁蛋白浓度与利培酮治疗开始后的体重增加呈负相关,但与催乳素无显著关联。在调整了精神兴奋剂和利培酮的体重调整剂量以及选择性5-羟色胺再摄取抑制剂的每日剂量后,铁蛋白与破坏性行为的严重程度呈负相关,与亲社会行为呈正相关(尽管微弱)。未发现铁蛋白浓度与锥体外系症状之间存在关联。
即使经过长期治疗且铁摄入量充足,体内铁储存仍与利培酮引起的体重增加呈负相关。低铁储存与较差的治疗反应相关。未来的研究应检查抗精神病药物治疗期间的铁吸收情况,以及补充铁储存是否会促进临床反应。