Pig and guinea pig skin as surrogates for human in vitro penetration studies: A quantitative review

Both human and animal skin in vitro models are used to predict percutaneous penetration in humans. The objective of this review is a quantitative comparison of permeability and lag time measurements between human and animal skin, including an evaluation of the intra and inter species variability. We limit our focus to domestic pig and rodent guinea pig skin as surrogates for human skin, and consider only studies in which both animal and human penetration of a given chemical were measured jointly in the same lab. When the in vitro permeability of pig and human skin were compared, the Pearson product moment correlation coefficient (r) was 0.88 (P < 0.0001), with an intra species average coefficient of variation of skin permeability of 21% for pig and 35% for human, and an inter species average coefficient of variation of 37% for the set of studied compounds (n = 41). The lag times of pig skin and human skin did not correlate (r = 0.35, P = 0.26). When the in vitro permeability of guinea pig and human skin were compared, r = 0.96 (P < 0.0001), with an average intra species coefficient of variation of 19% for guinea pig and 24% for human, and an inter species coefficient of variation of permeability of 41% for the set of studied compounds (n = 15). Lag times of guinea pig and human skin correlated (r = 0.90, P < 0.0001, n = 12). When permeability data was not reported a factor of difference (FOD) of animal to human skin was calculated for pig skin (n = 50) and guinea pig skin (n = 25). For pig skin, 80% of measurements fell within the range 0.3 < FOD < 3. For guinea pig skin, 65% fell within that range. Both pig and guinea pig are good models for human skin permeability and have less variability than the human skin model. The skin model of choice will depend on the final purpose of the study and the compound under investigation.     

Assessment of gastrointestinal pH,fluid and lymphoid tissue in the guinea pig,rabbit and pig,and implications for their use in drug development

Laboratory animals are often used in drug delivery and research. However, basic information about their gastrointestinal pH, fluid volume, and lymphoid tissue is not completely known. We have investigated these post-mortem in healthy guinea pigs, rabbits and pigs, to assess their suitability for pre-clinical studies by comparing the results with reported human literature. The mean gastric pH (fed ad libitum) was 2.9 and 4.4 in guinea pig and pig, respectively. In contrast, a very low pH (1.6) was recorded in the rabbits. The small intestinal pH was found in the range of 6.4–7.4 in the guinea pigs and rabbits, whereas lower pH (6.1–6.7) was recorded in the pig, which may have consequences for ionisable or pH responsive systems when tested in pig. A relatively lower pH than in the small intestine was found in the caecum (6.0–6.4) and colon (6.1–6.6) of the guinea pig, rabbit and the pig. The water content in the gastrointestinal tract of guinea pig, rabbit and pig was 51 g, 153 g and 1546 g, respectively. When normalized to the body weight, the guinea pig, had larger amounts of water compared to the rabbit and the pig (guinea pig > rabbit > pig); in contrast, a reverse order was found when normalized to per unit length of the gut (guinea pig < rabbit < pig). The lymphoid tissue distribution (lymphoid follicles, Peyer's patches and long strips) along the length of the gut in these animals is presented; in particular, an abundance of lymphoid tissue was found in pig's stomach, small intestine and caecum, and rabbit's appendix. Their ample presence indicated the potential utility of these animal species in oral and colonic vaccination. These differences in the gastrointestinal parameters of the guinea pig, rabbit and pig reiterates the crucial importance of correctly selecting animal models for pre-clinical studies.     

Transdermal Delivery of Naltrexol and Skin Permeability Lifetime after Microneedle Treatment in Hairless Guinea Pigs

Controlled-release delivery of 6-β-naltrexol (NTXOL), the major active metabolite of naltrexone, via a transdermal patch is desirable for treatment of alcoholism. Unfortunately, NTXOL does not diffuse across skin at a therapeutic rate. Therefore, the focus of this study was to evaluate microneedle (MN) skin permeation enhancement of NTXOL’s hydrochloride salt in hairless guinea pigs. Specifically, these studies were designed to determine the lifetime of MN-created aqueous pore pathways. MN pore lifetime was estimated by pharmacokinetic evaluation, transepidermal water loss (TEWL) and visualization of MN-treated skin pore diameters using light microscopy. A 3.6-fold enhancement in steady-state plasma concentration was observed in vivo with MN treated skin with NTXOL HCl, as compared to NTXOL base. TEWL measurements and microscopic evaluation of stained MN-treated guinea pig skin indicated the presence of pores, suggesting a feasible nonlipid bilayer pathway for enhanced transdermal delivery. Overall, MN-assisted transdermal delivery appears viable for at least 48 h after MN-application. © 2010 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 99:3072-3080, 2010     

