Antioxidant Carbon Dots Nanozyme Loaded in Thermosensitive in situ Hydrogel System for Efficient Dry Eye Disease Treatment.

Purpose: Dry eye disease (DED) is a multifactorial ocular surface disease with a rising incidence. Therefore, it is urgent to construct a reliable and efficient drug delivery system for DED treatment. Methods: In this work, we loaded C-dots nanozyme into a thermosensitive in situ gel to create C-dots@Gel, presenting a promising composite ocular drug delivery system to manage DED. Results: This composite ocular drug delivery system (C-dots@Gel) demonstrated the ability to enhance adherence to the corneal surface and extend the ocular surface retention time, thereby enhancing bioavailability. Furthermore, no discernible ocular surface irritation or systemic toxicity was observed. In the DED mouse model induced by benzalkonium chloride (BAC), it was verified that C-dots@Gel effectively mitigated DED by stabilizing the tear film, prolonging tear secretion, repairing corneal surface damage, and augmenting the population of conjunctival goblet cells. Conclusion: Compared to conventional dosage forms (C-dots), the C-dots@Gel could prolong exhibited enhanced retention time on the ocular surface and increased bioavailability, resulting in a satisfactory therapeutic outcome for DED.

Preparation and In Vitro and In Vivo Evaluation of Rectal In Situ Gel of Meloxicam Hydroxypropyl-ß-cyclodextrin Inclusion Complex.

Meloxicam (MLX) is one of the most effective NSAIDs, but its poor water solubility and low bioavailability limit its clinical application. In this study, we designed a thermosensitive in situ gel of the hydroxypropyl-ß-cyclodextrin inclusion complex (MLX/HP-ß-CD-ISG) for rectal delivery to improve bioavailability. The best method for preparing MLX/HP-ß-CD was the saturated aqueous solution method. The optimal inclusion prescription was optimized using an orthogonal test, and the inclusion complex was evaluated via PXRD, SEM, FTIR and DSC. Then, MLX/HP-ß-CD-ISG was characterized regarding the gel properties, release in vitro, and pharmacokinetics in vivo. The inclusion rate of the inclusion complex obtained via the optimal preparation process was 90.32 ± 3.81%. The above four detection methods show that MLX is completely embedded in the HP-ß-CD cavity. The developed MLX/HP-ß-CD-ISG formulation has a suitable gelation temperature of 33.40 ± 0.17 °C, a gelation time of 57.33 ± 5.13 s, pH of 7.12 ± 0.05, good gelling ability and meets the requirements of rectal preparations. More importantly, MLX/HP-ß-CD-ISG significantly improved the absorption and bioavailability of MLX in rats, prolonging the rectal residence time without causing rectal irritation. This study suggests that the MLX/HP-ß-CD-ISG can have a wide application prospect with superior therapeutic benefits.

Cubosome-based thermosensitive in situ gelling system for intranasal administration of lamotrigine with enhanced antiepileptic efficacy.

Lamotrigine (LTG) is a second-generation antiepileptic drug that belongs to Biopharmaceutics Classification System (BCS) class II. LTG has a low probability of crossing the BBB if administered orally. This study was designed to fabricate LTG cubosomal dispersion that is further loaded in a thermosensitive in situ gel to increase nasal residence time and enhance drug absorption across the nasal mucosal membrane. LTG-loaded cubosomes exhibited an entrapment efficiency ranging from 24.83% to 60.13%, a particle size ranging from 116.2 to 197.6 nm, and a zeta potential ≤-25.5 mV. The selected LTG-loaded cubosomal formulation was loaded in a thermosensitive in situ gel (cubogel) employing different concentrations of poloxamer 407. In vitro release study revealed sustained drug release from cubosomal and cubogel compared with free drug suspension. In vivo studies revealed enhanced antiepileptic efficacy of LTG cubogel and LTG cubosomes compared with free drug in rats with pilocarpine-induced epilepsy by stimulating the release of gamma-aminobutyric acid (GABA), total antioxidant capacity (TAC), and serotonin and by inhibiting the release of Ca2+, dopamine, acetylcholine (Ach), C-reactive protein (CRP), and glial fibrillary acidic protein (GFAP). LTG cubogel exhibited superior activity over LTG cubosomes. These findings reveal that the developed cubosomal thermosensitive in situ gel can enhance the antiepileptic efficacy of LTG via the intranasal route.

