An observational study of fixed-dose Tanacetum parthenium nutraceutical preparation for prophylaxis of pediatric headache

Migraine is one of the most prevalent neurological symptom and chronic pain manifestation of childhood, affecting up to 10% of children between the ages of 5 and 15 years and up to 28% of adolescents aged from 15 to 19 years [1]. Migraine is defined as an episodic pain disorder that can vary from an occasional occurrence to a daily frequency and can subsequently become a very disabling disorder, with a substantial effect on the child’s quality of life [2, 3] . The disease can cause a significant distress as for the child, as for the entire family. If not successfully treated, frequent and recurrent headaches can impact families with significant disability due to loss of school, work, and social activities. As for adults, migraine treatment traditionally includes acute therapy for aborting migraine attacks and prophylactic treatment for reducing the frequency, duration and severity of attacks [4]. Notably, headache amongst children has a high risk of development into a chronic condition and persisting into adulthood [5]. Thus, in children an effective early treatment would be expected to impact disease progression before many of the refractory aspects seen in adults become established [6]. There are several classes of medications that may be used for prophylactic therapy like antidepressants, anticonvulsants, antihistamines, beta-adrenergic receptor blockers, and calcium ion channel antagonists, botulinum toxin [7, 8]. Due to the potential limitations of conventional treatment of obtaining a satisfactory response to pain in many cases of primary headache, various alternative treatments are sought by patients; in particular, parents ask healthcare professionals to provide migraine relief for their children. Moreover, even clinicians prefer to avoid prescription of prophylactic therapies in children due to the poor evidence of efficacy and significant potential adverse effects in this population [9] and the well-known “placebo effect” observed in children [10].

There is now growing interest for natural supplements for migraine and headache treatment. Due to the low side effects, several studies support the efficacy of natural treatments, in particular nutraceuticals, in the prophylactic treatment of migraine in children and adolescents, even if the evidences are still limited [11].

Nutraceutical is a term derived from “nutrition” and “pharmaceutical”, indicating “food, or parts of a food, that provide medical or health benefits, including the prevention and treatment of diseases”. Nutraceutical treatment consists of taking vitamins, supplements (like magnesium, riboflavin, coenzyme Q10, and alpha lipoic acid) and herbal preparations (like feverfew and butterbur). This type of approach enhances patient acceptance and adherence to long-term prophylaxis therapy combined with appropriate information on treatments’ efficacy and safety [11].

Magnesium (Mg²⁺) has a role in various biological processess and it is involved in ATP production and function and in the control of vascular tone and it binds to NMDA receptors; its role has been suggested because of magnesium deficiency demonstrated in headache physiopathogenesis [11]. Coenzyme Q10 (CQ10) has shown a crucial role in sustaining mitochondrial energy stores, as a carrier in the mitochondrial electrons transport chain; furthermore it has antioxidant proprieties. A role of Cq10 in migraine pathogenesis has been postulated because migraineurs have difficulties in energy production [11]. Riboflavin (B2 vit) has two active coenzyme forms cofactors in oxidation–reduction reaction of flavoproteins and seems to reduce symptoms in patients with mitochondrial dysfunction [11]. The anti-migraine activity of Tenacetum Partheniunim (Feverfew) is probably related to the inhibition of oxide nitric synthesis, to the cytokines induction, to the release of serotonin from the platelets and to the inhibition of the Calcitonin Gene-Related Peptide (CGRP) release from the trigeminovascular system [11].

To this aim, keeping in mind all the above reported considerations, we have performed a multicenter, prospective study to evaluate the efficacy and safety of Partena® tablets (a combination of Mg²⁺ 169 mg, CoQ10 20 mg, VitB2 4,8 mg, Feverfew 150 mg-1,2 mg Parthenolides and Andrographis paniculata 100 mg) available in Italy as a dietary supplement (Italian Registry of Supplements code 64289) in a population suffering from migraine/headache in the developmental age, referring to headache outpatient centers.

A total of 91 patients (mean age 14.4 + 2.2; males 34% and females 66%) were enrolled (demographic and clinical variables at baseline are shown in Table 1.). Treatment with Partena was substantially well tolerated, but 4.4% of patients interrupted the treatment due to gastrointestinal symptoms (nausea and diarrhea). A small group of patients (8.8%) interrupted the study protocol due to treatment inefficacy while the 7.7% of patients was lost at follow-up.

