皮肤真菌病新型局部给药系统研究进展

皮肤真菌病是易发病、易传染、易复发的疾病,严重影响患者生活质量。局部给药制剂直接作用于病变部位,使用方便,患者顺应性好,是皮肤真菌病临床治疗的首选。以脂质体、醇质体、微乳和脂质纳米粒等为代表的新型给药系统,可以提高药物的渗透性,减小药物透过,使其在皮肤局部蓄积,从而能够增强疗效、缩短疗程和减少不良反应,使皮肤真菌病的局部治疗更具有应用前景。本文综述了近年来国内外皮肤真菌病新型局部给药系统的研究进展。     

Nanoparticles as multifunctional devices for the topical treatment of cutaneous leishmaniasis

Introduction: Cutaneous and mucocutaneous leishmaniasis are major tropical skin diseases. Topical treatment is currently limited to the least severe forms of cutaneous leishmaniasis (CL) without risk of dissemination. It is also recommended in combination with systemic therapy for more severe forms. Progresses in this modality of treatment are hindered by the heterogeneity of the disease and shortcomings in the clinical trials.

Areas covered: This review overlooks three major modalities of topical therapies in use or under investigation against CL: chemotherapy, photodynamic therapy and immunotherapy; either with older compounds such as paramomycin or more recent nitric oxide donors, antimicrobial peptides or silver derivatives. The advantages and limitations of their administration with newer formulation strategies such as nanoparticles (NPs) are discussed.

Expert opinion: The efficacy of a topical treatment against CL depends not only on the intrinsic antileishmanial activity of the drug but also on the amount of drug available in the dermis. NPs as sustained release systems and permeation enhancers could favour the creation of a drug reservoir in the dermis. Additionally, certain NPs have immunomodulatory properties or wound healing capabilities of benefit in CL treatment. Pending task is the selective delivery of active compounds to intracellular amastigotes, because even small NPs are unable to penetrate deeply into the skin to encounter infected macrophages (except in ulcerative lesions).     

Nanocarrier-based topical drug delivery for the treatment of skin diseases

Introduction: Skin disorders will continue to cause complications in patients. At present, there is an expansion of research into dermatologic treatment due to a critical need for new treatment options to treat skin diseases.

Areas covered: The skin itself provides a natural barrier against particle penetration for topical delivery. However, it also offers a potential approach for the delivery of therapeutics, especially in diseased skin and via the openings of hair follicles. Recent innovation might be achieved in the field of dermatological treatment with improvement in the dermal localization of bioactives into the affected skin region, via novel nanocarriers that deliver the drugs directly to the target cells. After application, these nanocarriers can penetrate through the stratum corneum into viable skin and accumulate at the target site. However, noteworthy uptake does occur after damage and in certain diseased skin.

Expert opinion: Skin-targeted topical delivery by means of nanosystems, in order to produce sustained release and maintain a localized effect, will result in an effective treatment of various life-threatening dermatological conditions. In addition, research continues into the interactions between novel particles, skin and skin lipid, and the influence of particle composition on drug distribution within the skin strata.     

Drug delivery systems for the topical treatment of cutaneous leishmaniasis

Introduction: The parenteral administration of pentavalent antimonials for the treatment of all forms of leishmaniasis, including cutaneous leishamniasis (CL), has several limitations. Therapy is long, requiring repeated doses and the adverse reactions are frequent. Topical treatment is an attractive alternative for CL, offering significant advantages over systemic therapy: fewer adverse effects, ease of administration, and lower costs. Areas covered: This review covers, from 1984 to the present, the progress achieved for the development of topical treatment for CL, using different drugs such as paromomycin (PA), imiquimod, amphotericin B (AmB), miltefosine, and buparvaquone. PA is the most commonly studied drug, followed by AmB and Imiquimod. These drugs were incorporated in conventional dosage forms or loaded in lipid nanocarries, which have been used mainly for improved skin delivery and antileishmanial activity. Expert opinion: Developing an effective topical treatment for CL using these antileishmanial drugs still remains a great challenge. Insights into the most promising delivery strategies to improve treatment of CL with PA and AmB using conventional dosage forms, lipid nanocarriers, and combined therapy are presented and discussed. The results obtained with combined therapy and alternative delivery systems are promising perspectives for improving topical treatment of CL.     

