Ketoprofen (K) was synthesized in 1968. K belongs to nonsteroidal anti-inflammatory drugs (NSAIDs) and has analgesic, anti-inflammatory and antipyretic properties. K is commonly used due to rapid ...absorption, simple metabolism, high antinociceptive activity and fast blood brain barrier crossing. However, this substance causes various side effects which are the major factors affecting its’ popularity. Many researchers have modified this drug to discover an improved and safe NSAID.
The aim of the review was to find in recent publications data bout future prospects of K of improved safety for the gastric mucosa after oral administration.
Systematic literature review was conducted in March 2021 (2015 onwards). We selected 22 articles from PubMed, Google Scholar, Medline Complete databases.
Many studies aimed at obtaining K with lower ulcerogenic properties. This article describes K with lysine, new K delivery systems, K in form of hydrogels, prodrugs and codrugs of K, K as ATB-352, K with zinc, K encapsulated as proliposomal powders and several substances that reduce the gastric side effects of K described after 2015.
Our review confirms that modifications of K maintain its’ desirable actions and decrease ulcer producing side effect. Some new forms of K were also found to have better activity profile compared to the parent drug.
•Modifications of ketoprofen maintain its desirable actions.•Modifications of ketoprofen decrease ulcer producing side effect.•Some new forms of ketoprofen were also found to have better activity profile.
Ketoprofen is a commonly used nonsteroidal anti-inflammatory drug (NSAID) with analgesic and antipyretic properties. Side effects of ketoprofen occur mainly from the gastrointestinal tract due to the ...inhibition of cyclooxygenaze-1. Binge drinking at least once a week is reported by 80 million Europeans. On the day after many of them use NSAIDs. This increases the risk for damage of gastric mucosa.
The aim of the study was to check if use of ketoprofen lysine salt (KLS) has any gastroprotective effect on mucosa of rat stomach after ethyl alcohol intoxication.
There were 6 groups of 6 male rats which received:
1.ethanol;
2.0.9% NaCl;
3.0.9% NaCl and ketoprofen;
4.ethanol and ketoprofen;
5.0.9% NaCl and KLS;
6.ethanol and KLS.
In groups 1, 2 and 3 the histopathologic examination of the stomachs revealed normal picture, without signs of inflammation. In the group 4, 5 and 6 within the mucosa and submucosa there were visible numerous infiltrates of inflammatory cells, consisting mainly of lymphocytes, plasmocytes and eosinophilia. Total leukocyte count was elevated in group 3, 4, 6. There was a significant decrease of blood urea concentration in group 6 vs 2 and significant decrease of serum albumin in group 6 vs 1 and 2, and total protein vs group 1.
Side effects of ketoprofen occur mainly from the gastrointestinal tract. KLS has no gastroprotective effect after ethanol-gastric injury and does not protect gastric mucosa from damage produced by binge drinking. Therefore it should not be used after drinking distilled spirits.
•Side effects of ketoprofen may occur mainly from the gastrointestinal tract.•Ketoprofen lysine salt has not gastroprotective effect after ethanol-gastric injury.•The ketoprofen lysine salt does not protect gastric mucosa.
Pharmacokinetic and pharmacodynamic assessment of ester-containing drugs can be impacted by hydrolysis of the drugs in plasma samples post blood collection. The impact is different in the plasma of ...different species.
This study evaluated the stability of a prodrug, ketoprofen methylester (KME), in commercially purchased and freshly collected plasma of mouse, rat, dog, cat, pig, sheep, cattle and horse.
KME hydrolysis was determined following its incubation in commercially purchased and freshly collected plasma of those species. Different esterase inhibitors were evaluated for prevention of the hydrolysis in rat, dog and pig plasma.
KME was rapidly hydrolyzed in both commercially purchased and freshly collected plasma of mouse, rat, and horse. The hydrolysis was initially quick and then limited in cat plasma. KME hydrolysis was minimum in commercially purchased plasma of dog, pig, sheep and cattle but substantial in freshly collected plasma of those species. Different esterase inhibitors showed different effects on the stability of KME in rat, dog and pig plasma.
These results indicate that plasma of different species has different hydrolytic activities to estercontaining drugs. The activities in commercially purchased and freshly collected plasma may be different and species-dependent. Esterase inhibitors have different effects on preventing hydrolysis of the ester-containing drugs in the plasma of different species.
