通用中文 | 赖氨苯丙胺片 | 通用外文 | Lisdexamfetamindimesylat |
品牌中文 | 品牌外文 | Elvanse Adult | |
其他名称 | |||
公司 | 西尔(Shire) | 产地 | 英国(UK) |
含量 | 30MG | 包装 | 30粒/盒 |
剂型给药 | 片剂 口服 | 储存 | 室温 |
适用范围 | 成人注意缺陷/多动障碍 |
通用中文 | 赖氨苯丙胺片 |
通用外文 | Lisdexamfetamindimesylat |
品牌中文 | |
品牌外文 | Elvanse Adult |
其他名称 | |
公司 | 西尔(Shire) |
产地 | 英国(UK) |
含量 | 30MG |
包装 | 30粒/盒 |
剂型给药 | 片剂 口服 |
储存 | 室温 |
适用范围 | 成人注意缺陷/多动障碍 |
Elvanse成人30毫克硬胶囊
夏尔制药有限公司联系方式
有效成分
•赖氨苯丙胺二甲酸酯
该药品需要接受其他监控。这样可以快速识别新的安全信息。要求医疗保健专业人员报告任何可疑的不良反应。有关如何报告不良反应的信息,请参见第4.8节。
1.药品名称
Elvanse成人30毫克硬胶囊。
Elvanse成人50毫克硬胶囊。
Elvanse成人70毫克硬胶囊。
2.定性和定量组成
30毫克胶囊:每粒胶囊含30毫克lisdexamfetamine二甲磺酸盐,相当于8.9 mg dexamfetamine。
50毫克胶囊:每个胶囊包含50毫克lisdexamfetamine二甲磺酸盐,相当于14.8 mg地塞米汀。
70毫克胶囊:每个胶囊中含有70毫克来氨苯丙胺二甲磺酸盐,相当于20.8毫克右苯丙胺。
有关赋形剂的完整列表,请参见第6.1节。
3.药物形式
胶囊,硬。
Elvanse Adult 30 mg胶囊:白色不透明主体和粉红色不透明瓶盖,黑色墨水印有“ S489”和“ 30 mg”。
Elvanse成人50毫克胶囊:白色不透明主体和蓝色不透明瓶盖,黑色墨水印有“ S489”和“ 50 mg”。
Elvanse Adult 70 mg胶囊:蓝色不透明主体和粉红色不透明瓶盖,以黑色墨水印刷“ S489”和“ 70 mg”。
每个胶囊长约16毫米,宽6毫米。
4.临床细节
4.1治疗适应症
Elvanse Adult被指定为成人注意缺陷/多动障碍(ADHD)的综合治疗计划的一部分。
并非所有成年患者都应使用Elvanse Adult,并且在决定使用该药品时必须考虑患者的情况,包括对患者症状的严重性和慢性性,滥用,误用或转移的可能性以及对任何先前治疗多动症的药物治疗的临床反应。
治疗必须在行为障碍专家的监督下进行。诊断应基于完整的病史并根据当前的DSM标准或ICD指南对患者进行评估。不能仅根据一种或多种症状进行诊断。在成人中,需要存在儿童时期就已经存在的多动症症状,并应进行回顾性确认(根据患者的病历,或者如果没有的话,通过适当的结构化仪器或访谈)。根据临床判断,患者应具有至少中等程度的注意力缺陷多动障碍(ADHD),至少在两种或两种以上情况(例如,社会,学术和/或职业功能)中存在中度功能障碍,从而影响个人生活的多个方面。
该综合征的具体病因尚不清楚,也没有单一的诊断测试。充分的诊断需要使用医学和专门的心理,教育和社会资源。
全面的治疗方案通常包括心理,教育,行为,职业和社会措施以及药物治疗,目的是稳定患有行为综合症的成年患者,该综合症的特征在于症状,包括慢性病,注意力不集中,易分散,冲动和多动。
4.2给药方式和方法
必须在适当的行为障碍专家的监督下开始治疗。
本体论
剂量应根据患者的治疗需要和反应而个性化。在开始使用Elvanse Adult治疗时,必须仔细进行剂量滴定。
起始剂量为每天30毫克,每天一次。剂量可以大约每周一次的间隔增加20 mg。 Elvanse Adult应该以最低有效剂量口服。
推荐的最大剂量为70毫克/天;尚未研究更高剂量。
对于严重肾功能不全的患者(GFR 15至<30 mL / min / 1.73 m2或CrCl <30 mL / min),最大剂量不应超过50 mg /天。接受透析的患者应考虑进一步减少剂量(见5.2节)。
如果在1个月内适当调整剂量后症状仍未改善,则必须停止治疗。如果出现自相矛盾的症状加重或其他无法忍受的不良事件,应减少或停用剂量。
给药方法
Elvanse Adult可以带或不带食物一起服用。
Elvanse Adult可能会被整个吞下,或将胶囊打开,将所有内容物倒空,并与诸如酸奶或一杯水或橙汁的软食品混合。如果内容物包括任何压实的粉末,可使用勺子将软食品或液体中的粉末分开。内容物应搅拌直至完全分散。病人应立即食用所有软性食物或液体的混合物;它不应该被存储。活性成分一旦分散就完全溶解;但是,一旦混合物耗尽,含有惰性成分的薄膜可能会残留在玻璃或容器中。
病人每天服用的胶囊不应少于一粒,也不应分开服用一粒。
如果错过剂量,Elvanse Adult剂量可在第二天恢复。由于可能引起失眠,应避免使用下午剂量。
治疗前评估
在开处方之前,有必要对患者的心血管状况(包括血压和心率)进行基线评估。全面的病史应记录伴随药物,过去和现在的并存的医学和精神疾病或症状,突然的心脏/原因不明的死亡的家族病史以及治疗前体重的准确记录(请参阅第4.4节)。
与其他刺激物一致,开处方前应考虑滥用,误用或转移Elvanse Adult的可能性(请参阅第4.4节)。
持续监控
应当持续监测精神和心血管状况(另请参阅第4.4节)。
•每次调整剂量时至少应每六个月记录一次血压和脉搏。
•应在每次调整剂量后,至少每六个月和每次就诊时监测从头发展或已有精神疾病的恶化。
应监测患者的Elvanse Adult转移,滥用和滥用风险。
长期使用
多动症可能需要长期的药物治疗。选择延长使用Elvanse Adult的医生(超过12个月)应至少每年重新评估Elvanse Adult的有效性,并考虑不使用药物的试用期以评估患者的功能而无需药物治疗。
老年人
老年人中地塞米特清除率降低,因此可能需要调整剂量(请参阅第5.2节)。
肾功能不全的患者
由于严重肾功能不全(GFR 15至<30 mL / min / 1.73 m2或CrCl <30 mL / min)患者的清除率降低,最大剂量不应超过50 mg / day。透析患者应考虑进一步减少剂量。 Lisdexamfetamine和dexamfetamine不可透析。
肝功能不全患者
尚无肝功能不全患者的研究。
小儿人口
Elvanse Adult适用于成人。对于6至17岁的儿童和青少年,可以使用另一种含有赖氨苯丙胺二甲磺酸盐的产品。当前可用的数据在第4.8、5.1和5.2节中介绍。
Elvanse Adult请勿用于6岁以下的儿童。该年龄段的安全性和有效性尚未确定。
4.3禁忌症
对拟交感神经胺或第6.1节中列出的任何赋形剂过敏。
单胺氧化酶抑制剂(MAOI)的同时使用或在MAOI治疗后的14天内使用(可能导致高血压危象;请参阅第4.5节)。
甲状腺功能亢进或甲状腺毒症。
激动的状态。
有症状的心血管疾病。
晚期动脉硬化。
中度至重度高血压。
青光眼。
4.4特殊警告和使用注意事项
虐待和依赖
包括Elvanse Adult在内的兴奋剂都有可能被滥用,误用或转移注意力,医师在处方该产品时应考虑这些可能性。在成年人(尤其是年轻人)中,滥用的风险可能比在儿科使用中更大。有药物滥用或依赖史的患者应谨慎开具兴奋剂。
滥用安非他明会导致宽容和心理依赖,并伴有不同程度的异常行为。苯丙胺滥用的症状可能包括皮肤病,失眠,易怒,活动过度,情绪不稳和精神病。据报有疲劳和抑郁等戒断症状。
心血管不良事件
猝死和先前存在的结构性心脏异常或其他严重的心脏问题
