Pharmacology/Drug Development

Background The osteoarthritis (OA) causes economic, social, and health difficulties to the patients. Approximately 10% to 15% of all persons above the age of 60 have some degree of OA. OA is more common in women than in males. Diagnosed OA prevalence varies widely among EU member states, from 2.8% in Romania to 18.3% in Hungary. Introduction Osteoarthritis (OA) is a slow-progressing, non-inflammatory disorder. This disorder ultimately destroys articular cartilage and other joint components. The main symptoms are stiffness, pain, loss of flexibility, swelling, and bone spurs. Many risk factors, both modifiable and non-modifiable, have been associated with osteoarthritis (OA), including obesity and lack of exercise, genetic susceptibility, bone density, work-related damage, and trauma. Method Hydrogels, micro and nano-sized particles, and novel topical gels are among the most common examples. Hydrogels are cross-linked polymers with 3-D architecture that can hold water and expand like living tissue. The Micro-carriers, and nano-based drug delivery systems provide several advantages and may demonstrate prolonged release, controlled release, and higher joint half-life. Result OA-induced male Lewis rats were injected with celecoxib-loaded PEA microspheres to assess in vivo biocompatibility and degradation. According to the findings of this research, PEA microspheres loaded with celecoxib may be employed as safe delivery of drug with self-regulating behavior for the pain treatment related to knee osteoarthritis. Conclusion The concept of novel drug delivery systems has shown tangible benefits as a new avenue for precise, safe, and high-quality drug delivery for OA treatment. Currently, herbal drugs are also used in osteoarthritis treatment due to their potency and fewer side effects in contrast to synthetic drugs. The herbo-synthetic approach is a new concept for the delivery of both herbal and synthetic drugs together to exploit their individual beneficial effects while reducing undesirable side effects.

Nicotinic acetylcholine receptors (nAChRs) are pentameric ligand-gated ion channels widely distributed in the central peripheral nervous system and muscles which participate in rapid synaptic transmission. The α9α10 nAChR is an acetylcholine receptor subtype and is involved in chronic pain. In the present study, a new A-superfamily conotoxin Bt14.12 cloned from was found to selectively inhibit α9α10 nAChRs with an IC of 62.3 nM. Unlike α-conotoxins and other A-superfamily conotoxins, Bt14.12 contains a four Cys (C-C-C-C) framework with a unique disulfide bond connection "C1-C4, C2-C3". The structure-activity studies of Bt14.12 demonstrate that all amino acid residues contribute to its potency. Interestingly, mutation experiments show that the deletion of Asp or the addition of three Arg residues at the N-terminus of Bt14.12 significantly enhances its inhibitory activity (IC is 21.9 nM or 12.7 nM, respectively) by 2- or 4-fold compared to the wild-type Bt14.12. The NMR structure of Bt14.12 shows that it contains α-helix- and β-turn-like elements, and further computational modelings of the interaction between Bt14.12 and the α9α10 nAChR demonstrate that Bt14.12 possesses a distinctive mode of action and displays a different structure-activity relationship from known α9α10 nAChR targeting α-conotoxins. Our findings provide a novel conotoxin that potently targets α9α10 nAChRs and a new motif for designing potent inhibitors against α9α10 nAChRs.

 Pain is an uncomfortable sensation in the body. Kaempferol is a flavonoid with antinociceptive effects. Transient receptor potential (TRP) channels have been characterized in the sensory system.

Sickle cell disease (SCD) is one of the most common inherited diseases worldwide. It is associated with lifelong morbidity and a reduced life expectancy. Hydroxyurea (hydroxycarbamide), an oral chemotherapeutic drug, ameliorates some of the clinical problems of SCD, in particular that of pain, by raising foetal haemoglobin (HbF). This is an update of a previously published Cochrane Review.

The objective of this study was to explore patient preference for attributes of calcitonin gene-related peptide (CGRP) inhibitors for the preventive treatment of migraine and to describe differences in treatment preferences between patients.

Connective tissue injuries are prevalent in active and aging populations, leading to chronic pain and decreased function. Turnover of this tissue is not well understood, especially as it relates to aging and injury. Supplementation of collagen peptides has been shown to improve connective tissue recovery and pain through increased collagen production.

Non-steroidal anti-inflammatory drugs (NSAIDs) and opioids are analgesics used for moderate to severe pain in many animals, including reptiles. However, reptilian dosing regimens are often extrapolated from other animal species. This is not ideal as inter- and intra-species variability in physiology may result in varied drug disposition. Therefore, this critical review aims to collate data from pharmacological studies of selected NSAIDs and opioids performed in reptile and provide an analysis and discussion on the existing pharmacodynamic knowledge and pharmacokinetic data of NSAIDs and opioids use in reptiles. Additionally, key pharmacokinetic trends that may aid dosing of NSAIDs and opioids in reptiles will also be highlighted. Most of the existing reports of NSAID used in reptiles did not observe any adverse effects directly associated to the respective NSAID used, with meloxicam being the most well-studied. Despite the current absence of analgesic efficacy studies for NSAIDs in reptiles, most reports observed behavioural improvements in reptiles after NSAID treatment. Fentanyl and morphine were studied in the greatest number of reptile species with analgesic effects observed with the doses used, while adverse effects such as sedation were observed most with butorphanol use. While pharmacokinetic trends were drug- and species-specific, it was observed that clearance (CL) of drugs tended to be higher in squamates compared to chelonians. The half-life (t) of meloxicam also appeared to be longer when dosed orally compared to other routes of drug administration. This could have been due to absorption-rate limited disposition. Although current data provided beneficial information, there is an urgent need for future research on NSAID and opioid pharmacology to ensure the safe and effective use of opioids in reptiles.