Intranasal Administration of Dolutegravir-Loaded Nanoemulsion-Based In Situ Gel for Enhanced Bioavailability and Direct Brain Targeting.
Anroop Balachandran NairSunita ChaudharyShery JacobDhwani PatelPottathil ShinuHiral ShahAnkit ChaudharyBandar E Al-DhubiabRashed M AlmuqbilAhmed S AlnaimFatemah AlqattanJigar N ShahPublished in: Gels (Basel, Switzerland) (2023)
Dolutegravir's therapeutic effectiveness in the management of neuroAIDS is mainly limited by its failure to cross the blood-brain barrier. However, lipid-based nanovesicles such as nanoemulsions have demonstrated their potential for the brain targeting of various drugs by intranasal delivery. Thus, the purpose of this study was to develop a Dolutegravir-loaded nanoemulsion-based in situ gel and evaluate its prospective for brain targeting by intranasal delivery. Dolutegravir-loaded nanoemulsions were prepared using dill oil, Tween ® 80, and Transcutol ® P. Optimization of the nanoemulsion particle size and drug release was carried out using a simplex lattice design. Formulations (F1-F7 and B1-B6) were assessed for various pharmaceutical characteristics. Ex vivo permeation and ciliotoxicity studies of selected in situ gels (B1) were conducted using sheep nasal mucosa. Drug targeting to the brain was assessed in vivo in rats following the nasal delivery of B1. The composition of oil, surfactant, and cosurfactant significantly ( p < 0.05) influenced the dependent variables (particle size and % of drug release in 8 h). Formulation B1 exhibits pharmaceutical characteristics that are ideal for intranasal delivery. The mucosal steady-state flux noticed with BI was significantly greater ( p < 0.005) than for the control gel. A histopathology of nasal mucosa treated with BI showed no signs of toxicity or cellular damage. Intranasal administration of B1 resulted in greater C max (~six-fold, p < 0.0001) and AUC 0-α (~five-fold, p < 0.0001), and decreased T max (1 h) values in the brain, compared to intravenous administration. Meantime, the drug level in the plasma was relatively low, suggesting less systemic exposure to Dolutegravir through intranasal delivery. In summary, the promising data observed here signifies the prospective of B1 to enhance the brain targeting of Dolutegravir by intranasal delivery and it could be used as a feasible and practicable strategy for the management of neuroAIDS.
Keyphrases
- drug delivery
- drug release
- cancer therapy
- resting state
- white matter
- hiv infected patients
- antiretroviral therapy
- cerebral ischemia
- randomized controlled trial
- oxidative stress
- emergency department
- fatty acid
- multiple sclerosis
- machine learning
- blood brain barrier
- hyaluronic acid
- drug induced
- high dose
- electronic health record
- subarachnoid hemorrhage
- climate change
- newly diagnosed
- human health
- ulcerative colitis