Assessment of the Vehicle for Roflumilast Cream Compared to a Ceramide-Containing Moisturizing Cream in Mild Eczema.

BACKGROUND: Inflammatory dermatologic conditions suitable for topical treatments benefit from a hydrating vehicle that improves the skin barrier without irritation. OBJECTIVE: This research was designed to assess skin barrier effects and aesthetic attributes of the vehicle for topical roflumilast cream (vehicle) vs a currently marketed ceramide-containing moisturizing cream (moisturizer). METHODS: This was a single-site, randomized, intraindividual, double-blind, controlled study conducted over 17 days. Patients (aged 18 years or older) with mild, symmetric asteatotic eczema of the lower extremities were enrolled to receive lower leg applications of the vehicle on one leg and moisturizer on the other. The primary efficacy endpoint was a change in transepidermal water loss (TEWL) from baseline to day 15. Secondary efficacy endpoints included change from baseline in TEWL at other study visits, change from baseline in hydration as assessed via corneometry, and patient- and investigator-rated assessments of the products. Safety and tolerability were also assessed. RESULTS: A total of 40 patients enrolled in the study. The primary efficacy endpoint was met for both treatments. A statistically significant difference in TEWL on day 1 favored the moisturizer, but no difference was seen between vehicle and moisturizer at any other timepoint. Both vehicle and moisturizer also met the secondary efficacy endpoint of change from baseline in hydration. LIMITATIONS: The sample size was small. CONCLUSIONS: The vehicle for roflumilast cream performed similarly to a leading, currently marketed, dermatologist-recommended, ceramide-containing moisturizer across all patient- and investigator-rated assessments of efficacy, tolerability, and aesthetic properties in patients with mild asteatotic eczema. J Drugs Dermatol. 2024;23(10):834-840. doi:10.36849/JDD.7958  .

Combining topical dermal infused exosomes with injected calcium hydroxylapatite for enhanced tissue biostimulation.

BACKGROUND: Exosome research continues to flourish. Subsequent knowledge surrounding indications, dose-response, safety, efficacy, and the ability to combine exosome treatment as a "skin primer"-for biostimulation modalities such as calcium hydroxylapatite (CaHA), platelet-rich plasma (PRP), and platelet-rich fibrin matrix (PRFM) is growing rapidly. The objective of this study was to develop safe, reproducible methods of improving topical exosome absorption to enhance the quality of skin either by themselves, or in combination with injectable CaHA. METHODS: Under IRB Approval (International Cell Surgical Society: ICSS-2022-007), 40 patients were enrolled in this study. Twenty patients underwent facial biostimulatory dermal infusion alone, to determine if this method allowed adequate exosome absorption. Five patients underwent facial biostimulatory infusion followed immediately by Dilute CaHA injection (1:1 dilution) to the face. Five patients underwent exosome biostimulatory dermal infusion followed immediately by hyperdilute CaHA (dilution 1:4) injection to the neck. Five patients underwent Facial Dilute CaHA injection (1:1 dilution) alone, without dermal infusion. Five patients underwent neck hyperdilute CaHA injection (1:4 dilution) alone, without dermal infusion. All patients had pretreatment Quantificare 3-D photo-documentation and skin analysis (Quantificare, France). In all patients, the skin was first cleansed with a gentle glycolic acid facial wash (Gregory MD). To induce a "homing inflammatory environment" for the exosomes, sea salt exfoliation was performed (SaltFacial®, SaltMed, Cardiff, CA). A nitric oxide-generating serum (N101 Pneuma Nitric Oxide, Austin, TX) was then applied to act as an enhanced vehicle for absorption. A 3 MHz ultrasound (SaltFacial®, SaltMed, Cardiff, CA) was then utilized to further deepen the absorption of the nitric oxide serum. A topical emulsion containing equal volumes (1.0 cc containing 1 million) of exosomes (Kimera Labs, Miramar, FL), 25 units of botulinum toxin (Xeomin, Merz Aesthetics, Raleigh, NC) and hyaluronic acid (Belatero, Merz Aesthetics, Raleigh, NC) was mixed via back-and-forth propulsion in a 3-cc syringe. When adequately mixed, the emulsion was then applied to the treatment areas. The cavitating ultrasound was then used to aid in the absorption of the emulsion. The patients were then treated with high-intensity LED therapy (SaltFacial®, SaltMed, Cardiff, CA), utilizing the collagen restoration preset program of combination red (660 nm) near-infrared (930 nm) wavelength for 20 min. Post-treatment Quantificare analysis was performed at 15 and 30 days after treatment. RESULTS: Without exception, all dermal infusion alone and CaHA injection alone patients showed an improvement in the tone, quality, and texture of their skin. Quantificare results showed consistent improvement in wrinkles, pores, skin evenness, improved vascularity, and a reduction in oiliness and unwanted pigment. When employed as a skin primer prior to injections (CaHA), enhanced and more rapid results were seen. CONCLUSIONS: Biostimulatory dermal infusion can be achieved utilizing topical placental mesenchymal stem cell-derived exosomes. These exosomes can be used alone, or mixed with ancillary ingredients such as botulinum toxin, hyaluronic acid dermal filler, and CaHA to customize and personalize treatments based upon individual patient needs. Topical absorption is enhanced with sea salt exfoliation, a topical nitric oxide-generating serum, and 3 MHz cavitating ultrasound. Post-absorption activity is enhanced with high-intensity LED treatment. The addition of CaHA injections after the topical exosome "priming of the skin" yielded enhanced skin quality faster than exosomes or CaHA alone.

