Your search keyword '"Nair, Anroop B."' showing total 12 results

1. Noninvasive sampling of gabapentin by reverse iontophoresis.

Author

Nair AB, Kumria R, Al-Dhubiab BE, Attimarad M, and Harsha S

Subjects

Amines administration & dosage, Amines blood, Animals, Chromatography, High Pressure Liquid, Cyclohexanecarboxylic Acids administration & dosage, Cyclohexanecarboxylic Acids blood, Gabapentin, In Vitro Techniques, Injections, Intravenous, Models, Biological, Rats, Rats, Sprague-Dawley, Rats, Wistar, Skin chemistry, gamma-Aminobutyric Acid administration & dosage, gamma-Aminobutyric Acid blood, Amines pharmacokinetics, Cyclohexanecarboxylic Acids pharmacokinetics, Drug Monitoring methods, Electroosmosis methods, Iontophoresis methods, Skin metabolism, gamma-Aminobutyric Acid pharmacokinetics

Abstract

Purpose: Transdermal reverse iontophoresis offers a noninvasive tool for clinical and therapeutic monitoring of drugs and endogenous molecules. This study investigated the viability of reverse iontophoresis as an alternative technique to blood sampling for the monitoring of gabapentin., Methods: Ex vivo studies assessed the influence of polarity, applied current (0.064-0.32 mA) and subdermal concentration (0.5-20 μg/mL) on the recovery of gabapentin. These experiments were carried out in vertical Franz diffusion cell for a period of 3 h using rat skin. In vivo experiments examined the versatility of this method to extract gabapentin from the subdermal region following intravenous administration of gabapentin (30 mg/kg) in rat model., Results: Preliminary studies demonstrate that greater amount of gabapentin was extracted in the cathodal chamber due to the contribution of electroosmosis. Increasing the current intensity significantly enhances the extraction flux (P < 0.005) and shown linear relation (r(2) = 0.84) between the applied electrical dose (mA*h) and the amount of gabapentin recovered (μg). Indeed, transdermal iontophoresis of gabapentin was found to be concentration dependent in the range studied (0.5-20 μg/mL), which includes clinically relevant level. Further, a linear relationship was established between the iontophoretically recovered gabapentin 3 h flux values and the subdermal concentrations studied. The linear correlation with good regression value (r(2) = 0.92) observed in the in vivo studies infers that the drug in the plasma is proportionally extracted through the skin and potentially represents the subdermal drug concentrations., Conclusions: Given the promising results, this study concludes that the transdermal reverse iontophoresis technique could be a promising alternative for the noninvasive monitoring of gabapentin.

Published

2015

2. Transungual delivery of terbinafine by iontophoresis in onychomycotic nails.

Author

Nair AB, Vaka SR, and Murthy SN

Subjects

Antifungal Agents pharmacokinetics, Foot Dermatoses microbiology, Hand Dermatoses microbiology, Humans, Naphthalenes pharmacokinetics, Onychomycosis microbiology, Permeability, Terbinafine, Antifungal Agents administration & dosage, Drug Delivery Systems, Foot Dermatoses drug therapy, Hand Dermatoses drug therapy, Iontophoresis methods, Naphthalenes administration & dosage, Onychomycosis drug therapy

