Formulation and Evaluation of Baclofen-Meloxicam Orally Disintegrating Tablets (ODTs) Using Co-Processed Excipients and Improvement of ODTs Performance Using Six Sigma Method.

PURPOSE: This study aimed to formulate an orally disintegrating tablet (ODT) containing both baclofen and meloxicam together for treating osteoarthritis. METHODS: Direct compression method was used to prepare ODTs using three types of co-processed excipients (Prosolv ODT G2®, F-melt®, and Pharmaburst®500). ODTs were evaluated according to weight variation, thickness, friability, hardness, drug content, wetting time, in-vitro disintegration time, in-vitro dissolution test, and palatability. To enhance the in-vitro dissolution of meloxicam and palatability of ODT, a six sigma methodology was used, and an improvement phase was established where ODTs were prepared using lyophilization and levigation techniques. Finally, a pharmacokinetic study of the improved ODT was accomplished in comparison to the conventional oral tablet. RESULTS: Pharmaburst-based formula (F4) showed the shortest wetting time and, consequently, the shortest disintegration time and the highest percentage of drug dissolved within 3 min compared to the other formulae. All the improved ODTs had a bitterness taste score vary from (0) palatable and (+1) tasteless. The current sigma level was 3.628 σ and 3.33 σ for palatability and solubility of ODT, respectively, which indicated the process was successfully improved compared with the previous sigma level of 2.342 σ of both processes. Pharmacokinetic study of the improved ODTs showed a significant decrease of Tmax to 120 and 30 min instead of 180 and 120 min for meloxicam and baclofen, respectively. CONCLUSION: ODTs were successfully improved using the six sigma methodology, the pharmacokinetic parameters of both drugs were enhanced due to rapid absorption through the oral mucosa.

Development and Quality evaluation of sustained release pellets of eperisone HCl.

The objective was to develop eperisone HCl sustained-release pellets through extrusion spheronization technique and to determine the influence of different hydrophobic (polymeric based and wax-based) and hydrophilic (polymeric based) matrix former on the release of eperisone HCl (BCS class I drug) and on pellet sphericity. The pellet formulations consisted of different hydrophobic and hydrophilic matrix formers like HPMC K4M (10-20%) HPMC K15M (10%), EC (7cps) (10-20%), Carnauba wax (10-20%), Compritol ATO 888 (10-20%), Glyceryl monostearate (10%), lactose and microcrystalline cellulose. The initial burst release of the drug from matrix pellet formulations was effectively controlled by coating with 5% EC (ethylcellulose) dispersion. The dissolution profile and drug release kinetics of coated pellet formulations were determined at both acidic and basic pH medium. SEM (Scanning electron microscope) technique was used to determine the surface morphology and cross-section of F5 and F7 pellet formulation. The mechanism of drug release of coated formulation followed non-Fickian diffusion. FTIR spectroscopy was conducted and no drug and excipients interaction was observed. The results had shown that optimized coated formulation was F5 and F7 which effectively extend the drug release for 12 hours.

Application of in vitro data in physiologically-based kinetic models for quantitative in vitro-in vivo extrapolation: A case-study for baclofen.

Physiologically-based kinetic (PBK) models can simulate concentrations of chemicals in tissues over time without animal experiments. Nevertheless, in vivo data are often used to parameterise PBK models. This study aims to illustrate that a combination of kinetic and dynamic readouts from in vitro assays can be used to parameterise PBK models simulating neurologically-active concentrations of xenobiotics. Baclofen, an intrathecally administered drug to treat spasticity, was used as a proof-of-principle xenobiotic. An in vitro blood-brain barrier (BBB) model was used to determine the BBB permeability of baclofen needed to simulate plasma and cerebrospinal concentrations. Simulated baclofen concentrations in individuals and populations of adults and children generally fall within 2-fold of measured clinical study concentrations. Further, in vitro micro-electrode array recordings were used to determine the effect of baclofen on neuronal activity (cell signalling). Using quantitative in vitro-in vivo extrapolations (QIVIVE) corresponding doses of baclofen were estimated. QIVIVE showed that up to 4600 times lower intrathecal doses than oral and intravenous doses induce comparable neurological effects. Most simulated doses were in the range of administered doses. This show that PBK models predict concentrations in the central nervous system for various routes of administration accurately without the need for additional in vivo data.

A phase Ib/IIa clinical trial of dantrolene sodium in patients with Wolfram syndrome.

