Department of Neurosciences, KU Leuven, University Psychiatric Centre, Catholic University Leuven, Kortenberg, Belgium.
CNS Drugs. 2014 May;28(5):421-53. doi: 10.1007/s40263-014-0157-3.
Since the 1970s, clinicians have increasingly become more familiar with hyperprolactinemia (HPRL) as a common adverse effect of antipsychotic medication, which remains the cornerstone of pharmacological treatment for patients with schizophrenia. Although treatment with second-generation antipsychotics (SGAs) as a group is, compared with use of the first-generation antipsychotics, associated with lower prolactin (PRL) plasma levels, the detailed effects on plasma PRL levels for each of these compounds in reports often remain incomplete or inaccurate. Moreover, at this moment, no review has been published about the effect of the newly approved antipsychotics asenapine, iloperidone and lurasidone on PRL levels. The objective of this review is to describe PRL physiology; PRL measurement; diagnosis, causes, consequences and mechanisms of HPRL; incidence figures of (new-onset) HPRL with SGAs and newly approved antipsychotics in adolescent and adult patients; and revisit lingering questions regarding this hormone. A literature search, using the MEDLINE database (1966-December 2013), was conducted to identify relevant publications to report on the state of the art of HPRL and to summarize the available evidence with respect to the propensity of the SGAs and the newly approved antipsychotics to elevate PRL levels. Our review shows that although HPRL usually is defined as a sustained level of PRL above the laboratory upper limit of normal, limit values show some degree of variability in clinical reports, making the interpretation and comparison of data across studies difficult. Moreover, many reports do not provide much or any data detailing the measurement of PRL. Although the highest rates of HPRL are consistently reported in association with amisulpride, risperidone and paliperidone, while aripiprazole and quetiapine have the most favorable profile with respect to this outcome, all SGAs can induce PRL elevations, especially at the beginning of treatment, and have the potential to cause new-onset HPRL. Considering the PRL-elevating propensity of the newly approved antipsychotics, evidence seems to indicate these agents have a PRL profile comparable to that of clozapine (asenapine and iloperidone), ziprasidone and olanzapine (lurasidone). PRL elevations with antipsychotic medication generally are dose dependant. However, antipsychotics having a high potential for PRL elevation (amisulpride, risperidone and paliperidone) can have a profound impact on PRL levels even at relatively low doses, while PRL levels with antipsychotics having a minimal effect on PRL, in most cases, can remain unchanged (quetiapine) or reduce (aripiprazole) over all dosages. Although tolerance and decreases in PRL values after long-term administration of PRL-elevating antipsychotics can occur, the elevations, in most cases, remain above the upper limit of normal. PRL profiles of antipsychotics in children and adolescents seem to be the same as in adults. The hyperprolactinemic effects of antipsychotic medication are mostly correlated with their affinity for dopamine D2 receptors at the level of the anterior pituitary lactotrophs (and probably other neurotransmitter mechanisms) and their blood-brain barrier penetrating capability. Even though antipsychotics are the most common cause of pharmacologically induced HPRL, recent research has shown that HPRL can be pre-existing in a substantial portion of antipsychotic-naïve patients with first-episode psychosis or at-risk mental state.
自 20 世纪 70 年代以来,临床医生越来越熟悉抗精神病药物引起的高催乳素血症(HPRL),这是抗精神病药物的常见不良反应,仍然是精神分裂症患者药物治疗的基石。虽然第二代抗精神病药物(SGAs)作为一个群体的治疗方法,与第一代抗精神病药物相比,与较低的催乳素(PRL)血浆水平相关,但这些化合物中每一种在报告中的详细的对血浆 PRL 水平的影响往往是不完整或不准确的。此外,目前,还没有关于新批准的抗精神病药物阿塞那平、依匹哌酮和鲁拉西酮对 PRL 水平影响的综述发表。本综述的目的是描述 PRL 生理学;PRL 测量;HPRL 的诊断、原因、后果和机制;青少年和成年患者中使用 SGAs 和新批准的抗精神病药物(新发病例)的 HPRL 发病率;并重新探讨关于这种激素的遗留问题。使用 MEDLINE 数据库(1966 年-2013 年 12 月)进行文献检索,以确定相关出版物,报告 HPRL 的最新技术,并总结关于 SGAs 和新批准的抗精神病药物升高 PRL 水平的倾向的现有证据。我们的综述表明,虽然 HPRL 通常被定义为 PRL 水平持续高于实验室正常上限,但在临床报告中,限值显示出一定程度的可变性,使得跨研究的数据解释和比较变得困难。此外,许多报告没有提供多少或任何详细说明 PRL 测量的资料。虽然 HPRL 与氨磺必利、利培酮和帕利哌酮的关联报告率最高,而阿立哌唑和喹硫平在这一结果方面的表现最有利,但所有的 SGAs 都能引起 PRL 升高,特别是在开始治疗时,并有引起新发病例 HPRL 的潜力。考虑到新批准的抗精神病药物的 PRL 升高倾向,证据似乎表明这些药物具有与氯氮平(阿塞那平、依匹哌酮)、齐拉西酮和奥氮平(鲁拉西酮)相似的 PRL 特征。抗精神病药物引起的 PRL 升高通常与剂量有关。然而,具有高催乳素升高潜力的抗精神病药物(氨磺必利、利培酮和帕利哌酮)即使在相对较低的剂量下也能对 PRL 水平产生深远的影响,而对 PRL 影响最小的抗精神病药物(喹硫平)在大多数情况下,无论剂量如何,PRL 水平都保持不变(阿立哌唑)或降低(阿立哌唑)。虽然长期使用升高 PRL 的抗精神病药物后可能会出现耐受性和 PRL 值下降,但在大多数情况下,升高仍高于正常上限。儿童和青少年抗精神病药物的 PRL 特征与成人相同。抗精神病药物的高催乳素血症效应主要与其在前垂体催乳素细胞(可能还有其他神经递质机制)水平上对多巴胺 D2 受体的亲和力以及它们的血脑屏障穿透能力有关。尽管抗精神病药物是药理学诱导的 HPRL 最常见的原因,但最近的研究表明,在首发精神病或高危精神状态的抗精神病药物初治患者中,HPRL 可能在相当一部分患者中是预先存在的。