Abstract

Trans-nail permeability is limited due to the innate nature of the nail plate and the recent investigations indicated the potential of iontophoresis in enhancing the transungual drug delivery in normal nails. However, the onychomycotic nails differ from the normal nails with respect to the anatomical and biological features. The current study investigated the effect of iontophoresis (0.5 mA/cm(2) for 1 h) on the transungual delivery of terbinafine in onychomycotic finger and toe nails. The presence of fungi in the onychomycotic nails was diagnosed by potassium hydroxide (KOH) microscopy. Passive and iontophoretic delivery of terbinafine across the infected nail was studied in Franz diffusion cell. Further, the release profile of terbinafine from the drug-loaded nails was investigated by agar diffusion method. KOH microscopy confirmed the presence of fungi in all the nails used. The amount of drug permeated across the nail plate was enhanced significantly during iontophoresis over passive delivery, that is, by 21-fold in case of finger and 37-fold in case of toe nails. Further, the total drug load in the onychomycotic nail was enhanced by ~12-fold (in both finger and toe nails) due to iontophoresis. Release of terbinafine from the iontophoresis-loaded nails into agar plates exhibited two phases, a rapid phase followed by a steady release, which extended >2 months. This study concluded that the drug delivery in onychomycotic nails did not differ significantly when compared with normal nails, although the extent of drug permeation and drug load differs between finger and toe nails.

Published

2011

3. An ex vivo toe model used to assess applicators for the iontophoretic ungual delivery of terbinafine.

Author

Nair AB, Kim HD, Davis SP, Etheredge R, Barsness M, Friden PM, and Murthy SN

Subjects

Chromatography, High Pressure Liquid, Humans, Hydrogen-Ion Concentration, Nails metabolism, Naphthalenes pharmacokinetics, Skin metabolism, Terbinafine, Iontophoresis, Models, Theoretical, Naphthalenes administration & dosage

Abstract

Purpose: An ex vivo intact toe model was developed to assess two different applicator designs for iontophoretic delivery of terbinafine into the nail only or the nail and surrounding skin., Methods: Iontophoretic permeation studies were carried out on intact cadaver toes using nail-only and nail/skin applicators with a current dose of 10 mA*min (0.5 mA for 20 min)., Results: Iontophoresis enhanced drug permeation and tissue loading with both applicators tested. Greater drug delivery was observed with the nail/skin applicator due to the additional terbinafine being delivered directly through the lower impedance skin area surrounding the nail. The concentration of drug loaded into the contact area of the nail with the nail-only and nail/skin applicator was ~13 and ~7 fold higher than their respective passive delivery levels but equivalent from each other in total drug mass delivered over the whole nail plate. In vitro release of drug from the iontophoretically loaded nails into agar suggests that a single treatment could have a prolonged effect (>50 days)., Conclusions: This study demonstrates that the ex vivo toe model was useful in assessing the functionality of the different applicator designs. These results suggest that iontophoresis can significantly enhance the delivery of drugs to both the hard and soft tissues of the toe for the treatment of onychomycosis and other nail disorders.

Published

2009

4. Design, Development, and Evaluation of Constant Voltage Iontophoresis for the Transungual Delivery of Efinaconazole.

Author

Nair, Anroop B., Aldhubiab, Bandar, Shah, Jigar, Jacob, Shery, Attimarad, Mahesh, Sreeharsha, Nagaraja, Venugopala, Katharigatta N., Joseph, Alex, and Morsy, Mohamed A.

Subjects

*IONTOPHORESIS, *HYDROGELS, *VOLTAGE, *DRUG interactions, *ONYCHOMYCOSIS, *INDEPENDENT variables

Abstract

The efficacy of topical antifungal therapy in onychomycosis has been hindered by the failure of the antimycotic to permeate the nail plate. This research aims to design and develop a transungual system for the effective delivery of efinaconazole utilizing constant voltage iontophoresis. Seven prototype drug-loaded hydrogel formulations (E1–E7) were prepared to assess the influence of solvent (ethanol) and cosolvent (Labrasol®) on transungual delivery. Optimization was performed to evaluate the effect of three independent variables; voltage, solvent-to-cosolvent ratio, and penetration enhancer (PEG 400) concentration on critical quality attributes (CQAs), such as drug permeation and loading into the nail. The selected hydrogel product was characterized for pharmaceutical properties, efinaconazole release from the nail, and antifungal activity. Preliminary data indicates ethanol, Labrasol®, and voltage influence the transungual delivery of efinaconazole. Optimization design indicates a significant impact by applied voltage (p-0.0001) and enhancer concentration (p-0.0004) on the CQAs. Excellent correlation between selected independent variables and CQAs was confirmed by the high desirability value (0.9427). A significant (p < 0.0001) enhancement in the permeation (~78.59 µg/cm2) and drug loading (3.24 µg/mg) was noticed in the optimized transungual delivery with 10.5 V. FTIR spectral data indicates no interaction between the drug and excipients, while the DSC thermograms confirmed the amorphous state of the drug in the formulation. Iontophoresis produces a drug depot in the nail that releases above the minimum inhibitory concentration level for an extended period, potentially reducing the need for frequent topical treatment. Antifungal studies further substantiate the release data and have shown remarkable inhibition of Trichophyton mentagrophyte. Overall, the promising results obtained here demonstrate the prospective of this non-invasive method for the effective transungual delivery of efinaconazole, which could improve the treatment of onychomycosis. [ABSTRACT FROM AUTHOR]