BACKGROUNDWolfram syndrome is a rare ER disorder characterized by insulin-dependent diabetes mellitus, optic nerve atrophy, and progressive neurodegeneration. Although there is no treatment for Wolfram syndrome, preclinical studies in cell and rodent models suggest that therapeutic strategies targeting ER calcium homeostasis, including dantrolene sodium, may be beneficial.METHODSBased on results from preclinical studies on dantrolene sodium and ongoing longitudinal studies, we assembled what we believe is the first-ever clinical trial in pediatric and adult Wolfram syndrome patients with an open-label phase Ib/IIa trial design. The primary objective was to assess the safety and tolerability of dantrolene sodium in adult and pediatric Wolfram syndrome patients. Secondary objectives were to evaluate the efficacy of dantrolene sodium on residual pancreatic ß cell functions, visual acuity, quality-of-life measures related to vision, and neurological functions.RESULTSDantrolene sodium was well tolerated by Wolfram syndrome patients. Overall, ß cell functions were not significantly improved, but there was a significant correlation between baseline ß cell functions and change in ß cell responsiveness (R2, P = 0.004) after 6-month dantrolene therapy. Visual acuity and neurological functions were not improved by 6-month dantrolene sodium. Markers of inflammatory cytokines and oxidative stress, such as IFN-γ, IL-1ß, TNF-α, and isoprostane, were elevated in subjects.CONCLUSIONThis study justifies further investigation into using dantrolene sodium and other small molecules targeting the ER for treatment of Wolfram syndrome.TRIAL REGISTRATIONClinicalTrials.gov identifier NCT02829268FUNDINGNIH/National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) (DK112921, DK113487, DK020579), NIH/National Center for Advancing Translational Sciences (NCATS) (TR002065, TR000448), NIH training grant (F30DK111070), Silberman Fund, Ellie White Foundation, Snow Foundation, Unravel Wolfram Syndrome Fund, Stowe Fund, Eye Hope Foundation, Feiock Fund, Washington University Institute of Clinical and Translational Sciences grant UL1TR002345 from NIH/NCATS, Bursky Center for Human Immunology & Immunotherapy Programs.

Pharmacokinetics of eperisone following oral administration in healthy Korean volunteers.

Eperisone is an oral muscle relaxant used to treat musculoskeletal diseases, which exhibits high pharmacokinetic (PK) variability in bioequivalence studies. The aim of this study was to characterize the PKs of eperisone following its oral administration to Korean volunteers through the conduct of a noncompartmental and population analysis. A total of 360 concentration-time measurements collected on two separate occasions from 15 healthy volunteers during a bioequivalent study of eperisone 50 mg (Murex® ) were used in the PK analysis. Noncompartmental analysis was performed using WinNonLinTM and population analysis was performed using NONMEM® . The possible influence of thirty demographic and pathophysiological characteristics on the PKs of eperisone were explored. Based on noncompartmental analysis mean eperisone elimination half-life, apparent clearance (CL/F), and apparent volume of distribution were estimated to be 3.81 h, 39.24 × 103  l/h × 103  L, respectively. During population PK modeling a two-compartment model with first-order absorption rate constant (typical population K a  = 1.5 h-1 ) and first-order elimination (typical population CL/F and apparent volume of distribution in the central compartment [V c /F] = 30.8 × 103  l/h and 86.2 × 103  l, respectively) best described the PKs of eperisone. Interindividual variability in CL/F and V c /F were estimated to be 87.9% and 130.3%, respectively and interoccasion variability in CL/F and V c /F were estimated to be 23.8% and 30.8%, respectively. Aspartate aminotransferase level and smoking status were identified as potential covariates that may influence the CL/F of eperisone. This is the first study to develop a disposition model for eperisone and investigate the potential influence of covariate factors on it PK variability.

An enteric polymer mitigates the effects of gastric pH on oral absorption of poorly soluble weak acid drugs from supersaturable formulations: A case study with dantrolene.

