Recent Advances for Improving Functionality, Biocompatibility, and Longevity of Implantable Medical Devices and Deliverable Drug Delivery Systems (Adv. Funct. Mater. 44/2021)

Kutner, Neta; Kunduru, Konda Reddy; Rizik, Luna; Farah, Shady

doi:10.1002/adfm.202170329

Cited by 4 publications

(5 citation statements)

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“…The combination therapy of chemotherapy and nucleotide drugs for anticancer has been quite attractive, as the progress of nanovehicle technology has made it possible to co‐deliver different bioactive therapeutic molecules in a “two‐in‐one” strategy. [ 45 ] GCD nanovehicles showed a considerable promise as anticancer drug carriers via the highly effective combined delivery of 5‐FU and Anti‐miR‐10b. In addition, GCD nanovehicle‐mediated treatment could be used for various types of cancer, as combination regimens are typically used to improve therapeutic efficacy in clinical solid tumors treatment.…”

Section: Resultsmentioning

confidence: 99%

“…This multifunctional nanovehicle can be used for the efficient co‐delivery of small molecular and nucleotide drugs simultaneously and for achieving comprehensive treatment. [ 14 ] Furthermore, RGD peptides can be replaced by other types of functional peptides, which can be applied in different scenarios. These unique features of our nanovehicle meet the aforementioned requirements for treating CRC, particularly for the inhibition of metastasis.…”

Section: Introductionmentioning

confidence: 99%

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Enhancing the Management of Metastatic Tumors by Robust Co‐Delivery of 5‐Fluorouracil/MicroRNA‐10b Inhibitor Using EGFR‐Targeted Nanovehicles

Wang

Zheng

et al. 2023

Adv Healthcare Materials

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Invasion and metastasis are the leading causes of death of patients with CRC. 5-Fluorouracil is widely used in clinic practice as the basic chemotherapy drug for CRC. However, it is inefficient in inhibiting tumor metastasis. MicroRNA-10b is uninvolved in regulating the growth of primary tumors; however, it could induce early tumor metastases and is a key regulator of chemotherapeutic resistance to 5-FU. A multifunctional nanovehicle that can carry small molecule drugs not only through the hydrophobic pockets of conjugated 𝜷-cyclodextrin but also through electrostatic interaction between the conjugated peptides and siRNA to target functional genes is previously developed. In this study, a nanovehicle, named GCD, with epithelium growth factor receptor (EGFR)-targeted characteristics to simultaneously deliver chemotherapeutic and nucleotide drugs to distinct targets in CRC, is employed. These data show that co-delivery of 5-FU and anti-miR-10b can be effectively applied to targeted therapy of EGFR-overexpressed CRC, particularly inhibiting the metastasis of CRC. Furthermore, the therapeutic effect of this combination on tumor xenograft models derived from patients with CRC is evaluated. Taken together, this study may provide insights into the inhibition of tumor growth and metastasis simultaneously.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Enhancing the Management of Metastatic Tumors by Robust Co‐Delivery of 5‐Fluorouracil/MicroRNA‐10b Inhibitor Using EGFR‐Targeted Nanovehicles

Wang

Zheng

et al. 2023

Adv Healthcare Materials

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“…Moreover, state‐of‐the‐art devices have also been exploited to enhance function or restore the integrity of the musculoskeletal system, and have the potential to accelerate the healing process with electrical stimulation, drug‐releasing designs, or prosthetic nerve probes. [ 14 ] Although the musculoskeletal electronics have much in common in signal detection and monitoring with bioelectronic sensors, they are different since bioelectronic sensors are more focus on detecting and monitor biological signals, whereas musculoskeletal electronics also involves specific interaction between devices and musculoskeletal system, such as prosthetic limbs, exoskeletons, or implantable devices that assist with movement.…”

