Codeine-induced hyperalgesia and allodynia: investigating the role of glial activation.

Chronic morphine therapy has been associated with paradoxically increased pain. Codeine is a widely used opioid, which is metabolized to morphine to elicit analgesia. Prolonged morphine exposure exacerbates pain by activating the innate immune toll-like receptor-4 (TLR4) in the central nervous system. In silico docking simulations indicate codeine also docks to MD2, an accessory protein for TLR4, suggesting potential to induce TLR4-dependent pain facilitation. We hypothesized codeine would cause TLR4-dependent hyperalgesia/allodynia that is disparate from its opioid receptor-dependent analgesic rank potency. Hyperalgesia and allodynia were assessed using hotplate and von Frey tests at days 0, 3 and 5 in mice receiving intraperitoneal equimolar codeine (21 mg kg(-1)), morphine (20 mg kg(-1)) or saline, twice daily. This experiment was repeated in animals with prior partial nerve injury and in TLR4 null mutant mice. Interventions with interleukin-1 receptor antagonist (IL-1RA) and glial-attenuating drug ibudilast were assessed. Analyses of glial activation markers (glial fibrillary acid protein and CD11b) in neuronal tissue were conducted at the completion of behavioural testing. Despite providing less acute analgesia (P=0.006), codeine induced similar hotplate hyperalgesia to equimolar morphine vs saline (-9.5 s, P<0.01 and -7.3 s, P<0.01, respectively), suggesting codeine does not rely upon conversion to morphine to increase pain sensitivity. This highlights the potential non-opioid receptor-dependent nature of codeine-enhanced pain sensitivity-although the involvement of other codeine metabolites cannot be ruled out. IL-1RA reversed codeine-induced hyperalgesia (P<0.001) and allodynia (P<0.001), and TLR4 knock-out protected against codeine-induced changes in pain sensitivity. Glial attenuation with ibudilast reversed codeine-induced allodynia (P<0.001), and thus could be investigated further as potential treatment for codeine-induced pain enhancement.

Lack of effect of citalopram on the steady-state pharmacokinetics of carbamazepine in healthy male subjects.

Carbamazepine, a drug used in the treatment of seizure disorders, and citalopram, a highly selective serotonin reuptake inhibitor used for the treatment of depression and other psychiatric disorders, are both metabolized predominantly by the cytochrome P4503A4 isozyme. In this study, the effect of subchronic administration of citalopram on the steady-state pharmacokinetics of carbamazepine was evaluated in 12 healthy male subjects. Carbamazepine was administered orally twice daily as a 100-mg dose from days 1 to 3, as a 200-mg dose twice a day from days 4 to 6, and as a 400-mg dose once a day from days 7 to 35. Citalopram, 40 mg, administered once daily, was added to the carbamazepine-dosing regimen on days 22 to 35. The steady-state plasma concentration profiles of carbamazepine and its active metabolite, carbamazepine 10,11-epoxide, on day 35 (in the presence of steady-state levels of citalopram) were compared to the corresponding carbamazepine and epoxide metabolite profiles on day 21 (in the absence of citalopram). No significant differences were found between mean steady-state values for maximal drug concentration, area under the curve, or time of maximal concentration values for carbamazepine and its epoxide metabolite before and after the addition of citalopram to the daily carbamazepine dosing regimen (p > 0.05). These results suggest that the use of citalopram in patients stabilized on carbamazepine should not produce clinically significant changes in carbamazepine plasma concentrations.

Effect of citalopram on plasma levels of oral theophylline.

BACKGROUND: Citalopram and theophylline may be prescribed together to treat patients with depression and asthmatic disease. Because theophylline has a low therapeutic index, small changes in plasma levels may result in therapeutic failure or adverse effects. Both citalopram and theophylline are metabolized by cytochrome P450 (CYP) isozymes. Theophylline is metabolized by CYP1A2; however, the extent to which citalopram interacts with this isozyme in vivo is not known. OBJECTIVE: This study was conducted to investigate whether citalopram alters plasma levels of oral theophylline. METHODS: In an open-label, multiple-dose study, healthy nonsmoking volunteers 18 to 45 years of age were administered a single oral dose of theophylline (300 mg) on day 1. Beginning on day 3, citalopram 40 mg was administered daily through day 24 to achieve steady-state plasma levels. On day 23 a single oral dose of theophylline 300 mg was coadministered with citalopram 40 mg. Fasting plasma levels of theophylline were measured on day 1 (in the absence of citalopram) and on day 23 (in the presence of steady-state plasma concentrations of citalopram) periodically for 36 hours. RESULTS: Thirteen subjects (8 men and 5 women) participated; all completed the study. One subject was not included in the pharmacokinetic calculations. Citalopram treatment had no effect on the pharmacokinetic characteristics of theophylline. CONCLUSIONS: Citalopram dosing to steady state did not inhibit or induce the metabolism of theophylline in this population of healthy volunteers. Dose adjustment of theophylline thus may not be necessary in patients receiving concurrent therapy with citalopram.

