Ultrasensitive, specific, rapid and economic spectrofluorimetric method was developed and validated for determination of a selective xanthine oxidase inhibitor; Febuxostat (FBX) in tablets and in human plasma. The proposed method is based on the enhancement of the fluorescence intensity of an aqueous acidic solution of FBX by using 1.0% w/v sodium dodecyl sulphate (SDS) as a micellar system. A great enhancement of the relative fluorescence intensity (RFI) of FBX was observed (about 2 and 30 folds compared to the aqueous acidic solution of FBX and the aqueous solution of FBX, respectively). RFI was measured at λex. 336 nm/ λem. 410 nm against a reagent blank treated similarly. A linear relationship between the fluorescence intensity of the formed FBX-SDS micellar system and the concentration of FBX was investigated. The reaction conditions and the fluorescence spectral properties of the formed micelle have been studied. The linearity range of the developed method was (0.100–25.0 ng/mL) with detection and quantitation limits of 15.08 and 45.71 pg/mL, respectively. This method was applied successfully for the estimation of FBX in its pharmaceutical dosage forms and in spiked plasma samples without matrices' interferences and with excellent recoveries (99.72–101.44%). This affords the ability to use the developed method for quantitation of FBX in real plasma samples with excellent reproducible % recoveries (96.51–101.32%). All obtained results of the developed method were statistically analyzed and validated according to ICH guidelines.

The present study was designed to evaluate the potential protective effects of the cysteinyl leukotriene receptor blocker montelukast (MNK) and the xanthine oxidase inhibitor febuxostat (FBX) and their combination on a model of acute gouty arthritis induced by intraarticular injection of monourate sodium crystal (MUC) injection in rats. Additionally, we established an HPTLC method for the quantitative determination of both drugs simultaneously and applied this method to detect this combination in rat plasma. In this study, the treated male Wistar rats were grouped as follows: a negative control group injected with phosphate buffer saline (PBS) and a positive control group injected with MUC in their tibiotarsal joint. Four groups were treated orally with diclofenac (4 mg kg−1), MNK (10 mg kg−1), FBX (5 mg kg−1) and MNK plus FBX before MUC injection in their tibiotarsal joints. MUC injection in joints without pretreatment led to a progressive significant increase in joint diameter and heavy leucocytic infiltration compared to the PBS-injected joints. Treatment with diclofenac or a combination of MNK and FBX significantly decreased both joint diameters and leucocytic infiltration compared to the MUC group. MNK or FBX treatment attenuated leucocytic infiltration and significantly decreased joint diameters compared to the MUC group. Thus, MNK and FBX can prevent the development of MUC-induced acute gouty arthritis in rats. Also, MNK can be an alternative preventive treatment, particularly in elderly patients who cannot tolerate NSAIDs or corticosteroid. Furthermore, a new thin-layer chromatographic method combined with fluorescence detection was developed and validated for the simultaneous estimation of a mixture of FBX and MNK in spiked human plasma. In this method, we employed TLC aluminium plates precoated with silica gel G 60F254 as the stationary phase and chloroform : methanol (9 : 1, v/v) as the mobile phase. The optimized mobile phase selected for development gives compact bands (Rf values are 0.28 and 0.63 for FBX and MNK, respectively). The emission intensities were measured using a K400 optical filter after excitation at 322 nm. The linear regression data for the calibration plots showed excellent linear relationship (r = 0.9990 and 0.9996 for FBX and MNK, respectively), and the linearity range was 10.0–800.0 ng per band for both drugs. According to ICH-guidelines, this method was validated for precision, accuracy, robustness and selectivity. Also, the limits of detection and quantitation were calculated. In addition, stability studies on the studied mixture were performed. Statistical analysis proved that this method is reproducible and selective for the estimation of a mixture of FBX and MNK.