儿童和青少年:服用中枢神经系统兴奋剂的儿童和青少年(包括患有结构性心脏异常或其他严重心脏问题的儿童和青少年)有猝死的报道。尽管仅一些严重的心脏问题会增加猝死的风险,但通常不应在已知的严重结构性心脏异常,心肌病,严重的心律异常或其他可能使他们处于高发状态的严重心脏问题的儿童或青少年中使用兴奋剂产品对刺激性药物拟交感神经作用的脆弱性。
成人:成人服用ADHD常规剂量的兴奋剂后有猝死,中风和心肌梗塞的报道。尽管在这些成年病例中兴奋剂的作用尚不清楚,但与儿童相比,成年人比成年人具有严重的结构性心脏异常,心肌病,严重的心律异常,冠状动脉疾病或其他严重的心脏问题的可能性更大。具有这种异常的成年人通常也不应使用刺激性药物治疗。
高血压和其他心血管疾病
刺激性药物会引起平均血压(约2-4 mmHg)和平均心率(约3-6 bpm)的适度升高,并且个体的升高幅度可能更大。虽然预期平均变化不会产生短期后果,但应监测所有患者的心率和血压变化。在治疗可能会因血压或心率升高而受损的潜在医疗状况的患者(例如患有高血压,心力衰竭,最近的心肌梗塞或室性心律失常的患者)时应谨慎。
有症状的心血管疾病患者以及中度至重度高血压患者均禁止使用Elvanse Adult(请参阅第4.3节)。
心肌病
长期使用安非他明已报道了心肌病。 Elvanse Adult也有报道。
评估接受兴奋剂治疗的患者的心血管状况
所有正在考虑接受兴奋剂治疗的患者都应有仔细的病史(包括评估猝死或室性心律失常的家族病史)和体格检查以评估是否存在心脏病,如果发现,应接受进一步的心脏评估提示此类疾病(例如,心电图或超声心动图)。在刺激性治疗期间出现劳累性胸痛,无法解释的晕厥或其他提示心脏病的症状的患者,应立即进行心脏评估。
精神病不良事件
既往精神病
患有精神病的患者服用兴奋剂可能会加剧行为障碍和思想障碍的症状。
躁郁症
应特别注意使用兴奋剂治疗患有合并症双相情感障碍的ADHD患者,因为担心此类患者可能诱发混合/躁狂发作。在开始用兴奋剂治疗之前,应对患有抑郁症的合并症患者进行充分筛查,以确定他们是否有患双相情感障碍的风险;此类筛查应包括详细的精神病史,包括自杀,双相情感障碍和抑郁症的家族史。
出现新的精神病或躁狂症状
没有常规精神病史或躁狂病史的儿童和青少年出现的突发性精神病或躁狂症状,例如幻觉,妄想或躁狂症,可能是由通常剂量的兴奋剂引起的。如果出现此类症状,应考虑兴奋剂的可能因果作用,并且终止治疗可能是适当的。
侵略
经常在患有ADHD的儿童和青少年中观察到攻击性行为或敌意,并已在临床试验和某些用于治疗ADHD的药物(包括Elvanse Adult)中的上市后报道中进行了报道。刺激物可能引起攻击性行为或敌意。开始接受多动症治疗的患者应监测攻击行为或敌对行为的出现或恶化。
抽动
据报道,兴奋剂会加剧运动和声音抽动和图雷特氏综合症。因此,抽动和抽动秽语综合征的临床评估应在使用刺激性药物之前进行。
对体重的长期影响
兴奋剂与体重减轻有关。在用兴奋剂治疗期间应监测体重,减肥的患者可能需要中断治疗
癫痫发作
有一些临床证据表明,兴奋剂可降低有癫痫病史的患者,先前有脑电图异常但无癫痫发作的患者的惊厥阈值,很少有没有癫痫病史且无癫痫发作前证据的患者的惊厥阈值。在癫痫发作的情况下,应停药。
视觉障碍
据报道,用兴奋剂治疗存在适应困难和视力模糊的问题。
处方和配药
应开处方或分配尽可能少量的Elvanse Adult,以最大程度地减少患者过量服用的风险。
与其他拟交感神经药一起使用
使用其他拟交感神经药的患者应谨慎使用Elvanse Adult(请参阅第4.5节)。
4.5与其他药品的相互作用以及其他形式的相互作用
体外酶抑制
Lisdexamfetamine二甲磺酸盐不是人肝小体悬浮液中的主要CYP450亚型(CYP1A2,CYP2A6,CYP2B6,CYP2C8,CYP2C9,CYP2C19,CYP2D6和CYP3A4的体外抑制剂),也不是CYP2培养的新鲜人肝细胞中的CYP3A4 / 5。 Lisdexamfetamine二甲磺酸盐不是MDCKII细胞中P-gp的体外底物,也不是Caco-2细胞中P-gp的体外抑制剂,因此不太可能与P-gp泵运输的药物发生临床相互作用。
赖斯氨苯丙胺二甲磺酸酯的体内人研究对由CYP1A2,CYP2D6,CYP2C19或CYP3A代谢的药物的药代动力学没有产生任何临床上有意义的影响。
血液浓度可能会受到Elvanse Adult影响的特工
延长释放的胍法辛:在一项药物相互作用研究中,将延长释放的胍法辛与Elvanse Adult联合给药会导致胍法辛最大血浆浓度增加19%,而暴露(曲线下面积; AUC)则增加7%。这些小的变化预计不会在临床上有意义。在这项研究中,缓释胍法辛和Elvanse Adult并用后,未观察到对地塞米特暴露的影响。
延长释放的文拉法辛:在一项药物相互作用研究中,与主要的活性代谢物o一起使用225 mg延长释放的文拉法辛(一种CYP2D6底物)与70 mg Elvanse Adult组合,导致Cmax降低9%,AUC降低17% -去甲基文拉法辛,文拉法辛的Cmax增加10%,AUC增加13%。 Dexamfetamine可能是CYP2D6的弱抑制剂。 Lisdexamfetamine对文拉法辛和邻去甲基文拉法辛复合物的AUC和Cmax没有影响。这些小的变化预计不会在临床上有意义。在这项研究中,延长给药的文拉法辛和成人Elvanse并用后,未观察到对地塞米特暴露的影响。
改变尿液pH值并影响安非他明的尿排泄和半衰期的物质和条件
酸化尿液的抗坏血酸和其他药物和状况(噻嗪类利尿剂,高蛋白饮食,糖尿病,呼吸性酸中毒)会增加尿液排泄并降低安非他明的半衰期。碱化尿液的碳酸氢钠和其他试剂和状况(水果和蔬菜中的饮食高,尿路感染和呕吐)高,可减少尿液排泄并延长安非他明的半衰期。
单胺氧化酶抑制剂
安非他明不应在单胺氧化酶抑制剂(MAOI)给药期间或给药后14天内给药,因为它会增加去甲肾上腺素和其他单胺的释放。这可能导致严重的头痛和其他高血压危象。可能发生多种毒性神经系统作用和恶性高热,有时甚至会导致致命的后果(请参阅第4.3节)。
血清素药物
与苯丙胺类药物(包括选择性5-羟色胺再摄取抑制剂(SSRIs),5-羟色胺和去甲肾上腺素再摄取抑制剂(SNRIs))联合使用时,很少与苯丙胺类药物(如Elvanse Adult)结合使用时发生5-羟色胺综合征。也有报道称它与苯丙胺类药物过量有关,包括Elvanse Adult(见第4.9节)。
苯丙胺类药物可能会降低作用的药物
降压药:安非他命可能会降低胍乙啶或其他降压药的有效性。
可能被安非他明增强作用的药物
安非他命增强麻醉镇痛剂的镇痛作用。
可能会降低安非他明作用的药物
氯丙嗪:氯丙嗪可阻断多巴胺和去甲肾上腺素受体,从而抑制安非他明的中枢刺激作用。
氟哌啶醇:氟哌啶醇阻断多巴胺受体,从而抑制安非他明的中枢刺激作用。
碳酸锂:碳酸锂可能会抑制安非他明的厌食和刺激作用。
与酒精一起使用
与酒精可能相互作用的数据有限。
药物/实验室测试的相互作用
安非他明可导致血浆皮质类固醇水平显着升高。这种增加在晚上最大。安非他明可能会干扰尿中类固醇的测定。
其余内容
参照英文说明
Shire Pharmaceuticals Limitedcontact detailsActive ingredient
· lisdexamfetamine dimesylate
This medicinal product is subject to additional monitoring. This will allow quick identification of new safety information. Healthcare professionals are asked to report any suspected adverse reactions. See section 4.8 for how to report adverse reactions.