The pharmacodynamics and pharmacokinetics of the 5HT1B/1D-agonist zolmitriptan in healthy young and elderly men and women.

OBJECTIVE: Zolmitriptan is a selective 5HT1B/1D-agonist for the treatment of migraine. In this study we investigated the cardiovascular and central nervous system effects and the pharmacokinetics of zolmitriptan in young and elderly adults. METHODS: Twelve young adult and 12 elderly volunteers received single doses of 5, 10, and 15 mg zolmitriptan during a randomized, double-blind, placebo-controlled study. Blood pressure, heart rate, ECG, and central nervous system effects were monitored, and pharmacokinetic parameters of zolmitriptan and its metabolites calculated. RESULTS: Zolmitriptan did not affect heart rate and had little effect on systolic blood pressure in the young adults. In the elderly, mean peak supine systolic blood pressure values were 9 to 16 mm Hg higher after zolmitriptan than after placebo. Mean peak diastolic pressure was 6 to 10 mm Hg higher in both age groups. These changes were transient. Postural changes in blood pressure were unaffected. There was a dose-related increase in sedation, but the magnitude of the effects was small. Mean observed peak plasma concentration (Cmax) and area under the plasma concentration-time profile [AUC(0-infinity)] for zolmitriptan and its active N-desmethyl metabolite were similar in both age groups but higher in young women than in young men. Metabolite/parent ratios probably the result of greater first-pass metabolism in young men. Zolmitriptan half-life was 2.8 to 3.6 hours in the elderly compared with 2.7 to 2.9 hours in young adults. Mean Cmax and AUC(0-infinity) for the inactive, N-oxide, and the indole acetic acid metabolites were higher in the elderly, associated with lower renal clearance. CONCLUSIONS: Zolmitriptan was well tolerated, with an effect of age on its effects on blood pressure and the pharmacokinetics of its metabolites. The data suggest no need for dose adjustment for age. In young subjects, concentrations were higher in women than in men, but the differences were insufficient to justify dosage adjustment.

Lack of an effect of zolmitriptan (Zomig, 311C90) on psychometric task performance: results of a placebo-controlled study in healthy volunteers.

The novel selective 5-hydroxytryptamine (5-HT)1B/1D agonist, zolmitriptan (Zomig, formerly known as 311C90), has shown good efficacy in the acute oral treatment of migraine. Zolmitriptan acts both centrally and peripherally, therefore it is important to assess central nervous system effects. At single doses of 25-50 mg (up to 8 times the likely therapeutic dose), zolmitriptan can cause sedation; therefore, a study was designed to examine the dose-response. A double-blind, randomized, placebo-controlled, six-limb crossover study in 13 healthy volunteers compared the effects of single oral doses of zolmitriptan (5, 10, 15 or 20 mg) and lorazepam (2 mg) on various psychometric tests. Zolmitriptan doses less than 20 mg had no statistically significant effects on choice reaction time, the Stroop test, visual analog scale (VAS) assessments of physical sedation, tranquilization and other types of feelings, the logical reasoning test or the adaptive tracking test. There was a mild transient increase in the subjective assessment on VAS of mental sedation which was dose related and occurred mainly with the highest zolmitriptan dose and were not reflected in objective measures of drug effects. In contrast, lorazepam (used as a positive control) was associated with statistically significant impairment in all tests (except tranquilization) for up to 10 h after dosing. The results demonstrate that therapeutic doses of zolmitriptan are unlikely to cause clinically significant impairment in psychometric performance.

Zolmitriptan: a new acute treatment for migraine.