Developments in the treatment of visceral leishmaniasis

Background: Visceral leishmaniasis (VL) is one of the most neglected parasitic diseases causing large scale mortality and morbidity among the poorest of the poor in the Indian subcontinent and Africa. Objective: This review aims to describe the potential and the (lack of) current impact of newly developed treatments on the control of VL. It describes how the problem of an empty research pipeline is addressed, and discusses the emerging threat of incurable HIV/VL coinfection. Methods: The literature was searched for drugs used in VL. Conclusion: Research and development of VL drugs has received a financial boost but no new drugs are expected in the next 5 years. Only three new and highly effective treatments have been licensed in the past 10 years. These remain, however, largely inaccessible as VL control programs in the developing world are lacking. This is deserving of immediate and urgent attention, especially in the context of the rapidly expanding HIV/VL coinfection.     

Paromomycin in the treatment of leishmaniasis

Background: The treatment options for leishmaniasis are limited. Most of the drugs available need parenteral administration, are toxic, require monitoring and have a prolonged treatment duration. All these factors increase the cost of the treatment. The development of resistance to pentavalent antimonials in patients with visceral leishmaniasis in North Bihar, India, has added another dimension to the problem. Objective: To summarise the pharmacological and clinical data on antileishmanial activity of paromomycin and discuss the impact this agent may have on present treatment regimens. Methods: A literature search on paromomycin and leishmaniasis was done on PubMed and through Google. Results: Paromomycin, with its excellent efficacy, low cost, shorter duration of administration and good safety profile, has the potential to be used as a first-line drug.     

Liposomal amphotericin B as a treatment for human leishmaniasis

Introduction: Leishmaniasis is a parasitic disease transmitted by phlebotomine sandflies. Between 700,000 and 1.2 million cases of cutaneous leishmaniasis and between 200,000 and 400,000 cases of visceral leishmaniasis (VL), which is fatal if left untreated, occur annually worldwide. Liposomal amphotericin B (LAMB), alone or in combination with other drugs, has been extensively studied as VL treatment, but data on routine field use are limited, and several challenges to patients' access to this life-saving drug remain.

Areas covered: This article provides a review of clinical studies on LAMB for VL and other forms of leishmaniasis. The current development of generic versions of LAMB and related challenges are also discussed.

Expert opinion: LAMB proved to be highly efficacious and safe in over 8000 VL patients treated by MÉdecins Sans Frontières in South Asia, and its use was feasible even at primary healthcare level. Despite requiring higher doses, LAMB is the drug of choice to treat vulnerable groups (e.g., pregnant or HIV positive) and relapsing VL patients in East Africa. LAMB should be included in national VL guidelines and registered in all VL endemic countries. Its cost should be further reduced and regulatory pathways to prove bioequivalence for generic LAMB products should be implemented.     

Evaluation of sodium stibogluconate in the treatment of cutaneous leishmaniasis in Syria

Summary

A series of 31 patients presenting with skin lcsions with positive stnears for leishmania parasites were treated with sodium stibogluconate (each ml of injection containing the equivalent of 100?mg pentavalent antimony). The drug was administered either intramuscularly at a dosage of 6 ml daily for at least 10 days or infiltrated around the lesion (maximum 2 ml per lesion) at weekly intervals for 3 to 4 consecutive weeks. Twenty-four (77%) of the patients were assessed as showing a successful response, with parasites absent from the smear and the lesions healing at the end of treatment. Poor results, however, were reported in 5 of the 16 patients treated solely by infiltration. Follow-up of n few patients at 3 months showed that the healing process was prompt and little disfiguration was produced, lesions on the trunk tending to heal more quickly than those on the face.     

Mixed formulation of conventional and pegylated liposomes as a novel drug delivery strategy for improved treatment of visceral leishmaniasis

Objective: Test the hypothesis that pegylated meglumine antimoniate-containing liposomes (LMA) and their mixture with non-pegylated (conventional) LMA may be more effective than conventional LMA against visceral leishmaniasis (VL), because of wider drug distribution among different mononuclear phagocyte system (MPS) tissues.