Efficiency of a novel thermosensitive enema in situ hydrogel carrying Periplaneta americana extracts for the treatment of ulcerative colitis.

Objective: The aim of this study was to develop a thermosensitive in situ gel (TISG) as an effective rectal delivery platform for delivering Periplaneta americana extracts (PA) to alleviate ulcerative colitis (UC) and explore the underlying molecular mechanism. Materials and methods: Thermosensitive (poloxamer 407) and adhesive polymers (chondroitin sulfate modified carboxymethyl chitosan, CCMTS) were used to construct the in situ gel. CCMTS and aldehyde poloxamer 407 (P407-CHO) were synthesized and chemically cross-linked by Schiff base reaction to formulate thermosensitive in situ gel, which carried Periplaneta americana extracts (PA/CCMTS-P). The cytotoxicity and cellular uptake of CCMTS-P were investigated in lipopolysaccharide (LPS) -induced macrophages by CCK-8 assay. The anti-inflammatory effects of PA/CCMTS-P were studied in lipopolysaccharide-induced RAW264.7 cells and dextran sulfate sodium (DSS)-induced ulcerative colitis mouse models. In addition, the ability of PA/CCMTS-P to restore the intestinal mucosal barrier after rectal administration was evaluated by immunohistochemical analysis (IHC). Results: PA/CCMTS-P was prepared and characterized as gel with a phase-transition temperature of 32.9°C. The results of the in vitro experiments indicated that the hydrogels promoted the cellular uptake of Periplaneta americana extracts without causing any toxicity as compared to the free gel. PA/CCMTS-P showed superior anti-inflammatory activity both in vitro and in vivo, which restored the damaged intestinal mucosal barrier associated by inhibiting necroptosis in dextran sulfate sodium-induced ulcerative colitis models. Conclusion: The findings from our study show that the rectal administration of PA/CCMTS-P holds a promising potential for the treatment of ulcerative colitis.

Glycerosomal thermosensitive in situ gel of duloxetine HCl as a novel nanoplatform for rectal delivery: in vitro optimization and in vivo appraisal.

Duloxetine HCl (DXH) is a reuptake inhibitor of serotonin and norepinephrine used to treat the major depressive disorder. Following its extensive hepatic metabolism, acid-labile nature, and limited aqueous solubility, DXH has poor oral bioavailability (40%). The rectal route has been suggested as another route of administration to surmount such challenges. The present study aimed to prepare DXH-loaded glycerosomal (DXH-GLYS) in situ gel for rectal administration to increase DXH permeability and improve its bioavailability. Box-Behnken design (BBD) was adopted to prepare and optimize nanoglycerosomes. The impact of Phospholipon 90G (PL90G), Tween 80 concentrations, and glycerol percentage on encapsulation efficiency, nanoglycerosomal size, % cumulative DXH released, and the cumulative DXH permeated per unit area after 24 h were studied by the design. The pharmacokinetic and pharmacodynamic behavior of optimized formulation was investigated in rats. The formulated DXH-GLYS had a vesicle size ranging between 135.9 and 430.6 nm and an entrapment efficiency between 69.11 and 98.12%. The permeation experiment revealed that the optimized DXH-GLYS in situ gel increased DXH permeation by 2.62-fold compared to DXH solution. Pharmacokinetics studies disclosed that the DXH-GLYS in situ rectal gel exhibited 2.24-times increment in DXH bioavailability relative to oral DXH solution. The pharmacodynamic study revealed that the DXH-GLYS rectal treatment significantly improved the behavioral analysis parameters and was more efficacious as an antidepressant than the oral DXH solution. Collectively, these findings demonstrate that GLYS can be considered a potentially valuable rectal nanocarrier that could boost the DXH efficacy.

Development of a Thermosensitive In-Situ Gel Formulations of Vancomycin Hydrochloride: Design, Preparation, In Vitro and In Vivo Evaluation.