光甘草定醇质体与立方液晶纳米粒皮肤滞留量比较及抗豚鼠皮肤光老化作用观察

目的 制备光甘草定醇质体与立方液晶纳米粒,通过测定2种纳米制剂在离体豚鼠皮肤中的滞留量优选出适合光老化经皮给药的制剂。建立光老化模型,通过观察优选制剂对豚鼠光老化模型的治疗效果来评价药物的疗效。方法 采用注入法制备光甘草定醇质体,高压均质法制备光甘草定立方液晶纳米粒,利用Franz扩散装置考察光甘草定醇质体、立方液晶纳米粒凝胶离体鼠皮中的滞留量,优选出光甘草定经皮给药治疗光老化的纳米制剂。紫外线照射背部剃毛豚鼠建立皮肤光老化模型。雌性豚鼠随机分为模型组、基质（给予空白凝胶0.5 g/只）组、维甲酸（阳性对照,0.5 g/只）组和甘草定立方液晶纳米粒凝胶高、低剂量（0.50、0.25 g/只）组,治疗2周后,通过肉眼观察、HE染色、Masson染色等评价其治疗效果,用水份测定仪观察其对豚鼠皮肤含水量的影响。结果 2种纳米制剂凝胶的鼠皮滞留量最高者为光甘草定立方液晶纳米粒凝胶。豚鼠皮肤光老化模型建立成功,HE染色、Masson染色等结果表明光甘草定立方液晶纳米粒对光老化有明显的治疗效果,使光老化皮肤的含水量显著升高（P<0.05）。结论 光甘草定立方液晶纳米粒在离体鼠皮中的滞留较高,对豚鼠皮肤光老化模型治疗效果显著,为光甘草定的临床应用提供了新的方法与思路。     

Optimization of Impedance Spectroscopy Techniques for Measuring Cutaneous Micropore Formation after Microneedle Treatment in an Elderly Population

Purpose

The objective of this study was to optimize a reproducible impedance spectroscopy method in elderly subjects as a means to evaluate the effects of microneedles on aging skin.

Methods

Human volunteers were treated with microneedles at six sites on the upper arm. Repeated impedance measurements were taken pre- and post-microneedle insertion. Two electrode types were evaluated (dry vs. gel), using either light or direct pressure to maintain contact between the electrode and skin surface. Transepidermal water loss (TEWL) was measured as a complementary technique.

Results

Five control subjects and nine elderly subjects completed the study. Microneedle insertion produced a significant decrease in impedance from baseline in all subjects (p?p? Conclusions Impedance spectroscopy reproducibly measures micropore formation in elderly subjects, which will be essential for future studies describing microneedle-assisted transdermal delivery in aging populations.     

Hydrogel-Forming Microneedles Increase in Volume During Swelling in Skin,but Skin Barrier Function Recovery is Unaffected

We describe, for the first time, quantification of in-skin swelling and fluid uptake by hydrogel-forming microneedle (MN) arrays and skin barrier recovery in human volunteers. Such MN arrays, prepared from aqueous blends of hydrolyzed poly(methylvinylether/maleic anhydride) (15%, w/w) and the cross-linker poly(ethyleneglycol) 10,000 Da (7.5%, w/w), were inserted into the skin of human volunteers (n = 15) to depths of approximately 300 μm by gentle hand pressure. The MN arrays swelled in skin, taking up skin interstitial fluid, such that their mass had increased by approximately 30% after 6 h in skin. Importantly, however, skin barrier function recovered within 24 h after MN removal, regardless of how long the MN had been in skin or how much their volume had increased with swelling. Further research on closure of MN-induced micropores is required because transepidermal water loss measurements suggested micropore closure, whereas optical coherence tomography indicated that MN-induced micropores had not closed over, even 24 h after MN had been removed. There were no complaints of skin reactions, adverse events, or strong views against MN use by any of the volunteers. Only some minor erythema was noted after patch removal, although this always resolved within 48 h, and no adverse events were present on follow-up. © 2014 Wiley Periodicals, Inc. and the American Pharmacists Association.     