Published

2023

5. Design, Development, and Evaluation of Treprostinil Embedded Adhesive Transdermal Patch.

Author

Alissa, Ibrahim, Nair, Anroop B., Aldhubiab, Bandar, Shah, Hiral, Shah, Jigar, Mewada, Vivek, Almuqbil, Rashed M., and Jacob, Shery

Subjects

*TRANSDERMAL medication, *PULMONARY arterial hypertension, *ORAL drug administration, *FICK'S laws of diffusion, *BIOMEDICAL adhesives, *SURFACE morphology, *ADHESIVES, *ENDOTHELIN receptors, *IONTOPHORESIS

Abstract

Clinical application of treprostinil in pulmonary arterial hypertension is hampered by adverse effects caused by its high dosing frequency. The objective of this investigation was to Formulate an adhesive-type transdermal patch of treprostinil and evaluate it both in vitro and in vivo. A 32-factorial design was utilized to optimize the selected independent variables (X1: drug amount, X2: enhancer concentration) on the response variables (Y1: drug release, Y2: transdermal flux). The optimized patch was evaluated for various pharmaceutical properties, skin irritation, and pharmacokinetics in rats. Optimization results signify considerable influence (p < 0.0001) of X1 on both Y1 and Y2, as compared to X2. The optimized patch possesses higher drug content (>95%), suitable surface morphology, and an absence of drug crystallization. FTIR analysis revealed compatibility of the drug with excipients, whereas DSC thermograms indicate that the drug exists as amorphous in the patch. The adhesive properties of the prepared patch confirm adequate adhesion and painless removal, while the skin irritation study confirms its safety. A steady drug release via Fickian diffusion and greater transdermal delivery (~23.26 µg/cm2/h) substantiate the potential of the optimized patch. Transdermal therapy resulted in higher treprostinil absorption (p < 0.0001) and relative bioavailability (237%) when compared to oral administration. Overall, the results indicate that the developed drug in the adhesive patch can effectively deliver treprostinil through the skin and could be a promising treatment option for pulmonary arterial hypertension. [ABSTRACT FROM AUTHOR]

Published

2023

6. Formulation and Evaluation of Tamoxifen Citrate Loaded Transdermal Reservoir Gel Drug Delivery Systems.

Author

SreeHarsha, Nagaraja, Hiremath, Jagadeesh G., Rawre, Bimlesh Kumar, Puttaswamy, Niranjan, Al-Dhubiab, Bandar E., Venugopala, Katharigatta N., Akrawi, Sabah H., Meravanige, Girish, Attimarad, Mahesh, and Nair, Anroop B.

