Ingalill Reinholdsson

NXY-059 is a novel free radical-trapping neuroprotectant that reduces infarct size and preserves brain function in animal models of acute ischemic stroke. It is the first neuroprotectant to demonstrate a reduction in global disability in a phase III clinical trial, as measured by the modified Rankin Scale. Any effect of NXY-059 on hemostasis may be important when treating stroke patients. This phase I randomized, double-blind, placebo-controlled, 3-period crossover study compared the effect of NXY-059, desmopressin, and placebo on bleeding time, platelet aggregation, and adhesion in 30 healthy volunteers. NXY-059 did not prolong bleeding time compared with placebo: mean (SD) time for NXY-059, 369.5 seconds (125.0 seconds) versus placebo, 369.1 seconds (136.0 seconds). There were no significant effects on platelet aggregation or adhesion. At a mean unbound plasma concentration (Cu(ss)) of 335 micromol/L, NXY-059 was well tolerated, with no major safety concerns identified. In conclusion, NXY-059 does not appear to affect primary hemostasis.

NXY-059 is a novel free radical-trapping neuroprotectant that reduces infarct size and preserves brain function in animal models of acute ischemic stroke. It is the first neuroprotectant to demonstrate a reduction in global disability in a phase III clinical trial, as measured by the modified Rankin Scale. Any effect of NXY-059 on hemostasis may be important when treating stroke patients. This phase I randomized, double-blind, placebo-controlled, 3-period crossover study compared the effect of NXY-059, desmopressin, and placebo on bleeding time, platelet aggregation, and adhesion in 30 healthy volunteers. NXY-059 did not prolong bleeding time compared with placebo: mean (SD) time for NXY-059, 369.5 seconds (125.0 seconds) versus placebo, 369.1 seconds (136.0 seconds). There were no significant effects on platelet aggregation or adhesion. At a mean unbound plasma concentration (Cu(ss)) of 335 micromol/L, NXY-059 was well tolerated, with no major safety concerns identified. In conclusion, NXY-059 does not appear to affect primary hemostasis.

NXY-059 is a novel free-radical trapping neuroprotectant. Digoxin treatment is common in acute ischaemic stroke, the intended patient population for NXY-059. Since both digoxin and NXY-059 are eliminated primarily renally, with a substantial contribution by active renal secretion, and because digoxin has a narrow therapeutic window, this open, randomised, crossover, two-period study investigated whether NXY-059 affects the pharmacokinetics (PK) of digoxin. Twenty-two healthy subjects received 0.5 mg oral digoxin 2 h after the start of 60-h intravenous infusions of NXY-059 and placebo separated by a 14-day washout. Blood and urine were collected for 60 h. Digoxin concentrations were measured by a novel liquid chromatography-mass spectrometry assay. The ratio of the geometric mean (90% confidence interval) between NXY-059 and placebo for the digoxin area under the concentration-versus-time curve was 0.91 (0.83-0.99) and was within the predefined range for no interaction (0.80-1.25). No safety concerns were raised in the study. No serious adverse events were recorded. The most common adverse event was headache with similar frequencies in the two treatments. NXY-059 had no clinically significant effect on the PK of digoxin.

NXY-059 is a free radical-trapping neuroprotectant that has been reported to reduce infarct size and preserve brain function in experimental models of acute ischemic stroke. NXY-059 administered as an 8- or 72-hour IV infusion has been reported to be well tolerated in healthy young (age, 20-45 years) and older (55-75 years) white volunteers. NXY-059 is no longer in development following a lack of efficacy found in a Phase III trial in patients with acute ischemic stroke. The primary objectives of this study were to determine the pharmacokinetic (PK) properties of an 8-hour IV infusion of NXY-059 in healthy Chinese volunteers and to compare those data with those previously reported in the white population, therefore exploring any differences in PK properties between the 2 ethnic groups. Secondary objectives were to evaluate PK linearity and tolerability. This Phase I, randomized, double-blind (within dose panels), placebo-controlled study was conducted at Peking Union Medical College Hospital, Beijing, China. Healthy male and female Chinese volunteers aged 20 to 45 years were recruited. NXY-059 was administered as a continuous 8-hour IV infusion, starting with a 1-hour loading dose (dosing rate, 3 x maintenance infusion rate) followed by a 7-hour maintenance dose infusion. Subjects were randomly assigned, in a 3:1 ratio, to receive doses calculated (based on creatinine clearance in individual subjects) to achieve 1 of 3 concentration targets, or inactive vehicle (sodium chloride; placebo). The target unbound plasma NXY-059 concentrations during constant rate infusion (steady state) (Cu(ss)) in the 3 dose panels were 100,200, and 300 micromol/L. An explorative bridging analysis was used to compare PK data from this study with those previously reported in the white population. Linearity of NXY-059 PK properties was assessed. Tolerability was assessed using adverse events (spontaneous reporting, study staff observation, and open questioning), physical examination, including vital sign measurement; and electrocardiography and laboratory analysis. Thirty-six subjects were randomized (mean age, 32 years [range, 20-41 years]; mean body mass index, 22.6 kg/m(2) [range, 20-26 kg/m(2)]). The target exposures of NXY-059 were achieved (mean [SD] Cu(ss) values, 98.3 [8.9], 202.1 [18.3], and 287.9 [25.4] micromol/L, respectively). Steady-state concentrations appeared to have been reached after 4 hours. From the bridging analysis, comparison of PK properties in the 27 Chinese volunteers versus those in 28 white volunteers found similar total plasma clearance of NXY-059 (estimated Chinese:white clearance ratio, 1.077 [95% CI, 1.009-1.150]). There were no apparent differences in other PK parameters between the 2 ethnic groups. The PK properties of NXY-059 in Chinese volunteers were suggestive of linearity. A total of 7 adverse events were reported, all of mild intensity, in the NXY-059 and placebo groups (thirst and polyuria [each in 2 subjects who received NXY-059 and 1 subject who received placebo]; urinary tract infection [1 subject who received NXY-059]). The results from the present study suggest that the PK properties of NXY-059 were similar in the Chinese and historical white healthy volunteer populations.

A randomized, double-blind, three-period cross-over study was performed to characterize the sensory phenotype and pain demographics in patients with Morton neuroma (n=27) and to explore the effects of local administration (2mL) of placebo and lidocaine (1 and 10mg/mL) around the neuroma. Using the pain quality assessment scale (PQAS), the highest rating was seen for unpleasant pain and intensity of deep pain and the lowest for sensitive skin. Ongoing pain was reported in 32% of patients. Patients reported mild to moderate average pain, and that pain had interfered with sleep only marginally. Quantitative sensory testing (QST) measurements in the innervation territory showed hypophenomena or hyperphenomena in all patients, indicating that all had neuropathy. There was no particular QST modality that appeared to be specifically affected. Even the high-dose lidocaine resulted in limited effects on nerve-impulse conduction as judged by the effect on QST variables. However, both doses of lidocaine significantly reduced pain after step-ups, compared to placebo, indicating that lidocaine in this setting affected predominantly impulse generation and not impulse conduction. Following placebo treatment, pain after step-ups was similar in patients with and without hyperalgesia, indicating that the presence of hyperalgesia does not affect the pain intensity evoked by step-ups or walking. This pain model in patients with Morton neuroma allows investigation of drugs in a cross-over design and provides an opportunity to explore drug effects on both pain and QST variables. Commonly, neuromas are surgically removed and can be characterized in depth in vitro, thereby allowing close links to be established between pathophysiology and drug effect.