This study demonstrated that an enteric polymer can mitigate the effects of gastric pH on the oral absorption of a poorly water-soluble weak acid drug, dantrolene (DNT). An amorphous solid dispersion (ASD) of DNT with hydroxypropyl methylcellulose (HPMC) acetate succinate (ASD-HPMCAS) was prepared as the enteric released ASD (ER-SF). ASD with HPMC (ASD-HPMC) and DNT sodium salt were also used as immediate-release supersaturable formulations (IR-SFs) with and without water-soluble polymer, respectively. In vivo study with rats and in vitro study with a dissolution/permeation (D/P) system were performed to evaluate oral DNT absorption from each formulation under normal and high gastric pH conditions in rats and humans, respectively. The oral absorption of DNT from both IR-SFs in rats with a high gastric pH was significantly higher than that in rats with a normal gastric pH. In contrast, ASD-HPMCAS attenuated the difference in oral absorption between normal and high gastric pH conditions with significant improvement of DNT absorption. In vivo results implied that an enteric polymer delayed the onset of dissolution until after gastric emptying. ASD-HPMCAS generated supersaturation in the small intestine irrespective of gastric conditions, which was supported bythe in vitrostudy using the D/P system. This study suggested that an enteric polymer is useful to mitigate the inter- and intra-individual differences in oral absorption of poorly water-soluble weak acid drugs.

Carisoprodol pharmacokinetics and distribution in the nucleus accumbens correlates with behavioral effects in rats independent from its metabolism to meprobamate.

Carisoprodol (Soma®) is a centrally-acting skeletal-muscle relaxant frequently prescribed for treatment of acute musculoskeletal conditions. Carisoprodol's mechanism of action is unclear and is often ascribed to that of its active metabolite, meprobamate. The purpose of this study was to ascertain whether carisoprodol directly produces behavioral effects, or whether metabolism to meprobamate via cytochrome P450 (CYP450) enzymatic reaction is necessary. Rats were trained to discriminate carisoprodol (100 mg/kg) to assess time course and whether a CYP450 inhibitor (cimetidine) administered for 4 days would alter the discriminative effects of carisoprodol. Additionally, pharmacokinetics of carisoprodol and meprobamate with and without co-administration of cimetidine were assessed via in vivo microdialysis combined with liquid-chromatography-tandem mass spectrometry from blood and nucleus accumbens (NAc). The time course of the discriminative-stimulus effects of carisoprodol closely matched the time course of the levels of carisoprodol in blood and NAc, but did not match the time course of meprobamate. Administration of cimetidine increased levels of carisoprodol and decreased levels of meprobamate consistent with its interfering with metabolism of carisoprodol to meprobamate. However, cimetidine failed to alter the discriminative-stimulus effects of carisoprodol. Carisoprodol penetrated into brain tissue and directly produced behavioral effects without being metabolized to meprobamate. These findings indicate that understanding the mechanism of action of carisoprodol independently of meprobamate will be necessary to determine the validity of its clinical uses.

A randomized single-dose, two-period crossover bioequivalence study of two fixed-dose Paracetamol/Orphenadrine combination preparations in healthy volunteers under fasted condition.

BACKGROUND: Paracetamol/Orphenadrine is a fixed dose combination containing 35 mg orphenadrine and 450 mg paracetamol. It has analgesic and muscle relaxant properties and is widely available as generics. This study is conducted to investigate the relative bioavailability and bioequivalence between one fixed dose paracetamol/orphenadrine combination test preparation and one fixed dose paracetamol/orphenadrine combination reference preparation in healthy volunteers under fasted condition for marketing authorization in Malaysia. METHOD: This is a single-center, single-dose, open-label, randomized, 2-treatment, 2-sequence and 2-period crossover study with a washout period of 7 days. Paracetamol/Orphenadrine tablets were administered after a 10-h fast. Blood samples for pharmacokinetic analysis were collected at scheduled time intervals prior to and up to 72 h after dosing. Blood samples were centrifuged, and separated plasma were kept frozen (- 15 °C to - 25 °C) until analysis. Plasma concentrations of orphenadrine and paracetamol were quantified using liquid-chromatography-tandem mass spectrometer using diphenhydramine as internal standard. The pharmacokinetic parameters AUC0-∞, AUC0-t and Cmax were determined using plasma concentration time profile for both preparations. Bioequivalence was assessed according to the ASEAN guideline acceptance criteria for bioequivalence which is the 90% confidence intervals of AUC0-∞, AUC0-t and Cmax ratio must be within the range of 80.00-125.00%. RESULTS: There were 28 healthy subjects enrolled, and 27 subjects completed this trial. There were no significant differences observed between the AUC0-∞, AUC0-t and Cmax of both test and reference preparations in fasted condition. The 90% confidence intervals for the ratio of AUC0-t (100.92-111.27%), AUC0-∞ (96.94-108.08%) and Cmax (100.11-112.50%) for orphenadrine (n = 25); and AUC0-t (94.29-101.83%), AUC0-∞ (94.77-101.68%) and Cmax (87.12-101.20%) for paracetamol (n = 27) for test preparation over reference preparation were all within acceptable bioequivalence range of 80.00-125.00%. CONCLUSION: The test preparation is bioequivalent to the reference preparation and can be used interchangeably. TRIAL REGISTRATION: NMRR- 17-1266-36,001; registered and approved on 12 September 2017.

