Co-amorphous palbociclib–organic acid systems with increased dissolution rate, enhanced physical stability and equivalent biosafety

Zhang, Man; Xiong, Xiaopeng; Suo, Zili; Hou, Qing; Tang, Peixiao; Ding, Xiaohui; Li, Hui

doi:10.1039/c8ra09710k

Cited by 27 publications

(22 citation statements)

References 38 publications

(14 reference statements)

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“…However, thermal analysis showed that the CFX/TA (1:1) dispersions had a glass transition temperature (T g ) of 153.5°C. This is significantly higher than published data for amorphous CFX (87°C) and tartaric acid (24°C) ( 22 , 23 ). Such high T g compared to pure components suggests that the formed dispersion is co-amorphous salt.…”

Section: Resultscontrasting

confidence: 73%

Generation of High Dose Inhalable Effervescent Dispersions against Pseudomonas aeruginosa Biofilms

et al. 2020

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Purpose Novel particle engineering approach was used in this study to generate high dose inhalable effervescent particles with synergistic effects against Pseudomonas aeruginosa biofilms. Methods Spray dried co-amorphous salt of ciprofloxacin (CFX) and tartaric acid (TA) was prepared and coated with external layer of sodium bicarbonate and silica coated silver nanobeads. Design of experiments (DOE) was used to optimize physicochemical properties of particles for enhanced lung deposition. Results Generated particles were co-amorphous CFX/TA showing that CFX lost its zwitterionic form and exhibiting distinct properties to CFX/HCl as assessed by FTIR and thermal analysis. Particles exhibited mass mean aerodynamic diameter (MMAD) of 3.3 μm, emitted dose of 78% and fine particle dose of 85%. Particles were further evaluated via antimicrobial assessment of minimum inhibitory concentrations (MIC) and minimum biofilm eradication concentration (MBEC). MIC and MBEC results showed that the hybrid particles were around 3–5 times more effective when compared to CFX signifying that synergistic effect was achieved. Diffusing wave spectroscopy results showed that the silver containing particles had a disruptive effect on rheological properties as opposed to silver free particles. Conclusions Overall, these results showed the potential to use particle engineering to generate particles that are highly disruptive of bacterial biofilms.

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Section: Resultscontrasting

confidence: 73%

Generation of High Dose Inhalable Effervescent Dispersions against Pseudomonas aeruginosa Biofilms

et al. 2020

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“…Pal, Alp and the P(RGD) proteinoid NCs were characterized by FTIR ( Figure S2 ). The spectrum of Alp ( Figure S2A ) demonstrates typical peaks at 1400–1000 cm −1 corresponding to C–F vibration, 1317 cm −1 (C–S stretching band [ 53 ]), 1640 cm −1 (carbonyl stretching band), broad peaks at 2770–2870 cm −1 (C-H and CH 3 groups), and a peak at 3500 cm −1 corresponding to N–H stretching band [ 54 ]. The spectrum of Pal ( Figure S2B ) demonstrates typical peaks at 1900–1640 cm −1 corresponding to the carbonyl stretching band, 2780–2960 cm −1 (C–H and CH 3 stretching band [ 55 ]) and 3500 cm −1 (N–H stretching band [ 54 ]).…”

Section: Resultsmentioning

confidence: 99%

“…The spectrum of Alp (Figure S2A) demonstrates typical peaks at 1400-1000 cm −1 corresponding to C-F vibration, 1317 cm −1 (C-S stretching band [53]), 1640 cm −1 (carbonyl stretching band), broad peaks at 2770-2870 cm −1 (C-H and CH 3 groups), and a peak at 3500 cm −1 corresponding to N-H stretching band [54]. The spectrum of Pal (Figure S2B) demonstrates typical peaks at 1900-1640 cm −1 corresponding to the carbonyl stretching band, 2780-2960 cm −1 (C-H and CH 3 stretching band [55]) and 3500 cm −1 (N-H stretching band [54]). The spectrum of P(RGD) (Figure S2C) demonstrates typical peaks of proteinoids [21,50] at 660 and 770 cm −1 (amine N-H wagging [56]) belonging to the arginine side chain, which possesses three atoms of nitrogen.…”

Section: Ftir Analysis Of the Free Drugs And P(rgd) Proteinoid Ncsmentioning

confidence: 99%

Tumor-Targeted Fluorescent Proteinoid Nanocapsules Encapsulating Synergistic Drugs for Personalized Cancer Therapy

et al. 2021

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Personalized cancer treatment based on specific mutations offers targeted therapy and is preferred over “standard” chemotherapy. Proteinoid polymers produced by thermal step-growth polymerization of amino acids may form nanocapsules (NCs) that encapsulate drugs overcoming miscibility problems and allowing passive targeted delivery with reduced side effects. The arginine-glycine-glutamic acid (RGD) sequence is known for its preferential attraction to αvβ3 integrin, which is highly expressed on neovascular endothelial cells that support tumor growth. Here, tumor-targeted RGD-based proteinoid NCs entrapping a synergistic combination of Palbociclib (Pal) and Alpelisib (Alp) were synthesized by self-assembly to induce the reduction of tumor cell growth in different types of cancers. The diameters of the hollow and drug encapsulating poly(RGD) NCs were 34 ± 5 and 22 ± 3 nm, respectively; thereby, their drug targeted efficiency is due to both passive and active targeting. The encapsulation yield of Pal and Alp was 70 and 90%, respectively. In vitro experiments with A549, MCF7 and HCT116 human cancer cells demonstrate a synergistic effect of Pal and Alp, controlled release and dose dependence. Preliminary results in a 3D tumor spheroid model with cells derived from patient-derived xenografts of colon cancer illustrate disassembly of spheroids, indicating that the NCs have therapeutic potential.

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“… 6 For example, the limited miscibility of the drug with the polymer sometimes requires the addition of a large amount of polymer, which is disadvantageous for the usability, manufacturing, and cost. 7 Besides, ASDs also have problems of poor long-term stability as well as difficulty in manufacturing and processing. 8 Co-amorphous systems have been extensively studied in the pharmaceutical industry because of their excellent properties, such as promoting drug solubilization, enhancing drug stability, and improving drug delivery and absorption.…”

Section: Introductionmentioning

confidence: 99%

Cyclodextrin and its derivatives as effective excipients for amorphous ulipristal acetate systems

Wang

Suo

et al. 2022

RSC Adv.

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Co-amorphous palbociclib–organic acid systems with increased dissolution rate, enhanced physical stability and equivalent biosafety

Cited by 27 publications

References 38 publications

Generation of High Dose Inhalable Effervescent Dispersions against Pseudomonas aeruginosa Biofilms

Generation of High Dose Inhalable Effervescent Dispersions against Pseudomonas aeruginosa Biofilms

Tumor-Targeted Fluorescent Proteinoid Nanocapsules Encapsulating Synergistic Drugs for Personalized Cancer Therapy

Cyclodextrin and its derivatives as effective excipients for amorphous ulipristal acetate systems

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