Methods: Sb was determined in the blood and MPS tissues after administration of pegylated or conventional LMA intravenously to mongrel dogs naturally infected with Leishmania infantum and Swiss mice. Pegylated and conventional LMA as well as their mixture were evaluated for their antileishmanial efficacy in BALB/c infected with L. infantum through determination of parasite load in liver, spleen and bone marrow.

Results: An improved targeting of Sb to the bone marrow of dogs was clearly evidenced, as an important impact of pegylation. In accordance with this data, pegylated LMA significantly reduced parasite load in bone marrow of infected mice, in contrast to conventional LMA. The mixed formulation of conventional and pegylated LMA promoted parasite suppression to a higher extent in both spleen and bone marrow, compared to pegylated or conventional LMA.

Conclusions: The present work establishes for the first time the potential of mixed formulations of conventional and pegylated liposomes as a drug delivery strategy for improved treatment of VL.     

Sodium stibogluconate loaded nano-deformable liposomes for topical treatment of leishmaniasis: macrophage as a target cell

Topical drug delivery against cutaneous leishmaniasis (CL) signifies an effective alternate for improving the availability and reducing the toxicity associated with the parenteral administration of conventional sodium stibogluconate (SSG) injection. The basic aim of the study was to develop nano-deformable liposomes (NDLs) for the dermal delivery of SSG against CL. NDLs were formulated by a modified thin film hydration method and optimized via Box–Behnken statistical design. The physicochemical properties of SSG-NDLs were established in terms of vesicle size (195.1?nm), polydispersity index (0.158), zeta potential (?32.8?mV), and entrapment efficiency (35.26%). Moreover, deformability index, in vitro release, and macrophage uptake studies were also accomplished. SSG-NDLs were entrapped within Carbopol gel network for the ease of skin application. The ex vivo skin permeation study revealed that SSG-NDLs gel provided 10-fold higher skin retention towards the deeper skin layers, attained without use of classical permeation enhancers. Moreover, in vivo skin irritation and histopathological studies verified safety of the topically applied formulation. Interestingly, the cytotoxic potential of SSG-NDLs (1.3?mg/ml) was higher than plain SSG (1.65?mg/ml). The anti-leishmanial activity on intramacrophage amastigote model of Leishmania tropica showed that IC₅₀ value of the SSG-NDLs was?～?fourfold lower than the plain drug solution with marked increase in the selectivity index. The in vivo results displayed higher anti-leishmanial activity by efficiently healing lesion and successfully reducing parasite burden. Concisely, the outcomes indicated that the targeted delivery of SSG could be accomplished by using topically applied NDLs for the effective treatment of CL.     

Effective topical delivery systems for corticosteroids: dermatological and histological evaluations

Abstract

Atopic dermatitis (AD) is a chronic and relapsing skin disease with severe eczematous lesions. Long-term topical corticosteroid treatment can induce skin atrophy, hypopigmentation and transepidermal water loss (TEWL) increase. A new treatment approach was needed to reduce the risk by dermal targeting. For this purpose, Betamethasone valerate (BMV)/Diflucortolone valerate (DFV)-loaded liposomes (220–350?nm) were prepared and incorporated into chitosan gel to obtain adequate viscosity (～13?000 cps). Drugs were localized in stratum corneum?+?epidermis of rat skin in ex-vivo permeation studies. The toxicity was assessed on human fibroblast cells. In point of in-vivo studies, pharmacodynamic responses, treatment efficacy and skin irritation were evaluated and compared with previously prepared nanoparticles. Liposome/nanoparticle in gel formulations produced higher paw edema inhibition in rats with respect to the commercial cream. Similar skin blanching effect with commercial creams was obtained via liposome in gels although they contain 10 times less drug. Dermatological scoring results, prognostic histological parameters and suppression of mast cell numbers showed higher treatment efficiency of liposome/nanoparticle in gel formulations in AD-induced rats. TEWL and erythema measurements confirmed these results. Overview of obtained results showed that liposomes might be an effective and safe carrier for corticosteroids in skin disease treatment.     