Design, characterization and in vivo evaluation of modified release baclofen floating coated beads.

Baclofen is a centrally acting skeletal muscle relaxant approved by the US Food and Drug Administration (FDA) for the treatment of muscle spasticity, but the immediate release mode of administration and rapid absorption has been associated with adverse effects. The main objective of this study was to prepare modified release floating beads of baclofen in order to decrease the unwanted side effects. The beads were prepared using alginate and coated with Eudragit RS100, Eudragit L100 and cetyl alcohol. They were evaluated for their encapsulation efficiency, buoyance characteristics, morphology, and in vitro release. They have also been tested in vivo for their oral bioavailability and potential side effects. The prepared beads showed floating properties up to 12 h with different lag times ranging from 45.67 to 72.33 sec. Morphological evaluation using scanning electron microscopy (SEM) revealed that the coated beads show smooth with no pores or cracks surfaces. Real-time morphology of the beads during in vitro release testing was studied by the SEM. Optimized formulation of baclofen coated beads exhibited favorable mechanical properties, in addition, it provided extended baclofen release for up to 6 h. In addition, in vivo studies showed that the coated beads effectively decreased the hypotensive side effect associated with rapid plasma peaking from Baclofen® immediate-release tablets. In addition, there were significant differences between the values of Cmax, Tmax, and AUC0-24 of optimized modified release baclofen floating formulations when compared to Baclofen® immediate-release tablets.

Vaginal Diazepam for Nonrelaxing Pelvic Floor Dysfunction: The Pharmacokinetic Profile.

BACKGROUND: Vaginal diazepam is frequently used to treat pelvic floor tension myalgia and pelvic pain despite limited knowledge of systemic absorption. AIM: To determine the pharmacokinetic and adverse event profile of diazepam vaginal suppositories. METHODS: We used a prospective pharmacokinetic design with repeated assessments of diazepam levels. Eight healthy volunteers were administered a 10-mg compounded vaginal diazepam suppository in the outpatient gynecologic clinic. Serum samples were collected at 0, 45, 90, 120, and 180 minutes; 8, 24, and 72 hours; and 1 week following administration of a 10-mg vaginal suppository. The occurrence of adverse events was assessed using the alternate step and tandem walk tests, the Brief Confusion Assessment Method, and numerical ratings. Plasma concentrations of diazepam and active long-acting metabolites were measured. Pharmacokinetic parameters were calculated by standard noncompartmental methods. RESULTS: The mean peak diazepam concentration (Cmax) of 31.0 ng/mL was detected at a mean time (Tmax) of 3.1 hours after suppository placement. The bioavailability was found to be 70.5%, and the mean terminal elimination half-life was 82 hours. The plasma levels of temazepam and nordiazepam peaked at 0.8 ng/mL at 29 hours and 6.4 ng/mL at 132 hours, respectively. Fatigue was reported by 3 of 8 participants. CLINICAL IMPLICATIONS: Serum plasma concentrations of vaginally administered diazepam are low; however the half-life is prolonged. STRENGTHS & LIMITATIONS: Strengths include use of inclusion and exclusion criteria aimed at mitigating clinical factors that could adversely impact diazepam absorption and metabolism, and the use of an ultrasensitive LC-MS/MS assay. Limitations included the lack of addressing the efficacy of vaginal diazepam in lieu of performing a pure pharmacokinetic study with healthy participants. CONCLUSION: Vaginal administration of diazepam results in lower peak serum plasma concentration, longer time to peak concentration, and lower bioavailability than standard oral use. Providers should be aware that with diazepam's long half-life, accumulating levels would occur with chronic daily doses, and steady-state levels would not be reached for up to 1 week. This profile would favor intermittent use to allow participation in physical therapy and intimacy. Larish AM, Dickson RR, Kudgus RA, et al. Vaginal Diazepam for Nonrelaxing Pelvic Floor Dysfunction: The Pharmacokinetic Profile. J Sex Med 2019;16;763-766.