The purpose of this study was to develop a thermosensitive in situ gel delivery system based on Poloxamer 407 and Poloxamer 188 for ocular administration of vancomycin to treat systemic diseases. The vancomycin thermosensitive in situ gel was characterized using differential scanning calorimetry, rheological and drug release analyses. Additionally, pharmacokinetic studies and irritation tests of the gel were conducted after ocular administration in rabbits. The gel maintained a flowing liquid state under non-physiological conditions (25°C) to facilitate administration, and it transformed into a semi-solid state under physiological conditions (dilution with tears, 34°C), which prolonged its retention time in the eye. The gel erosion and drug release tests showed an excellent linear relationship between the cumulative drug release rate and the cumulative gel erosion rate, indicating a zero-order kinetic process. The pharmacokinetic analyses showed that the peak concentration, area under the curve, and bioavailability of the vancomycin thermosensitive in situ gel were 1.44, 1.98 and 1.93 times greater, respectively, that the values of vancomycin eye drops. Therefore, thermosensitive in situ gel may serve as a drug delivery system that can overcome the limitations of existing formulations of small-molecule peptides.

A Novel Carbon Dots/Thermo-Sensitive In Situ Gel for a Composite Ocular Drug Delivery System: Characterization, Ex-Vivo Imaging, and In Vivo Evaluation.

We developed a potential composite ocular drug delivery system for the topical administration of diclofenac sodium (DS). The novel carbon dot CDC-HP was synthesized by the pyrolysis of hyaluronic acid and carboxymethyl chitosan through a one-step hydrothermal method and then embedded in a thermosensitive in situ gel of poloxamer 407 and poloxamer 188 through swelling loading. The physicochemical characteristics of these carbon dots were investigated. The results of the in vitro release test showed that this composite ocular drug delivery system (DS-CDC-HP-Gel) exhibited sustained release for 12 h. The study of the ex vivo fluorescence distribution in ocular tissues showed that it could be used for bioimaging and tracing in ocular tissues and prolong precorneal retention. Elimination profiles in tears corresponded to the study of ex vivo fluorescence imaging. The area under the curve of DS in the aqueous humor in the DS-CDC-HP-Gel group was 3.45-fold that in the DS eye drops group, indicating a longer precorneal retention time. DS-CDC-HP with a positive charge and combined with a thermosensitive in situ gel might strengthen adherence to the corneal surface and prolong the ocular surface retention time to improve the bioavailability. This composite ocular delivery system possesses potential applications in ocular imaging and drug delivery.

[Rheology and in vitro release properties of thermosensitive in situ gel of Yihuang Decoction and its common gel for vaginal use].

To evaluate the traits and rheological properties of thermosensitive in situ gel of Yihuang Decoction and its common gel for vaginal use, and predict the release behavior of Yihuang Decoction in situ gel in vitro. Poloxamer was used as thermosensitive material to prepare Yihuang Decoction vaginal in situ gel, and Yihuang Decoction common gel was prepared with carbopol. Then the differences of the two gels before and after diluting with vaginal fluid were compared. The rheological parameters of Yihuang Decoction in situ gel and its common gel were determined with Anton Paar MCR102 rheometer. In addition, berberine hydrochloride was selected as an index component to evaluate the in vitro release properties of Yihuang Decoction vaginal thermosensitive in situ gel. Yihuang Decoction vaginal thermosensitive in situ gel was Newtonian fluid under low-temperature conditions, which was yellow and transparent. After reaching the gelling temperature of 24.5 ℃, it became semi-solid, pseudoplastic fluid. The gelling temperature was predicted to be 37 ℃, and the phase transition time was 30 s after diluting with simulated vaginal fluid. However, the rheological properties of Yihuang Decoction common gel had no significant changes with temperature. Compared with in situ gel, the color of common gel was darker and more translucent. Besides, its mobility was stronger after diluting with simulated vaginal fluid. The in vitro release study showed that the kinetic behavior of berberine hydrochloride in Yihuang Decoction vaginal thermosensitive in situ gel was matched with the Higuchi equation. Through simulation of vaginal administration, physical properties and dynamic rheological parameters were used to intuitively and scientifically evaluate the two gels. Compared with the common gel, the thermosensitive in situ gel could quickly attached to the vaginal mucosa and release drug, and thus was more suitable for developing vaginal administration of Yihuang Decoction, which also provides references for studying new vaginal preparation of Yihuang Decoction.