Zolmitriptan is a new oral acute treatment for migraine. It is a selective and potent agonist at the serotonin (5-HT)(1B/1D) receptor and was developed to improve on the oral bioavailability, tissue selectivity and CNS penetration of earlier compounds. Animal studies confirmed that these objectives had been attained. In man, zolmitriptan is rapidly absorbed after oral administration, with at least 75% of the eventual C(max) reached within 1 h. Oral bioavailability is approximately 40%. The elimination half-life of zolmitriptan is approximately 2.5 h and the primary route of elimination is metabolism, with one of the metabolites being pharmacologically active. A consistent 2-h headache response rate of 60-70% was observed at doses of 2.5 mg and above. Long-term treatment response is high (> 80%) and consistent. In addition, there is evidence from electrophysiology in migraineurs that zolmitriptan has a central action not shared by sumatriptan. Zolmitriptan is well-tolerated. The nature and incidence of the most frequently reported adverse events are similar to those of other 5-HT(1B/1D) agonists. Long-term zolmitriptan usage was associated with an improvement in quality of life. Zolmitriptan is a suitable first-line drug for acute treatment for migraine.

Peripheral vascular effects and pharmacokinetics of the antimigraine compound, zolmitriptan, in combination with oral ergotamine in healthy volunteers.

Members of the new class of antimigraine compounds, 5HT1B/1D agonists, as well as ergotamine, may cause vasoconstriction through stimulation of 5HT receptors on peripheral vessels. The cardiovascular effects of 20 mg oral zolmitriptan (Zomig, formerly 311C90), 2 mg oral ergotamine and the combination were assessed in a randomized double-blind, placebo-controlled crossover study in 12 healthy subjects. Pharmacodynamic measures included oscillometric blood pressure, systolic blood pressure at the toe and arm using a strain gauge technique, stroke volume and cardiac output using bioimpedance cardiography, high-resolution ultrasound to measure brachial arterial diameter and a novel Doppler method to measure blood flow velocity. Both drugs produced small degrees of peripheral vasoconstriction, including increases in diastolic blood pressure and blood flow velocity and decreases in arterial diameter and toe-arm systolic pressure gradient. These effects were generally additive with the combination but of no clinical importance. There were no significant changes in cardiac output, stroke volume heart rate or ECG. Zolmitriptan, at eight times the likely therapeutic dose, was generally well tolerated both alone and in combination with ergotamine. Ergotamine had no clinically important effects on zolmitriptan pharmacokinetics.

Pharmacokinetics of valsartan in patients with liver disease.

OBJECTIVES: Valsartan (CGP 48933), an orally active angiotensin II antagonist, is eliminated mainly by hepatic clearance. To characterize the compound(s) excreted in the bile, biliary excretion of valsartan was investigated by collection of bile after an intravenous dose of valsartan. In addition, to determine the exposure to valsartan when liver function is impaired, a pharmacokinetic study (open, single dose) was performed in patients with mild and moderate impairment of liver function. PATIENTS: Biliary excretion of valsartan (after intravenous administration of 20 mg valsartan) was assessed in a patient who underwent a hepaticojejunostomy with subsequent bile drainage. Exposure to valsartan in patients with mild (n = 6) or moderate (n = 6) impaired liver function (Child's-Pugh classification) and matching (sex, age, and weight) healthy volunteers (n = 12) was studied after oral administration of a single dose of 160 mg valsartan. RESULTS: After intravenous administration, valsartan was eliminated mainly as unchanged drug in the bile. Mean exposure (measured as area under the plasma valsartan concentration-time curve) to valsartan was increased about twofold in both the mild and the moderate groups compared with matched (age, sex, and weight) healthy volunteers. CONCLUSION: These data are consistent with the pharmacokinetics of valsartan in that biliary excretion is the main route of elimination.

Investigation of multiple dose citalopram on the pharmacokinetics and pharmacodynamics of racemic warfarin.