In vivo sustained dermal delivery and pharmacokinetics of interferon alpha in biphasic vesicles after topical application

Biphasic vesicles, a novel nanostructured lipid-based delivery system show potential for topical application of interferon alpha (IFN α) for the treatment of human papillomavirus (HPV) infections (anogenital warts). Dermal delivery of IFN α encapsulated in biphasic vesicles (BPV-IFN α), applied topically to the skin, was characterized in a guinea pig model.BPV-IFN α (1 g, 2 MIU/g) was topically applied either as a single or multiple treatments on the skin of guinea pigs. As a comparison with currently used regimens, IFN α solution was administered intravenously or intradermally. Skin and serum samples were collected over 96 h, IFN α levels were determined by an antiviral assay, and half-life (t_1/2) and elimination (k) rates were calculated.Topical BPV-IFN α treatment resulted in maximum skin levels (about 100,000 U/100 cm²) of IFN α within 6 h and maintained for 72–96 h. Clearance from the skin after intradermal injections was initially fast (t_1/2 0.62 h, k 1.1179 h⁻¹), followed by a slower steady decrease after 6 h. After intravenous and intradermal administration, IFN α was rapidly cleared from the serum, t_1/2 0.75 h, k 0.9271 h⁻¹ and t_1/2 1.28 h, k 0.5421 h⁻¹, respectively, whereas after topical application, IFN α levels remained below 100 U/mL. Topical application of BPV- IFN α resulted in sustained delivery of biologically active IFN α locally into skin with minimal systemic exposure.     

Diclofenac Enables Unprecedented Week-Long Microneedle-Enhanced Delivery of a Skin Impermeable Medication in Humans

Purpose

Microneedles applied to the skin create micropores, allowing transdermal drug delivery of skin-impermeable compounds. The first human study with this technique demonstrated delivery of naltrexone (an opioid antagonist) for two to three days. Rapid micropore closure, however, blunts the delivery window. Application of diclofenac (an anti-inflammatory) allows seven days of naltrexone delivery in animals. The purpose of the current work was to demonstrate delivery of naltrexone for seven days following one microneedle treatment in humans.

Methods

Human subjects were treated with microneedles, diclofenac (or placebo), and naltrexone. Impedance measurements were used as a surrogate marker to measure micropore formation, and plasma naltrexone concentrations were measured for seven days post-microneedle application.

Results

Impedance dropped significantly from baseline to post-microneedle treatment, confirming micropore formation. Naltrexone was detected for seven days in Group 1 (diclofenac + naltrexone, n?=?6), vs. 72 h in Group 2 (placebo + naltrexone, n?=?2). At study completion, a significant difference in impedance was observed between intact and microneedle-treated skin in Group 1 (confirming the presence of micropores).

Conclusion

This is the first study demonstrating week-long drug delivery after one microneedle application, which would increase patient compliance and allow delivery of therapies for chronic diseases.     

Aclidinium bromide,a new,long-acting,inhaled muscarinic antagonist: In vitro plasma inactivation and pharmacological activity of its main metabolites

Aclidinium bromide is a novel, long-acting inhaled muscarinic antagonist drug in Phase III clinical trials for chronic obstructive pulmonary disease (COPD). The aims of this study were to evaluate the in vitro stability of the ester drug aclidinium in plasma from various species, and the in vitro and in vivo pharmacological activity of its hydrolysis metabolites. Following incubation of aclidinium in pooled samples of human, rat, guinea pig or dog plasma, the rate of hydrolysis was quantified by reversed phase ultra performance liquid chromatography and mass spectrometry. Tiotropium and ipratropium were used as comparators. The in vitro biochemical profile of the hydrolysis metabolites of aclidinium was assessed in human M₁ to M₅ muscarinic receptors and in a standard selectivity panel (85 G protein-coupled receptors [GPCRs], ion channels and enzymes). The bronchodilator activity of the metabolites of aclidinium bromide was studied in guinea pigs after acetylcholine-induced bronchoconstriction.Aclidinium was rapidly hydrolysed into carboxylic acid and alcohol derivatives in guinea pig, rat, human and dog plasma with half-lives of 38, 11.7, 2.4 and 1.8 min, respectively. In contrast, ≥70% of tiotropium and ipratropium remained unchanged in the plasma after 60 min of incubation. The carboxylic acid and alcohol metabolites had no significant affinity for any of the muscarinic receptors, other GPCRs, ion channels or enzymes studied and showed no relevant antibronchoconstrictory activity in vivo. These results suggest that aclidinium may have a reduced systemic exposure and therefore less propensity for class-related systemic side effects in the clinical setting.     

