Role of Neurokinin-1 Receptor Antagonists in Chemotherapy-Induced Emesis: Summary of Clinical Trials

Assessment of the administration of maropitant and loperamide to dogs with cancer for the prevention and reduction of adverse effects associated with the administration of paclitaxel

OBJECTIVE

To evaluate the efficacy of maropitant and loperamide for the prevention and reduction of adverse gastrointestinal effects associated with administration of paclitaxel to dogs with cancer.

ANIMALS

168 dogs with cancer.

PROCEDURES

The study comprised 2 phases. For phase 1, dogs in the intervention group were administered maropitant and loperamide followed by paclitaxel. Outcomes were compared with those for a control group that received only maropitant and paclitaxel. For phase 2, all dogs of phase 1 that did not receive maropitant and loperamide and that had adverse gastrointestinal effects were enrolled; they received maropitant and loperamide and another dose of paclitaxel.

RESULTS

In phase 1, significantly fewer dogs in the intervention group had adverse effects. For dogs that had adverse effects, the intervention group had a lower severity of lack of appetite and lethargy. Also, adverse effects for dogs in the intervention group were of significantly shorter duration than for the control group. In phase 2, significant reductions in adverse effects were observed after administration of maropitant and loperamide. In those dogs that still had adverse effects after administration of maropitant and loperamide, there was a significant reduction in severity of signs of nausea and lethargy.

CONCLUSIONS AND CLINICAL RELEVANCE

A combination of maropitant and loperamide was found to be safe for use and effective for reducing or preventing signs of paclitaxel-induced gastrointestinal effects in dogs.

Infusion reactions following administration of intravenous rolapitant at an academic medical center

In 2017, due to a fluid shortage secondary to Hurricane Maria's devastation of Puerto Rico, hospitals and health-systems began to substitute rolapitant for fosaprepitant as part of chemotherapy-induced nausea and vomiting prevention and treatment strategies. However, despite advantageous pharmacologic and formulation (e.g. long half-life, quicker time to onset, and lack of first-pass hepatic metabolism) profiles, there seems to be significant risk of infusion-related hypersensitivity reactions associated with the administration of intravenous rolapitant. In January 2018, the U.S. FDA issued a Health Care Provider Letter stating that anaphylaxis, anaphylactic shock, and other serious hypersensitivity reactions have been reported in the postmarketing setting. Importantly, these reactions were observed at a higher rate than initially reported in the phase 1 bioequivalence study that led to FDA approval of intravenous rolapitant (2.8%), with many resulting in hospitalizations. At our institution, rolapitant-induced infusion-related reactions also occurred in more patients than expected (8.7%). Described herein are six cases of infusion-related hypersensitivity reactions with intravenous rolapitant at the North Carolina Cancer Hospital. Due to the quick onset of the infusion-related hypersensitivity reactions with intravenous rolapitant, interpatient differences in pharmacokinetics or pharmacodynamics are unlikely to be the cause. An objective assessment utilizing the Naranjo Causality Scale rates these infusion-related hypersensitivity reactions as definite adverse drug reactions.

Profile of Antiemetic Activity of Netupitant Alone or in Combination with Palonosetron and Dexamethasone in Ferrets and Suncus murinus (House Musk Shrew)

Background and Aims: Chemotherapy-induced acute and delayed emesis involves the activation of multiple pathways, with 5-hydroxytryptamine (5-HT; serotonin) playing a major role in the initial response. Substance P tachykinin NK₁ receptor antagonists can reduce emesis induced by disparate emetic challenges and therefore have a clinical utility as broad inhibitory anti-emetic drugs. In the present studies, we investigate the broad inhibitory anti-emetic profile of a relatively new NK₁ receptor antagonist, netupitant, alone or in combination with the long acting 5-HT₃ receptor antagonist, palonosetron, for a potential to reduce emesis in ferrets and shrews.

Materials and Methods: Ferrets were pretreated with netupitant and/or palonosetron, and then administered apomorphine (0.125 mg/kg, s.c.), morphine (0.5 mg/kg, s.c.), ipecacuanha (1.2 mg/kg, p.o.), copper sulfate (100 mg/kg, intragastric), or cisplatin (5–10 mg/kg, i.p.); in other studies netupitant was administered to Suncus murinus before motion (4 cm horizontal displacement, 2 Hz for 10 min).