Transfer of Cyclobenzaprine into Human Milk and Subsequent Infant Exposure.

INTRODUCTION: Cyclobenzaprine is a skeletal muscle relaxant primarily used in the treatment of pain. Its use during lactation is a matter of concern as its level of exposure to infants through human milk is still unknown. MAIN ISSUE: The aim of this study was to determine cyclobenzaprine concentrations in the milk samples collected from two lactating mothers. MANAGEMENT: The present study describes the analysis of cyclobenzaprine in human milk using liquid chromatography mass spectrometry, which determined the drug concentration-time profiles in human milk. CONCLUSION: This study shows low levels of concentrations of cyclobenzaprine in human milk with calculated relative infant dose of 0.5%. However, due to the sedative properties of cyclobenzaprine, regular clinical assessment of the infant is recommended to evaluate for long-term effects.

Fabrication and characterization of matrix type transdermal patches loaded with tizanidine hydrochloride: potential sustained release delivery system.

OBJECTIVE: This study was designed to optimize and develop matrix type transdermal drug delivery system (TDDS) containing tizanidine hydrochloride (TZH) using different polymers by solvent evaporation method. SIGNIFICANCE: A strong need exists for the development of transdermal patch having improved bioavailability at the site of action with fewer side effects at off-target organs. METHODS: The patches were physically characterized by texture analysis (color, flexibility, smoothness, transparency, and homogeneity), in vitro dissolution test and FTIR analysis. Furthermore, functional properties essential for TDDS, in vitro percentage of moisture content, percentage of water uptake, in vitro permeation by following different kinetic models, in vivo drug content estimation and skin irritation were determined using rabbit skin. RESULTS: The optimized patches were soft, of uniform texture and thickness as well as pliable in nature. Novel transdermal patch showed ideal characteristics in terms of moisture content and water uptake. FTIR analysis confirmed no interaction between TZH and cellulose acetate phthalate (CAP). The patch showed sustained release of the drug which increased the availability of short acting TZH at the site of action. The patch also showed its biocompatibility to the in vivo model of rabbit skin. CONCLUSIONS: The results demonstrated that topically applied transdermal patch will be a potential medicated sustain release patch for muscle pain which will improve patient compliance.

Baclofen Toxicity in Kidney Disease.

Baclofen, a commonly prescribed muscle relaxant, is primarily excreted via the kidneys; toxicity is a potentially serious adverse outcome in patients with decreased kidney function. We describe a patient with end-stage kidney disease receiving hemodialysis who developed neurotoxicity and hemodynamic instability after receiving baclofen for muscle spasms. In this case, prompt recognition of baclofen toxicity and urgent hemodialysis were effective in reversing this toxicity. This case is used to examine the pharmacokinetics and pathophysiology of baclofen toxicity and discuss appropriate diagnosis and management of baclofen toxicity. We recommend reducing the baclofen dose in patients who have moderately reduced kidney function (estimated glomerular filtration rate, 30-60mL/min/1.73m2) and avoiding use in patients with severely reduced kidney function (estimated glomerular filtration rate < 30mL/min/1.73m2) or on renal replacement therapy.

Pharmacogenomic Variability of Oral Baclofen Clearance and Clinical Response in Children With Cerebral Palsy.