The influence of lipid digestion on the fate of orally administered drug delivery vehicles.

This review will focus on orally administered lipid-based drug delivery vehicles and specifically the influence of lipid digestion on the structure of the carrier lipids and their entrained drug cargoes. Digestion of the formulation lipids, which are typically apolar triglycerides, generates amphiphilic monoglycerides and fatty acids that can self-assemble into a diverse array of liquid crystalline structures. Tracking the dynamic changes in self-assembly of the lipid digestion products during digestion has recently been made possible using synchrotron-based small angle X-ray scattering. The influence of lipid chain length and degree of unsaturation on the resulting lipid structuring will be described in the context of the critical packing parameter theory. The chemical and structural transformation of the formulation lipids can also have a dramatic impact on the physical state of drugs co-administered with the formulation. It is often assumed that the best strategy for drug development is to maximise drug solubility in the undigested formulation lipids and to incorporate additives to maintain drug solubility during digestion. However, it is possible to improve drug absorption using lipid digestion in cases where the solubility of the dosed drug or one of its polymorphic forms is greater in the digested lipids. Three different fates for drugs administered with digestible lipid-based formulations will be discussed: (1) where the drug is more soluble in the undigested formulation lipids; (2) where the drug undergoes a polymorphic transformation during lipid digestion; and (3) where the drug is more soluble in the digested formulation lipids.

Ocular Distribution of Papaverine Using Non-aqueous Vehicles.

Papaverine, a poorly soluble opium alkaloid, has recently been shown to reduce retinal inflammation due to which it may have therapeutic application in the management of Leber's hereditary optic neuropathy. In this study, papaverine eyedrops based on medium chain triglycerides were prepared and the effect of diethyl glycol monoethyl ether (DGME) on their ocular distribution was evaluated using an ex vivo porcine eye model. The route of drug penetration was also studied by orienting the eye to expose either only the cornea or the sclera to the formulation. Furthermore, in vivo studies were performed to confirm ocular tolerability and evaluate ocular drug distribution. Our results showed increased papaverine concentrations in the cornea and sclera in the presence of DGME but with a slight reduction in the retina-choroid (RC) drug concentration when administered via the corneal route, suggesting that DGME enhances drug accumulation in the anterior ocular tissues but with little effect on posterior drug delivery. In vivo, the papaverine eyedrop with DGME showed good ocular tolerability with the highest drug concentration being observed in the cornea (1.53 ± 0.28 µg/g of tissue), followed by the conjunctiva (0.74 ± 0.18 µg/g) and sclera (0.25 ± 0.06 µg/g), respectively. However, no drug was detected in the RC, vitreous humor or plasma. Overall, this study highlighted that DGME influences ocular distribution and accumulation of papaverine. Moreover, results suggest that for hydrophobic drugs dissolved in hydrophobic non-aqueous vehicles, transcorneal penetration via the transuveal pathway may be the predominant route for drug penetration to posterior ocular tissues. Graphical abstract.

Topical corticosteroid vehicle composition and implications for clinical practice.