1. Name of the medicinal product
Elvanse Adult 30 mg capsules, hard.
Elvanse Adult 50 mg capsules, hard.
Elvanse Adult 70 mg capsules, hard.
2. Qualitative and quantitative composition
30 mg Capsules: Each capsule contains 30 mg lisdexamfetamine dimesylate, equivalent to 8.9 mg of dexamfetamine.
50 mg Capsules: Each capsule contains 50 mg lisdexamfetamine dimesylate, equivalent to 14.8 mg of dexamfetamine.
70 mg Capsules: Each capsule contains 70 mg lisdexamfetamine dimesylate, equivalent to 20.8 mg of dexamfetamine.
For the full list of excipients, see section 6.1.
3. Pharmaceutical form
Capsule, hard.
Elvanse Adult 30 mg capsule: white opaque body and pink opaque cap, printed 'S489' and '30 mg' in black ink.
Elvanse Adult 50 mg capsule: white opaque body and blue opaque cap, printed 'S489' and '50 mg' in black ink.
Elvanse Adult 70 mg capsule: blue opaque body and pink opaque cap, printed 'S489' and '70 mg' in black ink.
Each capsule measures approximately 16 mm long and 6 mm wide.
4. Clinical particulars
4.1 Therapeutic indications
Elvanse Adult is indicated as part of a comprehensive treatment programme for attention deficit/hyperactivity disorder (ADHD) in adults.
Elvanse Adult is not indicated in all adult patients and the decision to use the medicinal product must take into consideration the profile of the patient, including a thorough assessment of the severity and chronicity of the patient's symptoms, the potential for abuse, misuse or diversion and clinical response to any previous pharmacotherapies for the treatment of ADHD.
Treatment must be under the supervision of a specialist in behavioural disorders. Diagnosis should be based on a complete history and evaluation of the patient according to current DSM criteria or ICD guidelines. Diagnosis cannot be made solely on the presence of one or more symptom. In adults, the presence of symptoms of ADHD that were pre-existing in childhood is required and should be confirmed retrospectively (according to the patient's medical record or, if not available, through appropriate and structured instruments or interviews). Based on clinical judgment, patients should have ADHD of at least moderate severity as indicated by at least moderate functional impairment in two or more settings (for example, social, academic, and/or occupational functioning), affecting several aspects of an individual's life.
The specific aetiology of this syndrome is unknown, and there is no single diagnostic test. Adequate diagnosis requires the use of medical and specialised psychological, educational, and social resources.
A comprehensive treatment programme typically includes psychological, educational, behavioural, occupational and social measures as well as pharmacotherapy and is aimed at stabilising the adult patient with a behavioural syndrome characterised by symptoms which may include chronic history of short attention span, distractibility, impulsivity and hyperactivity.
4.2 Posology and method of administration
Treatment must be initiated under the supervision of an appropriate specialist in behavioural disorders.
Posology
Dosage should be individualised according to the therapeutic needs and response of the patient. Careful dose titration is necessary at the start of treatment with Elvanse Adult.
The starting dose is 30 mg taken once daily in the morning. The dose may be increased by 20 mg increments, at approximately weekly intervals. Elvanse Adult should be administered orally at the lowest effective dosage.
The maximum recommended dose is 70 mg/day; higher doses have not been studied.
In patients with severe renal insufficiency (GFR 15 to <30 mL/min/1.73 m2 or CrCl <30 mL/min) the maximum dose should not exceed 50 mg/day. Further dosage reduction should be considered in patients undergoing dialysis (see section 5.2).
Treatment must be stopped if the symptoms do not improve after appropriate dosage adjustment over a 1-month period. If paradoxical aggravation of symptoms or other intolerable adverse events occur, the dosage should be reduced or discontinued.
Method of administration
Elvanse Adult may be taken with or without food.
Elvanse Adult may be swallowed whole, or the capsule opened and the entire contents emptied and mixed with a soft food such as yogurt or in a glass of water or orange juice. If the contents include any compacted powder, a spoon may be used to break apart the powder in the soft food or liquid. The contents should be stirred until completely dispersed. The patient should consume the entire mixture of soft food or liquid immediately; it should not be stored. The active ingredient dissolves completely once dispersed; however, a film containing the inactive ingredients may remain in the glass or container once the mixture is consumed.
The patient should not take anything less than one capsule per day and a single capsule should not be divided.
In the event of a missed dose, Elvanse Adult dosing can resume the next day. Afternoon doses should be avoided because of the potential for insomnia.
Pre-treatment evaluation
Prior to prescribing, it is necessary to conduct a baseline evaluation of a patient's cardiovascular status including blood pressure and heart rate. A comprehensive history should document concomitant medications, past and present co-morbid medical and psychiatric disorders or symptoms, family history of sudden cardiac/unexplained death, and accurate recording of pre-treatment weight (see section 4.4).
Consistent with other stimulants, the potential for abuse, misuse or diversion of Elvanse Adult should be considered prior to prescribing (see section 4.4).
Ongoing monitoring
Psychiatric, and cardiovascular status should be continually monitored (see also section 4.4).
• Blood pressure and pulse should be recorded at each adjustment of dose and at least every six months.
• Development of de novo or worsening of pre-existing psychiatric disorders should be monitored at every adjustment of dose and then at least every six months and at every visit.
Patients should be monitored for the risk of diversion, misuse, and abuse of Elvanse Adult.
Long-term use
Pharmacological treatment of ADHD may be needed for extended periods. The physician who elects to use Elvanse Adult for extended periods (over 12 months) should re-evaluate the usefulness of Elvanse Adult at least yearly, and consider trial periods off medication to assess the patient's functioning without pharmacotherapy.
Older people
Dexamfetamine clearance is reduced in the elderly, therefore dose adjustment may be required (see section 5.2).
Patients with renal impairment
Due to reduced clearance in patients with severe renal insufficiency (GFR 15 to <30 mL/min/1.73 m2 or CrCl <30 mL/min) the maximum dose should not exceed 50 mg/day. Further dosage reduction should be considered in patients undergoing dialysis. Lisdexamfetamine and dexamfetamine are not dialysable.
Patients with hepatic impairment
No studies have been conducted in patients with hepatic impairment.
Paediatric population
Elvanse Adult is indicated for adults. For children and adolescents aged 6 to 17 years, another product containing lisdexamfetamine dimesylate is available. Currently available data are described in sections 4.8, 5.1 and 5.2.
Elvanse Adult should not be used in children under the age of 6 years. Safety and efficacy in this age group has not been established.
4.3 Contraindications
Hypersensitivity to sympathomimetic amines or any of the excipients listed in section 6.1.
Concomitant use of monoamine oxidase inhibitors (MAOI) or within 14 days after MAOI treatment (hypertensive crisis may result; see section 4.5).
Hyperthyroidism or thyrotoxicosis.
Agitated states.
Symptomatic cardiovascular disease.
Advanced arteriosclerosis.
Moderate to severe hypertension.
Glaucoma.
4.4 Special warnings and precautions for use
Abuse and dependence
Stimulants including Elvanse Adult have a potential for abuse, misuse, or diversion that physicians should consider when prescribing this product. The risk of misuse may be greater in adults (especially young adults) than in paediatric use. Stimulants should be prescribed cautiously to patients with a history of substance abuse or dependence.
Abuse of amfetamines can lead to tolerance, and psychological dependence with varying degrees of abnormal behaviour. Symptoms of amphetamine abuse may include dermatoses, insomnia, irritability, hyperactivity, emotional lability and psychosis. Withdrawal symptoms such as fatigue and depression have been reported.