Results: Netupitant (3 mg/kg, p.o.) abolished apomorphine-, morphine-, ipecacuanha- and copper sulfate-induced emesis. Lower doses of netupitant (0.03–0.3 mg/kg, p.o.) dose-dependently reduced cisplatin (10 mg/kg, i.p.)-induced emesis in an acute (8 h) model, and motion-induced emesis in S. murinus. In a ferret cisplatin (5 mg/kg, i.p.)-induced acute and delayed emesis model, netupitant administered once at 3 mg/kg, p.o., abolished the first 24 h response and reduced the 24–72 h response by 94.6%; the reduction was markedly superior to the effect of a three times per day administration of ondansetron (1 mg/kg, i.p.). A single administration of netupitant (1 mg/kg, p.o.) plus palonosetron (0.1 mg/kg, p.o.) combined with dexamethasone (1 mg/kg, i.p., once per day), also significantly antagonized cisplatin-induced acute and delayed emesis and was comparable with a once-daily regimen of ondansetron (1 mg/kg, p.o.) plus aprepitant (1 mg/kg, p.o.) in combination with dexamethasone (1 mg/kg, i.p.).

Conclusion: In conclusion, netupitant has potent and long lasting anti-emetic activity against a number of emetic challenges indicating broad inhibitory properties. The convenience of protection afforded by the single dosing of netupitant together with palonosetron was demonstrated and also is known to provide an advantage over other therapeutic strategies to control emesis in man.

Update on the management of chemotherapy-induced nausea and vomiting - focus on palonosetron

Purpose

Nausea and vomiting are major adverse effects of chemotherapy and can greatly impact patients’ quality of life. Although chemotherapy-induced nausea and vomiting (CINV) prevalence is high, treatment remains difficult. Palonosetron is a 5-hydroxytryptamine receptor antagonist (5-HT₃RA) approved for treatment of CINV. The purpose of this review is to discuss existing and emerging therapeutic options, and examine studies focusing on palonosetron with regards to efficacy, pharmacology, tolerability, safety, and patient-derived outcomes.

Methods

A literature search was conducted using Ovid MEDLINE and EMBASE to identify relevant studies using palonosetron alone or in combination with other antiemetics. Studies were extracted if they included complete response (CR), complete control (CC), no nausea, no vomiting, and no rescue medications as an endpoint. Studies were also included if safety endpoints were examined.

Results

Palonosetron alone has been shown to improve CR and CC rates for patients receiving low, moderate, or high emetogenic chemotherapy. Rates were further improved with the addition of dexamethasone, a corticosteroid. Furthermore, the addition of neurokinin-1 receptor antagonists, such as netupitant markedly improved efficacy profiles compared to palonosetron alone. Aprepitant is an antiemetic that has exhibited positive results in combination with palonosetron. Recently, a new drug consisting of netupitant and palonosetron (NEPA) has demonstrated significantly more efficacious prevention of CINV. Regardless of the combination, palonosetron has been well tolerated. The most common adverse events were constipation, headache, fatigue, and dizziness, with the majority of patients describing them as only mild or moderate.

Conclusion

Palonosetron, alone or with other antiemetics, has improved CINV treatment due to its ability to significantly reduce delayed phases of CINV, compared to similar 5-HT₃RAs. Palonosetron is both more effective than first generation 5-HT₃RAs and safer, as it results in a smaller prolongation of the QTc interval, compared to other 5-HT₃RAs.

WITHDRAWN: Serotonin receptor antagonists for highly emetogenic chemotherapy in adults

This review is now out of date although it is correct as of the date of publication. The latest version of this review (available in ‘Other versions’ tab on The Cochrane Library) may still be useful to readers.

The editorial group responsible for this previously published document have withdrawn it from publication.

Serotonin receptor antagonists for highly emetogenic chemotherapy in adults

BACKGROUND

Serotonin receptor antagonists (5-HT(3) RAs) are used to control chemotherapy-induced emesis. Although they have the same general mechanism of action (blockade of serotonin receptors), they have different chemical structures and may have different effects.

OBJECTIVES

To compare efficacy of different serotonin receptor antagonists (5-HT(3) RAs) in the control of acute and delayed emesis induced by highly emetogenic chemotherapy.

SEARCH STRATEGY

We searched CENTRAL, the Specialised Register of the Cochrane PaPaS Group, PubMed, EMBASE, and LILACS databases. Our most recent search was in March 2009.

SELECTION CRITERIA

Randomised trials comparing 5-HT(3) RAs in an adult cancer population.

DATA COLLECTION AND ANALYSIS

We extracted information from the included studies on the control of acute and delayed nausea and vomiting, either as a single or a combined outcome. Where appropriate, we combined the results of similar trials. We carried out sensitivity and subgroup analyses to test the robustness of our findings.