This narrative review highlights the therapeutic significance of topical corticosteroid (TCS) vehicles and provides subsequent guidance to improve clinical and research outcomes. A greater understanding of the relationship between the topical vehicle, corticosteroid and skin is needed to ensure safer, more effective treatment for patients. Topical vehicles are not inert and can affect TCS bioavailability, due to the ability of their composition to positively or negatively influence skin status and change the physiochemical characteristics of an inherent corticosteroid. However, this principle is not commonly understood, and has contributed to inconsistencies in potency classification systems. This review provides an insight into the research methods and standardization needed to determine TCS product bioavailability. It identifies formulation components responsible for vehicle composition that underpin the quality, stability, compounding and functionalities of vehicle ingredients. This helps to contextualize how topical vehicles can be responsible for clinically significant effects, and how their composition gives products unique properties. In turn, this facilitates a more in-depth understanding of which resources offer information to inform the best selection of TCS products and why products should be prescribed by brand or manufacturer. This review will better equip clinicians and formulary teams to appraise products. It will also inform prescribing of Specials and why products should not be manipulated. The recommendations, accompanied by patient perspectives on using TCS products, assist clinical decision-making. They also identify the need for research into concomitant application of TCS products with other topical therapies.

Single-stage debridement with implantation of antibiotic-loaded calcium sulphate in 34 cases of localized calcaneal osteomyelitis.

Background and purpose - The successful eradication of calcaneus infection with limb salvage remains a challenge. We describe the outcomes of cortical bone windowing followed by eggshell-like debridement and implantation of antibiotic-loaded calcium sulphate (CS) for localized (Cierny-Mader type III) calcaneal osteomyelitis (CO).Patients and methods - We report a retrospective study of 34 patients. Infection followed trauma or orthopedic surgery in 30 patients and hematogenous spread in 4 patients. 31 patients had a sinus tract, accompanied by a soft tissue defect in 3 patients. All patients received cortical bone windowing, debridement, multiple sampling, local implantation of vancomycin- and gentamicin-loaded CS, skin closure or flap coverage, and culture-specific systematic antibiotic treatment in a single-stage procedure. Patients were followed up for a median of 26 months.Results - Infection was eradicated in 29 patients after the single-stage surgery, and all of the 5 recurrent infections were cleared by repeated surgery without amputation. Other adverse events included 11 patients with aseptic wound leakage and 1 unrelated death. Compared with those before surgery, the median postoperative scores of the American Orthopaedic Foot & Ankle Society (AOFAS) ankle hindfoot scale (65 vs. 86 vs. 89) and the visual analog scale (VAS) for pain (6 vs. 3 vs. 1) improved at the 1-year and 2-year follow-up.Interpretation - This single-stage protocol, cortical bone windowing, and eggshell-like debridement combined with local implantation of antibiotic-loaded CS is effective in treating type III CO. However, the incidence of aseptic wound leakage is high.

Current Progress in Particle-Based Systems for Transdermal Vaccine Delivery.

Transcutaneous immunization (TCI) via needle-free and non-invasive drug delivery systems is a promising approach for overcoming the current limitations of conventional parenteral vaccination methods. The targeted access to professional antigen-presenting cell (APC) populations within the skin, such as Langerhans cells (LCs), various dermal dendritic cells (dDCs), macrophages, and others makes the skin an ideal vaccination site to specifically shape immune responses as required. The stratum corneum (SC) of the skin is the main penetration barrier that needs to be overcome by the vaccine components in a coordinated way to achieve optimal access to dermal APC populations that induce priming of T-cell or B-cell responses for protective immunity. While there are numerous approaches to penetrating the SC, such as electroporation, sono- or iontophoresis, barrier and ablative methods, jet and powder injectors, and microneedle-mediated transport, we will focus this review on the recent progress made in particle-based systems for TCI. This particular approach delivers vaccine antigens together with adjuvants to perifollicular APCs by diffusion and deposition in hair follicles. Different delivery systems including nanoparticles and lipid-based systems, for example, solid nano-emulsions, and their impact on immune cells and generation of a memory effect are discussed. Moreover, challenges for TCI are addressed, including timely and targeted delivery of antigens and adjuvants to APCs within the skin as well as a deeper understanding of the ill-defined mechanisms leading to the induction of effective memory responses.

Potential cross-reactivity of polysorbate 80 and cremophor: A case report.