Drug delivery strategies for therapy of visceral leishmaniasis

Importance of the field: Visceral leishmaniasis (VL) is the most overwhelming type of leishmaniasis associated with the poverty of developing countries and usually mortal if untreated. Most of the conventionally used dosage forms offer us the shortcomings of toxic side effects and emergence of drug resistance. Several efforts have been made to overcome the barriers involved in the treatment of VL. Colloidal carriers extensively represent the drug delivery systems (DDSs) for intracellular localization of antileishmanial compounds in macrophage-rich organs such as liver, spleen and bone marrow. These DDSs offer superior therapeutic efficacy over the conventional treatment in terms of site-specific drug delivery with reduced side effects. However, after 35 years of research in the field, AmBisome^® (Amphotericin B liposome for injection, Astellas Pharma US, Inc.) is the only DDS used against the VL.

Areas covered in this review: A literature search was performed (for drugs and DDSs against VL) on PubMed and through Google.

What the reader will gain: This review aims to describe the pathophysiology of VL and its current conventional treatment with special reference to DDSs designed against VL.

Take home message: On reviewing the conventional drugs and DDSs developed against VL, it is concluded that advances in the field of targeted drug delivery can result in more efficient strategies for the therapy of VL.     

Treatment of visceral leishmaniasis

The Leishmania donovani complex includes L. chagasi and L. infantum, and causes visceral leishmaniasis (VL), a disseminated and potentially fatal form of leishmaniasis. The treatment options for VL are limited. Pentavalent antimonials (Sb^v) are the first-line treatment options worldwide except for in Europe and Sb^v-unresponsive regions of India. Amphotericin B deoxycholate is the drug of choice in India, as are its lipid formulations in Europe. However, liposomal amphotericin B (AmBisome^®, Gilead Sciences, Inc.) is the best antileishmanial formulation, but its prohibitive cost limits its use in endemic countries. Preferential pricing of AmBisome for patients with VL may provide hope for these underprivileged patients. Oral miltefosine and paromomycin are the other drugs that have been recently developed. Limited therapeutic options, the potential for development of resistance and serious toxicity associated with antileishmanial drugs necessitates a change in the treatment policy. A shift from monotherapy to multi-drug combinations of short courses delivered at no or affordable cost, through directly observed therapy, seems to be the only way to develop the treatment of this disease.     

Hyaluronan-decorated liposomes as drug delivery systems for cutaneous administration

The work aimed to evaluate the feasibility to design hyaluronic acid (HA) decorated flexible liposomes to enhance the skin penetration of nifedipine. Egg phosphatidylcholine (e-PC) based transfersomes (Tween 80) and transethosomes (ethanol) were prepared. HA was reacted with 1,2-dipalmitoyl-sn-glycero-3-phosphoethanolamine (HA-DPPE) and two molar ratios (0.5 and 3%) of conjugate with respect to e-PC were tested. The presence of HA significantly increased the packing order of the bilayer (as verified by differential scanning calorimetry), reducing both the encapsulation efficiency and the flexibility of the decorated liposomes in a dose-dependent manner. In fact, at the highest HA content the constant of deformability (K, N/mm) increased and the carriers remained on the skin surface after topical application. The stiffening effect of HA was counterbalanced by the addition of ethanol as fluidizing agent that allowed to maintain the highest HA concentration, meanwhile reducing the K value of the vesicles. HA-transethosomes allowed a suitable nifedipine permeation (J?～?30?ng/cm²/h) and significantly improved the drug penetration, favouring the formation of a drug depot in the epidermis. These data suggest the potentialities of HA-transethosomes as drug delivery systems intended for the treatment of cutaneous pathologies and underline the importance of studying the effect of surface functionalization on carrier deformability to rationalize the design of such systems.     

