Versatility of hydrogel-forming microneedles in in vitro transdermal delivery of tuberculosis drugs.

Current therapy of tuberculosis (TB) has several limitations, such as risk of liver injury and intestinal dysbiosis due to frequent oral administration of antibiotics. Transdermal administration could be used to improve antibiotic delivery for treatment of Mycobacterium tuberculosis infection. Therefore, we developed a novel approach, using hydrogel-forming microneedle (MN) arrays to transdermally deliver TB drugs, namely rifampicin, isoniazid, pyrazinamide and ethambutol, which have different physicochemical properties. These drugs were individually prepared into three types of drug reservoirs, including lyophilised tablets, directly compressed tablets and poly(ethylene glycol) tablets. Formulations of each drug reservoir type were optimised to achieve a rapidly dissolving tablet, and further integrated with hydrogel-forming MN arrays for in vitro permeation studies. Three types of hydrogel formulation were manufactured using different type of polymers and crosslinking processes. These MN arrays were then evaluated in terms of swelling ability, morphology and physical properties. Results of solute diffusion studies showed that drug permeation across the swollen hydrogel membrane was affected mostly by physiochemical properties and functional groups of each drug. In the in vitro studies, the amount of permeated drug through the hydrogel-forming MN arrays across the dermatomed neonatal porcine skin was affected by the drug solubility and reservoir design. The highest permeation of rifampicin (3.64 mg) and ethambutol (46.99 mg) were achieved using MN arrays combined with the poly(ethylene glycol) tablets and directly compressed tablet, respectively. For isoniazid and pyrazinamide, the highest drug permeation was attained using lyophilised reservoir with the amount of drug delivered approximately 58.45 mg and 20.08 mg, respectively. These equate to transdermal delivery of approximately 75% (rifampicin), 79% (isoniazid), 20% (pyrazinamide) and 47% (ethambutol) of the drugs loaded into the reservoirs on average. Importantly, the results of this work have demonstrated the versatility of hydrogel formulations to deliver a TB drug regime using MN arrays. Accordingly, this is a promising approach to deliver high dose of TB drugs.

Plasmonic photothermal microneedle arrays and single needles for minimally-invasive deep in-skin hyperthermia.

We report, for the first time, crosslinked polymeric microneedle (MN) arrays and single needles (2 mm and 4.5 mm length) coated with gold nanorods (GnRs) to induce deep hyperthermia in a 3 mm-thickness skin model upon near infrared (NIR) laser irradiation. Using excised neonatal porcine skin as tissue model, it was seen that insertion capabilities of single prototypes were not affected by the coating, as around 80% of their length was inserted before and after coating. Insertion of MN arrays dropped from 74% to 55%, which could be attributed to a less sharp structure after the coating process. Nonetheless, GnRs-coated MN arrays achieved the highest increase in temperature in the skin model: over 15 °C after only 15 s of NIR laser irradiation (808 nm, 2 W cm-2). Surprisingly, removal of MN arrays after irradiation left no detectable polymer or plasmonic material behind, confirming the enhanced safety and minimally-invasive potential of this device for future biomedical applications of deep in skin hyperthermia.

Isolation and Characterization of Gramineae and Fabaceae Soda Lignins.

Some agricultural residues such as wheat or barley straw, as well as certain fast-growing plants like Leucaena leucocephala and Chamaecytisus proliferus, could be used as raw materials for the paper industry as an alternative to traditional plants (eucalyptus, pine, etc.). In the present study, four types of lignin obtained from the spent liquors produced by the pulping processes using the abovementioned feedstocks were isolated and characterized. Lignin samples were acquired through an acid precipitation from these spent liquors. The characterization of the precipitated lignin samples were performed using a Fourier transform infrared spectroscopy (FT-IR) and both liquid- and solid-state nuclear magnetic resonance spectroscopy (NMR) to analyse the chemical structure, and thermogravimetric analysis (TGA) for determining the thermal properties. Additionally, chemical composition of lignin fractions was also measured. Even though they were of different botanical origin, all the studied samples except for wheat straw lignin had a similar chemical composition and thermal behaviour, and identical chemical structure. Wheat straw lignin showed a greater amount of Klason lignin and lower carbohydrate content. Furthermore, this lignin sample showed a higher thermal stability and significantly different cross-peak patterns in the 2D-NMR experiments. The molecular structures corresponding to p-coumarate (PCA), ferulate (FA) and cinnamyl aldehyde end-groups (J) were only detected in wheat isolated lignin.