In the intention-to-treat analysis (n = 91) the percentage of patients showing a significant reduction of 50% or more in the number of headache episodes at the end of the 16-weeks treatment period (T2) was 50% in the TTH group, 55% in the MO group and 85% in the MA group. A significant maintenance of this effect after 16 weeks from the treatment withdrawal (T4), was seen for TTH (50%) and MO group (53%), but not for MA patients which showed a slight but significant reduction in the efficacy respect to the treatment period (71%, p < 0.01 respect to T2).

The percentage of patients who completed the study was 75% of TTH, 83% of MO group and 100% of MA.

In the analysis per-protocol (n = 72), Partena significantly reduced the frequency of headaches respect to baseline in TTH patients (F(1.574, 22.04); p = 0.004) during the period of treatment assumption (T0: 11.97 + 1.92 vs T2: 5.13 + 1.93; p < 0.001). The efficacy was maintained even after 16 weeks of treatment withdrawal (T4: 4.46 + 1.75; p < 0.001 respect to T0). A significant reduction of migraine frequency was also found for MO group (F(2.740, 131.5); p < 0.0001) both during treatment (T0: 9.70 + 0.96 vs T2: 4.03 + 0.75; p < 0.01) and after 16 weeks of treatment withdrawal (T4: 2.96 + 0.65; p < 0.01 respect to T0). Conversely, MA patients showed a significant effect in reducing headache frequency during treatment (T0: 8.74 + 1.91 vs T2: 3.78 + 2.02; p < 0.01) but not until the end of the study (T4: 5.57 + 3.31; p > 0.05 respect to T0). (Fig. 1a).

In the assessment of pain intensity, TTH patients did not show any significant amelioration (F (2.463, 34.49); p > 0.05). Interestingly, a significant effect of treatment was found in MO group (F(3.471, 166.6); p < 0.0001). In particular, a reduction of pain intensity was found since 8 weeks of treatment (T0: 3.06 + 0.11 vs T1: 2.31 + 0.17; p < 0.001), remain significant at 16 weeks (T2: 2.14 + 0.19; p < 0.001 respect to T0) and at follow-up visits after treatment withdrawal (T4: 2.20 + 0.21; p < 0.001 respect to T0). Similarly MA group showed a significant treatment effect (F(1.459, 8.752); p < 0.01) with a good response since 8 weeks of treatment (T0: 2.57 + 0.20 vs T1: 1.00 + 0.38; p < 0.001), after 16 weeks (T2: 0.86 + 0.45; p < 0.001 respect to T0) and the efficacy was maintained until the end of the study (T4: 1.00 + 0.58; p < 0.001 respect to T0) (Fig. 1b). Globally, the reduction of pain intensity was higher, although not significantly, among MA respect to MO patients when evaluated during treatment administration (T2: 69% vs 29%; p = 0.12) and at the end of the study (T4: 67% vs 23%; p = 0.11).

Our study showed that administration of Partena® for a period of 16 treatment weeks reduced headache frequency in a sample of children and adolescence affected by TTH and Migraine. Moreover, in our observational study, treatment with Partena was associated with lower intensity of pain for migraine episodes among pediatric patients suffering from MA and MO. We used a combination of magnesium, riboflavin, CQ10, Tanacetum parthenium, molecules all arising in the guidelines of the American Headache Society (AHS) and American Academy of Neurology (AAN) [14] in addition to the Andrographis paniculata (plant extract that has shown analgesic and anti-edema activity in preclinical studies along with anti-nociceptive effects in an animal model of sensory hypersensitivity associated with migraine) [15]. Guidelines of the Società Italiana Studio Cefalee (SISC) support the use of feverfew, Mg²⁺, riboflavin and CQ10 a Level III recommendation [16].