MAIN RESULTS

We included 16 randomised trials (7808 participants). Nine of the trials compared granisetron versus ondansetron. No other drug comparison was studied in more than one trial. The meta-analyses of the granisetron versus ondansetron trials found similar results for the two drugs on acute vomiting (eight trials, 4256 participants, odds ratio (OR) 0.89; 95% CI 0.78 to 1.02), acute nausea (seven trials, 4160 participants, OR 0.97; 95% CI 0.85 to 1.10), delayed vomiting (three trials, 1119 participants, OR 1.00; 95% CI 0.74 to 1.34) and delayed nausea (two trials, 1024 participants, OR 0.96; 95% CI 0.75 to 1.24). Granisetron and ondansetron showed similar effects on headache and diarrhoea, with the possible exception of less constipation associated with ondansetron.One study of 1114 participants comparing palonosetron plus dexamethasone versus granisetron plus dexamethasone showed superiority of palonosetron in controlling delayed vomiting (OR 1.45; 95% CI 1.14 to 1.85) and delayed nausea (OR 1.63; 95% CI 1.27 to 2.10). Complete response for delayed nausea and vomiting was also in favour of the combination palonosetron and dexamethasone (OR 1.63; 95% CI 1.29 to 2.07).

AUTHORS' CONCLUSIONS

Ondansetron and granisetron appear to be equivalent drugs for the prevention of acute and delayed emesis following the use of highly emetogenic chemotherapy.According to one single trial the combination of palonosetron and dexamethasone was superior to granisetron and dexamethasone in controlling delayed emesis. However, more evidence is needed before palonosetron could become the candidate 5-HT(3) RA for the control of delayed emesis induced by highly emetogenic chemotherapy.

Efficacy of injectable maropitant (Cerenia) in a randomized clinical trial for prevention and treatment of cisplatin-induced emesis in dogs presented as veterinary patients

Chemotherapy-induced nausea and vomiting (CINV) is a common side-effect of cisplatin therapy. Maropitant (Cerenia), a novel neurokinin-1 receptor antagonist, was evaluated for prevention and treatment of cisplatin-induced emesis in tumour-bearing dogs. Dogs (n = 122) were randomly allocated to three treatment groups: T01, placebo before and after cisplatin; T02, placebo before and maropitant after cisplatin; or T03, maropitant before and placebo after cisplatin. Maropitant treatment (T02) following a cisplatin-induced-emetic event resulted in significantly fewer subsequent emetic events (P = 0.0005) than in placebo-treated dogs (T01). In placebo-treated (T01) dogs, 56.4% were withdrawn from the study because of treatment failure compared with 5.3% in group T02. When maropitant was administered prior to cisplatin treatment (T03) in a prevention regime, 94.9% did not vomit compared with only 4.9% of placebo-treated dogs, and significantly fewer emetic events (P < 0.0001) were observed in those dogs that did vomit. In summary, maropitant was safe and highly effective in reducing or completely preventing cisplatin-induced emesis.

Multi-target strategies for the improved treatment of depressive states: Conceptual foundations and neuronal substrates, drug discovery and therapeutic application

Major depression is a debilitating and recurrent disorder with a substantial lifetime risk and a high social cost. Depressed patients generally display co-morbid symptoms, and depression frequently accompanies other serious disorders. Currently available drugs display limited efficacy and a pronounced delay to onset of action, and all provoke distressing side effects. Cloning of the human genome has fuelled expectations that symptomatic treatment may soon become more rapid and effective, and that depressive states may ultimately be "prevented" or "cured". In pursuing these objectives, in particular for genome-derived, non-monoaminergic targets, "specificity" of drug actions is often emphasized. That is, priority is afforded to agents that interact exclusively with a single site hypothesized as critically involved in the pathogenesis and/or control of depression. Certain highly selective drugs may prove effective, and they remain indispensable in the experimental (and clinical) evaluation of the significance of novel mechanisms. However, by analogy to other multifactorial disorders, "multi-target" agents may be better adapted to the improved treatment of depressive states. Support for this contention is garnered from a broad palette of observations, ranging from mechanisms of action of adjunctive drug combinations and electroconvulsive therapy to "network theory" analysis of the etiology and management of depressive states. The review also outlines opportunities to be exploited, and challenges to be addressed, in the discovery and characterization of drugs recognizing multiple targets. Finally, a diversity of multi-target strategies is proposed for the more efficacious and rapid control of core and co-morbid symptoms of depression, together with improved tolerance relative to currently available agents.

Tachykinin receptors as drug targets for motility disorders

The tachykinins and their receptors are strategically distributed within the gut wall, spinal cord, and central nervous system to be potential targets of therapeutic agents for gastrointestinal motility disorders. However, the development of effective tachykinin receptor agonists or antagonists to treat these disorders has had very limited success so far. This is, in part, due to the complex and multilevel of regulation of gastrointestinal motility function and the challenges faced in targeting the specific type of gut contraction to normalize function in disease state.