Cardiovascular adverse events
Sudden death and pre-existing structural cardiac abnormalities or other serious heart problems
Children and adolescents: Sudden death has been reported in children and adolescents taking CNS stimulants, including those with structural cardiac abnormalities or other serious heart problems. Although some serious heart problems alone carry an increased risk of sudden death, stimulant products generally should not be used in children or adolescents with known serious structural cardiac abnormalities, cardiomyopathy, serious heart rhythm abnormalities, or other serious cardiac problems that may place them at increased vulnerability to the sympathomimetic effects of a stimulant drug.
Adults: Sudden deaths, stroke, and myocardial infarction have been reported in adults taking stimulant drugs at usual doses for ADHD. Although the role of stimulants in these adult cases is unknown, adults have a greater likelihood than children of having serious structural cardiac abnormalities, cardiomyopathy, serious heart rhythm abnormalities, coronary artery disease, or other serious cardiac problems. Adults with such abnormalities should also generally not be treated with stimulant drugs.
Hypertension and other cardiovascular conditions
Stimulant medications cause a modest increase in average blood pressure (about 2-4 mmHg) and average heart rate (about 3-6 bpm), and individuals may have larger increases. While the mean changes alone would not be expected to have short-term consequences, all patients should be monitored for changes in heart rate and blood pressure. Caution is indicated in treating patients whose underlying medical conditions might be compromised by increases in blood pressure or heart rate, e.g., those with pre-existing hypertension, heart failure, recent myocardial infarction, or ventricular arrhythmia.
The use of Elvanse Adult is contraindicated in patients with symptomatic cardiovascular disease and also in those patients with moderate to severe hypertension (see section 4.3).
Cardiomyopathy
Cardiomyopathy has been reported with chronic amfetamine use. It has also been reported with Elvanse Adult.
Assessing cardiovascular status in patients being treated with stimulant medications
All patients who are being considered for treatment with stimulant medications should have a careful history (including assessment for a family history of sudden death or ventricular arrhythmia) and physical exam to assess for the presence of cardiac disease, and should receive further cardiac evaluation if findings suggest such disease (e.g., electrocardiogram or echocardiogram). Patients who develop symptoms such as exertional chest pain, unexplained syncope, or other symptoms suggestive of cardiac disease during stimulant treatment should undergo a prompt cardiac evaluation.
Psychiatric adverse events
Pre-existing psychosis
Administration of stimulants may exacerbate symptoms of behaviour disturbance and thought disorder in patients with pre-existing psychotic disorders.
Bipolar illness
Particular care should be taken in using stimulants to treat ADHD patients with comorbid bipolar disorder because of concern for possible induction of mixed/manic episode in such patients. Prior to initiating treatment with a stimulant, patients with comorbid depressive symptoms should be adequately screened to determine if they are at risk for bipolar disorder; such screening should include a detailed psychiatric history, including a family history of suicide, bipolar disorder, and depression.
Emergence of new psychotic or manic symptoms
Treatment emergent psychotic or manic symptoms, e.g., hallucinations, delusional thinking, or mania in children and adolescents without prior history of psychotic illness or mania can be caused by stimulants at usual doses. If such symptoms occur, consideration should be given to a possible causal role of the stimulant, and discontinuation of treatment may be appropriate.
Aggression
Aggressive behaviour or hostility is often observed in children and adolescents with ADHD, and has been reported in clinical trials and the postmarketing experience of some medications indicated for the treatment of ADHD including Elvanse Adult. Stimulants may cause aggressive behaviour or hostility. Patients beginning treatment for ADHD should be monitored for the appearance of or worsening of aggressive behaviour or hostility.
Tics
Stimulants have been reported to exacerbate motor and phonic tics and Tourette's syndrome. Therefore, clinical evaluation for tics and Tourette's syndrome should precede use of stimulant medications.
Long-term effect on weight
Stimulants have been associated with weight loss. Weight should be monitored during treatment with stimulants, and patients who are losing weight may need to have their treatment interrupted
Seizures
There is some clinical evidence that stimulants may lower the convulsive threshold in patients with prior history of seizure, in patients with prior EEG abnormalities in absence of seizures, and very rarely, in patients without a history of seizures and no prior EEG evidence of seizures. In the presence of seizures, the drug should be discontinued.
Visual disturbance
Difficulties with accommodation and blurring of vision have been reported with stimulant treatment.
Prescribing and dispensing
The least amount of Elvanse Adult feasible should be prescribed or dispensed in order to minimise the risk of possible overdose by the patient.
Use with other sympathomimetic drugs
Elvanse Adult should be used with caution in patients who use other sympathomimetic drugs (see section 4.5).
4.5 Interaction with other medicinal products and other forms of interaction
In vitro enzyme inhibition
Lisdexamfetamine dimesylate was not an in vitro inhibitor of the major human CYP450 isoforms (CYP1A2, CYP2A6, CYP2B6, CYP2C8, CYP2C9, CYP2C19, CYP2D6, and CYP3A4) in human hepatic microsomal suspensions, nor was it an in vitro inducer of CYP1A2, CYP2B6 or CYP3A4/5 in cultured fresh human hepatocytes. Lisdexamfetamine dimesylate was not an in vitro substrate for P-gp in MDCKII cells nor an in vitro inhibitor of P-gp in Caco-2 cells and is therefore unlikely to be involved in clinical interactions with drugs transported by the P-gp pump.
An in vivo human study of lisdexamfetamine dimesylate did not result in any clinically meaningful effect on the pharmacokinetics of drugs metabolized by CYP1A2, CYP2D6, CYP2C19, or CYP3A.
Agents whose blood levels may be impacted by Elvanse Adult
Extended release guanfacine: In a drug interaction study, administration of an extended release guanfacine in combination with Elvanse Adult induced a 19% increase in guanfacine maximum plasma concentrations, whereas, exposure (area under the curve; AUC) was increased by 7%. These small changes are not expected to be clinically meaningful. In this study, no effect on dexamfetamine exposure was observed following co-administration of extended release guanfacine and Elvanse Adult.
Extended release venlafaxine: In a drug interaction study, administration of 225 mg extended release venlafaxine, a CYP2D6 substrate, in combination with 70 mg Elvanse Adult induced a 9% decrease in the Cmax and 17% decrease in the AUC for the primary active metabolite o-desmethylvenlafaxine and a 10% increase in Cmax and 13% increase in AUC for venlafaxine. Dexamfetamine may be a weak inhibitor of CYP2D6. Lisdexamfetamine has no effect on the AUC and Cmax of the composite of venlafaxine and o-desmethylvenlafaxine. These small changes are not expected to be clinically meaningful. In this study, no effect on dexamfetamine exposure was observed following co-administration of extended release venlafaxine and Elvanse Adult.
Agents and conditions that alter urinary pH and impact the urinary excretion and half-life of amfetamine
Ascorbic acid and other agents and conditions (thiazide diuretics, diets high in animal protein, diabetes, respiratory acidosis) that acidify urine increase urinary excretion and decrease the half-life of amfetamine. Sodium bicarbonate and other agents and conditions (diets high in fruits and vegetables, urinary tract infections and vomiting) that alkalinise urine decrease urinary excretion and extend the half-life of amfetamine.
Monoamine oxidase inhibitors
Amfetamine should not be administered during or within 14 days following the administration of monoamine oxidase inhibitors (MAOI) because it can increase the release of norepinephrine and other monoamines. This can cause severe headaches and other signs of hypertensive crisis. A variety of toxic neurological effects and malignant hyperpyrexia can occur, sometimes with fatal outcomes (see section 4.3).
Serotonergic drugs
Serotonin syndrome has rarely occurred in association with the use of amphetamines such as Elvanse Adult, when given in conjunction with serotonergic drugs, including selective serotonin reuptake inhibitors (SSRIs) and serotonin and noradrenaline reuptake inhibitors (SNRIs). It has also been reported in association with overdose of amphetamines, including Elvanse Adult (see section 4.9).
Agents whose effects may be reduced by amfetamines
Antihypertensives: Amfetamines may decrease the effectiveness of guanethidine or other antihypertensive medications.
Agents whose effects may be potentiated by amfetamines
Amfetamines potentiate the analgesic effect of narcotic analgesics.
Agents that may reduce the effects of amfetamines
Chlorpromazine: Chlorpromazine blocks dopamine and norepinephrine receptors, thus inhibiting the central stimulant effects of amfetamines.
Haloperidol: Haloperidol blocks dopamine receptors, thus inhibiting the central stimulant effects of amfetamines.