AIMS: An open, controlled, randomized, crossover study was conducted in healthy males to assess the possible occurrence of a pharmacokinetic/pharmacodynamic interaction between warfarin and the selective serotonin re-uptake inhibitor citalopram. METHODS: Twelve subjects received a single 25 mg dose of racemic warfarin either alone or on Day 15 of a 21-day oral dosing regimen of 40 mg citalopram daily. Blood samples for pharmacokinetic analysis were obtained over a 168 h period after warfarin dosing. The degree of anticoagulation was assessed by the prothrombin time. RESULTS: Citalopram produced no change in the pharmacokinetics of (R)- and (S)-warfarin, indicating that citalopram does not alter the metabolism of warfarin mediated via CYP1A2, CYP3A4 and CYP2C9. Citalopram coadministration resulted in a statistically significant increase in the maximum prothrombin time (R(max); by 1.6 +/- 3.0 s) and the area under the prothrombin time-time curve (AUC(PT); by 5.0 +/- 5.7%). The 90% confidence intervals for R(max) and AUC(PT) ratios (citalopram + warfarin/warfarin alone) were 1.01-1.10 and 1.03-1.07, respectively. CONCLUSIONS: The small increase in prothrombin time observed in this study with coadministration of citalopram and warfarin is not considered to be of importance in the clinical setting.

Effect of renal impairment on the pharmacokinetics and pharmacodynamics of desirudin.

OBJECTIVE: To investigate the pharmacokinetics and pharmacodynamics of desirudin in subjects with various degrees of renal impairment in comparison with subjects with normal renal function. METHODS: Eight subjects with normal renal function (creatinine clearance > 90 ml/min) received 0.5 mg/kg desirudin intravenously over 30 minutes. Four subjects with mild renal failure (creatinine clearance between 61 and 90 ml/min) received 0.5 mg/kg. Five subjects with moderate renal failure (creatinine clearance between 31 and 60 ml/min) received 0.25 mg/kg. Six subjects with severe renal failure (creatinine clearance < 31 ml/min) received 0.125 mg/kg. RESULTS: Specific maximum concentration values (maximum concentrations corrected to a dose of 1 mg/kg) increased slightly with decreasing creatinine clearance. Mean specific area under the plasma concentration-time curve increased by a factor of 1.15, 2.83, and 7.0 for subjects with mild, moderate, and severe renal failure, respectively, compared with healthy subjects. Total urinary excretion of desirudin was about 55% to 60% of the dose in all four groups; elimination was delayed for subjects with moderate and severe renal failure. Total and renal clearance of desirudin were proportional to creatinine clearance. Total plasma clearance of desirudin was proportional to renal clearance of the drug. Prolongation of activated partial thromboplastin time was increased among subjects with moderate and severe renal failure despite a dose reduction. Area under the dynamic activated partial thromboplastin time curve for subjects with moderate renal failure remained the same as that for healthy subjects despite a dose reduction by a factor of two. Area under the dynamic curve increased by a factor of about 1.5 for subjects with severe renal failure despite a dose reduction by a factor of four. CONCLUSION: A dose reduction by a factor of six is recommended for persons with severe renal failure.

The absolute bioavailability and metabolic disposition of the novel antimigraine compound zolmitriptan (311C90).

AIMS: Two open studies in healthy volunteers were conducted to determine the absolute bioavailability and metabolic disposition of zolmitriptan (311C90), a novel 5HT1D agonist for the acute treatment of migraine. METHODS: After an initial test i.v. infusion, bioavailability was assessed by comparison of AUC after an i.v. infusion (3.5 mg) and an oral tablet (10 mg), in six men and six women using a randomised, crossover design. Disposition was studied by administration of a 25 mg capsule, labelled with 100 microCi [14C]-zolmitriptan, to five men and one woman on a single occasion. RESULTS: Zolmitriptan was well tolerated by both i.v. and oral routes. Adverse events were mostly mild, consistent with earlier studies and characteristic of this class of drug. Reports were similar in nature and number after both oral and i.v. dosing. Mean +/- s.d. oral bioavailability was 0.49 +/- 0.24 (0.38 +/- 0.16 in men and 0.60 +/- 0.28 in women). After oral dosing, Cmax and AUC values in women were approximately double those in men. Relative to zolmitriptan concentrations, metabolite concentrations were higher after oral dosing than after i.v., and higher in men compared with women. Half-life was significantly longer after oral dosing (mean 22%, 95% CI 6-35%). Mean +/- s.d. values for CL, V2 and t1/2,z after i.v. dosing (all subjects) were 8.7 +/- 1.7 ml min-1 kg-1, 122 +/- 321 and 2.30 +/- 0.59 h respectively. Following administration of 25 mg [14C]-zolmitriptan, 91.5% of the dose was recovered in 7 days, 64.4 +/- 6.5% in urine and 27.1 +/- 6.0% in faeces. Less than 10% was recovered unchanged in urine, with 31.1 +/- 6.4% recovered as the inactive indole acetic acid metabolite. Most of the faecal material was unchanged zolmitriptan, representing unabsorbed drug. Plasma concentrations of [14C] were slightly higher than those of the summed concentrations of known analytes zolmitriptan, the active N-desmethyl metabolite (183C91), the inactive N-oxide (1652W92) and indole acetic acid (2161W92) metabolites, which accounted for 86% of total plasma radioactivity. No other significant metabolites were detected in plasma. Some minor additional metabolites were detected in urine, none of which contributed more than 5% of the dose. CONCLUSIONS: The data suggest that zolmitriptan undergoes first-pass metabolism and this is more extensive in men than in women. Zolmitriptan has suitable bioavailability for an acute oral migraine treatment and there are no significant unidentified metabolites in man.