In Vivo Evaluation of the Release of Zidovudine and Polystyrene Sulfonate from a Dual Intravaginal Bioadhesive Polymeric Device in the Pig Model

This study focused on determining the concentration of zidovudine (AZT) and polystyrene sulfonate (PSS) in the plasma and vaginal tissue of the large white pig from an intravaginal bioadhesive polymeric device (IBPD). Biocompatible polymers were compressed with AZT and PSS into caplet-shaped devices for insertion into the posterior fornix of the pig vagina. A total of 25 pigs were used in this study. Plasma was sampled from the jugular vein at various time points after insertion of the IBPD reaching 28 days. At day 28, the pigs were euthanized and vaginal tissue was removed and digested with subtilisin for AZT and PSS extraction. The mean concentration detected in vaginal tissue at day 28 was 1.214 ± 0.062 mg/mL for AZT and 1.400 ± 0.071 mg/mL for PSS. Plasma concentration was significantly lower for AZT (0.332 ± 0.014 mg/mL) and PSS (0.256 ± 0.013 mg/mL). This indicated higher retention of AZT and PSS within the vaginal tissue. Molecular mechanics simulations blueprinted polymer–drug–mucin force-field interactions and energies that explicated the spatial preference of AZT and PSS for the vaginal tissue. Histopathotoxicity studies revealed negative-to-mild foreign body events and results strongly suggest that the IBPD may be suitable for prolonged intravaginal drug delivery in preventing the transmission of sexually transmitted infections and HIV/AIDS.     

High-dose supplementation with natural α-tocopherol does neither alter the pharmacodynamics of atorvastatin nor its phase I metabolism in guinea pigs

It has been hypothesized in the literature that intake of high-dosage vitamin E supplements might alter the expression of cytochrome P₄₅₀ enzymes (CYP), particularly CYP3A4, which may lead to adverse nutrient–drug interactions. Because previously published studies reported conflicting findings, we investigated the pharmacodynamics of the lipid-lowering drug atorvastatin (ATV), a CYP3A4 substrate, in response to high-dose α-tocopherol (αT) feeding and determined protein expression and activities of relevant CYP. Groups of ten female Dunkin–Hartley guinea pigs were fed a control (5% fat) or a high-fat control diet (HFC; 21% fat, 0.15% cholesterol) or the HFC diet fortified with αT (250 mg/kg diet), ATV (300 mg/kg diet) or both ATV + αT for 6 weeks. Relative to control, HFC animals had increased serum cholesterol concentrations, which were significantly reduced by ATV. High-dose αT feeding in combination with ATV (ATV + αT), albeit not αT feeding alone (αT), significantly lowered serum cholesterol relative to HFC, but did not alter the cholesterol-lowering activity of the drug compared to the ATV treated guinea pigs. Protein expression of CYP3A4, CYP4F2, CYP20A1 and OATP C was similar in all groups. Accordingly, no differences in plasma concentrations of phase I metabolites of ATV were observed between the ATV and ATV + αT groups. In conclusion, feeding guinea pigs high-doses of αT for 6 weeks did neither alter the hepatic expression of CYP, nor the pharmacodynamics and metabolism of ATV. High-dose αT intake is thus unlikely to change the efficacy of drugs metabolized by CYP enzymes, particularly by CYP3A4.     