Lithium carbonate: The anorectic and stimulatory effects of amfetamines may be inhibited by lithium carbonate.
Use with alcohol
There are limited data on the possible interaction with alcohol.
Drug/laboratory test interactions
Amfetamines can cause a significant elevation in plasma corticosteroid levels. This increase is greatest in the evening. Amfetamine may interfere with urinary steroid determinations.
4.6 Fertility, pregnancy, and lactation
Pregnancy
There are no adequate and well controlled studies of Elvanse Adult in pregnant women. Dexamfetamine, the active metabolite of lisdexamfetamine, crosses the placenta.
Lisdexamfetamine dimesylate had no effect on embryofoetal development or survival when administered orally to pregnant rats and rabbits (see section 5.3). Administration of lisdexamfetamine dimesylate to juvenile rats was associated with reductions in growth measurements at clinically relevant exposures.
The physician should discuss Elvanse Adult treatment in the context of potential pregnancy or lactation with female patients of child-bearing potential. Elvanse Adult should only be used during pregnancy if the potential benefit justifies the potential risk to the foetus.
Breast-feeding
Amfetamines are excreted in human milk. Elvanse Adult should not be used during breast-feeding.
Fertility
Amfetamine has shown no harmful effects on fertility in a rat study (see section 5.3). The effect of Elvanse Adult on human fertility has not been investigated.
4.7 Effects on ability to drive and use machines
Elvanse Adult can cause dizziness, drowsiness and visual disturbances including difficulties with accommodation, diplopia and blurred vision. These could have a moderate influence on the ability to drive and use machines. Patients should be warned of these possible effects and advised that if affected, they should avoid potentially hazardous activities such as driving or operating machinery.
This medicine can impair cognitive function and can affect a patient's ability to drive safely. This class of medicine is in the list of drugs included in regulations under 5a of the Road Traffic Act 1988. When prescribing this medicine, patients should be told:
• The medicine is likely to affect your ability to drive.
• Do not drive until you know how the medicine affects you.
• It is an offence to drive while under the influence of this medicine.
• However, you would not be committing an offence (called 'statutory defence') if:
• The medicine has been prescribed to treat a medical problem and
• You have taken it according to the instructions given by the prescriber and in the information provided with the medicine and
• It was not affecting your ability to drive safely.
4.8 Undesirable effects
Summary of the safety profile
Adverse reactions observed with Elvanse Adult treatment mainly reflect side effects commonly associated with stimulant use. Very common adverse reactions seen in adults include decreased appetite, insomnia, dry mouth and headache.
Tabulated summary of adverse reactions
The following table presents all adverse reactions based on clinical trials and spontaneous reporting.
The following definitions apply to the frequency terminology used hereafter:
Very common (≥ 1/10)
Common (≥ 1/100 to < 1/10)
Uncommon (≥ 1/1,000 to < 1/100)
Rare (≥ 1/10,000 to < 1/1,000)
Very rare (< 1/10,000)
Frequency not known (cannot be estimated from the available data).
An asterisk (*) indicates that additional information on the respective adverse reaction is provided below the table.
System/Organ Class |
Adverse Reaction |
Children (6 to 12 years) |
Adolescents (13 to 17 years) |
Adults |
Immune System Disorders |
Anaphylactic reaction |
Frequency not known |
Frequency not known |
Frequency not known |
Hypersensitivity |
Uncommon |
Uncommon |
Uncommon |
|
Metabolism and Nutrition Disorders |
Decreased appetite |
Very common |
Very common |
Very common |
Psychiatric Disorders |
*Insomnia |
Very common |
Very common |
Very common |
Agitation |
Uncommon |
Uncommon |
Common |
|
Anxiety |
Uncommon |
Common |
Common |
|
Logorrhea |
Uncommon |
Uncommon |
Uncommon |
|
Libido decreased |
Not applicable |
Not reported |
Common |
|
Depression |
Uncommon |
Common |
Uncommon |
|
Tic |
Common |
Uncommon |
Uncommon |
|
Affect lability |
Common |
Uncommon |
Common |
|
Dysphoria |
Uncommon |
Uncommon |
Uncommon |
|
Euphoria |
Frequency not known |
Uncommon |
Uncommon |
|
Psychomotor hyperactivity |
Uncommon |
Uncommon |
Common |
|
Bruxism |
Uncommon |
Uncommon |
Common |
|
Dermatillomania |
Uncommon |
Uncommon |
Uncommon |
|
Psychotic episodes |
Frequency not known |
Frequency not known |
Frequency not known |
|
Mania |
Uncommon |
Uncommon |
Uncommon |
|
Hallucination |
Uncommon |
Uncommon |
Frequency not known |
|
Aggression |
Common |
Uncommon |
Frequency not known |
|
Nervous System Disorders |
Headache |
Very common |
Very common |
Very common |
Dizziness |
Common |
Common |
Common |
|
Restlessness |
Uncommon |
Common |
Common |
|
Tremor |
Uncommon |
Common |
Common |
|
Somnolence |
Common |
Common |
Uncommon |
|
Seizure |
Frequency not known |
Frequency not known |
Frequency not known |
|
Dyskinesia |
Uncommon |
Uncommon |
Uncommon |
|
Dysgeusia |
Uncommon |
Uncommon |
Uncommon |
|
Eye Disorders |
Vision blurred |
Uncommon |
Frequency not known |
Uncommon |
Mydriasis |
Uncommon |
Uncommon |
Frequency not known |
|
Cardiac Disorders |
Tachycardia |
Common |
Common |
Common |
Palpitation |
Uncommon |
Common |
Common |
|
Cardiomyopathy |
Frequency not known |
Uncommon |
Frequency not known |
|
Vascular disorders |
Raynaud's phenomenon |
Uncommon |
Frequency not known |
Frequency not known |
Respiratory, Thoracic and Mediastinal Disorders |
Dyspnoea |
Uncommon |
Common |
Common |
Gastrointestinal Disorders |
Dry mouth |
Common |
Common |
Very common |
Diarrhoea |
Common |
Common |
Common |
|
Constipation |
Common |
Uncommon |
Common |
|
Upper abdominal pain |
Very common |
Common |
Common |
|
Nausea |
Common |
Common |
Common |
|
Vomiting |
Common |
Common |
Uncommon |
|
Hepatobilary Disorders |
*Eosinophilic Hepatitis |
Frequency not known |
Frequency not known |
Frequency not known |
Skin and Subcutaneous Tissue Disorders |
Hyperhidrosis |
Uncommon |
Uncommon |
Common |
Urticaria |
Uncommon |
Uncommon |
Uncommon |
|
Rash |
Common |
Uncommon |
Uncommon |
|
*Angioedema |
Frequency not known |
Frequency not known |
Frequency not known |
|
*Stevens-Johnson Syndrome |
Frequency not known |
Frequency not known |
Frequency not known |
|
Reproductive System and Breast Disorders |
Erectile dysfunction |
Not applicable |
Uncommon |
Common |
General Disorders and Administration Site Conditions |
Chest Pain |
Uncommon |
Uncommon |
Common |
Irritability |
Common |
Common |
Common |
|
Fatigue |
Common |
Common |
Common |
|
Feeling jittery |
Uncommon |
Common |
Common |
|
Pyrexia |
Common |
Common |
Uncommon |
|
Investigations |
Blood pressure increased |
Uncommon |
Uncommon |
Common |
Weight decreased |
Very Common |
Very Common |
Common |
Description of selected adverse reactions
Insomnia
Includes insomnia, initial insomnia, middle insomnia, and terminal insomnia.
Eosinophilic hepatitis
No cases were reported in the clinical studies.
Angioedema
No cases were reported in the clinical studies.
Stevens-Johnson syndrome
No cases were reported in the clinical studies.
Reporting of suspected adverse reactions
Reporting suspected adverse reactions after authorisation of the medicinal product is important. It allows continued monitoring of the benefit/risk balance of the medicinal product. Healthcare professionals are asked to report any suspected adverse reactions via the Yellow Card Scheme, Website: www.mhra.gov.uk/yellowcard or search for MHRA Yellow Card in the Google Play or Apple App Store.
4.9 Overdose
The prolonged release of dexamfetamine after administration of Elvanse Adult should be considered when treating patients with overdose.
