Synthesis of calcium carbonate-quince bio-composite for programmed and on-demand drug release of paracetamol at target site: a green chemistry approach

Kulsoom, Rija; Sarfraz, Muhammad; Afzal, Attia; Farooq, Muhammad; Adnan, Sherjeel; Ashraf, Muhammad; Khan, Shujat Ali

doi:10.1007/s00289-022-04400-1

Cited by 9 publications

(5 citation statements)

References 55 publications

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“…DSC allows to assess the temperatures at which characteristic endothermic and exothermic transitions occur and that are specific for a certain substance and its structure. These can indicate the melting point of the sample or more generally a state transition (e.g., a rubbery-glass transition) and its purity, and confirm any interactions between samples in mixture or neostructured in a carrier system [103][104][105].…”

Section: Encapsulation Yield and Solid-state Characterizationmentioning

confidence: 70%

“…), number and type of simulated environments (mouth, stomach, intestine, colon and any other specific sections) and their specific reference parameters (simulated environment in empty or fed conditions, pH, travel time, volumes and fluid composition, thus presence or absence of specific enzymes, surfactants, salts, etc.) [7,46,104,[116][117][118][119][120]. Added to this is the common research effort to develop in vitro dissolution/release equipment/protocols with increasing significance and predictivity of the in vivo process [121][122][123].…”

Section: In Vitro Release Testingmentioning

confidence: 99%

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Colon Delivery of Nutraceutical Ingredients by Food-Grade Polymeric Systems: An Overview of Technological Characterization and Biological Evaluation

et al. 2023

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The development of food-grade carriers based on EFSA and/or FDA-approved polymeric materials is an area of growing interest for the targeted delivery of bioactive compounds to the colon. Many nutraceuticals have shown promise in the local treatment of conditions that threaten quality of life, such as ulcerative colitis, Crohn’s disease, colorectal cancer, dysbiosis and other problems affecting the gut and colon. Nevertheless, their bioavailability is often limited due to poor solubility, rapid metabolism and low permeability, as well as undesirable local side effects. Encapsulation in carriers, which can protect the active ingredient from degradation and improve absorption and targeted administration in the colon, is one way to overcome these limitations. The technological characterization of these systems is important to assess their efficacy, safety and stability. In particular, morphology, size and surface properties influence their actions and interaction with the bio-phase. Meanwhile, encapsulation efficiency, profile and in vitro release kinetics are key parameters to assess the ability to reach the target site. This paper proposes a recent review of food-grade polymer-based systems for colorectal targeting of bioactive substances, focusing on their technological characterization and assessment of stability and biological activity, which are important in determining their full bench-to-bed potential.

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Section: Encapsulation Yield and Solid-state Characterizationmentioning

confidence: 70%

Section: In Vitro Release Testingmentioning

confidence: 99%

Colon Delivery of Nutraceutical Ingredients by Food-Grade Polymeric Systems: An Overview of Technological Characterization and Biological Evaluation

et al. 2023

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“…The prepared coreshell drug carrier can delay the rate of drug release. Kulsoom et al [28] reported on the development of a composite system prepared by biomineralization of calcium carbonate in mucilage obtained from seeds of naturally occurring quince plants. The developed composite showed restricted release of paracetamol in the acidic media, while a controlled fashion of drug release was observed in the basic media over a period of 12 h. Study outcomes suggested that the developed composite can be considered a novel drug carrier system for oral colon-targeted delivery of hydrophilic/hydrophobic drugs.…”

Section: Calcium Carbonate As a Controlled-release Drug Carriermentioning

confidence: 99%

Application of Calcium Carbonate as a Controlled Release Carrier for Therapeutic Drugs

Li,

Lian

2023

Minerals

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A drug carrier usually refers to a tool that can carry the effective ingredients of drugs into the human body. The drug-controlled release system prepared by a new drug carrier can allow the gradual release of the drug in the human body at a stable rate, thus decreasing the frequency of administration and reducing the toxicity and side effects thereof; however, existing drug carriers generally have problems such as low drug loading, poor biocompatibility, stability, and specificity, each of which could be improved. Calcium carbonate can be used as a sustained-release carrier of active substances, with good biocompatibility, biodegradability, low cost, easy preparation, and broad application prospects. This paper reviews the synthesis and structural characteristics of calcium carbonate carrier materials and the related research progress of calcium carbonate as a controlled release carrier for therapeutic drugs, providing a reference for promoting the research and application of calcium carbonate as a drug carrier.

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“…Excess AP can cause acute liver damage. Moreover, AP is one of the most commonly used medicines causing acute liver injury and is the leading cause of acute liver failure as its elimination half-life is approximately 2 h for therapeutic doses [3][4][5][6]. Regular use of AP is essential for analgesic and antipyretic support in patients with fever and discomfort.…”

Section: Introductionmentioning

confidence: 99%

Development of Efficient Sodium Alginate/Polysuccinimide-Based Hydrogels as Biodegradable Acetaminophen Delivery Systems

Trinh,

Lim,

Lee

et al. 2023

Gels

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Efficient drug delivery systems are essential for improving patient outcomes. Acetaminophen (AP), which is a kind of oral administration, is a commonly used pain reliever and fever reducer. However, oral administration carries various health risks, especially overdose and frequent use; for instance, AP is administered approximately 4 times per day. Therefore, the aim of this study is to develop an efficient delivery system for once-daily administration by combining sodium alginate and polysuccinimide (PSI) hydrogels to delay the release of analgesic AP. PSI is a biodegradable polymer that can be used safely and effectively in drug delivery systems because it is eliminated by hydrolysis in the intestine. The use of PSI also improves the mechanical properties of hydrogels and prolongs drug release. In this study, hydrogel characterizations such as mechanical properties, drug dissolution ability, and biodegradability were measured to evaluate the hydrolysis of PSI in the intestine. Based on the results, hydrogels could be designed to improve the structural mechanical properties and to allow the drug to be completely dissolved, and eliminated from the body through PSI hydrolysis in the intestines. In addition, the release profiles of AP in the hydrogels were evaluated, and the hydrogels provided continuous release of AP for 24 h. Our research suggests that sodium alginate/PSI hydrogels can potentially serve as biodegradable delivery systems for AP. These findings may have significant implications for developing efficient drug delivery systems for other classes of drugs.

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Synthesis of calcium carbonate-quince bio-composite for programmed and on-demand drug release of paracetamol at target site: a green chemistry approach

Cited by 9 publications

References 55 publications

Colon Delivery of Nutraceutical Ingredients by Food-Grade Polymeric Systems: An Overview of Technological Characterization and Biological Evaluation

Colon Delivery of Nutraceutical Ingredients by Food-Grade Polymeric Systems: An Overview of Technological Characterization and Biological Evaluation

Application of Calcium Carbonate as a Controlled Release Carrier for Therapeutic Drugs

Development of Efficient Sodium Alginate/Polysuccinimide-Based Hydrogels as Biodegradable Acetaminophen Delivery Systems

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