Subjects

DRUG delivery systems, ETHYLCELLULOSE, METHYLCELLULOSE, TAMOXIFEN, IONTOPHORESIS, COLLOIDS

Abstract

Background: Successful treatment of cancer is yet remained as a challenging concern in public health. Transdermal delivery of hormonal therapy offers several advantages over the oral route associated with potential side effects. Methods: The present investigation preparation and screening of rate controlling membranes using Eudragit release liners of RS 100, hydroxyl propyl methyl cellulose K4M (HPMC K4M) and ethyl cellulose by plate casting method and their physicochemical characterization. The prepared release liners were subjected for preformualtion studies (thickness, weight variation, moisture uptake, folding endurance and moisture loss). Tamoxifen citrate is an ideal molecule for the transdermal reservoir for the preparation of gel dosage form due its dosage regimen. Results: The main investigation, topical gel TC was prepared using HPMC K4M and Carbopol 934 as gelling agents in different proportions with Dimethyl Sulfoxide (DMSO) as a penetration enhancer. TC gels were subjected for the physicochemical parameters such as pH, viscosity, spreadability. Conclusion: The TC gel diffusion was conducted by using rate controlling membranes (release liner). The TC gel skin permeation was investigated by using excised rat skin as a barrier. [ABSTRACT FROM AUTHOR]

Published

2019

7. A comprehensive study to evaluate the effect of constant low voltage iontophoresis on transungual delivery.

Author

Nair, Anroop B., Singh, Kishan, Shinu, Pottathil, Harsha, Sree, and Al-Dhubiab, Bandar E.

Subjects

DRUG delivery systems, IONTOPHORESIS, PHARMACODYNAMICS, ANTIFUNGAL agents, DRUG development

Abstract

Treatment of nail diseases by topical drug delivery continues to draw much attention in the recent days. This study aims to systematically investigate the effect of constant voltage iontophoresis in the transungual drug delivery, using ciclopirox as a model drug. Preliminary permeation studies were carried out by applying constant voltage (6 V for 24 h) using a gel formulation across the human nail plate in a Franz diffusion cell. Different protocols have been studied to authenticate the potential of the proposed technique. Antifungal studies were carried out to assess the pharmacodynamic effect of drug depot formed in the nail plate. Initial studies revealed that application of constant voltage iontophoresis enhanced the permeation by an order of magnitude ( p = 0.019) and delivered significant amount of drug into the deeper nail layers. Noticeably higher permeation was observed during the active phase in on-off studies. Excellent correlation was observed in permeation ( r2 = 0.98) and drug load ( r2 = 0.97) with the increase in applied voltage (3-12 V), indicating that the current technique is predictable. The data observed suggest that any further increase in voltage could eventually lead to increase in the permeation and drug load, as the saturation level is very distant. Furthermore, the enhancement in permeation with the applied voltage (3-12 V) was found to be 6-20 folds, compared to the passive process. Results of step up and step down studies substantiated the viability of the current technique. Zone of inhibition measured during the antifungal studies demonstrated that the drug molecules loaded into the nail plate by low voltage iontophoresis is active and releases over an extended period of time (~32 days). Given the excellent results, the current technique could be used as an effective approach for the delivery of antimycotics, which would localize the drug at the infection site and potentially offer higher patient compliance. [ABSTRACT FROM AUTHOR]

Published

2013

8. In vitro and in vivo evaluation of a hydrogel-based prototype transdermal patch system of alfuzosin hydrochloride.

Author

Nair, Anroop B., Kiran Vaka, Siva Ram, Gupta, Sumit, Repka, Michael A., and Murthy, S. Narasimha

Subjects

BENIGN prostatic hyperplasia, HYDROGELS, CHLORIDES, PROTOTYPES, DRUG side effects, DRUG delivery systems, IONTOPHORESIS, PHARMACOKINETICS