The present study was designed to evaluate the potential protective effects of the cysteinyl leukotriene receptor blocker montelukast (MNK) and the xanthine oxidase inhibitor febuxostat (FBX) and their combination on a model of acute gouty arthritis induced by intraarticular injection of monourate sodium crystal (MUC) injection in rats. Additionally, we established an HPTLC method for the quantitative determination of both drugs simultaneously and applied this method to detect this combination in rat plasma. In this study, the treated male Wistar rats were grouped as follows: a negative control group injected with phosphate buffer saline (PBS) and a positive control group injected with MUC in their tibiotarsal joint. Four groups were treated orally with diclofenac (4 mg kg−1), MNK (10 mg kg−1), FBX (5 mg kg−1) and MNK plus FBX before MUC injection in their tibiotarsal joints. MUC injection in joints without pretreatment led to a progressive significant increase in joint diameter and heavy leucocytic infiltration compared to the PBS-injected joints. Treatment with diclofenac or a combination of MNK and FBX significantly decreased both joint diameters and leucocytic infiltration compared to the MUC group. MNK or FBX treatment attenuated leucocytic infiltration and significantly decreased joint diameters compared to the MUC group. Thus, MNK and FBX can prevent the development of MUC-induced acute gouty arthritis in rats. Also, MNK can be an alternative preventive treatment, particularly in elderly patients who cannot tolerate NSAIDs or corticosteroid. Furthermore, a new thin-layer chromatographic method combined with fluorescence detection was developed and validated for the simultaneous estimation of a mixture of FBX and MNK in spiked human plasma. In this method, we employed TLC aluminium plates precoated with silica gel G 60F254 as the stationary phase and chloroform : methanol (9 : 1, v/v) as the mobile phase. The optimized mobile phase selected for development gives compact bands (Rf values are 0.28 and 0.63 for FBX and MNK, respectively). The emission intensities were measured using a K400 optical filter after excitation at 322 nm. The linear regression data for the calibration plots showed excellent linear relationship (r = 0.9990 and 0.9996 for FBX and MNK, respectively), and the linearity range was 10.0–800.0 ng per band for both drugs. According to ICH-guidelines, this method was validated for precision, accuracy, robustness and selectivity. Also, the limits of detection and quantitation were calculated. In addition, stability studies on the studied mixture were performed. Statistical analysis proved that this method is reproducible and selective for the estimation of a mixture of FBX and MNK.

The present study was designed to evaluate the potential protective effects of the cysteinyl leukotriene receptor blocker montelukast (MNK) and the xanthine oxidase inhibitor febuxostat (FBX) and their combination on a model of acute gouty arthritis induced by intraarticular injection of monourate sodium crystal (MUC) injection in rats. Additionally, we established an HPTLC method for the quantitative determination of both drugs simultaneously and applied this method to detect this combination in rat plasma. In this study, the treated male Wistar rats were grouped as follows: a negative control group injected with phosphate buffer saline (PBS) and a positive control group injected with MUC in their tibiotarsal joint. Four groups were treated orally with diclofenac (4 mg kg−1), MNK (10 mg kg−1), FBX (5 mg kg−1) and MNK plus FBX before MUC injection in their tibiotarsal joints. MUC injection in joints without pretreatment led to a progressive significant increase in joint diameter and heavy leucocytic infiltration compared to the PBS-injected joints. Treatment with diclofenac or a combination of MNK and FBX significantly decreased both joint diameters and leucocytic infiltration compared to the MUC group. MNK or FBX treatment attenuated leucocytic infiltration and significantly decreased joint diameters compared to the MUC group. Thus, MNK and FBX can prevent the development of MUC-induced acute gouty arthritis in rats. Also, MNK can be an alternative preventive treatment, particularly in elderly patients who cannot tolerate NSAIDs or corticosteroid. Furthermore, a new thin-layer chromatographic method combined with fluorescence detection was developed and validated for the simultaneous estimation of a mixture of FBX and MNK in spiked human plasma. In this method, we employed TLC aluminium plates precoated with silica gel G 60F254 as the stationary phase and chloroform : methanol (9 : 1, v/v) as the mobile phase. The optimized mobile phase selected for development gives compact bands (Rf values are 0.28 and 0.63 for FBX and MNK, respectively). The emission intensities were measured using a K400 optical filter after excitation at 322 nm. The linear regression data for the calibration plots showed excellent linear relationship (r = 0.9990 and 0.9996 for FBX and MNK, respectively), and the linearity range was 10.0–800.0 ng per band for both drugs. According to ICH-guidelines, this method was validated for precision, accuracy, robustness and selectivity. Also, the limits of detection and quantitation were calculated. In addition, stability studies on the studied mixture were performed. Statistical analysis proved that this method is reproducible and selective for the estimation of a mixture of FBX and MNK.