Preparation, characterization, and in vivo pharmacokinetics of thermosensitive in situ nasal gel of donepezil hydrochloride.

Donepezil hydrochloride thermosensitive in situ gel for nasal delivery was prepared by using Poloxamer 407 and Poloxamer 188 as thermoreversible polymers, hydroxypropyl-ß-cyclodextrin and ethylparaben as permeation enhancer and preservative, respectively. The gelation temperature and time, pH value of the gel formulation were found to meet the requirements for nasal administration. The in vitro erosion and in vitro release tests exhibited obvious drug sustained release behavior. Meantime, main pharmacokinetic parameters such as tmax, cmax and AUC in plasma as well as in brain were significantly different between the nasal gel formulation and intragastric drug solution in rats (p < 0.01). The relative bioavailability and drug targeting efficiency of the gel formulation were calculated to be 385.6 and 151.2 %, respectively. Thus, the drug gel formulation might be a potential new delivery system for treatment of Alzheimer's disease due to its higher bioavailability and better distribution to brain when compared to oral route.

Rheology and in vitro release properties of thermosensitive in situ gel of Yihuang Decoction and its common gel for vaginal use / 中国中药杂志

To evaluate the traits and rheological properties of thermosensitive in situ gel of Yihuang Decoction and its common gel for vaginal use, and predict the release behavior of Yihuang Decoction in situ gel in vitro. Poloxamer was used as thermosensitive material to prepare Yihuang Decoction vaginal in situ gel, and Yihuang Decoction common gel was prepared with carbopol. Then the differences of the two gels before and after diluting with vaginal fluid were compared. The rheological parameters of Yihuang Decoction in situ gel and its common gel were determined with Anton Paar MCR102 rheometer. In addition, berberine hydrochloride was selected as an index component to evaluate the in vitro release properties of Yihuang Decoction vaginal thermosensitive in situ gel. Yihuang Decoction vaginal thermosensitive in situ gel was Newtonian fluid under low-temperature conditions, which was yellow and transparent. After reaching the gelling temperature of 24.5 ℃, it became semi-solid, pseudoplastic fluid. The gelling temperature was predicted to be 37 ℃, and the phase transition time was 30 s after diluting with simulated vaginal fluid. However, the rheological properties of Yihuang Decoction common gel had no significant changes with temperature. Compared with in situ gel, the color of common gel was darker and more translucent. Besides, its mobility was stronger after diluting with simulated vaginal fluid. The in vitro release study showed that the kinetic behavior of berberine hydrochloride in Yihuang Decoction vaginal thermosensitive in situ gel was matched with the Higuchi equation. Through simulation of vaginal administration, physical properties and dynamic rheological parameters were used to intuitively and scientifically evaluate the two gels. Compared with the common gel, the thermosensitive in situ gel could quickly attached to the vaginal mucosa and release drug, and thus was more suitable for developing vaginal administration of Yihuang Decoction, which also provides references for studying new vaginal preparation of Yihuang Decoction.

Development and Evaluation of in-situ Nasal Gel Formulations of Nanosized Transferosomal Sumatriptan: Design, Optimization, in vitro and in vivo Evaluation.