Abstract

The first-line therapy for moderate to severe benign prostatic hyperplasia is the oral therapy by alfuzosin hydrochloride. Unfortunately, the oral therapy of alfuzosin is associated with several route-specific systemic side-effects. The current study was aimed to develop a prototype transdermal patch system for alfuzosin using a hydrogel polymer and optimize the drug delivery through the skin for systemic therapy. The prospective of different chemical enhancers (polyethylene glycol (PEG 400), isopropyl myristate, propylene glycol, menthol and L-methionine; 5% w/v) and iontophoresis (0.3 mA/cm2) in the alfuzosin delivery across the full thickness rat skin was assessed in vitro. In vivo iontophoretic studies were carried out using selected patch system (PEG 400) for a period of 6 h in Sprague-Dawley rats. Passive permeation studies indicated that the incorporation of chemical agents have moderate effect (~ 4- to 7-fold) on the alfuzosin skin permeability and reduced the lag time. Combined approach of iontophoresis with chemical enhancers significantly augmented the drug transport (~ 43- to 72-fold). In vivo pharmacokinetic parameters revealed that the iontophoresis (transdermal patch with PEG 400) significantly enhanced the Cmax (~ 3-fold) and AUC0-α (~ 4-fold), when compared to control. The current study concludes that the application of iontophoresis (0.3 mA/cm2) using the newly developed agaorse-based prototype patch with PEG 400 could be utilized for the successful delivery of alfuzosin by transdermal route. [ABSTRACT FROM AUTHOR]

Published

2012

9. Ungual and trans-ungual iontophoretic delivery of terbinafine for the treatment of onychomycosis.

Author

NAIR, ANROOP B., KIM, HYUN D., CHAKRABORTY, BIRESWAR, SINGH, JAGPAL, ZAMAN, MUHAMMAD, GUPTA, ADITYA, FRIDEN, PHILLIP M., and MURTHY, S. NARASIMHA

Subjects

*DRUG carriers, *TERBINAFINE, *IONTOPHORESIS, *ANTIFUNGAL agents, *POLYSACCHARIDES

Abstract

The application of iontophoresis was demonstrated in the nail drug delivery of terbinafine (TH) recently. This study explored a systematic assessment of this approach to enhance the drug delivery using a novel topical formulation, and the subsequent release of TH from the drug loaded nails. For the first time, a nail on-agar plate model was used to study the release of drug from the iontophoresis (0.5 mA/cm2) loaded nails. In addition, the activity of the drug released from the drug loaded nail plate was studied against Trichophyton rubrum. An increase in applied current density and current duration enhanced the transport of TH into and through the nail plate. In vitro release of drug from the iontophoretic loaded nails into agar plates exhibited 2-phase release pattern. The amount of drug released in both of the in vitro models was comparable, and the nails loaded using iontophoresis continued to release levels of TH > 2 orders of magnitude above the minimum inhibitory concentration over at least 52 days. Results indicate that iontophoresis enhances the delivery of terbinafine into and through the nail plate and suggest that the use of this treatment approach could result in a safe and more efficacious outcome with less frequent treatments. © 2009 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 98:4130–4140, 2009 [ABSTRACT FROM AUTHOR]

Published

2009

10. Alteration of the diffusional barrier property of the nail leads to greater terbinafine drug loading and permeation

Author

Nair, Anroop B., Sammeta, Srinivasa M., Kim, Hyun D., Chakraborty, Bireswar, Friden, Phillip M., and Murthy, S. Narasimha

Subjects

*METALS in medicine, *NAILS (Hardware), *BIOLOGICAL systems, *DRUG delivery systems, *TERBINAFINE, *CHLORIDES, *LOADING & unloading, *PERMEABILITY

Abstract

Abstract: The diffusional barrier property of biological systems varies with ultrastructural organization of the tissues and/or cells, and often plays an important role in drug delivery. The nail plate is a thick, hard and impermeable membrane which makes topical nail drug delivery challenging. The current study investigated the effect of physical and chemical alteration of the nail on the trans-ungual drug delivery of terbinafine hydrochloride (TH) under both passive and iontophoretic conditions. Physical alterations were carried out by dorsal or ventral nail layer abrasion, while chemical alterations were performed by defatting or keratolysis or ionto-keratolysis of the nails. Terbinafine permeation into and across the nail plate following various nail treatments showed similar trends in both passive and iontophoretic delivery, although the extent of drug delivery varied with treatment. Application of iontophoresis to the abraded nails significantly improved (P <0.05) TH permeation and loading compared to abraded nails without iontophoresis or normal nails with iontophoresis. Drug permeation was not enhanced when the nail plate was defatted. Keratolysis moderately enhanced the permeation but not the drug load. Ionto-keratolysis enhanced TH permeation and drug load significantly (P <0.05) during passive and iontophoretic delivery as compared to untreated nails. Ionto-keratolysis may be more efficient in permeabilization of nail plates than long term exposure to keratolysing agents. [Copyright &y& Elsevier]