INTRODUCTION: Anaphylactic and hypersensitivity reactions are known adverse effects of many drug products and may be due to the inactive ingredients of the drug formulation. Specifically for paclitaxel and docetaxel, it is their excipients (cremophor and polysorbate 80, respectively) that have been identified as being most likely responsible for these reactions. CASE REPORT: The patient is a 39-year-old female, with a history of breast cancer and no known allergies, who was scheduled to start chemotherapy. While being administered fosaprepitant, she reported shortness of breath and was noted to be hypotensive and flushed. Two months later, the patient returned to clinic to start weekly paclitaxel. During the administration of the paclitxel test dose, the patient reported difficulty breathing, flushing, and chest tightness. Management and outcome: Both medication reactions were managed with epinephrine and other supportive medications. Fosaprepitant was taken out of the patient's antiemetic regimen for future cycles and paclitaxel was switched to nab-paclitaxel. DISCUSSION: It is well documented that paclitaxel and fosaprepitant have the potential to cause hypersensitivity reactions due to their excipients. While it is likely that each reaction was a unique event, it is difficult to ignore the possibility of cross-reactivity due to the presence of oleic acid in both excipients.

Intracellular RNA delivery by lipid nanoparticles: Diffusion, degradation, and release.

Various RNAs (siRNAs, miRNAs, or mRNAs) can be delivered into cells by lipid nanoparticles (LNPs) of 50-150 nm in diameter. The subsequent RNA release from LNPs may occur via various scenarios. Herein, two related kinetic models are proposed. The first model takes into account that LNPs are often porous so that RNA molecules diffuse in and detach from nanopores. The analysis is focused on RNA diffusion from a pore. The analytical expression obtained for the RNA escape rate constant is used to identify the difference in the release of siRNAs, miRNAs, and mRNAs. The key message here is that the mRNA diffusion from pores appears to be too slow, and accordingly the mRNA release seems to occur primarily via degradation of LNPs. The second coarse-grained model describes the diffusion-mediated release of RNA from a LNP in the situation when this process is accompanied by the LNP degradation at the lipid-solution interface. The corresponding kinetics are shown in detail at different relative rates of the RNA diffusion and LNP degradation. Potentially, this can help to interpret drug plasma levels after various dosing regimens.

A Review of Topical Corticosteroid Foams

BACKGROUND: Topical corticosteroids are efficacious treatment options for multiple dermatoses. However, ointments and cream corticosteroid vehicles can be cumbersome to patients and may act as a barrier to adherence. Foam vehicles may be preferred by some patients. OBJECTIVE: To evaluate the efficacy and safety of topical corticosteroid foams. METHODS: A literature review was conducted using the keywords "clobetasol," "betamethasone," "propionate," "valerate," "topical," "foam," "vehicles," "desonide," and "clinical trial." Thirty-seven articles were chosen. RESULTS: For moderate plaque-type psoriasis, 68% of subjects using clobetasol propionate foam achieved a Physician Static Global Assessment score of 0 or 1 at week 2 compared with 21% in the control group (P<0.0001). For betamethasone valerate (BMV) foam, a 12-week regimen for alopecia areata yielded a mean Investigator Global Assessment score of 2.9 compared with placebo (4.6; P<0.001) and achieved ≥75% hair regrowth in 42.86% of subjects. Furthermore, BMV foam cleared or almost cleared 72% of scalp psoriasis subjects compared with BMV lotion (P≤0.005%). For calcipotriol plus betamethasone dipropionate foam, 38.3% of psoriasis subjects achieved treatment success compared with placebo (22.5%; P<0.001). Desonide 0.05% foam was superior to vehicle foam in pediatric atopic dermatitis subjects. CONCLUSION: Topical corticosteroid foams can be used for a variety of corticosteroid-responsive dermatoses. Topical corticosteroid foams are generally easy to apply and may improve patient adherence and, therefore, clinical outcome in patients who prefer a convenient and less messy topical therapy.