Effects of microneedle length,density, insertion time and multiple applications on human skin barrier function: Assessments by transepidermal water loss

Microneedle (MN) arrays have attracted considerable attention in recent years due to their ability to facilitate effective transdermal drug delivery. Despite appreciable research, there is still debate about how different MN dimensions or application modes influence permeabilization. This study aimed to investigate this issue by taking transepidermal water-loss measurements of dermatomed human skin samples following the insertion of solid polymeric MNs. Insertions caused an initial sharp drop in barrier function followed by a slower incomplete recovery – a paradigm consistent with MN-generation of microchannels that subsequently contract due to skin elasticity. While 600 μm-long MNs were more skin-perturbing than 400 μm MNs, insertion of 1000 μm-long MNs caused a smaller initial drop in integrity followed by a degree of long term permeabilization. This is explainable by the longest needles compacting the tissue, which then decompresses over subsequent hours. Multiple insertions had a similar effect as increasing MN length. There was some evidence that increasing MN density suppressed the partial barrier recovery caused by tissue contraction. Leaving MNs embedded in skin seemed to reduce the initial post-insertion drop in barrier function. Our results suggest that this in vitro TEWL approach can be used to rapidly screen MN-effects on skin.     

Formulation,optimization and evaluation of transferosomal gel for transdermal insulin delivery

The present study deals with the development of transferosomal gel containing insulin by reverse phase evaporation method for painless insulin delivery for use in the treatment of insulin dependent diabetes mellitus. The effect of independent process variables like ratio of lipids (soya lecithin:cholesterol), ratio of lipids and surfactants, and ratio of surfactants (Tween 80:sodium deoxycholate) on the in vitro permeation flux (μg/cm²/h) of formulated transferosomal gels containing insulin through porcine ear skin was optimized using 2³ factorial design. The optimal permeation flux was achieved as 13.50 ± 0.22 μg/cm²/h with drug entrapment efficiency of 56.55 ± 0.37% and average vesicle diameter range, 625–815 nm. The in vitro insulin permeation through porcine ear skin from these transferosomal gel followed zero-order kinetics (R² = 0.9232–0.9989) over a period of 24 h with case-II transport mechanism. The in vitro skin permeation of insulin from optimized transferosomal gel by iontophoretic influence (with 0.5 mA/cm² current supply) also provided further enhancement of permeation flux to 17.60 ± 0.03 μg/cm²/h. The in vivo study of optimized transferosomal gel in alloxan-induced diabetic rat has demonstrated prolonged hypoglycemic effect in diabetic rats over 24 h after transdermal administration.     

Fabrication of Dissolving Polymer Microneedles for Controlled Drug Encapsulation and Delivery: Bubble and Pedestal Microneedle Designs

Dissolving microneedle patches offer promise as a simple, minimally invasive method of drug and vaccine delivery to the skin that avoids the need for hypodermic needles. However, it can be difficult to control the amount and localization of drug within microneedles. In this study, we developed novel microneedle designs to improve control of drug encapsulation and delivery using dissolving microneedles by (i) localizing drug in the microneedle tip, (ii) increasing the amount of drug loaded in microneedles while minimizing wastage, and (iii) inserting microneedles more fully into the skin. Localization of our model drug, sulforhodamine B in the microneedle tip by either casting a highly concentrated polymer solution as the needle matrix or incorporating an air bubble at the base of the microneedle achieved approximately 80% delivery within 10 min compared to 20% delivery achieved by the microneedles encapsulating nonlocalized drug. As another approach, a pedestal was introduced to elevate each microneedle for more complete insertion into the skin and to increase its drug loading capacity by threefold from 0.018 to 0.053 μL per needle. Altogether, these novel microneedle designs provide a new set of tools to fabricate dissolving polymer microneedles with improved control over drug encapsulation, loading, and delivery.     

A simple and economical method of electrode fabrication for brain self-stimulation in rats

IntroductionIntracranial self-stimulation (ICSS) is an operant paradigm in which rodents self-administer rewarding electrical stimulation through electrodes implanted into the brain. We describe a simple, inexpensive and reliable method to fabricate monopolar and bipolar electrodes, along with the swivel system, for delivery of electric pulses at the targeted sites in the brain of rat.MethodsThe system consists of an insulated stainless steel wire(s) (diameter: 0.25 mm), plastic base, pedestal and connector attached to a swivel via a stimulating cable, which is connected to the stimulator. We provide the specifications, source of each component, and the method of fabrication in details.ResultsIn-house fabricated monopolar or bipolar electrodes were subjected to rigorous tests. We implanted the electrode into the medial forebrain bundle (MFB) and rat was trained to press the lever for electrical self-stimulation in operant chamber for 60 min each day. In about 3–4 days, the animal gave a consistent response (~ 40 presses/min) and was considered as conditioned. For evaluation of reinforcement behavior, the number of lever pressings of conditioned rat with or without electrical stimulation was assessed for a period of 30 min each day for 10 weeks. The rewarding frequency sustained for the entire duration. In addition, we compared the lever pressing data of the groups of rats implanted with in-house fabricated versus with those with commercial electrodes; no significant differences were encountered.DiscussionThe required components for the electrode fabrication are easily available. With some practice, the system can be easily assembled in the laboratory and costs less than a dollar. We suggest that the electrodes, fabricated using this method, may serve as an economical and reliable tool in neuropharmacological and neurobehavioral studies.     