The reformulation of Amphotericin B for oral administration to treat systemic fungal infections and visceral leishmaniasis

Amphotericin B (AmB) is a parenterally administered broad-spectrum antifungal and leishmanicidal drug that has been on the market for over sixty years. Unfortunately, significant infusion-related side effects and renal toxicity often accompany treatment, limiting its clinical applications. Lipid-based formulations have somewhat ameliorated the associated toxicity, but the increased cost of formulations restricts widespread use. AmB is amphipathic and exhibits low solubility and permeability, resulting in negligible absorption when administered orally. Advances in drug delivery systems have overcome some of the solubility issues that prevent oral bioavailability and new formulations are currently in development. The existence of an effective, safe and inexpensive oral formulation of amphotericin B would have significant applications for the treatment of disseminated fungal infections and would dramatically expand access to treatment of visceral leishmaniasis by introducing a readily available highly tolerated oral formulation of a drug with known efficacy.     

Clinical status of agents being developed for leishmaniasis

Leishmaniasis, which exists in both visceral and cutaneous forms, is currently treated with intramuscular antimony or intravenous amphotericin B. The primary unmet need is for oral therapy. Of the several drugs in clinical development, miltefosine is unique in being an oral agent with efficacy against both forms of the disease. Sitamaquine is an oral agent with substantial but not sufficient efficacy against visceral disease. Oral fluconazole has been shown to be more effective than placebo in one instance: for Leishmania major cutaneous disease from Saudi Arabia. Paromomycin is in widespread trial. Topical paromomycin formulations are being tested for cutaneous disease, and intramuscular paromomycin is in Phase III trial for Indian visceral disease. The most likely replacements for present therapy are oral miltefosine for many of the visceral and cutaneous syndromes, intramuscular paromomycin for visceral disease and topical paromomycin for some forms of cutaneous disease.     

Recent advances in amphotericin B delivery strategies for the treatment of leishmaniases

ABSTRACT

Introduction: Among the drugs in clinical use for the treatment of leishmaniases, amphotericin B (AmB) is the most effective and has been the most extensively studied for the development of drug delivery strategies. Liposomal amphotericin B (AmBisome®) still represents the best therapeutic option for leishmaniases, however, its clinical efficacy depends on the patient immunological status and the endemic region. Moreover, the need for parenteral administration, its side effects and high cost significantly limit its use in developing countries.

Areas covered: This article provides insight into the novel drug delivery strategies that were investigated for AmB over the last 5 years and a final critical selection of emerging concepts and most promising approaches, based on the significance of preclinical antileishmanial and toxicity data.

Expert opinion: The feasibility of oral and topical delivery of AmB has been established in experimental models of leishmaniases. Highly effective AmB nanocarriers containing active targeting ligand and/or immunomodulatory component have also emerged. Translating these advances to the clinic still relies on the full demonstration of safety and efficacy in humans and on the viability and cost-effectiveness of large-scale industrial production.     

An alternative topical treatment of osteoarthritis of the knee with cutaneous diclofenac solution

Background: Osteoarthritis (OA) is the most common chronic degenerative disease, which is characterised by the destruction of the articular cartilage and subchondral bone. The current treatment of OA is based primarily on the use of nonsteroidal anti-inflammatory drugs (NSAIDs) and analgesics. There are disadvantages to routinely using NSAIDs in OA. Topical NSAIDs represent a potentially important advance in this regard as they may be significantly safer than oral NSAIDs. Cutaneous diclofenac solution (Pennsaid^®) was developed for the treatment of symptomatic OA of the knee and contains diclofenac sodium as an active ingredient and dimethyl sulfoxide (DMSO), a penetration enhancer. Objective: To review: i) dermal drug application; ii) the treatment of OA with systemic and topical NSAID therapies; and iii) the clinical efficiency of Pennsaid on the topical treatment of OA of the knee. Methods: A literature search was carried out on skin, topical drug delivery, treatment of OA and assessment of published clinical studies with Pennsaid. Results and discussion: The clinical studies showed that applying the topical diclofenac solution (Pennsaid) to a painful knee with primary OA could provide symptom relief equivalent to oral diclofenac with minimal systemic side effects; however, studies are needed that compare the effectiveness of Pennsaid with different topical forms of diclofenac.