Two Multicenter, Randomized, Double-Blind, Parallel Group Comparison Studies of a Novel Foam Formulation of Halobetasol Propionate, 0.05% vs Its Vehicle in Adult Subjects With Plaque Psoriasis

BACKGROUND: A novel foam formulation of halobetasol propionate, 0.05% (HBP-Foam) has been developed to treat plaque psoriasis in patients who prefer a thermostable topical foam with low application shear that allows for easier coverage over large and/or hirsute areas than existing formulations. OBJECTIVE: To determine the safety and effectiveness of HBP-Foam in subjects with plaque psoriasis. METHODS: Two randomized, double-blind, vehicle-controlled clinical studies were conducted in 560 adult subjects with moderate to severe plaque psoriasis. Subjects applied the assigned test article to all psoriatic plaques twice daily for 14 days. The key efficacy measures were the proportion of subjects with "treatment success," defined as those subjects that achieved a score of 0 (clear) or 1 (almost clear) and at least a two-grade improvement compared to baseline for the Investigator's Global Assessment (IGA) and for the clinical signs of psoriasis (plaque elevation, scaling, and erythema) as well as pruritus. Safety measurements included adverse events and local skin reactions in the treatment area. RESULTS: HBP-Foam was statistically superior to vehicle in achieving "Treatment Success" in 25.3% and 30.7% vs 3.9% and 7.4% (P<0.001) in Studies 1 and 2, respectively. Pruritus scores statistically improved by over 30% in HBP-Foam treated subjects. In addition, these subjects experienced a significant reduction in the clinical signs of psoriasis (plaque elevation, scaling, and erythema). In contrast, in the vehicle groups the decrease in psoriasis-related signs was generally not observed. Safety outcomes were unremarkable and similar in both the HBP-Foam and vehicle treatment groups. CONCLUSIONS: These results demonstrate the safety and effectiveness of HBP-Foam in the treatment of plaque psoriasis. Furthermore, this novel foam formulation has demonstrable for its ease of application over large and/or hairy treatment areas. ClinicalTrials.gov Registration: NCT02742441 NCT02368210

Validation of Botanical Treatment Efficiency for Adults and Children Suffering from Mild to Moderate Atopic Dermatitis

Objective: The study was conducted to determine the efficiency of the botanicals combination incorporated in the Kamedis Eczema Therapy Cream (the tested product) for adults and children suffering from mild to moderate Atopic Dermatitis. Design: The study designed as an interventional, multi-center, double-blind, randomized, controlled study. Setting: Subjects were evenly randomly divided into three treatment groups: tested product, vehicle, and comparator. The vehicle used was the identical tested product without the botanical combination while the comparator was a leading OTC brand in the US market. All three above groups used a similar Kamedis wash for the body and face following by one of the three randomized treatment creams for the affected areas on the face and body. Participants: One hundred and eight (108) subjects with uncomplicated, stable, mild to moderate atopic dermatitis recruited and qualified for the study; 71 females and 37 males, age 3 to 73. Measurements: The investigator assessed the severity of each subject using the Investigator Global Assessment (IGA) and affected body surface area (BSA) at each of the visit days 0, 7, 14, and 28. Results: The tested product demonstrated an improvement in IGA and BSA over the vehicle at every visit across treatment time, proving the validation that the botanical product is much more effective and beneficial than the same product without the botanicals. The tested product as well as the comparator reached exactly the same percentage, 34%, of 'clear' IGA subjects of the enrolled subjects, presenting advantage over the vehicle. The BSA improvement comparison analysis of the tested product over the vehicle yielded statistically significant P value of 0.0369. Conclusion: The study results approve and validate that the botanical combination is the key factor for the efficacy and improvement of the AD symptoms within this study population. J Drugs Dermatol. 2019;18(6):557-561.

A Phase 2b, Randomized, Double-Blind Vehicle Controlled, Dose Escalation Study Evaluating Clascoterone 0.1%, 0.5%, and 1% Topical Cream in Subjects With Facial Acne