BACKGROUND: Sumatriptan succinate (SUT) is a potent drug used for relieving or ending migraine and cluster headaches. SUT bioavailability is low (15%) when it is taken orally owing to its gastric breakdown and bloodstream before reaching the target arteries. AIM: The aim of the study was to enhance SUT bioavailability through developing an intranasal transferosomal mucoadhesive gel. METHODS: SUT-loaded nanotransferosomes were prepared by thin film hydration method and characterized for various parameters such as vesicle diameter, percent entrapment efficiency (%EE), in vitro release and ex vivo permeation studies. The in-situ gels were prepared using various ratios of poloxamer 407, poloxamer 188, and carrageenan and characterized for gelation temperature, mucoadhesive strength, and rheological properties. RESULTS: The prepared transferosomes exhibited percent entrapment efficiencies (%EE) of 40.41±3.02 to 77.47±2.85%, mean diameters of 97.25 to 245.01 nm, sustained drug release over 6 hours, and acceptable ex vivo permeation findings. The optimum formulae were incorporated into poloxamer 407 and poloxamer 188-based thermosensitive in-situ gel using carrageenan as a mucoadhesive polymer. Pharmacokinetic evaluation showed that the prepared in-situ gel of SUT-loaded nano-transferosomes gave enhanced bioavailability, 4.09-fold, as compared to oral drug solution. CONCLUSION: Based on enhancing the bioavailability and sustaining the drug release, it can be concluded that the in-situ gel of SUT-loaded nano-transferosomes were developed as a promising non-invasive drug delivery system for treating migraine.

Therapeutic Effect of Nerve Growth Factor Thermosensitive Gel on Sciatic Nerve Injury of Rats / 中国实验方剂学杂志

Objective: To prepare nerve growth factor(NGF) temperature sensitive in situ gel and investigate its therapeutic effect on sciatic nerve injury of rats.Method: NGF thermosensitive gel was prepared and its prescription was optimized by central composite design-response surface methodology.Fifty rats were randomly divided into the normal group,model group,NGF injection group(10 mg·L-1),NGF low-dose(10 mg·L-1) and high-dose(20 mg·L-1) thermosensitive gel groups,and sciatic nerve injury model of rats was established.The effect of NGF thermosensitive gel on the injury of sciatic nerve were comprehensively examined by taking rat behavior,sciatic nerve function index(SFI),time of withdrawal reflex,wet weight ratio of gastrocnemius muscle,and histomorphological changes as indicators.Result: The gelation temperature of NGF thermosensitive gel was 35.2℃ after the formulation being optimized,which was in line with the standard for injection.Four-eight weeks after operation,the SFI and wet weight ratio of gastrocnemius muscle in rats of NGF high-dose thermosensitive gel group were significantly higher than those in the model group and NGF injection group,but its time of withdrawal reflex was significantly lower than those in the model group and NGF injection group,and the effect was in a dose-dependent manner.Arrangement of regenerated nerve fibers in sciatic nerve injury area of rats from NGF high-dose thermosensitive gel group was more tidy,dense and continuous than that of the model group.Conclusion: NGF thermosensitive gel can promote repair of sciatic nerve injury in rats.

Superparamagnetic Iron Oxide-Loaded Lipid Nanocarriers Incorporated in Thermosensitive In Situ Gel for Magnetic Brain Targeting of Clonazepam.

The objective of the study was to target clonazepam to the brain through the intranasal olfactory mucosa using nanolipid carriers loaded with superparamagnetic iron oxide nanoparticles (SPIONs) to allow nanocarrier guidance and retention with an external magnetic field. For improved delivery, the nanolipid carriers were incorporated in a thermosensitive mucoadhesive in situ gel. Different nanolipid carriers including solid lipid nanoparticles and nanostructured lipid carriers (NLC) were prepared and characterized with respect to particle size, zeta potential, entrapment efficiency, and in vitro release. The NLC composed of 3 solid lipids (Compritol® 888, stearic acid, and glyceryl monostearate) and 2 liquid oils (oleic acid and glyceryl monooleate) showed the most satisfactory characteristics and was loaded with SPION (NLC/SPION). Both formulae (NLC and NLC/SPION) were incorporated in an optimized thermosensitive mucoadhesive in situ system composed of 15% pluronic 127 and 0.75% sodium alginate and evaluated for the anticonvulsant action in chemically induced convulsive Swiss Albino mice. The treatment of animals with NLC/SPION significantly prolonged the onset times for convulsion and considerably protected the animals from death. One can thus hope for the emergence of a new intranasal treatment of epilepsy with consequent decrease in peripheral side effects of clonazepam.

