Formulace a (trans)dermální podání lipozómů s obsahem imiquimodu / Formulation and trans(dermal) delivery of liposomes containing imiquimod

Tirala, Petr

January 2018

Charles University, Faculty of Pharmacy in Hradec Králové Department of Pharmaceutical Technology Author: Petr Tirala Supervisor: PharmDr. Barbora Švecová, Ph.D. Title of thesis: Formulation and (trans)dermal application of liposomes containing imiquimod Imiquimod (IMQ), a substance belonging to the class of heterocyclic imidazoquinolines, shows significant immunomodulatory effects after topical administration, which is used to treat a variety of viral and malignant diseases of the skin. IMQ is currently used in clinical practice in the form of cream Aldara® containing 5% of active substance, which is unstable and irritating and after removal from the skin IMQ poses an ecological load for the environment. The aim of this thesis was preparation of liposomes for topical administrativ containing lower - 1% amount of IMQ and evaluation of penetration of IMQ into human skin in vitro. To improve the properties of liposomes and promote patency of the active ingredient through the skin barrier to the deeper skin layers various additives were used. Permeation experiments were carried out in Franz diffusion cells on the human skin in order to create the conditions that are as physiological as possible. Amount of IMQ was determined in the uppermost layer of the skin, epidermis, dermis, acceptor phase...

CLINICAL EVALUATION OF NOVEL METHODS FOR EXTENDING MICRONEEDLE PORE LIFETIME

Brogden, Nicole K.

01 January 2012

Microneedles are a minimally invasive method for delivering drugs through the impermeable skin layers, and have been used to deliver a variety of compounds including macromolecules, vaccines, and naltrexone. Microneedles can be applied to the skin once, creating micropores that allow for drug delivery into the underlying circulation from a drug formulation. The utility of this technique, however, is blunted by rapid micropore closure. This research project sought to: 1) characterize micropore lifetime and re-sealing kinetics, and 2) prolong micropore lifetime via inhibition of the skin’s barrier restoration processes. Impedance spectroscopy was used as a surrogate technique in animals and humans to measure micropore formation and lifetime. A proof of concept study in humans, using impedance spectroscopy, demonstrated that diclofenac (a topical anti-inflammatory) applied to microporated skin resulted in slower re-sealing kinetics compared to placebo, in agreement with previous animal studies. The clinical feasibility of prolonging micropore lifetime with diclofenac was confirmed via 7-day delivery of naltrexone through microneedle treated skin in humans (compared to 72 hour delivery with placebo). Lastly, naltrexone gels with calcium salts were applied to microneedle treated skin (hairless guinea pigs) to restore the altered epidermal calcium gradient; this method did not significantly extend micropore lifetime.

diclofenac

impedance

microneedles

naltrexone

transdermal

Pharmacy and Pharmaceutical Sciences

Formulation Optimization for Pore Lifetime Enhancement and Sustained Drug Delivery Across Microneedle Treated Skin

Ghosh, Priyanka

01 January 2013

Microneedle (MN) enhanced drug delivery is a safe, effective and efficient enhancement method for delivery of drug molecules across the skin. The “poke (press) and patch” approach employs solid stainless steel MN to permeablize the skin prior to application of a regular drug patch over the treated area. It has been previously shown that MN can be used to deliver naltrexone (NTX) at a rate that provides plasma concentrations in the lower end of the therapeutic range in humans. The drug delivery potential of this technique is, however, limited by the re-sealing of the micropores in a 48-72h timeframe. The goal of the current research was to optimize the formulation for a 7 day MN enhanced delivery system for NTX either by adding a second active pharmacological moiety or by optimizing formulation characteristics alone. Three different formulation strategies were explored: formulation pH optimization with NTX; a codrug approach with NTX and a nonspecific cyclooxygenase inhibitor, diclofenac (DIC); and a topical/transdermal approach with NTX and an enzyme inhibitor of the cholesterol synthesis pathway, fluvastatin (FLU). The results indicated that formulation pH cannot be used to extend micropore lifetime, although formulation optimization leads to enhanced transport and thus drug delivery across MN treated skin. The codrug approach was successful in extending the micropore lifetime and further screening of codrug structures and formulation optimization helped in selection of a codrug candidate suitable for evaluation in animal pharmacokinetic studies. Local treatment with FLU helped to keep the micropores open and enabled delivery of NTX for an extended period. The pores re-sealed on removal of treatment within a 30-45 minute timeframe, indicating that infection/irritation should not be a major issue, as in the case of other topical chemical enhancers. Thus, overall it can be concluded that different formulation strategies can be utilized to extend micropore lifetime and enhance delivery of drug molecules across the skin.

microneedles

naltrexone

transdermal

formulation stratigies

micropore lifetime

Pharmaceutics and Drug Design

Clinical study on acupoints application on San Fu days for treating bronchial asthma

Zhang, Wei, 張偉

January 2012

published_or_final_version / Chinese Medicine / Master / Master of Philosophy

Asthma - Alternative treatment

Transdermal medication

Therapeutics, Cutaneous and external

Acupuncture points

The pharmacokinetics of vitamin A in relation to its teratogenicity in healthy women

Honeywell, Richard James

January 2001

No description available.