Androgens play a key role in acne pathogenesis in both males and females. Clascoterone (CB-03-01, Cortexolone 17α propionate) cream is a topical anti-androgen under investigation for the treatment of acne. The results from a phase 2b dose escalating study are discussed. Methods: Primary objective: to compare the safety and efficacy of topical creams containing clascoterone 0.1% (twice daily [BID]), 0.5% (BID), or 1% (daily [QD] or BID) versus vehicle (QD or BID) in male and female subjects ≥12 years with facial acne vulgaris. Efficacy was assessed by: Investigator's Global Assessment (IGA)--the overall severity of acne using a five-point scale (from 0=clear to 4=severe); inflammatory and non-inflammatory acne lesion counts (ALC); and subject satisfaction with treatment--subjects assessed overall treatment satisfaction using a 4-point scale. Safety assessments: local and systemic adverse events (AEs), physical examination/vital signs, laboratory tests, local skin reactions (LSRs), and electrocardiograms (ECGs). Treatment success required a score of "clear" or "almost clear" (IGA score of 0 or 1) and a two or more-grade improvement from baseline. Results: 363 subjects (N=72, 0.1% BID; N=76, 0.5% BID; N=70, 1% QD; N=70, 1% BID; and N=75, vehicle QD or BID) enrolled. 304 subjects (83.7%) completed the study. Intention to Treat (ITT) population: 196/363 (54.0%) females; 167/363 46.0%) males; (257/363 (70.2%) were white; average age=19.7 years. Demographic and baseline characteristics were similar across all groups. Treatment success at week 12 were highest for the 1% BID (6/70, 8.6%) and 0.1% BID (6/72, 8.3%) groups versus vehicle (2/75, 2.7%). Absolute change in inflammatory (P=0.0431) and non-inflammatory (P=0.0303) lesions was statistically significant among the treatment groups. The median change from baseline at week 12 in inflammatory and non-inflammatory lesions was greatest in the 1% BID group -13.5 and -17.5, respectively. Similar results were observed for the secondary efficacy endpoints whereby the highest success rate and greatest reduction in lesion counts from baseline to week 12 occurred with 1% BID. 93/363 subjects (25.6%) reported ≥1 AEs; total number of AEs=123 with 2 probably/possibly related to treatment (N=1, 1% QD group). Subjects with ≥1AEs: 0.1% BID=25.0%, 0.5% BID=38.2%, 1% QD=22.9%, 1% BID=18.6%, and vehicle=22.7%. AEs were mostly mild in severity and similar across all groups. Most AEs (93/121 76.8%) resolved by the end of the study. Erythema was the most prevalent LSR; 36.8% had at least minimal erythema at some point during the study. Conclusions: All clascoterone cream concentrations were well tolerated with no clinically relevant safety issues noted. Clascoterone 1% BID treatment had the most favorable results and was selected as the best candidate for further clinical study and development. Two Phase 3 investigations of clascoterone topical cream, 1% for the treatment of moderate-to-severe acne vulgaris in individuals ≥9 years recently concluded. J Drugs Dermatol. 2019;18(6):570-575.

Pharmacokinetics of 40 kDa PEG in rodents using high-field NMR spectroscopy.

Conjugation of macromolecular drugs to polyethylene glycol (PEG) improves their therapeutic potential by reducing their rate of degradation, thereby extending the drugs half life. As a substantial component of the drug, it is necessary to measure the pharmacokinetic (PK) characteristics of PEG in vivo. A quantitative NMR-based method was developed and successfully applied to measuring double-branched polyethylene glycol 40 kDa (PEG40) in serum samples, enabling determination of PK parameters of PEG40 in preclinical species. NMR is ideal for measuring such polymers because a single, sharp peak is obtained for all the equivalent methylene protons; this amplifies the signal and makes the method insensitive to polymeric heterogeneity. High field NMR (600 MHz) with proton-observe cryoprobe technology allowed for analysis of samples in 300 nM range. Mice received 50 mg/kg of PEG40 intravenously (IV) and serum samples were collected at regular intervals for up to 72 h after dosing. The serum samples were analyzed for PEG40 using the NMR method and PK parameters were calculated using non-compartmental analysis. The volume of distribution was determined to be 0.17 L/kg for IV dosing, indicating limited distribution to interstitial space. A low clearance and observed half life of 18 h is consistent with previous reports on the PK properties of a variety of different PEG molecules ranging from 3 kDa to 190 kDa using 125I-labeled PEG in mice. The current NMR technique is easy to implement and does not require labeling of the PEG. Additionally, this is the first report, to our knowledge, of NMR spectroscopy application to PK profiling in serum.

TAZ couples Hippo/Wnt signalling and insulin sensitivity through Irs1 expression.

