Preparation and Evaluation of the In situ Gel-forming Chitosan Hydrogels for Nasal Delivery of Morphine in a Single Unit dose in Rats to Enhance the Analgesic Responses.

IF 2.8 4区 医学 Q2 PHARMACOLOGY & PHARMACY Current drug delivery Pub Date : 2024-01-01 DOI:10.2174/1567201820666230724161205
Hossein Kamali, Mohsen Tafaghodi, Farhad Eisvand, S Mohammad Ahmadi-Soleimani, Mina Khajouee, Hosnieh Ghazizadeh, Jafar Mosafer
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Abstract

Introduction: In this study, an in situ gel-forming chitosan hydrogel was prepared with the use of glutamate salt of chitosan (Ch-Ga), β-glycerophosphate (Gp), and morphine (Mor). The paper is focused on in vitro physicochemical properties and in-vivo analgesic effects of the prepared chitosan hydrogel.

Method: The thermosensitive properties of prepared chitosan hydrogel were evaluated during the different temperatures and times. The physicochemical properties of chitosan hydrogel were investigated by infrared (IR) spectroscopy and X-ray diffraction analysis (XRD). Also, its cell cytotoxicity effects were evaluated in murine NIH/3T3 normal cells. Subsequently, the distribution of chitosan hydrogel in the nasal cavity of rats and its analgesic responses were evaluated. The prepared chitosan hydrogel showed that it could be gelled at the temperature of 34 °C before leaving the nose in the shortest possible time of 30 s.

Result: The analgesic responses of the intranasal (IN) injection of chitosan hydrogel (IN-chitosan hydrogel, 10 mg Mor/kg) in a single unit dose in rat relative to the placebo and intranasal or intraperitoneal (IP) injection of free morphine solution (IN-Free Mor or IP-Free Mor, 10 mg Mor/kg) via the hot plate test, reveal that the IN-chitosan hydrogel could induce fast analgesic effects of morphine with maximum possible effect (MPE) of 93% after 5 min compare to the IN-Free Mor and IP-Free Mor with MPE of 80% after 15 min and 66% after 30 min, respectively. Also, prolonged analgesic effects with MPE of 78 % after 6 h of injection were only seen in the IN-chitosan hydrogel injected group. The obtained fluorescent images of rat's brain injected with IN-chitosan hydrogel containing doxorubicine (Dox) as a fluorescent agent showed that the mucosal adhesive and absorption enhancer properties of IN-chitosan hydrogel resulting in longer presence of them in the nasal cavity of rats followed by more absorption of Dox from the blood vessels of olfactory bulbs with a 74% color intensity compared to the IN-Free Mor and IN-Free Dox with 15%.

Conclusion: These data reveal that the IN-chitosan hydrogel could induce fast and prolonged analgesic effects of morphine compare to the IN/IP-Free Mor, which could be considered as an in situ gel-forming thermosensitive chitosan hydrogel for nasal delivery of wide ranges of therapeutic agents.

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制备和评估原位成胶壳聚糖水凝胶,用于在大鼠鼻腔中以单剂量给药吗啡以增强镇痛效果
简介本研究利用壳聚糖谷氨酸盐(Ch-Ga)、β-甘油磷酸酯(Gp)和吗啡(Mor)制备了一种原位凝胶化壳聚糖水凝胶。本文主要研究了所制备壳聚糖水凝胶的体外理化性质和体内镇痛效果:方法:对制备的壳聚糖水凝胶在不同温度和时间下的热敏性能进行了评估。通过红外光谱和 X 射线衍射分析研究了壳聚糖水凝胶的理化性质。此外,还在小鼠 NIH/3T3 正常细胞中评估了其细胞毒性效应。随后,对壳聚糖水凝胶在大鼠鼻腔中的分布及其镇痛反应进行了评估。结果显示,制备的壳聚糖水凝胶可在 34 °C 的温度下凝胶化,然后在 30 秒的最短时间内离开鼻腔:结果:大鼠鼻内注射壳聚糖水凝胶(IN-壳聚糖水凝胶,10 毫克吗啡/千克)的单剂量镇痛反应优于安慰剂和鼻内或腹腔内注射游离吗啡溶液(IN-游离吗啡或 IP-游离吗啡,10 毫克吗啡/千克)的单剂量镇痛反应、通过热板试验,IN-壳聚糖水凝胶可诱导吗啡的快速镇痛效应,5 分钟后的最大可能效应(MPE)为 93%,而 IN-Free Mor 和 IP-Free Mor 的最大可能效应(MPE)分别为 15 分钟后的 80% 和 30 分钟后的 66%。此外,只有注射 IN-壳聚糖水凝胶组的镇痛效果更持久,注射 6 小时后的 MPE 为 78%。大鼠脑部注射含有多柔比星(Dox)荧光剂的 IN-壳聚糖水凝胶后获得的荧光图像显示,IN-壳聚糖水凝胶的粘膜粘附性和吸收增强特性使其在大鼠鼻腔中的存在时间更长,随后嗅球血管对 Dox 的吸收更多,颜色强度达到 74%,而 IN-Free Mor 和 IN-Free Dox 的颜色强度仅为 15%:这些数据表明,与 IN/IP-Free Mor 相比,IN-壳聚糖水凝胶可诱导吗啡产生快速而持久的镇痛效果,可被视为一种原位凝胶热敏壳聚糖水凝胶,用于鼻腔输送各种治疗药物。
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来源期刊
Current drug delivery
Current drug delivery PHARMACOLOGY & PHARMACY-
CiteScore
5.10
自引率
4.20%
发文量
170
期刊介绍: Current Drug Delivery aims to publish peer-reviewed articles, research articles, short and in-depth reviews, and drug clinical trials studies in the rapidly developing field of drug delivery. Modern drug research aims to build delivery properties of a drug at the design phase, however in many cases this idea cannot be met and the development of delivery systems becomes as important as the development of the drugs themselves. The journal aims to cover the latest outstanding developments in drug and vaccine delivery employing physical, physico-chemical and chemical methods. The drugs include a wide range of bioactive compounds from simple pharmaceuticals to peptides, proteins, nucleotides, nucleosides and sugars. The journal will also report progress in the fields of transport routes and mechanisms including efflux proteins and multi-drug resistance. The journal is essential for all pharmaceutical scientists involved in drug design, development and delivery.
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