Manifestations of acute overdosage with amfetamines include restlessness, tremor, hyperreflexia, rapid respiration, confusion, aggression, hallucinations, panic states, hyperpyrexia, and rhabdomyolysis. Fatigue and depression usually follow the central nervous system stimulation. Cardiovascular effects include arrhythmias, hypertension or hypotension, and circulatory collapse. Gastrointestinal symptoms include nausea, vomiting, diarrhoea, and abdominal cramps. Fatal poisoning is usually preceded by convulsions and coma.
Management of acute amfetamine intoxication is largely symptomatic and includes gastric lavage, administration of activated charcoal, administration of a cathartic, and sedation. Acidification of the urine increases amfetamine excretion but is believed to increase risk of acute renal failure if myoglobinuria is present. If acute severe hypertension complicates amfetamine overdosage, administration of intravenous phentolamine has been suggested. However, a gradual drop in blood pressure will usually result when sufficient sedation has been achieved.
Lisdexamfetamine and dexamfetamine are not dialysable.
5. Pharmacological properties
5.1 Pharmacodynamic properties
Pharmacotherapeutic group: Centrally Acting Sympathomimetics, ATC code: N06 BA12.
Mechanism of action
Elvanse Adult is a pharmacologically inactive prodrug. After oral administration, lisdexamfetamine is rapidly absorbed from the gastrointestinal tract and hydrolysed primarily by red blood cells to dexamfetamine, which is responsible for the drug's activity.
Amfetamines are non-catecholamine sympathomimetic amines with CNS stimulant activity. The mode of therapeutic action of amfetamine in ADHD is not fully established, however it is thought to be due to its ability to block the reuptake of norepinephrine and dopamine into the presynaptic neuron and increase the release of these monoamines into the extraneuronal space. The prodrug, lisdexamfetamine, does not bind to the sites responsible for the reuptake of norepinephrine and dopamine in vitro.
Clinical efficacy and safety
The efficacy of Elvanse Adult in the treatment of ADHD has been demonstrated in four controlled trials in adults, three controlled studies in adolescents aged 13-17 years, three controlled trials in children and adolescents (6 to 17 years) and three controlled studies in children aged 6 to 12 years. The patients in all these studies met DSM-IV-TR criteria for ADHD.
In clinical studies conducted in children and adults, when Elvanse Adult was taken once daily in the morning efficacy was ongoing at 14 hours after dosing in adults and 13 hours in children.
Adult population
The efficacy of Elvanse Adult in the treatment of adults who met DSM-IV-TR criteria for ADHD has been demonstrated in four controlled trials in which 846 patients were enrolled.
Study 1 was a double-blind, randomised, placebo-controlled, parallel-group study conducted in adults (n=420). In this 4-week study, patients were randomised to fixed dose treatment groups receiving final doses of 30, 50, or 70 mg of Elvanse Adult or placebo. All subjects receiving Elvanse Adult were initiated on 30 mg for the first week of treatment. Subjects assigned to the 50 and 70 mg dose groups were titrated by 20 mg per week until they achieved their assigned dose. Significant improvements in ADHD symptoms, based upon investigator ratings on the ADHD Rating Scale with adult prompts total score (ADHD-RS), were observed at endpoint for all Elvanse Adult doses compared to placebo (see Table 1). Treatment with Elvanse Adult significantly reduced the degree of functional impairment as measured by improvement on the Clinical Global Impression-Improvement (CGI-I) rating scale compared to placebo.
Table 1: Change from Baseline to Endpoint in ADHD-RS with Adult Prompts Total Score at Endpoint1 (Full Analysis Set) |
|||||
|
|
Placebo |
30mg |
50mg |
70mg |
Baseline Total Score |
N |
62 |
115 |
117 |
120 |
Mean (SD) |
39.4 (6.42) |
40.5 (6.21) |
40.8 (7.30) |
41.0 (6.02) |
|
Change from baseline at Endpoint |
N |
62 |
115 |
117 |
120 |
LS Mean (SE) |
-8.2 (1.43) |
-16.2 (1.06) |
-17.4 (1.05) |
-18.6 (1.03) |
|
Placebo-adjusted difference |
LS Mean (95% CI) p-value |
NA |
-8.04 (-12.14, -3.95) <0.0001 |
-9.16 (-13.25, -5.08) <0.0001 |
-10.41 (-14.49, -6.33) <0.0001 |
1 Endpoint is the last post-randomisation treatment week for which a valid ADHD-RS-IV Total Score is obtained. Note: Dunnett's test was used for the construction of CIs and p-values; p-values are the adjusted p-values and should be compared to a critical alpha of 0.05. LS=least squares; SD= standard deviation; SE=standard error. |
Study 2 was a 10-week, double-blind, placebo-controlled study conducted to evaluate change in executive function behaviours, key quality of life outcomes, and ADHD symptoms in adults with ADHD and a clinically significant impairment in executive function. The study enrolled adults aged 18 to 55 years (n=161) who met DSM-IV criteria for ADHD as assessed by a total score of ≥65 on the Behaviour Rating Inventory of Executive Function – Adult Version (BRIEF-A) Global Executive Composite (GEC) T-score by subject-report and a score of ≥28 using the Adult ADHD-RS with prompts at the Baseline visit. At Week 10 the mean subject-reported BRIEF-A GEC T-score was 68.3 for the placebo group and 57.2 for the SPD489 group, representing LS mean changes from baseline of -11.1 and -22.3, respectively. The effect size was 0.74 in favour of the SPD489 group. The difference in LS mean change from baseline to week 10 (-11.2) was significantly better in the Elvanse Adult group compared with placebo (p<0.0001). Secondary efficacy measures of Adult ADHD Impact Module (AIM-A), ADHD-RS with adult prompts, CGI-I and the ADHD Index T-score of the Conners' Adult ADHD Rating Scale – Observer: Short Version (CAARS-O:S) were all significantly better in the Elvanse Adult group compared with placebo.
Study 3 was a multi-centre, randomised, double-blind, placebo-controlled, crossover study. This study of Elvanse Adult was designed to simulate a workplace environment and enrolled 142 adults. Following a 4-week open-label, dose optimisation phase with Elvanse Adult (30, 50, or 70 mg/day in the morning), subjects were randomised to one of two treatment sequences: 1) Elvanse Adult (optimised dose) followed by placebo, each for one week, or 2) placebo followed by Elvanse Adult each for one week. Efficacy assessments occurred at the end of each week, using the Permanent Product Measure of Performance (PERMP). The PERMP is a skill-adjusted maths test that measures attention in ADHD. Elvanse Adult treatment, compared to placebo, resulted in a statistically significant improvement in attention across all post-dose time points, as measured by average PERMP total scores over the course of one assessment day, as well as at each time point measured. The PERMP assessments were administered at pre-dose (-0.5 hours) and at 2, 4, 8, 10, 12, and 14 hours post-dose.
Study 4 examined maintenance of efficacy. This study was a double-blind, placebo-controlled, randomised withdrawal design study was conducted in adults aged 18 to 55 (n=123) who met DSM-IV criteria for ADHD. At study entry, subjects must have had documentation of treatment with Elvanse Adult for a minimum of 6 months and had to demonstrate treatment response as defined by CGI-S ≤3 and Total Score on the ADHD-RS with adult prompts <22. ADHD-RS with adult prompts Total Score is a measure of core symptoms of ADHD. Subjects that maintained treatment response at week 3 of open label treatment phase (n=116) were eligible to enter the double-blind randomised withdrawal phase, and received their entry dose of Elvanse Adult (n=56) or placebo (n=60). Maintenance of efficacy for subjects treated with Elvanse Adult was demonstrated by the significantly lower proportion of treatment failure (<9%) compared to subjects receiving placebo (75%) in the double-blind randomized withdrawal phase. Treatment failure was defined as a ≥50% increase (worsening) in the ADHD-RS with adult prompts Total Score and ≥2-point increase in the CGI-S score compared to scores at entry into the double-blind randomized withdrawal phase.
Paediatric population
The effects of Elvanse Adult in the treatment of paediatric patients with ADHD have been demonstrated in three controlled trials in children aged 6 to 12 years, three controlled studies in adolescents aged 13 to 17 years, and three controlled studies in children and adolescents aged 6 to 17 years.