This work explores the potential of polymeric micrometer sized devices (microcontainers) as oral drug delivery systems (DDS). Arrays of detachable microcontainers (D-MCs) were fabricated on a ...sacrificial layer to improve the handling and facilitate the collection of individual D-MCs. A model drug, ketoprofen, was loaded into the microcontainers using supercritical CO2 impregnation, followed by deposition of an enteric coating to protect the drug from the harsh gastric environment and to provide a fast release in the intestine. In vitro, in vivo and ex vivo studies were performed to assess the viability of the D-MCs as oral DDS. D-MCs improved the relative oral bioavailability by 180% within 4h, and increased the absorption rate by 2.4 times compared to the control. This work represents a significant step forward in the translation of these devices from laboratory to clinic.
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•Polysaccharide aerogel microspheres are investigated as carriers of drugs for oral administration.•Aerogels were loaded with ketoprofen and benzoic acid, poorly water soluble model drugs.•Starch, ...with the lowest specific surface area, was more prone to adsorb drug molecules.•Release of ketoprofen from alginate and pectin aerogel particles was sensitive to pH of the medium.•Results point out the possibilities of polysaccharide aerogels of tuning drug loading and release.
Polysaccharide-based aerogels in the form of microspheres were investigated as carriers of poorly water soluble drugs for oral administration. These bio-based carriers may combine the biocompatibility of polysaccharides and the enhanced drug loading capacity of dry aerogels. Aerogel microspheres from starch, pectin and alginate were loaded with ketoprofen (anti-inflammatory drug) and benzoic acid (used in the management of urea cycle disorders) via supercritical CO2-assisted adsorption. Amount of drug loaded depended on the aerogel matrix structure and composition and reached values up to 1.0×10−3 and 1.7×10−3g/m2 for ketoprofen and benzoic acid in starch microspheres. After impregnation, drugs were in the amorphous state in the aerogel microspheres. Release behavior was evaluated in different pH media (pH 1.2 and 6.8). Controlled drug release from pectin and alginate aerogel microspheres fitted Gallagher–Corrigan release model (R2>0.99 in both cases), with different relative contribution of erosion and diffusion mechanisms depending on the matrix composition. Release from starch aerogel microspheres was driven by dissolution, fitting the first-order kinetics due to the rigid starch aerogel structure, and showed different release rate constant (k1) depending on the drug (0.075 and 0.160min−1 for ketoprofen and benzoic acid, respectively). Overall, the results point out the possibilities of tuning drug loading and release by carefully choosing the polysaccharide used to prepare the aerogels.
The purpose of the study was to investigate the stability and biopharmaceutical characteristics of ketoprofen, loaded in polymeric carriers, which were included into a bigel in a semisolid dosage ...form. The polymer carriers with in situ-included ketoprofen were obtained by emulsifier-free emulsion polymerization of the monomers in aqueous medium or a solution of the polymers used. The morphological characteristics of the carriers, the in vitro release and the photochemical stability of ketoprofen were evaluated. The model with optimal characteristics was included in a bigel formulation. The bigel was characterized in terms of pH, rheological behavior, spreadability, and in vitro drug release. Acute skin toxicity, antinociceptive activity, anti-inflammatory activity, and antihyperalgesic effects of the prepared bigel with ketoprofen-loaded polymer carrier were evaluated. The carriers of ketoprofen were characterized by a high yield and drug loading. The particle size distribution varied widely according to the polymer used, and a sustained release was provided for up to 6 hours. The polymer mixture poly(vinyl acetate) and hydroxypropyl cellulose as a drug carrier, alone or included in the bigel composition, improved the photostability of the drug compared with unprotected ketoprofen. The bigel with ketoprofen-loaded particles provided sustained release of the drug and had optimal rheological parameters. In vivo experiments on the bigel showed no skin inflammation or irritation. Four hours after its application, a well-defined analgesic, anti-inflammatory, and antihyperalgesic effect was registered. The polymer mixture of poly(vinyl acetate) and hydroxypropyl cellulose as a carrier of ketoprofen and the bigel in which it was included provided an enhanced photostability and sustained drug release.
•Toxicological effects of racemic ketoprofen (RS-KP) and its enantiomer, dexketoprofen (S(+)-KP).•Unique organ-specific effects on biotransformation and oxidative stress responses.•Inhibitory effect ...of gills transcriptional and enzymatic levels for toxicological responses.•Differential hepatic biotransformation responses at transcriptional and translational levels.•Inhibitory gills effect suggests the absence of first pass metabolism for these NSAIDs.