The present study was designed to evaluate the potential protective effects of the cysteinyl leukotriene receptor blocker montelukast (MNK) and the xanthine oxidase inhibitor febuxostat (FBX) and their combination on a model of acute gouty arthritis induced by intraarticular injection of monourate sodium crystal (MUC) injection in rats. Additionally, we established an HPTLC method for the quantitative determination of both drugs simultaneously and applied this method to detect this combination in rat plasma. In this study, the treated male Wistar rats were grouped as follows: a negative control group injected with phosphate buffer saline (PBS) and a positive control group injected with MUC in their tibiotarsal joint. Four groups were treated orally with diclofenac (4 mg kg−1), MNK (10 mg kg−1), FBX (5 mg kg−1) and MNK plus FBX before MUC injection in their tibiotarsal joints. MUC injection in joints without pretreatment led to a progressive significant increase in joint diameter and heavy leucocytic infiltration compared to the PBS-injected joints. Treatment with diclofenac or a combination of MNK and FBX significantly decreased both joint diameters and leucocytic infiltration compared to the MUC group. MNK or FBX treatment attenuated leucocytic infiltration and significantly decreased joint diameters compared to the MUC group. Thus, MNK and FBX can prevent the development of MUC-induced acute gouty arthritis in rats. Also, MNK can be an alternative preventive treatment, particularly in elderly patients who cannot tolerate NSAIDs or corticosteroid. Furthermore, a new thin-layer chromatographic method combined with fluorescence detection was developed and validated for the simultaneous estimation of a mixture of FBX and MNK in spiked human plasma. In this method, we employed TLC aluminium plates precoated with silica gel G 60F254 as the stationary phase and chloroform : methanol (9 : 1, v/v) as the mobile phase. The optimized mobile phase selected for development gives compact bands (Rf values are 0.28 and 0.63 for FBX and MNK, respectively). The emission intensities were measured using a K400 optical filter after excitation at 322 nm. The linear regression data for the calibration plots showed excellent linear relationship (r = 0.9990 and 0.9996 for FBX and MNK, respectively), and the linearity range was 10.0–800.0 ng per band for both drugs. According to ICH-guidelines, this method was validated for precision, accuracy, robustness and selectivity. Also, the limits of detection and quantitation were calculated. In addition, stability studies on the studied mixture were performed. Statistical analysis proved that this method is reproducible and selective for the estimation of a mixture of FBX and MNK.

The present study was designed to evaluate the potential protective effects of the cysteinyl leukotriene receptor blocker montelukast (MNK) and the xanthine oxidase inhibitor febuxostat (FBX) and their combination on a model of acute gouty arthritis induced by intraarticular injection of monourate sodium crystal (MUC) injection in rats. Additionally, we established an HPTLC method for the quantitative determination of both drugs simultaneously and applied this method to detect this combination in rat plasma. In this study, the treated male Wistar rats were grouped as follows: a negative control group injected with phosphate buffer saline (PBS) and a positive control group injected with MUC in their tibiotarsal joint. Four groups were treated orally with diclofenac (4 mg kg−1), MNK (10 mg kg−1), FBX (5 mg kg−1) and MNK plus FBX before MUC injection in their tibiotarsal joints. MUC injection in joints without pretreatment led to a progressive significant increase in joint diameter and heavy leucocytic infiltration compared to the PBS-injected joints. Treatment with diclofenac or a combination of MNK and FBX significantly decreased both joint diameters and leucocytic infiltration compared to the MUC group. MNK or FBX treatment attenuated leucocytic infiltration and significantly decreased joint diameters compared to the MUC group. Thus, MNK and FBX can prevent the development of MUC-induced acute gouty arthritis in rats. Also, MNK can be an alternative preventive treatment, particularly in elderly patients who cannot tolerate NSAIDs or corticosteroid. Furthermore, a new thin-layer chromatographic method combined with fluorescence detection was developed and validated for the simultaneous estimation of a mixture of FBX and MNK in spiked human plasma. In this method, we employed TLC aluminium plates precoated with silica gel G 60F254 as the stationary phase and chloroform : methanol (9 : 1, v/v) as the mobile phase. The optimized mobile phase selected for development gives compact bands (Rf values are 0.28 and 0.63 for FBX and MNK, respectively). The emission intensities were measured using a K400 optical filter after excitation at 322 nm. The linear regression data for the calibration plots showed excellent linear relationship (r = 0.9990 and 0.9996 for FBX and MNK, respectively), and the linearity range was 10.0–800.0 ng per band for both drugs. According to ICH-guidelines, this method was validated for precision, accuracy, robustness and selectivity. Also, the limits of detection and quantitation were calculated. In addition, stability studies on the studied mixture were performed. Statistical analysis proved that this method is reproducible and selective for the estimation of a mixture of FBX and MNK.

