Nine days extended release of adenosine from biocompatible MOFs under biologically relevant conditions

Abstract: The stability of Zr–MOFs and the widely used Zn-based (ZIF-8) was investigated in physiologically relevant media, where detailed mechanistic investigations clearly demonstrated that the observed cytotoxicity of ZIF-8 is linked to its structural instability in simulant fluids, in contrast to the highly stable Zr-MOFs.

“…As shown in Fig. 2 a, absorption bands at 680 cm −1 and at 1510 cm −1 were observed due to stretching vibrations in the Zr–O bond and C C bond in benzene ring [ 48 ]. Moreover, the peaks at 1395 cm −1 and 1590 cm −1 , respectively, reflected the symmetrical and unsymmetrical stretching vibrations in the C C–O bond of H 2 BDC.…”

“…UiO-66 is considered a prominent MOF, which is synthesized using a zirconium oxide complex [Zr 6 O 4 (OH) 4 bridged by 1,4-benzene dicarboxylic acid ligands (H 2 BDC) [ 45 ]. In addition to possessing typical advantages observed in most MOFs, such as a large specific surface area, high porosity, and the presence of catalytically active sites [ 46 ], UiO-66 distinguishes itself due to its notable attributes of low toxicity and exceptional mechanical, thermal, acidic, and aqueous stability [ 47 , 48 ]. The inherent stability of UiO-66 allows for more flexible incorporation of various functionalizations [ [49] , [50] , [51] ].…”

Synergistic effect of hierarchical topographic structure on 3D-printed Titanium scaffold for enhanced coupling of osteogenesis and angiogenesis

“…As shown in Fig. 2 a, absorption bands at 680 cm −1 and at 1510 cm −1 were observed due to stretching vibrations in the Zr–O bond and C C bond in benzene ring [ 48 ]. Moreover, the peaks at 1395 cm −1 and 1590 cm −1 , respectively, reflected the symmetrical and unsymmetrical stretching vibrations in the C C–O bond of H 2 BDC.…”

“…UiO-66 is considered a prominent MOF, which is synthesized using a zirconium oxide complex [Zr 6 O 4 (OH) 4 bridged by 1,4-benzene dicarboxylic acid ligands (H 2 BDC) [ 45 ]. In addition to possessing typical advantages observed in most MOFs, such as a large specific surface area, high porosity, and the presence of catalytically active sites [ 46 ], UiO-66 distinguishes itself due to its notable attributes of low toxicity and exceptional mechanical, thermal, acidic, and aqueous stability [ 47 , 48 ]. The inherent stability of UiO-66 allows for more flexible incorporation of various functionalizations [ [49] , [50] , [51] ].…”

Synergistic effect of hierarchical topographic structure on 3D-printed Titanium scaffold for enhanced coupling of osteogenesis and angiogenesis

“…Good biocompatibility means that MOF materials will not cause obvious toxic reactions, immune reactions or tissue damage. [ 41 ] The biocompatibility of MOF materials can be evaluated by in vitro and in vivo biocompatibility tests, such as cytotoxicity test, cell adhesion and proliferation evaluation, and animal experiments. For example, ZIF‐8 and UiO‐66 have been proven to have good biocompatibility in cell experiments and animal models, and can be successfully applied to nerve repair in vivo as DDS.…”

Metal–Organic Frameworks for Nerve Repair and Neural Stem Cell Therapy

“…The result illustrates that nanoscale Zr-MOFs are beneficial for controllable drug delivery and release using nano-Zr-MOFs-based nanocarriers. Meanwhile, other Zr-MOFs, including PCN-222 and UiO-66-COOH, have been prepared to deliver different drugs [105][106][107][108][109][110]. According to these investigations, functional groups are easily introduced in organic linkers to affect the particle size of MOFs, the cytotoxicity, and the drug-carrying capacity.…”

Recent Advances in Metal–Organic-Framework-Based Nanocarriers for Controllable Drug Delivery and Release