In study SPD489-325, 336 patients aged 6 to17 years were evaluated in a 7-week randomised double-blind, dose-optimised, placebo controlled with an active reference arm study. The primary efficacy assessment was the ADHD-RS-IV Total Score. Elvanse Adult showed significantly greater efficacy than placebo. The difference at Endpoint in least square means reduction from baseline in the ADHD-RS-IV Total Score was 18.6 (p<0.001). At every on-treatment visit and at Endpoint the percentages of subjects who met pre-defined response criteria (a ≥30% reduction from Baseline in ADHD-RS-IV Total Score and a CGI-I value of 1 or 2) was significantly higher for Elvanse Adult when compared to placebo (p<0.001). In addition, mean scores for ADHD symptoms following treatment discontinuation did not exceed baseline scores prior to treatment, indicating there was no rebound effect. In addition to a reduction in symptoms, Elvanse Adult significantly improved functional outcomes. In this study, 75.0% of subjects receiving Elvanse Adult showed “improvement” (defined as “very much improved” or “much improved”) on the CGI-I rating scale compared to 14.2% on placebo (p<0.001).
Similar results for ADHD-RS Total Score and CGI-I have been shown in two placebo controlled studies, one in children (n=297) and the other in adolescents (n=314), both conducted in the United States.
A double-blind, randomised, active-controlled, dose-optimisation study was conducted in children and adolescents aged 6 to 17 years (n=267) who met DSM-IV criteria for ADHD and also had an inadequate response to methylphenidate treatment. In this 9-week study, patients treated with Elvanse Adult had a shorter time to first response compared to patients treated with atomoxetine (median 13.0 vs 21.0 days, respectively; p=0.003), where response was defined as having a CGI-I score of 1 (very much improved) or 2 (much improved) at any of the double-blind treatment visits.
Two double-blind, parallel-group, active-controlled (OROS-MPH) studies have been conducted in adolescents aged 13-17 years with ADHD. Both studies also included a placebo reference arm. The 8-week dose-optimization study (SPD489-405) had a 5-week dose-optimization period and a 3-week dose-maintenance period. During the dose-optimization period, subjects were titrated once weekly based on TEAEs and clinical response to an optimal dose of 30, 50, or 70 mg/day (for SPD489 subjects) or 18, 36, 54, or 72 mg/day (for OROS-MPH subjects), which was maintained throughout a 3-week dose-maintenance period. The mean doses at endpoint were 57.9 mg and 55.8 mg for SPD489 and OROS-MPH, respectively. In this study, neither SPD489 nor OROS-MPH was found to be statistically superior to the other product at Week 8. The 6-week fixed-dose study (SPD489-406) had a 4-week forced-dose titration period and a 2-week dose-maintenance period. At the highest doses of SPD489 (70 mg) and OROS-MPH (72 mg), SPD489 treatment was found to be superior to OROS-MPH as measured by both the primary efficacy analysis (change from baseline at Week 6 on the ADHD-RS Total score) and the key secondary efficacy analysis (at last study visit on the CGI-I) (see Table 2).
Table 2: Change from Baseline on ADHD-RS-IV Total Score and Endpoint on CGI-I (Full Analysis Set)
SPD489-405 |
Primary at Week 8 ADHD-RS-IV |
Placebo |
SPD489 |
OROS-MPH |
|
Baseline Total Score |
N Mean (SE) |
89 38.2 (0.73) |
179 36.6 (0.48) |
184 37.8 (0.45) |
|
Change from baseline at Week 8 |
N LS Mean (SE) [a] |
67 -13.4 (1.19) |
139 -25.6 (0.82) |
152 -23.5 (0.80) |
|
Lisdexamfetamine vs OROS-MPH difference |
LS Mean (SE) [a] (95% CI) [a] Effect size [b] p-value |
NA |
-2.1 (1.15) -4.3, 0.2 0.2 0.0717 |
NA |
|
Active vs Placebo difference |
LS Mean (SE) [a] (95% CI) [a] Effect size [b] p-value |
NA |
-12.2 (1.45) -15.1, -9.4 1.16 <0.0001 |
-10.1 (1.43) -13.0, -7.3 0.97 <0.0001 |
|
Key Secondary Endpoint CGI-I |
|||||
Subjects analysed (n) |
89 |
178 |
184 |
||
Improved (%) [c] Not improved (%) [d] |
31 (34.8) 58 (65.2) |
148 (83.1) 30 (16.9) |
149 (81.0) 35 (19.0) |
||
Lisdexamfetamine vs OROS-MPH [e] Active treatment vs Placebo [e] |
NA NA |
0.6165 <0.0001 |
NA <0.0001 |
||
SPD489-406 |
Primary at Week 6 ADHD-RS-IV |
Placebo |
SPD489 |
OROS-MPH |
|
Baseline Total Score |
N Mean (SE) |
106 36.1 (0.58) |
210 37.3 (0.44) |
216 37.0 (0.44) |
|
Change from baseline at Week 6 |
N LS Mean (SE) [a] |
93 -17.0 (1.03) |
175 -25.4 (0.74) |
181 -22.1 (0.73) |
|
Lisdexamfetamine vs OROS-MPH difference |
LS Mean (SE) [a] (95% CI) [a] Effect size [b] p-value |
NA |
-3.4 (1.04) -5.4, -1.3 0.33 0.0013 |
NA |
|
Active vs Placebo difference |
LS Mean (SE) [a] (95% CI) [a] Effect size [b] p-value |
NA |
-8.5 (1.27) -11.0, -6.0 0.82 <0.0001 |
-5.1 (1.27) -7.6, -2.6 0.50 <0.0001 |
|
Key Secondary Endpoint CGI-I |
|||||
Subjects analysed (n) |
106 |
210 |
216 |
||
Improved (%) [c] Not improved (%) [d] |
53 (50.0) 53 (50.0) |
171 (81.4) 39 (18.6) |
154 (71.3) 62 (28.7) |
||
Lisdexamfetamine vs OROS-MPH [e] Active treatment vs Placebo [e] |
NA NA |
0.0188 <0.0001 |
NA 0.0002 |
[a] From a mixed effects model for repeated measures (MMRM) that includes treatment group, nominal visit, interaction of the treatment group with the visit as factors, baseline ADHD-RS-IV total score as a covariate, and an adjustment for the interaction of the baseline ADHD-RS-IV total score with the visit. The model is based on a REML method of estimation and utilizes an unstructured covariance type.
[b] The effect size is the difference in LS mean divided by the estimated standard deviation from the unstructured covariance matrix.
[c] The 'Improved' category includes responses of 'Very much improved' and 'Much improved'.
[d] The 'Not improved' category includes responses of 'Minimally improved', 'No change', 'Minimally worse', 'Much worse' and 'Very much worse'.
[e] From a CMH test stratified by baseline CGI-S.
Note: N = number of subjects in each treatment group, n = number of subjects analysed.
A 2-year open label safety study conducted in children and adolescents (ages 6-17) with ADHD enrolled 314 patients. Of these, 191 patients completed the study.
Maintenance of effect was demonstrated in a double-blind, placebo-controlled, randomised withdrawal study conducted in children and adolescents ages 6 to 17 (n=157) who met the diagnosis of ADHD (DSM-IV criteria). Patients were optimised to open-label Elvanse Adult for an extended period (at least 26 weeks) prior to entry into the 6-week randomised withdrawal period. Eligible patients were randomised to continue receiving their optimised dose of Elvanse Adult or to switch to placebo. Patients were observed for relapse (treatment failure) during the 6-week double-blind phase. Treatment failure was defined as a ≥50% increase (worsening) in the ADHD-RS Total Score and a ≥2-point increase in the CGI-S score compared to scores at entry into the double-blind randomised withdrawal phase. Treatment failure was significantly lower for the Elvanse Adult subjects (15.8%) compared to placebo (67.5%) (p<0.001). For the majority of subjects (70.3%) who were treatment failures regardless of treatment, ADHD symptoms worsened at or before the week 2 visit following randomisation.
Abuse liability studies
In a human abuse liability study, when equivalent oral doses of 100 mg lisdexamfetamine dimesylate and 40 mg immediate-release dexamfetamine sulphate were administered to individuals with a history of drug abuse, lisdexamfetamine dimesylate 100 mg produced subjective responses on a scale of “Drug Liking Effects” (primary endpoint) that were significantly less than dexamfetamine immediate-release 40 mg. However, oral administration of 150 mg lisdexamfetamine dimesylate produced increases in positive subjective responses on this scale that were comparable to the positive subjective responses produced by 40 mg of oral immediate-release dexamfetamine and 200 mg of diethylpropion.