BACKGROUND: Pharmacogenomic variability can contribute to differences in pharmacokinetics and clinical responses. Pediatric patients with cerebral palsy with genetic variations have not been studied for these potential differences. OBJECTIVE: To determine the genetic sources of variation in oral baclofen clearance and clinical responses. DESIGN: Pharmacogenomic add-on study to determine variability in oral baclofen clearance and clinical responses. SETTING: Multicenter study based in academic pediatric cerebral palsy clinics. PARTICIPANTS: A total of 49 patients with cerebral palsy who had participated in an oral baclofen pharmacokinetic/pharmacodynamic study. METHODS OR INTERVENTIONS: Of 53 participants in a pharmacokinetic/pharmacodynamic trial, 49 underwent genetic analysis of 307 key genes and 4535 single-nucleotide polymorphisms involved in drug absorption, distribution, metabolism, and excretion. Associations between genotypes and phenotypes of baclofen disposition (weight-corrected and allometrically scaled clearance) and clinical endpoints (improvement from baseline in mean hamstring Modified Tardieu Scale scores from baseline for improvement of R1 spastic catch) were determined by univariate analysis with correction for multiple testing by false discovery rate. MAIN OUTCOME MEASUREMENTS: Primary outcome measures were the genotypic and phenotypic variability of oral baclofen in allometrically scaled clearance and change in the Modified Tardieu Scale angle compared to baseline. RESULTS: After univariate analysis of the data, the SNP of ABCC9 (rs11046232, heterozygous AT versus the reference TT genotype) was associated with a 2-fold increase in oral baclofen clearance (mean 0.51 ± standard deviation 0.05 L/h/kg for the AT genotype versus 0.25 ± 0.07 L/h/kg for the TT genotype, adjusted P < .001). Clinical responses were associated with decreased spasticity by Modified Tardieu Scale in allelic variants with SNPs ABCC12, SLC28A1, and PPARD. CONCLUSIONS: Genetic variation in ABCC9 affecting oral baclofen clearance highlights the need for continued studies of genetic polymorphisms to better characterize variable drug response in children with cerebral palsy. Single-nucleotide polymorphisms in ABCC12, SLC28A1, and PPARD were associated with varied responses, which warrants further investigation to determine their effect on spasticity. LEVEL OF EVIDENCE: II.

Bioequivalence of cyclobenzaprine hydrochloride extended-release capsule taken intact or sprinkled over applesauce
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OBJECTIVE: Difficulty swallowing pills can compromise pain control in painful musculoskeletal disorders. This open-label, 2-period crossover study assessed pharmacokinetics and safety of cyclobenzaprine extended-release (CER) 30-mg capsule contents sprinkled over applesauce compared with intact capsules in healthy subjects. MATERIALS AND METHODS: 32 subjects were randomized to treatment sequences AB or BA (A = single CER intact capsule; B = single CER capsule contents sprinkled over applesauce (15 mL)). Treatments were separated by a ≥ 14-day washout. Pharmacokinetic assessments included maximum observed plasma drug concentration (Cmax), time to Cmax (tmax), time to first quantifiable plasma drug concentration (tlag), and area under the plasma drug concentration-vs.-time curve from time 0 to the last measurable drug concentration (AUC0-t) and extrapolated to infinity (AUC0-∞). Bioequivalence was established if the 90% confidence intervals (CIs) of the geometric least squares (LS) means ratios of B:A of Cmax, AUC0-t, and AUC0-∞ were 80 - 125%. Safety was also assessed. RESULTS: Mean plasma drug concentration-vs.-time profiles were similar for CER intact and sprinkled over applesauce. The 90% CIs of LS means ratios indicated bioequivalence: Cmax 91.96 - 100.76%, AUC0-t 96.18 - 103.50%, and AUC0-∞ 95.70 - 103.07%. Median tmax was not significantly different (p > 0.05), and median tlag was the same (1 hour). All adverse effects were mild and resolved during the study. No clinically meaningful changes were noted for clinical laboratory values. CONCLUSION: CER capsules intact and sprinkled over applesauce are bioequivalent. Sprinkling CER capsule contents is not expected to affect efficacy or safety and can, therefore, be an option for patients with musculoskeletal pain and difficulty swallowing capsules.
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Pharmacokinetic modeling of carisoprodol and meprobamate disposition in adults.

Carisoprodol is a widely prescribed muscle relaxant and is also a drug known to be a subject to abuse. Despite the fact that carisoprodol has been available for prescription since 1959, a number of gaps in our knowledge of the toxicokinetics of this common drug exist. For example, the volume of distribution (Vd) for carisoprodol in humans has not been reported. A two-compartment pharmacokinetic model describing carisoprodol metabolism and that of the primary metabolite, meprobamate, was developed to better understand the pharmacokinetics of this drug. The model accounts for first pass metabolism of carisoprodol and was able to replicate the data from several previously reported data sets. Based on an analysis of four different data sets, the Vd for carisoprodol ranged from 0.93 to 1.3 L/kg, while that for meprobamate ranged from 1.4 to 1.6 L/kg. The model was also used to estimate the probable dose of this drug in an individual where questions concerning the drug's role in her death had been posed. The model may, therefore, have significant utility for estimating doses of carisoprodol in medicolegal cases.