Insulin regulates blood glucose levels by binding its receptor and stimulating downstream proteins through the insulin receptor substrate (IRS). Impaired insulin signalling leads to metabolic syndrome, but the regulation of this process is not well understood. Here, we describe a novel insulin signalling regulatory pathway involving TAZ. TAZ upregulates IRS1 and stimulates Akt- and Glut4-mediated glucose uptake in muscle cells. Muscle-specific TAZ-knockout mice shows significantly decreased Irs1 expression and insulin sensitivity. Furthermore, TAZ is required for Wnt signalling-induced Irs1 expression, as observed by decreased Irs1 expression and insulin sensitivity in muscle-specific APC- and TAZ-double-knockout mice. TAZ physically interacts with c-Jun and Tead4 to induce Irs1 transcription. Finally, statin administration decreases TAZ, IRS1 level and insulin sensitivity. However, in myoblasts, the statin-mediated decrease in insulin sensitivity is counteracted by the expression of a constitutively active TAZ mutant. These results suggest that TAZ is a novel insulin signalling activator that increases insulin sensitivity and couples Hippo/Wnt signalling and insulin sensitivity.

Well-tolerated oral cyclosporine in a case of hypersensitivity to parenteral cyclosporine in postallogeneic bone marrow transplantation.

Cyclosporine is one of the main drugs used for the prophylaxis of graft versus host disease in bone marrow transplanted patients. Hypersensitivity reaction to intravenous cyclosporine is rare and might be due to its vehicle polyoxyethylated castor oil, Cremophor EL. The exact mechanism is unknown, but IgE and IgG antibodies, complement, and histamine release have been considered to play a role in the development of this reaction. Here, we describe a case of anaphylaxis to intravenous cyclosporine, which was developed in a 19-year-old Iranian female with acute myeloid leukemia who underwent allogeneic bone marrow transplantation from her sister. The corn oil-based soft gelatin capsule (Sandimmune®) was substituted with no reaction. Our observation along with the previous reports confirms the role of Cremophor EL in hypersensitivity reaction to cyclosporine, according to which, modifying the formulation of the intravenous (IV) form could be the solution for this problem.

Metamorphosis of Vehicles: Mechanisms and Opportunities.

The visibility of a skin condition or dermatosis led to the reasonable assumption that the direct application of a therapeutic remedy to the target tissue holds many advantages. Through centuries, the nomenclature of topical preparations has proliferated and finally been moulded into the compulsory nomenclature of official compendia. In everyday life, many terms have been added and have complicated understanding and communication among and between healthcare professionals and laypersons. A large proportion of marketed topical preparations contain significant amounts of volatile vehicle ingredients that evaporate once they are applied onto the skin, that is, the vehicle format as well as the sum of vehicle ingredients in the primary container are different from the vehicle format and the sum of vehicle ingredients on the skin. This phenomenon and the potential consequences have so far been often ignored by many healthcare professionals and laypersons. To gain a better understanding, this phenomenon has been coined as the metamorphosis of the vehicle. The metamorphosis of the vehicle describes the vehicle (a) in the primary container (primary formulation), (b) during and immediately after application onto the skin (secondary formulation) and (c) after all volatile vehicle ingredients have evaporated from the vehicle on top of the skin (tertiary or residual formulation). The secondary and tertiary formulations may offer increased delivery of cosmetic or pharmaceutical actives. This is achieved by (a) an intended post-application creation of supersaturation of actives in the secondary and tertiary formulations or by (b) physico-chemical triggers such as pH.

Potential Interference of Oil Vehicles on Genital Tubercle Development during the Fetal Period in ICR Mice.

Corn oil, sesame oil, and 10% ethanol in corn oil are commonly used as dosing vehicles in toxicology studies. Since these vegetable oils contain bioactive compounds, it is important for toxicology studies to characterize the toxicities of the dosing vehicles themselves. It has been recently proposed that the width of the genital tubercle (GT), the dorsal-ventral length (D-V length) of the GT, and urethral tube closure in mouse fetuses can be used as novel markers for monitoring sexual development in mice. However, how these parameters are influenced by the dosing vehicles themselves remains unclear. Therefore, we evaluated the effects of corn oil, sesame oil, and 10% ethanol in corn oil on GT width, D-V length, and GT morphology in ICR mice. Our results showed that all three vehicles influenced GT width and D-V length, but not GT morphology, suggesting that the effects of dosing vehicles themselves might need to be considered when GT width or D-V length is used as a parameter to evaluate the effects of chemicals on GT development.