Disposition of atovaquone in humans.

Atovaquone is an antiprotozoal compound with good in vitro stability against metabolic inactivation. Previous human studies which did not involve radiolabelling had not accounted for a substantial proportion of the dose. The possible metabolism of atovaquone in men was examined in a radiolabelling study involving four healthy male volunteers. Radioactivity was eliminated almost exclusively via the feces. All radioactivity in plasma, urine, and feces was accounted for by atovaquone, with no evidence of metabolites. Radiolabelled atovaquone was administered to a patient with an indwelling biliary tube after surgery. Biliary radioactivity was approximately 10- to 40-fold higher than that in plasma and was accounted for by atovaquone. Atovaquone is not significantly metabolized in humans but is excreted into bile against a high concentration gradient.

Comparison of the pharmacokinetics of lamotrigine in patients with chronic renal failure and healthy volunteers.

AIMS: The aim of this study was to compare the pharmacokinetics of the anti-epileptic agent, lamotrigine, in patients with chronic renal failure and healthy volunteers. METHODS: Non-compartmental pharmacokinetics of a single oral dose (200 mg) of the anti-epileptic agent, lamotrigine, and its main metabolite, lamotrigine N2-glucuronide, were determined for 10 patients with chronic renal failure of mean estimated creatinine clearance 18 ml min-1 and a control group of 11 healthy volunteers, matched for age and gender. RESULTS: For lamotrigine, there were no significant differences in Cmax, tmax, AUC, t1/2,z, CL/F and amount excreted in urine although t1/2,z tended to be longer for the renal failure group with a mean (+/-s.d.) of 35.9 +/- 10.7 h vs 27.8 +/- 4.3 h for the control group. For the renal failure group. VZ/F was 18% higher (95% CI 1% to 39%) compared with controls and CLR was reduced to 61% (95% CI 46% to 80%) of the control group value. For lamotrigine glucuronide, Cmax was increased 4-fold (95% CI 3.1 to 5.3) and AUC 7.8-fold (95% CI 6.0 to 10.1) in the renal failure group compared with controls. CLR was approximately 9-fold lower and apparent t1/2 was increased by 53% (95% CI 27% to 84%). Concentrations of an N2-methylated cardio-active metabolite, previously observed in dogs, were below the limit of detection (2 ng ml-1) of the ASTED/h.p.l.c. assay in the renal failure group as well as controls. CONCLUSIONS: These results indicate that impaired renal function will have little effect on the plasma concentrations of lamotrigine achieved for a given dosing regimen.

Evaluation of non-invasive techniques to assess vasoconstriction in healthy volunteers using methoxamine as a probe drug.

Non-invasive methods for assessment of the vascular effects of antimigraine drugs were evaluated with respect to their utility, variability and sensitivity in a double-blind, placebo-controlled, three-period crossover study in six healthy volunteers using an intravenous vasoconstrictor, methoxamine, as a probe drug. Changes in the internal diameter of the brachial and radial arteries were measured using ultrasound which had low between-day and within-day coefficients of variation. Peak systolic velocity (PSV), time-averaged velocity (TAV), total flow, resistance (RI) and pulsatility indices (PI) were measured by Doppler from one arterial wave form. Whilst PSV and TAV increased with methoxamine, because of bradycardia, changes in PI and RI were difficult to interpret. An automatic oscillometric cuff, a mercury-in-silastic strain gauge method and the "Finapres", finger arterial blood pressure monitor were used to follow changes in systolic blood pressure (SBP). The strain gauge technique underestimated arm SBP compared to the oscillometric method but clearly showed drug-related increases whilst the Finapres did not reflect changes in blood pressure detected by the other methods.