Racemic ketoprofen (RS-KP) and its enantiomer, dexketoprofen (S(+)-KP) are widely used non-steroidal anti-inflammatory drugs (NSAIDs), and commonly detected in the aquatic environment. The present study has evaluated the toxicological effects of RS-KP and S(+)-KP on biotransformation and oxidative stress responses in gills and liver of Atlantic salmon. Fish were exposed for 10 days using different concentrations of RS-KP (1, 10 and 100 μg/L) and S(+)-KP (0.5, 5 and 50 μg/L). Biotransformation and oxidative stress responses were analysed at both transcript and functional levels. In the gills, significant inhibitory effect at transcriptional and enzymatic levels were observed for biotransformation and oxidative stress responses. On the contrary, biotransformation responses were significantly increased at transcriptional and translational levels in the liver, while the associated enzymatic activities did not parallel this trend and were inhibited and further demonstrated by principal component analysis (PCA). Our findings showed that both compounds produced comparable toxicological effects, by producing organ-specific effect differences. RS-KP and S(+)-KP did not bioaccumulate in fish muscle, either due to rapid metabolism or excretion as a result of their hydrophobic properties. Interestingly, the inhibitory effects observed in the gills suggest that these drugs may not undergo first pass metabolism, that might result to downstream differences in toxicological outcomes.
Tension-type headache is the most common type of primary headache and results in a huge socioeconomic burden. This network meta-analysis (NMA) aimed to compare the efficacy and safety of simple ...analgesics for the treatment of episodic tension-type headache (ETTH) in adults.
We searched the Cochrane Library, PubMed, Web of Science, Embase, Chinese BioMedical Literature database and International Clinical Trials Registry Platform databases for eligible randomized clinical trials reporting the efficacy and/or safety of simple analgesics. A Bayesian NMA was performed to compare relative efficacy and safety. The surface under the cumulative ranking curve (SUCRA) was calculated to rank interventions. PROSPERO registration number: CRD42018090554.
We highlighted six studies including 3507 patients. For the 2 h pain-free rate, the SUCRA ranking was ibuprofen > diclofenac-K > ketoprofen > acetaminophen > naproxen > placebo. All drugs except naproxen reported a higher 2 h pain-free rate than placebo, with a risk ratio (RR) of 2.86 (95% credible interval, CrI: 1.62-5.42) for ibuprofen and 2.61 (1.53-4.88) for diclofenac-K. For adverse events rate, the SUCRA ranking was: metamizol > diclofenac-K > ibuprofen > lumiracoxib > placebo > aspirin > acetaminophen > naproxen > ketoprofen. The adverse event rates of all analgesics were no higher than those of placebo, except for ketoprofen. Moreover, all drugs were superior to placebo in the global assessment of efficacy. In particular, the RR of lumiracoxib was 2.47 (1.57-4.57). Global heterogeneity
between the studies was low.
Simple analgesics are considered more effective and safe as a placebo for ETTH in adults. Our results suggest that ibuprofen and diclofenac-K may be the two best treatment options for patients with ETTH from a comprehensive point of view (both high-quality evidence).
Ozonation (O3) and its combination with ultraviolet radiation (O3/UV) were used to decompose ketoprofen (KET). Depending on the initial KET concentration, fourteen to fifty time's faster KET ...degradation was achieved using combined O3/UV method compared to simple ozonation. Using both methods, formation of four major aromatic transformation products were observed: 3-(1-hydroxyethyl)benzophenone, 3-(1-hydroperoxyethyl) benzophenone, 1-(3-benzoylphenyl) ethanone and 3-ethylbenzophenone. In the combined treatment the degradation was mainly due to the direct effect of UV light, however, towards the end of the treatment, O3 highly contributed to the mineralization of small carboxylic acids. High (~90%) mineralization degree was achieved using the O3/UV method. Toxicity tests performed using representatives of three trophic levels of the aquatic ecosystems (producers, consumers and decomposers) Pseudokirchneriella subcapitata green algae, Daphnia magna zooplanktons and Vibrio fischeri bacteria showed that under the used experimental conditions the transformation products have significantly higher toxicity towards all the test organisms, than KET itself. The bacteria and the zooplanktons showed higher tolerance to the formed products than algae. The measured toxicity correlates well with the concentration of the aromatic transformation products, therefore longer treatments than needed for complete degradation of KET are strongly suggested, in order to avoid possible impact of aromatic transformation products on the aquatic ecosystem.
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•Ketoprofen degradation is significantly faster using O3/UV compared to ozonation.•The presence of O3 enhances the overall mineralization.•Formation of four major aromatic by-products was observed.•The main step in the decomposition is the decarboxylation.•Degradation products have higher toxicity than ketoprofen itself.