Preparation and characterization of minoxidil loaded nanostructured lipid carrier gel for effective treatment of alopecia

In the present work attempts have been made to prepare the nanostructured lipid carrier (NLC) gel, by using minoxidil, which is preferably used in case of Alopecia, i.e. baldness pattern as a effective drug. The nine different formulations of Minoxidil-NLC (NLC1–NLC9) were prepared using solid and liquid lipids with Cholesterol and Soya lecithin in different concentrations by the melt dispersion ultrasonication method. Properties of NLC1–NLC9 such as the particle size and its distribution, the scanning electron microscopy (SEM), the drug entrapment efficiency (EE), and the drug release behavior were investigated. The nanoparticulate dispersion was suitably gelled and characterized with respect to drug content, pH, spreadability, rheology, and in vitro release. Safety of the NLC-based gel was assessed using primary skin irritation studies. The formulated NLC3 was spherical in shape, with average particle size of 280 nm, zeta potential of ?42.40 mV and entrapment efficiency of 86.09%. Differential Scanning Calorimeter (DSC) measurements revealed that imperfect crystallization occurred in the inner core of the NLC particles. The drug release behavior from the NLC displayed a biphasic drug release pattern with burst release at the initial stage followed by sustained release. These results indicated that the NLC3 is a suitable carrier of minoxidil with improved drug loading capacity and controlled drug release properties. It has been observed that NLC gel produces the gel with good consistency, homogeneity, spreadability and rheological behavior. The developed NLC-based gel showed faster onset and elicited prolonged activity up to 16 h. The present study concluded that the NLC-based gel containing minoxidil dissolved in a mixture of solid lipid and liquid lipid in the nanoparticulate form helped us to attain the objective of faster onset yet prolonged action as evident from in vitro release.     

The effect of safranal,a constituent of Crocus sativus (saffron), on tracheal responsiveness,serum levels of cytokines,total NO and nitrite in sensitized guinea pigs

BackgroundThe effect of safranal (one of the constituents of Crocus sativus) on ovalbumin (OVA) sensitized guinea pigs was examined.MethodsOne group of sensitized guinea pigs were given drinking water alone (group S), three groups drinking water containing three concentrations of safranal and one group contain dexamethasone (S + D). Tracheal responses (TR) of the animals to methacholine as effective concentration causing 50% of maximum response (EC₅₀ M), TR to 0.1% OVA, relative to contraction induced by 100 μM methacholine, IL-4, IFN-γ, total NO and nitrite levels in serum were measured.ResultsThe TR to both methacholine and OVA, the level of total NO, nitrite and IL-4 significantly increased but IFN-γ and IFN-γ/IL-4 ratio was decreased in group S compared controls (p < 0.05 to p < 0.001). The TR to both methacholine and OVA in treated animals with dexamethasone and all concentrations of safranal were significantly decreased compared to S group (p < 0.01 to p < 0.001). The level of serum IL-4 in treated guinea pigs was significantly decreased but IFN-γ and IFN-γ/IL-4 ratio was increased compared to S group (p < 0.01 to p < 0.001). The levels of total NO and nitrite were significantly decreased in treated groups compared to sensitized group (p < 0.05 to p < 0.001).ConclusionThese results showed a preventive effect for safranal on tracheal responses and serum cytokine, total NO and nitrite levels as well as increased Th1/Th2 balance in sensitized guinea pigs.     