Section: Fundamentals Of Musculoskeletal Electronicsmentioning

confidence: 99%

Evolution of Musculoskeletal Electronics

Li,

Zhang,

Lyu

et al. 2024

Advanced Materials

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The musculoskeletal system, constituting the largest human physiological system, plays a critical role in providing structural support to the body, facilitating intricate movements, and safeguarding internal organs. By virtue of advancements in revolutionized materials and devices, particularly in the realms of motion capture, health monitoring, and postoperative rehabilitation, “musculoskeletal electronics” has actually emerged as an infancy area, but has not yet been explicitly proposed. In this review, we attempt to elucidate the concept of musculoskeletal electronics, and summarize the evolution history, representative progress and key strategies of the involved materials and state‐of‐the‐art devices. Therefore, we first introduce the fundamentals of musculoskeletal electronics and key functionality categories. Subsequently, we present recent advances in musculoskeletal electronics from the perspectives of “in‐vitro” to “in‐vivo” signal detection, interactive modulation, and therapeutic interventions for healing and recovery. Additionally, we propose nine strategies avenues for the development of advanced musculoskeletal electronic materials and devices. Finally, concise summaries and perspectives are proposed to highlight the directions that deserve focused attention in this booming field.This article is protected by copyright. All rights reserved

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“…[ 4 , 5 , 6 ] However, the foreign body response (FBR) triggered by these implanted materials can lead to fibrotic encapsulation, compromising the efficacy of implants and giving rise to complications. [ 7 , 8 , 9 , 10 , 11 , 12 , 13 ] The FBR can be elicited by a wide range of materials employed in the fabrication of biomedical devices, irrespective of whether they are composed of metals, inorganics, or natural and synthetic polymers. [ 14 , 15 , 16 , 17 ] Surprisingly, even materials conventionally known for their favorable biocompatibility, such as hydrophilic polymers like polyethylene glycol (PEG) and poly(2‐hydroxyethyl methacrylate), have been found to evoke strong FBR.…”

Section: Introductionmentioning

confidence: 99%

Poly(Glutamic Acid‐Lysine) Hydrogels with Alternating Sequence Resist the Foreign Body Response in Rodents and Non‐Human Primates

Zhou,

Cao,

Chen

et al. 2024

Advanced Science

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The foreign body response (FBR) to implanted biomaterials and biomedical devices can severely impede their functionality and even lead to failure. The discovery of effective anti‐FBR materials remains a formidable challenge. Inspire by the enrichment of glutamic acid (E) and lysine (K) residues on human protein surfaces, a class of zwitterionic polypeptide (ZIP) hydrogels with alternating E and K sequences to mitigate the FBR is prepared. When subcutaneously implanted, the ZIP hydrogels caused minimal inflammation after 2 weeks and no obvious collagen capsulation after 6 months in mice. Importantly, these hydrogels effectively resisted the FBR in non‐human primate models for at least 2 months. In addition, the enzymatic degradability of the gel can be controlled by adjusting the crosslinking degree or the optical isomerism of amino acid monomers. The long‐term FBR resistance and controlled degradability of ZIP hydrogels open up new possibilities for a broad range of biomedical applications.

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Recent Advances for Improving Functionality, Biocompatibility, and Longevity of Implantable Medical Devices and Deliverable Drug Delivery Systems (Adv. Funct. Mater. 44/2021)

Cited by 4 publications

References 0 publications

Enhancing the Management of Metastatic Tumors by Robust Co‐Delivery of 5‐Fluorouracil/MicroRNA‐10b Inhibitor Using EGFR‐Targeted Nanovehicles

Enhancing the Management of Metastatic Tumors by Robust Co‐Delivery of 5‐Fluorouracil/MicroRNA‐10b Inhibitor Using EGFR‐Targeted Nanovehicles

Evolution of Musculoskeletal Electronics

Poly(Glutamic Acid‐Lysine) Hydrogels with Alternating Sequence Resist the Foreign Body Response in Rodents and Non‐Human Primates

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