2018
DOI: 10.1002/pat.4396
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Synthesis and characterization of fourth generation polyester‐based dendrimers with cationic amino acids‐modified crown as promising water soluble biomedical devices

Abstract: Dendrimers are nanostructured “architectural motifs” which fascinate researchers for their several potentiality due to well‐tailored structure, symmetric tree‐like shape, and abilities in entrapping or binding hydrophilic or hydrophobic entities such as genetic materials, drugs, and target molecules. Nowadays dendrimers inhabit the top places among the materials suitable for biomedical applications as drug delivery, gene transfection, and imaging. In this work, we report the design and realization of two versa… Show more

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Cited by 21 publications
(29 citation statements)
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“…Despite being considered very attractive for biomedical applications because of their lower density of cationic charge when compared to PAMAM Ds, PEI-Ds, and PPI Ds, generally associated with low cytotoxicity [ 92 , 93 , 94 , 95 ], only very recently uncharged dendrimer matrices, decorated with amino acid residues, were considered to be less toxic antimicrobial alternatives. Within this category, peripherally amino acid-modified, polyester-based dendrimer scaffolds, obtained starting from 2,2- bis (hydroxymethyl)propanoic acid ( bis -HMPA), as AB2 monomer, have several features that make them particularly suitable as novel antimicrobial agents.…”
Section: Cationic Antibacterial Dendrimers (Cads)mentioning
confidence: 99%
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“…Despite being considered very attractive for biomedical applications because of their lower density of cationic charge when compared to PAMAM Ds, PEI-Ds, and PPI Ds, generally associated with low cytotoxicity [ 92 , 93 , 94 , 95 ], only very recently uncharged dendrimer matrices, decorated with amino acid residues, were considered to be less toxic antimicrobial alternatives. Within this category, peripherally amino acid-modified, polyester-based dendrimer scaffolds, obtained starting from 2,2- bis (hydroxymethyl)propanoic acid ( bis -HMPA), as AB2 monomer, have several features that make them particularly suitable as novel antimicrobial agents.…”
Section: Cationic Antibacterial Dendrimers (Cads)mentioning
confidence: 99%
“…Within this category, peripherally amino acid-modified, polyester-based dendrimer scaffolds, obtained starting from 2,2- bis (hydroxymethyl)propanoic acid ( bis -HMPA), as AB2 monomer, have several features that make them particularly suitable as novel antimicrobial agents. These structures are characterized by good biodegradability, due to the easy physiological hydrolysis [ 92 , 93 , 94 , 95 ], a favorable hydrophilic lipophilic balance (HLB) due to the presence of an uncharged matrix and a cationic periphery, and can be esterified with a high number of amino acids, given the high multivalence of Ds. For these reasons, amino acid-modified polyester-based Ds could mimic synthetic dendrimer peptides which, as reported in the previous section, have provided remarkable results as antimicrobial agents, together with low levels of toxicity to eukaryotic cells.…”
Section: Cationic Antibacterial Dendrimers (Cads)mentioning
confidence: 99%
“…Monopotassium salts of several carboxylic acids were prepared and applied for initiation of β-BL polymerization in order to obtain reactive polyfunctional polyesters [19][20][21]. The results of polymers analysis are presented in Table 3. 13 C NMR analysis of polymers prepared by use of monopotassium salt of malonic acid (14) or diglycolic acid (15) indicated very low content of transcrotonate end groups in the polymers.…”
Section: Synthesis Of Poly(β-bl)s With Reactive Terminal Groupsmentioning
confidence: 99%
“…One of the very interesting recent additions to the area of dendrimers is the polyester-based hyperbranched macromolecules, reported by Alfei’s group [ 99 , 100 , 101 , 102 ]. This elegant and versatile set of macromolecules ( Figure 2 ) are intriguing alternatives to heavily utilized PAMAM dendrimers, with ease of tunable surface functionalization with a variety of functional groups, leading to neutral and charged nanostructures with low toxicities.…”
Section: Dendrimers/dendronsmentioning
confidence: 99%
“…This elegant and versatile set of macromolecules ( Figure 2 ) are intriguing alternatives to heavily utilized PAMAM dendrimers, with ease of tunable surface functionalization with a variety of functional groups, leading to neutral and charged nanostructures with low toxicities. These biocompatible scaffolds are promising candidates for applications in biology, as demonstrated by their potential in a series of therapeutic evaluations [ 99 , 100 , 101 , 102 , 103 , 104 , 105 ]. Such a structural outline, i.e., a dendron with an alkyl chain at the focal point, was previously reported by Newkome et al [ 30 ], and investigated for its ability to form micelle structures.…”
Section: Dendrimers/dendronsmentioning
confidence: 99%