Tanacetum parthenium (feverfew) has been used for centuries to treat pain and headache [17]. Several preclinical studies have identified different targets for parthenolide like inhibition of platelet aggregation, inhibition of serotonin release from platelets and white blood cells, reduction of iNOS (inducible nitric oxide synthase) activation, inhibition of nuclear factor-kappaB (a transcriptional factor involved in the mediation of pain and inflammation) and binding to and inhibiting IκB kinase complex (IKK) β that plays an important role in proinflammatory cytokine-mediated signaling [18, 19]. More recent pharmacological data revealed that antimigraine effect of parthenolide may derives from its ability to target transient receptor potential ankyrin 1 (TRPA1), inducing nociceptor desensitization, ultimately resulting in inhibition of Calcitonin gene-related peptide (CGRP) release within the trigeminovascular system [20]. Clinical evidences about the treatment of migraine are still controversial although the contradictory results may be attributed to the variations in the concentration and to the differences in the stability of the parthenolides. The most recent randomized controlled trial, using a stable feverfew extract, added some positive evidences about the efficacy of parthenium in the prophylactic treatment of migraine [17, 21]. Studies on Feverfew efficacy in children and adolescents with migraine are lacking [11].

The other active principles of Partena® currently available in Europe and USA as dietary supplements, have several epidemiologic, preclinical and clinical evidences supporting their usefulness in prophylactic treatment of migraine [21]. Several studies revealed decreased levels of the micronutrients riboflavin (Vit B2), magnesium (Mg) and CQ10 in plasma and brain of migraine patients [22]. On the other hand, numerous studies suggest a mitochondrial energy depletion in patients with migraine, and since all these molecules play an important role in the production of energy at mitochondrial level, multiple trials have assessed their efficacy in migraine prevention [23‐25]. Riboflavin is a cofactor in oxidation-reduction reaction in the citric acid cycle and the electron transport chain, as such it plays a key role in the mitochondrial production of energy [21]. To date, evidence in headache treatment for pediatric age gave discordant results [9, 10, 26]. CQ10 is a vitamin-like compound needed for all cellular processes requiring energy. It is an electron-carrier, transferring electrons from complex I/complex II to cytochrome C in the mitochondrial electron transport chain [27]. Preliminary evidences appear to support efficacy for CQ10 in preventing migraines in children and adolescents, but remain insufficient to make a strong conclusion [26]. Mg²⁺ is necessary as a co-factor for proper functioning of the ATP-synthase. Furthermore, Mg²⁺ is the physiological antagonist at the NMDA-channel which is involved in the regulation of neuronal excitability and inhibition of cortical spreading depression (CSD) through several mechanisms involving serotonin receptors, NO synthesis/release as well as NMDA receptors [28]. The role of magnesium in the prophylactic treatment of pediatric migraine is still unclear and high-quality adequately powered trials are needed [26]. Andrographolide has a broad range of pharmacological properties, mainly an anti-inflammatory effect, by interfering with the production of inflammatory mediators, in particular cyclooxygenase (COX) enzymes and pro-inflammatory cytokines through the modulation of the NF-κB signaling network and the NO/iNOS pathway [29].

Nevertheless, it is conceivable to suppose that administration of key micronutrients and phytoextracts able to inhibit prostaglandin production and to interfere with the NO/iNOS pathway as well as mitochondrial production of energy, might prevent and/or reduce the number and intensity of the attacks. This is more interesting when considering that treating headaches in pediatric population is a continuous challenge for clinicians. Although migraine in children is phenotypically similar to adult migraine, medications efficacious in adults did not show similar efficacy in pediatric controlled clinical trial and none are currently FDA-approved for this age group [30, 31]. Therefore, it may be necessary to use medications off label strictly weighing up the benefits and risks.

This study was performed on a small sample and the clinical effects of nutraceutical have not been compared with placebo. In fact, a limitation of our study is linked to the absence of a control group and on short time of observation.

To date there are scarce and contrasting evidences in favor of the most utilized drugs for prophylactic therapy in pediatric migraine and there are no significant differences between the high placebo response rate and the low drug response rate in pediatric age [9, 10]. Thus, the adult model of headache treatment, in which, for example, amitriptyline and topiramate, have been effective, may not apply to pediatric patients. In addition, the reported serious adverse events in children, do not show a favorable risk–benefit profile for the use of these therapies in pediatric migraine prevention [9].

On the other hand, our result clearly indicates that Partena® was able to reduce headaches frequency and pain intensity in children and adolescences suffering from migraine and TTH, therefore should be considered as a potential valuable prophylactic option for pediatric migraine. Although this study remains mainly observational, clear indications on the potential effectiveness, along with a favorable tolerability profile, of this combination on pediatric headache/migraine arose, and suggestion to perform further studies emerges to confirm the trend observed here. Randomized controlled trials are needed to further assess the effectiveness in nutraceuticals’ use for migraine treatment in child and adolescent.