Gladys E. Granero

Biowaiver Monographs for Immediate Release Solid Oral Dosage Forms: Furosemide

Literature and new experimental data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing furosemide are reviewed. The available data on solubility, oral absorption, and permeability are sufficiently conclusive to classify furosemide into Class IV of the Biopharmaceutics Classification System (BCS). Furosemides therapeutic use and therapeutic index, its pharmacokinetic properties, data related to the possibility of excipient interactions and reported BE/bioavailability (BA) problems are also taken into consideration. In view of the data available, it is concluded that the biowaiver procedure cannot be justified for either the registration of new multisource drug products or major postapproval changes (variations) to existing drug products.

An efficient ternary complex of acetazolamide with HP-ß-CD and TEA for topical ocular administration

In order to enhance the ocular bioavailability of acetazolamide (ACZ), a multicomponent complex with hydroxypropyl-ss-cyclodextrin (HP-ss-CD) and triethanolamine (TEA) was prepared to be applied topically. In vitro corneal permeation across isolated rabbit cornea of proposed ACZ formulations and the marketed AZOPT(R) formulation (1% w/v brinzolamide) was studied. Formulations were also tested for their effect on the intraocular pressure (IOP) in rabbits. (1)H- and (13)C-NMR experiments were undertaken to verify the real inclusion of ACZ in the ACZ-HP-ss-CD-TEA multicomponent complex. The binding of ACZ to HP-ss-CD in the presence of TEA is described. The increase of TEA concentration decreases the apparent equilibrium constant for the ACZ-HP-ss-CD complex. The ternary system ACZ-HP-ss-CD-TEA seemed to be able to reduce IOP in about 30%. This effect was sustained for 4 h after instillation. In vitro corneal permeation studies demonstrated that the ACZ permeation was increased. RMN experiments indicated that TEA can weaken the association between ACZ and HP-ss-CD increasing the drug ocular hypotensive effect by increasing the free drug available for absorption. Our formulations were considered practically non-irritant. These results indicate that the ternary system ACZ-HP-ss-CD-TEA might be a useful tool for formulating aqueous ACZ eye drop solutions.

Dissolution and Solubility Behavior of Fenofibrate in Sodium Lauryl Sulfate Solutions

The solubility of fenofibrate in pH 6.8 McIlvaine buffers containing varying concentrations of sodium lauryl sulfate was determined. The dissolution behavior of fenofibrate was also examined in the same solutions with rotating disk experiments. It was observed that the enhancement in intrinsic dissolution rate was approximately 500-fold and the enhancement in solubility was approximately 2000-fold in a pH 6.8 buffer containing 2% (w/v) sodium lauryl sulfate compared to that in buffer alone. The micellar solubilization equilibrium coefficient (k*) was estimated from the solubility data and found to be 30884 ± 213 L/mol. The diffusivity for the free solute, 7.15 × 10− 6 cm2/s, was calculated using Schroeders additive molal volume estimates and Hayduk-Laurie correlation. The diffusivity of the drug-loaded micelle, estimated from the experimental solubility and dissolution data and the calculated value for free solute diffusivity, was 0.86 × 10− 6 cm2/s. Thus, the much lower enhancement in dissolution of fenofibrate compared to its enhancement in solubility in surfactant solutions appears to be consistent with the contribution to the total transport due to enhanced micellar solubilization as well as a large decrease ( ∼ 8-fold) in the diffusivity of the drug-loaded micelle.

Biowaiver monographs for immediate release solid oral dosage forms: Acetazolamide

Literature data relevant to the decision to allow a waiver of in vivo bioequivalence (BE) testing for the approval of immediate release (IR) solid oral dosage forms containing acetazolamide are reviewed. Acetazolamides solubility and permeability characteristics according to the Biopharmaceutics Classification System (BCS), as well as its therapeutic use and therapeutic index, its pharmacokinetic properties, data related to the possibility of excipient interactions and reported BE/bioavailability (BA) problems are taken into consideration. The available data on solubility, on oral absorption and permeability are not sufficiently conclusive to classify acetazolamide with certainty. Taking a conservative approach, no biowaiver is considered justified for the registration of new multisource drug products. However, SUPAC level 1 and level 2 postapproval changes and most EU Type I variations can be approved waiving in vivo BE studies.

Second derivative spectrophotometric determination of trimethoprime and sulfamethoxazole in the presence of hydroxypropyl-β-cyclodextrin (HP-β-CD)

Abstract An easy and rapid second-derivative spectrophotometric method for the simultaneous analysis of trimethoprime (TMP) and sulfamethoxazole (SM) is described. These drugs have been used as antibacterial against a wide spectrum of organisms and combinations of these drugs are commonly used for the treatment of a variety of infections. The most advantageous approach of this method is the use of HP-β-CD, which allows to improve the performance of the second-derivative ultraviolet spectrophotometry. For both compounds, a shift of the absorption bands and variations of their intensity were observed. The calibration graphs were linear in the concentration range of TMP (1.92–19.2 μg ml −1 ) and SM (1.60–16.5 μg ml −1 ), the correlation coefficient for the calibration graphs was better than 0.9994 and the precision was satisfactory (CV%

Characterization, dissolution and in vivo evaluation of solid acetazolamide complexes