Role of potassium channels in the relaxant effect of levosimendan in guinea pig tracheal preparations

We investigated both the effect of levosimendan and the role of various potassium channels in carbachol-precontracted tracheal preparations samples obtained from guinea pig. The tracheas were cut into 0.5 cm wide rings and suspended in a 20 ml organ bath. Isometric tension was continuously measured with an isometric force transducer connected to a computer-based data acquisition system. Levosimendan or cromakalim produced concentration-dependent relaxation responses in guinea pig tracheal rings precontracted by carbachol. Incubation of guinea pig tracheal rings with the ATP-dependent potassium channel (K_ATP) blocker glibenclamide for 30 min significantly inhibited the relaxant responses to both levosimendan and cromakalim. The large conductance Ca²⁺-activated potassium channel (BK_Ca) blocker iberiotoxin also caused a significant inhibition on relaxant responses to levosimendan. However, incubation of the tracheal rings with the voltage-dependent potassium channel blocker 4-aminopyridine for 10 min did not cause significant alterations on relaxant responses to levosimendan. The present findings suggested that the relaxant effect induced by levosimendan might be partially due to K_ATP and BKCa in isolated guinea pig tracheal rings.     

Transdermal Delivery of the Synthetic Cannabinoid WIN 55,212-2: In Vitro/in Vivo Correlation

PURPOSE: The aim of the current investigation was to evaluate the percutaneous absorption of the synthetic cannabinoid WIN 55,212-2 in vitro and in vivo. METHODS: The in vitro permeation studies of WIN 55,212-2 in human skin, hairless guinea pig skin, a polymer membrane with adhesive, and a skin/polymer membrane composite were conducted in flowthrough diffusion cells. The pharmacokinetic parameters for WIN 55,212-2 were determined after intravenous administration and topical application of Hill Top Chambers and transdermal therapeutic systems (TTS) in guinea pigs. RESULTS: The in vitro permeation studies indicated that the flux of WIN 55,212-2 through hairless guinea pig skin was 1.2 times more than that through human skin. The flux of WIN 55,212-2 through human and guinea pig skin was not significantly higher than that through the corresponding skin/polymer membrane composites. The mean guinea pig steady-state plasma concentrations after topical 6.3 cm2 chamber and 14.5 cm2 TTS patch applications were 5.0 ng/ml and 8.6 ng/ml, respectively. CONCLUSIONS: The topical drug treatments provided significant steady-state plasma drug levels for 48 h. The observed in vivo results from the Hill Top Chambers and TTS patches in the guinea pigs were in good agreement with the predicted plasma concentrations from the in vitro data.     

Triple-component nanocomposite films prepared using a casting method: Its potential in drug delivery

The purpose of this study was to fabricate a triple-component nanocomposite system consisting of chitosan, polyethylene glycol (PEG), and drug for assessing the application of chitosan–PEG nanocomposites in drug delivery and also to assess the effect of different molecular weights of PEG on nanocomposite characteristics. The casting/solvent evaporation method was used to prepare chitosan–PEG nanocomposite films incorporating piroxicam-β-cyclodextrin. In order to characterize the morphology and structure of nanocomposites, X-ray diffraction technique, scanning electron microscopy, thermogravimetric analysis, and Fourier transmission infrared spectroscopy were used. Drug content uniformity test, swelling studies, water content, erosion studies, dissolution studies, and anti-inflammatory activity were also performed. The permeation studies across rat skin were also performed on nanocomposite films using Franz diffusion cell. The release behavior of films was found to be sensitive to pH and ionic strength of release medium. The maximum swelling ratio and water content was found in HCl buffer pH 1.2 as compared to acetate buffer of pH 4.5 and phosphate buffer pH 7.4. The release rate constants obtained from kinetic modeling and flux values of ex vivo permeation studies showed that release of piroxicam-β-cyclodextrin increased with an increase in concentration of PEG. The formulation F10 containing 75% concentration of PEG showed the highest swelling ratio (3.42 ± 0.02) in HCl buffer pH 1.2, water content (47.89 ± 1.53%) in HCl buffer pH 1.2, maximum cumulative drug permeation through rat skin (2405.15 ± 10.97 μg/cm²) in phosphate buffer pH 7.4, and in vitro drug release (35.51 ± 0.26%) in sequential pH change mediums, and showed a significantly (p < 0.0001) higher anti-inflammatory effect (0.4 cm). It can be concluded from the results that film composition had a particular impact on drug release properties. The different molecular weights of PEG have a strong influence on swelling, drug release, and permeation rate. The developed films can act as successful drug delivery approach for localized drug delivery through the skin.