570

The transdermal delivery of arginine vasopressin with pheroid technology / Hanneri Coetzee

Coetzee, Hanneri

January 2007

The aim of this study was to investigate in vitro transdermal diffusion of a small peptide namely arginine vasopressin (AVP) with the aid of the novel PheroidTM drug delivery system. Generally, peptides seem unfit for transdermal permeation, but it was thought prudent to explore the suitability of this lipid-based system after success was achieved with entrapment of tuberculostatics, bacteria and viruses. Bestatin (a selective aminopeptidase inhibitor) was employed to circumvent any skin-related degradation of the active. Therefore, the effect of bestatin on the preservation of AVP during diffusion was investigated. Vertical Franz cell diffusion studies were conducted with female abdominal skin, with AVP at a concentration of 150 pglml in the donor phase and Hepes buffer as the receptor phase over a twelve-hour period. To prove entrapment of AVP within the lipid structures of the PheroidsTM, fluorescentlylabelled samples were monitored by means of confocal laser scanning microscopy (CLSM), which revealed definite entrapment. In vitro permeation profiles for AVP exhibited a biphasic character, with the majority of permeation occurring during the first two hours. The PheroidTM delivery system proved to be advantageous when applied as delivery medium. The inclusion of bestatin has an enhancing effect on permeation probably due to its protection of AVP. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2007.

Arginine vasopressin

Transdermal diffusion

Confocal microscopy

Pheroid

Delivery system

Bestatin

Sublingual drug delivery : in vitro characterization of barrier properties and prediction of permeability

Goswani, Tarun

01 January 2008

No description available.

Modelling the skin and systemic dispositions of amino acids to assess the potential for transdermal, non-invasive monitoring : phenylalanine as a case study

Woodford, Andrew

January 2017

This thesis investigates the potential for monitoring current and historic blood serum concentrations of amino acids via transdermal extraction using phenylalanine as a case study. This work furthers the field of non-invasive monitoring of amino acid disorders which have several advantages over invasive methods such as blood tests. In this thesis we derive models to simulate blood serum concentrations, the formation of the skin reservoir and, finally, transdermal extraction of amino acids under an applied electric field. Chapter 1 concerns itself with the biological background and sets up motivation of the thesis by discussing amino acids, associated amino acid disorders, the overarching clinical problem, skin structure and transdermal extraction methods. Chapter 2 then considers mathematical techniques utilised throughout the thesis. Chapter 3 formulates a model for the distribution of phenylalanine in blood serum. One compartment and two compartment approaches are considered in both a fasting state and a non-fasting state. We consider if these have a noticeable effect on the blood serum concentration of phenylalanine. Having obtained a model for the distribution of phenylalanine in blood serum, chapter 4 models the formation of reservoirs of amino acids in the skin. Prior work has identified the existence of such a reservoir, but its formation has not been addressed. The models developed consider the effect of the removal of outer layers of skin, the stratum disjunctum, and production of amino acids in the skin. Unknown parameters are estimated by comparing the model to in vivo and in vitro data. Chapter 5 and 6 are concerned with transdermal extraction under an applied electric field. Chapter 5 formulates the velocity induced by applying an electric field across a charged interface. Chapter 6 utilises these results for modelling extraction of compounds through the skin under an applied electric field.

616

Iontophoresis in paediatric medicine : non-invasive delivery and monitoring applications

Djabri, Asma

January 2009

This thesis investigated the possible use of transdermal iontophoresis in paediatric care, as an alternative strategy to the oral and intravenous routes. More specifically, the potential for non-invasive delivery of ranitidine, midazolam, and phenobarbital; and the clinical sampling of iohexol through the skin were examined. The feasibility for monitoring kidney function was assessed in vitro and in vivo using the glomerular filtration rate (GFR) marker, iohexol. Sampling of iohexol in vitro was sensitive to the changes in its subdermal concentration, and pharmacokinetic parameters estimated from skin sampling agreed well with reference subdermal values. Similar observations were confirmed in vivo in a pilot study performed in four children undergoing routine iohexol GFR test. Iontophoresis was well tolerated in all subjects and the marker was successfully extracted through the skin. In 3 of 4 subjects, the elimination rate constant estimated from skin sampling data agreed well with blood sampling results. This study demonstrated the potential of transdermal iontophoresis as a non-invasive sampling approach which could significantly improve the quality-of-life of children. Drug delivery by transdermal iontophoresis was examined in vitro for three commonly used paediatric medicaments: ranitidine, midazolam, and phenobarbital. Experiments used both intact and compromised pig skin to model the less resistant skin of premature babies. Iontophoretic delivery across intact skin was superior than passive delivery and optimised conditions were achieved by use of maximal molar fraction of the drug, higher current intensity, and appropriate vehicle pH. Pluronic® F-127 gels were suitable drug matrices for the iontophoretic delivery of ranitidine. Midazolam and phenobarbital transdermal delivery through partially compromised skin barriers was controlled by iontophoresis. Across highly compromised skin, however, passive diffusion increased drastically and iontophoretic control was lost. Overall, it was possible to deliver therapeutically meaningful fluxes of all three drugs with acceptable patch application area.

615.19

The transdermal delivery of arginine vasopressin with pheroid technology / H. Coetzee

Coetzee, Hanneri

January 2007

Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2007.

Arginine vasopressin

Transdermal diffusion

Confocal microscopy

Pheroid

Delivery system

Bestatin