Pharmacokinetic comparison and bioequivalence evaluation of two 10-mg baclofen formulations in healthy male subjects
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BACKGROUNDS: Baclofen is used as a skeletal muscle relaxant for multiple sclerosis patients. It depresses the transmission of monosynaptic and polysynaptic reflex by stimulating GABAß (gamma-aminobutyric acid) receptors. OBJECTIVES: The aim of this study was to compare the pharmacokinetic characteristics of two 10-mg baclofen formulations and to assess bioequivalence. METHODS: A randomized, single-dose, two-period, two-sequence crossover study was conducted in healthy male subjects. Each subject received the test or reference formulations. After washout period, all subjects received the alternative formulation. Blood samples were collected for up to 24 hours after the dose in each period. Pharmacokinetic (PK) parameters, including tmax, Cmax, and AUClast were calculated by noncompartmental methods. The geometric mean ratio (GMR) of the test to the reference formulation and its 90% confidence interval (CI) for Cmax and AUClast were calculated for assessment of bioequivalence. RESULTS: A total of 22 subjects completed the study. The median tmax of the test and the reference formulation were 1.50 and 1.25 hours, respectively. The mean (± SD) Cmax of the test and the reference formulation were 141.401 ± 29.447 ng/mL and 138.837 ± 31.392 ng/mL, respectively. The mean (± SD) AUClast of the two formulations were 702.404 ± 82.149 ng×h/mL and 726.803 ± 90.638 ng×h/mL, respectively. The GMR (90% CI) of the test to the reference formulation for the Cmax and AUClast were 1.0306 (0.9564 - 1.1106) and 0.9674 (0.9437 - 0.9916), respectively. CONCLUSIONS: The two different baclofen 10-mg formulations had similar PK profiles and were bioequivalent based on Cmax and AUClast.
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A pharmacokinetic-pharmacodynamic model for intrathecal baclofen in patients with severe spasticity.

AIMS: Intrathecal baclofen (ITB) has proven to be an effective and safe treatment for severe spasticity. However, although ITB is used extensively, clinical decisions are based on very scarce pharmacokinetic-pharmacodynamic (PKPD) data. The aim of this study was to measure baclofen CSF concentrations and clinical effects after administration of various ITB boluses in patients with spasticity and to create a PKPD model for ITB. METHODS: Twelve patients with severe spasticity received four different bolus doses of ITB (0, 25, 50, 75 µg and an optional dose of 100 µg), administered via a catheter with the tip at thoracic level (Th) 10. After each bolus, 10 CSF samples were taken at fixed time intervals, using a catheter with the tip located at Th12. Clinical effect was assessed by measuring spasticity with the Modified Ashworth Scale (MAS). These data were used to develop a PKPD model. RESULTS: All patients achieved an adequate spasmolytic effect with ITB doses varying from 50 to 100 µg. No serious side effects were observed. CSF baclofen concentrations, as well as the clinical effects, correlated significantly with ITB doses. The PK model predicted a steep spinal concentration gradient of ITB along the spinal axis. The clinical effect could be predicted using a delayed-effect model. CONCLUSIONS: ITB is an effective and safe therapy with, however, a steep concentration gradient along the spinal axis. This means that the administered baclofen is staying mainly around the catheter tip, which stresses the importance to position the ITB catheter tip closely to the targeted spinal level.

Pharmacokinetics of methocarbamol and phenylbutazone in exercised Thoroughbred horses.

Methocarbamol (MCBL) is commonly used in performance horses for the treatment of skeletal muscle disorders. Current regulatory recommendations for show horses and racehorses are based on a single oral dose of 5 g, although doses in excess of this are often administered. The goal of the current study was to characterize the disposition of MCBL following higher dose administration and administration in combination with another commonly used drug in performance horses, phenylbutazone (PBZ). Exercised Thoroughbred horses were administered various doses of MCBL as a sole agent and MCBL in combination with PBZ. Blood samples were collected at various times, concentrations of MCBL and PBZ measured using LC-MS/MS and pharmacokinetic parameters calculated using compartmental analysis. Following administration of 15 g of MCBL, either as part of a single- or multiple-dose regimen, a number of horses exceeded the Association of Racing Commissioners International and the United States Equestrian Federation's recommended regulatory threshold at the recommended withdrawal time. There was not a significant difference between horses that received only MCBL and those that received MCBL and PBZ. Results of the current study support an extended withdrawal guideline when doses in excess of 5 g are administered.