Preparation and performance evaluation of matrine-loaded thermosensitive in situ gel for rectum / 中草药

Objective: Optimize to obtain the in situ gel of matrine with thermosensitivity and rectal retention of bioadhesion rectum. Methods: Thermosensitive gel was prepared by cold method, and then using gelation temperature as an indicator, central combination design-response surface method (CCD-RSM) was used to optimize the dosage of P407, P188, and CMC-Na. Texture Analyzer was used to measure the gel strength and adhesion of prescription, the rectal retention was investigated by rectal administration, and the release rate was explored by modified paddle method. Results: The optimal prescription was matrine 2%, CMC-Na 1.0%, P188 1.3%, P407 16.5%, and benzalkonium bromide 0.02%. The prescription gel did not leak after rectal administration in rats, which can remain in the body for more than 6 h, in vitro release in line with Weibull model. Conclusion: The optimized matrine-loaded thermosensitive in situ gel could meet the requirement of rectal administration.

Study on Preparation of Curcumin-PLGA Nanoparticles Thermosensitive in-situ Gel and Its Pharmacokinetics in Aqueous Humor of Rabbits / 中国药房

OBJECTIVE: To prepare curcumin (CUR) -Poly (lactic-co-glycolic acid) (PLGA) nanoparticles (CUR-PLGA) thermosensitive in-situ gel (CUR-PLGA-GEL), and to study pharmacokinetic characteristics of it in aqueous humor of rabbits.METHODS: CUR-PLGA was prepared with modified emulsion-solvent evaporation method. CUR-PLGA-GEL was prepared by cold-dissolving method using poloxamer407 (P407) and poloxamer 188 (P188) as gel matrix. The level of CUR in gel was determined by HPLC, and the irritation of it to rabbit eyes was investigated (self-control of left and right eyes of 5 rabbits were taken, while the Draize test was used to evalvate the irritation). 10 New Zealand white rabbits were randomly divided into 2 groups, with 5 rabbits in each group. Left eyes were given CUR-PLGA-GEL and CUR suspension (containing CUR 8 mg), respectively. The concentrations of CUR in aqueous humor of rabbits were determined before medication and 1, 2, 4, 6, 8, 10, 12, 24 h after medication. The pharmacokinetic parameters were calculated by using DAS 2. 0 software. RESULTS: CUR-PLGA-GEL was successfully prepared and the total score of irritation was 0, which indicated irritative to rabbits. In aqueous humor of rabbits, cmax and AUC0-24 h of CUR-PLGA-GEL were 2. 48 and 2. 71 fold of CUR suspension. CONCLUSIONS: Prepared CUR-PLGA-GEL can be used for ophthalmic delivery and can improve the utilization of CUR in the eye.

Rheological Properties and Retention Ability of Octoxynol-9 Vaginal Thermosensitive in Situ Gel / 中国药师

Objective: To observe the rheological properties of octoxynol-9 vaginal thermosensitive in situ gel [(O-9)-VTG] for predicting the gelation behavior in vivo, and evaluate the retention ability in vagina.Methods: The rheological parameters of (O-9)-VTG and (O-9)-VTG diluted by stimulant vaginal fluid (SVF) were measured by a Haake Rheomix to characterize the rheological properties.The vaginal samples after the administration of self-made (O-9)-VTG and O-9 gel were withdrawn, and then the concentration of octoxynol-9 in the samples was determined to evaluate the retention ability.Results: (O-9)-VTG was Newtonian fluid with low viscoelasticity under room temperature and converted to gel at 32.6℃.The formula could still transform into gel at body temperature after diluted by SVF, and resided in the vagina of mice above 8 h.Conclusion: (O-9)-VTG has suitable gelation temperature and rheological properties.Compared with the self-made octoxynol-9 gel, (O-9)-VTG has satisfactory retention in vagina, which meets the requirements for vaginal topical use.