Atovaquone has no effect on the pharmacokinetics of phenytoin in healthy male volunteers.

The potential pharmacokinetic interaction between atovaquone and phenytoin was investigated in 12 healthy male volunteers. Each volunteer received a single 600 mg oral dose of phenytoin in the two treatment periods. On one occasion phenytoin was taken alone and on the other pre-treatment with 2000 mg atovaquone taken as two doses of 1000 mg as a microfluidized suspension. The mean (+/- s.d.) peak plasma concentrations (Cmax), apparent total clearance (CL/F) and terminal half-life (t1/2) for phenytoin when administered alone were 10.6(1.8) mg 1(-1), 24.3 (7.7) ml min-1 and 25(8) h, respectively. When administered together with atovaquone, phenytoin Cmax, CL/F and t1/2,z were 10.9 (2.0) mg 1(-1), 23.8 ml min-1 and 24(6) h, respectively. There were no statistically significant differences in any of these plasma pharmacokinetic parameters. There were also no statistically significant differences in the fraction of circulating drug not bound to plasma protein or urinary excretion of 5-hydroxyphenyl-phenyl-hydantoin. In conclusion, there was no effect of atovaquone on the pharmacokinetics of phenytoin or its major metabolite after a single dose.

Tucaresol increases oxygen affinity and reduces haemolysis in subjects with sickle cell anaemia.

The primary pathophysiological event in sickling is the intracellular polymerization of deoxygenated haemoglobin S. Tucaresol (589C80;4[2-formyl-3-hydroxyphenoxymethyl] benzoic acid), a substituted benzaldehyde, was designed to interact with haemoglobin to increase oxygen affinity and has been shown to inhibit sickling in vitro. We administered tucaresol to sickle cell patients in the steady state to examine the anti-sickling effect in vivo. Oral doses of tucaresol or placebo were given to nine stable sickle cell patients (aged 17-39 years; tucaresol, six; placebo, three) for 10 d. The first two patients on tucaresol were scheduled to receive a loading dose of 800 mg or 1200 mg (depending on bodyweight) for the first 4 d, followed by maintenance doses of 200 or 300 mg for the next 6 d. Due to concerns over the sharp rise in haematocrit in one patient, subsequent cohorts received 300 mg tucaresol daily throughout the dosing period. The oxygen affinity of haemoglobin S was increased in all patients receiving tucaresol, with between 10% and 24% of the haemoglobin modified, dependent on dose. In all patients on tucaresol, haemolysis was reduced with rises in haemoglobin of 0.9- 3.7 g/dl (mean 2.2 g/dl), falls in lactate dehydrogenase of 16-52%, and a halving of the irreversibly sickled cell counts. These effects were apparent within a few days and persisted for 1-2 weeks following discontinuation of the drug. Three of the six patients on tucaresol developed fever and cervical lymphadenopathy, with onset between days 7 and 11 from start of drug. Further evaluation of the tolerability and efficacy of tucaresol in sickle cell patients is necessary.

Pharmacokinetics and pharmacodynamics of tucaresol, an antisickling agent, in healthy volunteers.

1. Tucaresol is an orally administered antisickling agent which increases the oxygen affinity of haemoglobin. 2. The pharmacokinetics, effects on moderate graded exercise and psychometric performance of tucaresol were examined in a double-blind, placebo-controlled, parallel groups study in 12 healthy men. 3. Three doses of tucaresol were given at 48 h intervals intended to modify 15, 25 and 32.5% of a subject's haemoglobin to a high affinity form (%MOD). 4. Mean peak %MOD was 34%. Mean Cmax values in plasma and erythrocytes were 81.4 and 1459 micrograms ml-1, respectively. 5. Heart rate, compared with baseline, increased in the tucaresol group with the greatest changes at the highest %MOD and workload. There were no differences between groups in psychometric test performance. 6. Three volunteers on active drug developed fever, rash and tender cervical lymphadenopathy with onset 7-10 days from the start of dosing, suggesting an immune mechanism. 7. The acute increase in oxygen affinity with tucaresol is physiologically well-tolerated, but the utility of tucaresol in the management of sickle cell disease will depend on the identification of a dosing regimen with a lower incidence of drug allergy.