A rapid, simple, selective and precise fluorimetric method was developed and validated for determination of a selective xanthine oxidase inhibitor; febuxostat (FBX) in pharmaceutical formulations and in human plasma. The proposed method is based on quenching effect of FBX on the fluorescence intensity of terbium (Tb3+) through fluorescence resonance energy transfer (FRET) from Tb3+ to FBX. The formed complex was measured at λex. 320 nm/λem. 490 nm against a reagent blank. Fluorescence intensity of Tb3+ was diminished when FBX was added. A linear relationship between the fluorescence quenching value of the formed complex (ΔF = FTb3+ − FFBX−Tb3+) and the concentration of FBX was investigated. The reaction conditions and the fluorescence spectral properties of the complex have been studied. The linearity range of the developed method was 1.0–16.0 μg/ml. The suggested method was applied successfully for the estimation of FBX in bulk powder, dosage forms and spiked plasma samples with excellent recoveries (96.79–98.89%). In addition, the developed method has been successfully applied for determination of FBX in real plasma samples collected from healthy volunteers with good recoveries (82.06–85.65%). All obtained results of the developed method were statistically analyzed and validated according to ICH (International Conference on Harmonization) guidelines.

A rapid, simple, selective and precise fluorimetric method was developed and validated for determination of a selective xanthine oxidase inhibitor; febuxostat (FBX) in pharmaceutical formulations and in human plasma. The proposed method is based on quenching effect of FBX on the fluorescence intensity of terbium (Tb3+) through fluorescence resonance energy transfer (FRET) from Tb3+ to FBX. The formed complex was measured at λex. 320 nm/λem. 490 nm against a reagent blank. Fluorescence intensity of Tb3+ was diminished when FBX was added. A linear relationship between the fluorescence quenching value of the formed complex (ΔF = FTb3+ − FFBX−Tb3+) and the concentration of FBX was investigated. The reaction conditions and the fluorescence spectral properties of the complex have been studied. The linearity range of the developed method was 1.0–16.0 μg/ml. The suggested method was applied successfully for the estimation of FBX in bulk powder, dosage forms and spiked plasma samples with excellent recoveries (96.79–98.89%). In addition, the developed method has been successfully applied for determination of FBX in real plasma samples collected from healthy volunteers with good recoveries (82.06–85.65%). All obtained results of the developed method were statistically analyzed and validated according to ICH (International Conference on Harmonization) guidelines.

A rapid, simple, selective and precise fluorimetric method was developed and validated for determination of a selective xanthine oxidase inhibitor; febuxostat (FBX) in pharmaceutical formulations and in human plasma. The proposed method is based on quenching effect of FBX on the fluorescence intensity of terbium (Tb3+) through fluorescence resonance energy transfer (FRET) from Tb3+ to FBX. The formed complex was measured at λex. 320 nm/λem. 490 nm against a reagent blank. Fluorescence intensity of Tb3+ was diminished when FBX was added. A linear relationship between the fluorescence quenching value of the formed complex (ΔF = FTb3+ − FFBX−Tb3+) and the concentration of FBX was investigated. The reaction conditions and the fluorescence spectral properties of the complex have been studied. The linearity range of the developed method was 1.0–16.0 μg/ml. The suggested method was applied successfully for the estimation of FBX in bulk powder, dosage forms and spiked plasma samples with excellent recoveries (96.79–98.89%). In addition, the developed method has been successfully applied for determination of FBX in real plasma samples collected from healthy volunteers with good recoveries (82.06–85.65%). All obtained results of the developed method were statistically analyzed and validated according to ICH (International Conference on Harmonization) guidelines.

The aim of this paper is to develop sensitive, accurate, reproducible and robust RP-HPLC with fluorescence detection for estimation of donepezil (DZ) in rabbit plasma using silodosin as the internal standard (IS). The prepared samples were quantified on reversed phase column Luna C18(2) (150 × 4.6 mm i.d., 5 µm particle size) operated at room temperature using the mobile phase consisting of methanol: 0.1% acetic acid (50 : 50, v/v) at a flow rate of 1 ml min−1. The method was fully validated according to bioanalytical validation guidelines of FDA in terms of system suitability, selectivity, sensitivity, precision and stability. It was found that the increase in peak areas followed the increase of DZ concentration in the range of 2.56–200.00 ng ml−1 with LOD of 0.85 ng ml−1. The method was successfully applied for the determination of DZ in rabbit plasma using manual shaking dispersive liquid–liquid microextraction.