Published

2009

11. Trans-ungual iontophoretic delivery of terbinafine.

Author

Nair, Anroop B., Vaka, Siva Ram K., Sammeta, Srinivasa M., Kim, Hyun D., Friden, Phillip M., Chakraborty, Bireswar, and Murthy, S. Narasimha

Subjects

*NAIL diseases, *ANTIFUNGAL agents, *TERBINAFINE, *IONTOPHORESIS, *ELECTROTHERAPEUTICS, *MICROSCOPY

Abstract

Successful treatment of deep-seated nail infections remains elusive as the delivery of efficacious levels of antifungal drug to the site of action is very difficult. The aim of the present study was to attain rapid trans-ungual delivery of an antifungal agent, terbinafine, via the topical route using iontophoresis. Initial studies revealed that application of current (0.5 mA/cm2) could significantly enhance the trans-ungual delivery of terbinafine. An increase in the applied current or duration of current application enhanced the trans-ungual delivery of terbinafine. Permeation of terbinafine through the nail and drug load in the nail correlated well with the applied electrical dose. Release of drug from nails loaded using iontophoresis followed a two-phase release profile. Light microscopy studies substantiated the capability of iontophoresis to drive a charged molecule across the nail plate. The results of these studies indicate that iontophoresis could be developed as a potential technique for onychomycosis therapy. © 2008 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 98:1788–1796, 2009 [ABSTRACT FROM AUTHOR]

Published

2009

12. Constant Voltage Iontophoresis Technique to Deliver Terbinafine via Transungual Delivery System: Formulation Optimization Using Box–Behnken Design and In Vitro Evaluation.

Author

Nair, Anroop B., Al-Dhubiab, Bandar E., Shah, Jigar, Gorain, Bapi, Jacob, Shery, Attimarad, Mahesh, Sreeharsha, Nagaraja, Venugopala, Katharigatta N., and Morsy, Mohamed A.

Subjects

*TERBINAFINE, *IONTOPHORESIS, *MATHEMATICAL optimization, *VOLTAGE, *POLYETHYLENE glycol, *DRUG solubility

Abstract

Topical therapy of antifungals is primarily restricted due to the low innate transport of drugs through the thick multi-layered keratinized nail plate. The objective of this investigation was to develop a gel formulation, and to optimize and evaluate the transungual delivery of terbinafine using the constant voltage iontophoresis technique. Statistical analysis was performed using Box–Behnken design to optimize the transungual delivery of terbinafine by examining crucial variables namely concentration of polyethylene glycol, voltage, and duration of application (2–6 h). Optimization data in batches (F1–F17) demonstrated that chemical enhancer, applied voltage, and application time have influenced terbinafine nail delivery. Higher ex vivo permeation and drug accumulation into the nail tissue were noticed in the optimized batch (F8) when compared with other batches (F1–F17). A greater amount of terbinafine was released across the nails when the drug was accumulated by iontophoresis than the passive counterpart. A remarkably higher zone of inhibition was observed in nails with greater drug accumulation due to iontophoresis, as compared to the passive process. The results here demonstrate that the optimized formulation with low voltage iontophoresis could be a viable and alternative tool in the transungual delivery of terbinafine, which in turn could improve the success rate of topical nail therapy in onychomycosis. [ABSTRACT FROM AUTHOR]

Published

2021