Preparation and in vitro Release of Norfloxacin Thermosensitive in Situ Gel for Vaginal Use / 中国药师

Objective:To prepare norfloxacin thermosensitive in situ gel and investigate its in vitro drug release behavior. Meth-ods:Poloxamer 407 and poloxamer 188 were used as the matrix of norfloxacin thermosensitive in situ gel,and the gel was prepared by a cold dissolving method. The formula was optimized by a central composite design-response surface method. In vitro drug release be-havior of norfloxacin thermosensitive in situ gel was studied as well. Results:Within a certain concentration range, the gelation tem-perature decreased gradually with the amount increase of poloxamer 407, and that increased gradually with the amount increase of poloxamer 188. The optimal formula was as follows:the concentration of poloxamer 407 was 20.6%(w/v),and that of poloxamer 188 was 5.7%(w/v),which obtained suitable gelling temperature. The release of norfloxacin from the thermosensitive in situ gel reached up to (87.5% ± 5.4% 7 in 6 h. Conclusion: Norfloxacin thermosensitive in situ gel has excellent temperature sensitivity, and can slow down the drug release,which shows potential use for vaginal drug delivery system.

Optimization of Formula and Preparation Process of Metronidazole Vaginal Thermosensitive in situ Gel by Orthogonal Tests / 中国药师

Objective: To optimize the formula and preparation process of metronidazole thermosensitive in situ gel.Methods: The temperature of gelation and 24-h cumulative release were used as the evaluation indices, and the orthogonal tests were carried out to investigate the amounts of poloxamer 407 (P407), poloxamer 188 (P188), sodium alginate and polyethylene glycol 4000 (PEG 4000) to screen the best formula of thermosensitive in situ gel.The in vitro release of metronidazole thermosensitive in situ gel was determined by HPLC and compared with that of commercially available gel.Results: The optimum formula of thermosensitive in situ gel was P407 of 20%, P188 of 18%, sodium alginate of 0.1% and PEG 4000 of 1.5%.The release rate of metronidazole thermosensitive in situ gel was high, and the temperature of gelation was suitable.Compared with that of the commercially available gel, the vaginal retention of the in situ gel was significantly improved.Conclusion: The formula of the in situ gel is reasonable and the preparation process is feasible.

Combined thermosensitive in situ gel with AMD3100 in sutureless technique improves the survival and function of kidney transplants in mice.

The mouse is an optimal animal model for kidney transplantation. Recent reports suggest that application of poloxamer 407, a thermosensitive in situ gel, during the sutureless technique significantly increases animal survival, compared to traditional methods. However, further improvement of this technology is greatly needed but remains unexplored. Here, we detected significant inflammation at the region of ureter anastomosis, after kidney transplantation using poloxamer 407. Since chemokines play a pivotal role during inflammation, we implanted an Alzet osmotic pump that gradually releases AMD3100 (a specific inhibitor of the binding of stromal cell-derived factor 1 (SDF-1) to its receptor, CXCR4) at the site of ureter anastomosis in mice that had undergone kidney transplantation. We found that AMD3100 significantly reduced local inflammation, significantly improved animal survival after kidney transplantation, and significantly improved kidney function. Together, these data suggest that inhibition of chemokine signaling at the site of ureter anastomosis may substantially improve animal survival after kidney transplantation through suppression of suturing-related inflammation.

Optimization of the Formulation of Azelastine Hydrochloride Thermosensitive In-situ Gel Nasal Drops by Central Composite Design-Response Surface Methodology / 中国药房

OBJECTIVE:To optimize Azelastine hydrochloride (AH) thermosensitive in-situ gel nasal drops formulation. METHODS:Using poloxamer 407(P407)and poloxamer 188(P188)as excipients,AH thermosensitive in-situ gel was prepared by cold solution method. The formulation was optimized by central composite design-response surface methodology using the amount of P407 and P188(g/100 ml)as factors and phase-transition temperature as index. Binomial expression was fitted,and pre-dicted and measured values were compared. RESULTS:The correlation coefficient R2 fitted by binomial expression was equal to 0.986 5. The optimal formulation was as follows as P407 for 20.414 4%,P188 for 5.035 4%,measured value of(30.81±0.02)℃, predicted values of 31 ℃,deviation of 0.61%. CONCLUSIONS:AH thermosensitive in-situ gel nasal drops formulation is opti-mized by central composite design-response surface methodology.