Examination of some factors responsible for a food-induced increase in absorption of atovaquone.

1. Atovaquone is a potent antiprotozoal slowly and irregularly absorbed after administration as tablets to fasting volunteers. A series of studies was performed to investigate the effects of food, bile and formulation on atovaquone absorption. 2. In 18 healthy male volunteers, a high-fat breakfast administered 45 min before 500 mg atovaquone as tablets increased AUC by 3.3-fold (95% CI 2.8-4.0) and Cmax 5.3-fold (4.3-6.6) compared with fasting. 3. The absorption of atovaquone from tablets was examined in 12 healthy male volunteers after an overnight fast, following toast alone, toast with 28 g butter (LOFAT), or toast with 56 g butter (HIFAT). Compared with absorption when fasted, toast had no significant effect but LOFAT increased AUC 3.0-fold (2.1-4.2) and Cmax 3.9-fold (2.6-5.8). HIFAT increased AUC 3.9-fold (2.7-5.5) and Cmax 5.6-fold (3.8-8.4). 4. The absorption of atovaquone was examined in nine healthy fasting male volunteers from tablets, an aqueous suspension, and an oily solution/suspension in miglyol (fractionated coconut oil). Compared with tablets, AUC following the aqueous suspension was increased 1.7-fold (1.0-2.7) and Cmax 2.4-fold (1.7-3.5). Following miglyol, AUC was increased to the same extent but Cmax was only increased 1.8-fold (1.2-2.6). 5. Atovaquone absorption was examined in eight healthy fasting male volunteers following an i.v. infusion of cholecystokinin octapeptide (CCK-OP) which decreased gallbladder volume by 82% (73%-90%) on occasion 1 or saline on occasion 2. AUC(0,12) was increased following CCK-OP by 1.6-fold (1.1-2.4) and Cmax by 1.5-fold (0.98-2.4).(ABSTRACT TRUNCATED AT 250 WORDS)

The pharmacokinetics, tolerability and pharmacodynamics of tucaresol (589C80; 4[2-formyl-3-hydroxyphenoxymethyl] benzoic acid), a potential anti-sickling agent, following oral administration to healthy subjects.

1. Tucaresol (589C80; 4[2-formyl-3-hydroxyphenoxymethyl] benzoic acid) interacts stoichiometrically with haemoglobin to increase oxygen affinity. By decreasing the proportion of insoluble deoxy sickle haemoglobin at capillary oxygen concentrations, tucaresol may be of therapeutic benefit in sickle cell anaemia. 2. In this study, which involved the first administration to man, the pharmacokinetics and pharmacodynamics of tucaresol were studied in healthy male volunteers following oral doses of 200-3600 mg. 3. Peak drug concentrations in plasma and erythrocytes were linearly related to dose; mean (s.d.) values were 95.8 (26.1) and 1035 (67) micrograms ml-1, respectively, at the highest dose. Median tmax in plasma was 6.5 h and in erythrocytes 24.5 h, when approximately 60% of the administered dose was in the target tissue. Plasma drug concentrations fell biexponentially with commencement of the apparent terminal elimination phase at approximately 24 h. The terminal elimination half-life from plasma increased with dose (r = 0.77; P < 0.0001) from 133-190 h at 400 mg to a mean (s.d.) of 289 (30) h at 3600 mg. Erythrocyte drug concentrations declined mono-exponentially with a half-life that was always shorter than the apparent terminal half-life in plasma: overall mean (95% CI) of t1/2 erythrocyte/t1/2 plasma ratio was 0.57 (0.53, 0.61). The erythrocyte AUC/plasma AUC ratio increased with dose (r = 0.67; P < 0.001). 4. The proportion of haemoglobin modified to a form with high oxygen affinity (%MOD) increased in a dose-related manner above doses of 800 mg reaching 19-26% after the 3600 mg dose.(ABSTRACT TRUNCATED AT 250 WORDS)