Intravenous administration of 50 mg lisdexamfetamine dimesylate to individuals with a history of drug abuse produced positive subjective responses on scales measuring “Drug Liking”, “Euphoria”, “Amfetamine Effects”, and "Benzedrine Effects" that were greater than placebo but less than those produced by an equivalent dose (20 mg) of intravenous dexamfetamine.
5.2 Pharmacokinetic properties
Absorption
After oral administration, lisdexamfetamine dimesylate is rapidly absorbed from the gastrointestinal tract of healthy adults and children (6 to 12 years) with ADHD, thought to be mediated by the high capacity PEPT1 transporter.
Food does not affect the observed AUC and Cmax of dexamfetamine in healthy adults after single-dose oral administration of Elvanse Adult 70 mg capsules but prolongs Tmax by approximately 1 hour (from 3.8 hours at fasted state to 4.7 hours after a high fat meal). After an 8-hour fast, the AUCs for dexamfetamine following oral administration of lisdexamfetamine dimesylate in solution and as intact capsules were equivalent.
Distribution
In 18 children (6 to 12 years) with ADHD, the Tmax of dexamfetamine was approximately 3.5 hours following single-dose oral administration of lisdexamfetamine dimesylate either 30 mg, 50 mg, or 70 mg administered after an 8-hour overnight fast. The Tmax of lisdexamfetamine dimesylate was approximately 1 hour. Linear pharmacokinetics of dexamfetamine after single-dose oral administration of lisdexamfetamine dimesylate was established over the dose range of 30 mg to 70 mg in children aged 6 to 12 years.
Weight/dose normalised AUC and Cmax were 22% and 12% lower, respectively, in adult females than in males on day 7 following a 70 mg/day dose of lisdexamfetamine for 7 days. Weight/dose normalised AUC and Cmax values were the same in girls and boys following single doses of 30-70 mg.
There is no accumulation of dexamfetamine at steady state in healthy adults and no accumulation of lisdexamfetamine dimesylate after once-daily dosing for 7 consecutive days.
Biotransformation
Lisdexamfetamine dimesylate is converted to dexamfetamine and l-lysine, which occurs by metabolism in blood primarily due to the hydrolytic activity of red blood cells. Red blood cells have a high capacity for metabolism of lisdexamfetamine as in vitro data demonstrated substantial hydrolysis occurs even at low hematocrit levels. Lisdexamfetamine is not metabolised by cytochrome P450 enzymes.
Amfetamine is oxidised at the 4 position of the benzene ring to form 4-hydroxyamfetamine, or on the side chain α or β carbons to form alpha-hydroxy-amfetamine or norephedrine, respectively. Norephedrine and 4-hydroxy-amfetamine are both active and each is subsequently oxidised to form 4-hydroxy-norephedrine. Alpha-hydroxy-amfetamine undergoes deamination to form phenylacetone, which ultimately forms benzoic acid and its glucuronide and the glycine conjugate hippuric acid. Although the enzymes involved in amfetamine metabolism have not been clearly defined, CYP2D6 is known to be involved with formation of 4-hydroxy-amfetamine.
Elimination
Following the oral administration of a 70 mg dose of radiolabelled lisdexamfetamine dimesylate to 6 healthy subjects, approximately 96% of the oral dose radioactivity was recovered in the urine and only 0.3% recovered in the faeces over a period of 120 hours. Of the radioactivity recovered in the urine 42% of the dose was related to amfetamine, 25% to hippuric acid, and 2% intact lisdexamfetamine. Plasma concentrations of unconverted lisdexamfetamine are low and transient, generally becoming non-quantifiable by 8 hours after administration. The plasma elimination half-life of lisdexamfetamine typically averaged less than one hour in studies of lisdexamfetamine dimesylate in volunteers. The half-life of dexamfetamine is 11 hours.
Special populations
The pharmacokinetics of dexamfetamine, as evaluated by clearance, is similar in children (aged 6 to 12) and adolescents (aged 13 to 17) ADHD patients, and healthy adult volunteers after correcting for body weight.
Systemic exposure to dexamfetamine is similar for men and women given the same mg/kg dose.
Formal pharmacokinetic studies for race have not been conducted. There is no evidence of any impact of ethnicity on the pharmacokinetics of Elvanse Adult.
In a pharmacokinetic study of 40 subjects (8 subjects in each of five renal functional groups: normal, mild impairment, moderate impairment, severe impairment, and end stage renal disease) dexamfetamine clearance was reduced from 0.7 L/hr/kg in normal subjects to 0.4 L/hr/kg in subjects with severe renal impairment (GFR 15 to < 30 mL/min1.73m2 or CrCl <30 mL/min).
In a study of 47 subjects aged 55 years of age or older amfetamine clearance was approximately 0.7 L/hr/kg for subjects 55 to 74 years of age and 0.55 L/hr/kg for subjects ≥75 years of age. This is slightly reduced compared to younger adults (approximately 1 L/hr/kg for subjects 18 to 45 years of age).
5.3 Preclinical safety data
Non-clinical abuse liability studies indicate that lisdexamfetamine can produce subjective effects in rats and monkeys that are similar to those of the CNS stimulant dexamfetamine, but that are delayed in onset and transient while the rewarding effects as determined in self-administration studies are lower than those of methylphenidate or cocaine.
In repeat dose toxicity studies the major findings were changes in behaviour, such as increased activity typical of stimulant administration, with associated reductions in body weight gain, growth measurements and food intake, considered to be a consequence of an exaggerated pharmacological response.
Lisdexamfetamine dimesylate was not genotoxic when tested in vitro in the Ames test and the mouse lymphoma assay or in vivo in the mouse bone marrow micronucleus test. Carcinogenicity studies of lisdexamfetamine dimesylate have not been performed. No evidence of carcinogenicity was found in studies in which d-, l-amfetamine (enantiomer ratio of 1:1) was administered to mice and rats in the diet for 2 years at doses of up to 30 mg/kg/day in male mice, 19 mg/kg/day in female mice, and 5 mg/kg/day in male and female rats.
Lisdexamfetamine dimesylate had no effect on embryofoetal development or survival when administered orally to pregnant rats at doses up to 40 mg/kg/day, and rabbits at doses up to 120 mg/kg/day.
No adverse effects on nervous system development or reproductive function were observed following repeat dose administration of lisdexamfetamine dimesylate to juvenile rats and dogs.
Amfetamine (d- to l-enantiomer ratio of 3:1) did not adversely affect fertility or early embryonic development in the rat at doses of up to 20 mg/kg/day.
A number of studies in rodents indicate that prenatal or early postnatal exposure to amfetamine (d- or d,l-) at doses similar to those used clinically can result in long-term neurochemical and behavioural alterations. Reported behavioural effects include learning and memory deficits, altered locomotor activity, and changes in sexual function. Similar studies have not been conducted for Elvanse Adult.
6. Pharmaceutical particulars
6.1 List of excipients
Microcrystalline cellulose.
Croscarmellose sodium.
Magnesium stearate.
Capsule shells
Gelatin.
Black ink (shellac and black iron oxide E172).
Capsule shell colourants:
30 mg: titanium dioxide (E171) and erythrosine (E127).
50 mg: titanium dioxide (E171) and brilliant blue FCF (E133).
70 mg: titanium dioxide (E171), brilliant blue FCF (E133) and erythrosine (E127).
6.2 Incompatibilities
Not applicable.
6.3 Shelf life
3 years
6.4 Special precautions for storage
Do not store above 25°C.
6.5 Nature and contents of container
High density polyethylene bottle and a polypropylene child resistant cap with a foil inner seal.
Pack sizes: 28 or 30.
Not all pack sizes may be marketed.
6.6 Special precautions for disposal and other handling
Any unused medicinal product or waste material should be disposed of in accordance with local requirements.
7. Marketing authorisation holder
Shire Pharmaceutical Contracts Limited
1 Kingdom Street
London
W2 6BD
UNITED KINGDOM
8. Marketing authorisation number(s)
PL 08081/0059-0061
9. Date of first authorisation/renewal of the authorisation
03/02/2015
10. Date of revision of the text
Dec 2017