The effects of binary and ternary systems of acetazolamide (ACZ) with hydroxypropyl-β-cyclodextrin (HP-β-CD) alone or with triethanolamine (TEA) on the crystalline properties, dissolution and intraocular pressure (IOP)-lowering effect were investigated. It was found that the crystal structure of ACZ powder could be modified by the processing conditions. Freeze-drying ACZ powder affected not only the particle morphology but also its polymorphic form and the starting ACZ was converted to pure form A upon freeze-drying treatment. Results provided by DSC/TGA, XRPD, SEM and FT-IR suggested the formation of inclusion complexes between ACZ with HP-β-CD alone or with TEA, obtained by the freeze-drying method and the conversion of the drug into the amorphous state. Binary and ternary systems of ACZ obtained by freeze-drying exhibited significantly enhanced ACZ dissolution rates. The IOP-lowering effects of ACZ and its complexes with HP-β-CD alone or with TEA were studied in normotensive rabbits. Whereas the maximum IOP-lowering effect (~4 mmHg, ~33%), obtained with these binary and ternary lyophilized ACZ systems occurred at around 90 min, the ternary system exhibited a longer maximum IOP-lowering effect peak compared with that of the binary system. These results are in line with those obtained from the dissolution studies, where the ternary system exhibited longer dissolution times compared to the lyophilized binary one. Results obtained from the dissolution studies, also showed that freeze-drying the native crystalline form of ACZ significantly increased the dissolution rate of ACZ, thus improving the IOP-lowering effect of this drug.

Synthesis and characterization of binary and ternary complexes of diclofenac with a methyl-β-CD and monoethanolamine and in vitro transdermal evaluation

Here, we describe the chemical characterization of the inclusion complex between diclofenac (DCF) and methyl-beta-cyclodextrin (M-beta-CD) in the presence or absence of monoethanolamine (MEA). Several techniques were used to analyze the complex both in solution and in the solid state. Solubility of DCF was increased by the addition of M-beta-CD. However, the DCF solubility increase was more significant by the addition of M-beta-CD in the presence of MEA. In vitro permeation experiments through excised human skin revealed that DCF was enhanced by M-beta-CD. Nevertheless, further improvement in the flux and the permeability coefficient of DCF was obtained by the ternary system DCF-M-beta-CD-MEA.

Characterization of the hydrochlorothiazide: β-cyclodextrin inclusion complex. Experimental and theoretical methods.

Hydrochlorothiazide (HCT) is one of the most commonly prescribed antihypertensive drugs. In an attempt to gain an insight into the physicochemical and molecular aspects controlling the complex architecture of native β-cyclodextrin (β-CD) with HCT, we performed multiple-temperature-pH isothermal titration calorimetric measurements of the HCT:β-CD system, together with proton nuclear magnetic resonance spectroscopy ((1)H NMR), phase solubility analysis, and molecular modeling methods. The A(L)-type diagrams, obtained at different pH values and temperatures, suggested the formation of soluble 1:1 inclusion complexes of β-CD with HCT. The corresponding stability constants (K(1:1)) were determined by phase solubility studies and compared with those obtained by ITC, with good agreement between these two techniques being found. The three-dimensional array of the complex was studied by (1)H NMR and molecular modeling methods. Both techniques confirmed the formation of the inclusion complex, with good agreement between the experimental and theoretical techniques regarding the HCT binding mode to β-CD. Also, the forces involved in the association process were determined, both from the thermodynamic parameters obtained by ITC (association enthalpy, binding constant, Gibbs free energy, and entropy) and from energetic decomposition analyses derived from computational methods. We concluded that the formation of the HCT:β-CD complex was enthalpy driven, with the inclusion mode of HCT being highly dependent on its ionization state. In all cases, sustained hydrogen bond interactions with hydroxyl groups of β-CD were identified, with the solvation energy limiting the affinity. Regarding the pH and temperature dependence, lower affinity constants were found at higher HCT ionization states and temperatures.

Promising complexes of acetazolamide for topical ocular administration

Importance of the field: Acetazolamide (ACZ), a carbonic anhydrase inhibitor (CAI), and other oral CAIs have been an integral part of antiglaucoma therapy for > 40 years. ACZ is used orally for the reduction of intraocular pressure in patients suffering from glaucoma. However, this treatment leads to unpleasant systemic side effects. The answer to the undesirable effects of ACZ is the topical delivery of this drug into the eye, where it could elicit its physiological action. However, the development of a topical formulation of ACZ is limited by its poor ocular bioavailability, which can be largely attributed to its poor penetration coefficient and poor biphasic solubility. Areas covered in this review: This review offers an overview of different approaches to delivering ACZ to the eye, highlighting the potential of the ternary system ACZ:HP-β-CD:TEA as a tool for formulating aqueous ACZ eye drop solutions. What the reader will gain: A critical analysis is provided to highlight the key issues to design formulations containing hydrophilic cyclodextrins. Take home message: The ACZ:HP-β-CD:TEA complex is an important new approach to improve the ocular bioavailability of this drug. This approach may be applied to other CAIs in the future.

HYDROPHOBICITY PARAMETERS DETERMINED BY REVERSED-PHASE LIQUID CHROMATOGRAPHY FOR SOME NEW ISOXAZOLYL-NAPHTHOQUINONES

The lipophilic character of a series of new isoxazolyl-naphthoquinones has been studied. Partition chromatography procedures (RP-HPLC and RP-TLC) were developed for determining the log Po-w(n-octanol/water partition coefficient) values. The experimental values from these methods were validated by comparison with those obtained from the conventional shake flask method, except with the more lipophilic because they have poor water solubility. Also, the log Po-w was calculated using a CLOGP computer programme.