In vivo urinary compatibility of Mg-Sr-Ag alloy in swine model

Tie, Di; Hort, Norbert; Chen, Minfang; Guan, Renguo; Ulasevich, Sviatlana A.; Skorb, Ekaterina V.; Zhao, Dapeng; Liu, Yili; Holt-Torres, Patricia; Liu, Huinan

doi:10.1016/j.bioactmat.2021.05.046

Cited by 8 publications

(5 citation statements)

References 39 publications

(72 reference statements)

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“…Comprehensively considering the cell growth and osteogenic differentiation, the Mn-containing Mg–6Zn alloy is more suitable than the Mn-free alloy as a bone implant. In addition to being used as a bone implant, there are also studies on the use of biodegradable magnesium alloys as ureteral stents …”

Section: Resultsmentioning

confidence: 99%

Degradation Adaptability Assessment of Semisolid Powder Molded Mg–Zn–Mn Alloys for Orthopedic Applications

Luo,

Li,

Cai

et al. 2023

ACS Appl. Bio Mater.

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Section: Resultsmentioning

confidence: 99%

Degradation Adaptability Assessment of Semisolid Powder Molded Mg–Zn–Mn Alloys for Orthopedic Applications

Luo,

Li,

Cai

et al. 2023

ACS Appl. Bio Mater.

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“…In 2021, Tie et al innovatively developed the Mg-Sr-Ag alloy, combining the exceptional mechanical properties of the Mg-Sr alloy with the pronounced antimicrobial activity of silver (Ag). They validated its biocompatibility and impact on the urological system ( Tie et al, 2022 ). Previously, they had preliminarily confirmed the applicability of the Mg-Sr alloy for the manufacture of biodegradable bone fixation devices and demonstrated the pronounced antibacterial activity of magnesium alloys containing silver in an in vitro setting ( Tie et al, 2013 ; Tie et al, 2016 ).…”

Section: Technology Applied To the Development Of Busmentioning

confidence: 99%

“…In 2022, Tie et al fabricated Mg-1.0Sr-0.5Ag (wt.%) alloy (JQ alloy) through semi-solid rheo-extrusion ( Tie et al, 2022 ). Their experimental results demonstrated a 111% increase in ultimate tensile strength for JQ alloy (223.7 MPa) compared to pure magnesium (105.9 MPa).…”

Section: Future Clinical Applications Of Busmentioning

confidence: 99%

Recent development and future application of biodegradable ureteral stents

Hu,

Hou,

Huang

et al. 2024

Front. Bioeng. Biotechnol.

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Ureteral stenting is a common clinical procedure for the treatment of upper urinary tract disorders, including conditions such as urinary tract infections, tumors, stones, and inflammation. Maintaining normal renal function by preventing and treating ureteral obstruction is the primary goal of this procedure. However, the use of ureteral stents is associated with adverse effects, including surface crusting, bacterial adhesion, and lower urinary tract symptoms (LUTS) after implantation. Recognizing the need to reduce the complications associated with permanent ureteral stent placement, there is a growing interest among both physicians and patients in the use of biodegradable ureteral stents (BUS). The evolution of stent materials and the exploration of different stent coatings have given these devices different roles tailored to different clinical needs, including anticolithic, antibacterial, antitumor, antinociceptive, and others. This review examines recent advances in BUS within the last 5 years, providing an in-depth analysis of their characteristics and performance. In addition, we present prospective insights into the future applications of BUS in clinical settings.

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“…Tie et al examined biocompatibility of an antibacterial biodegradable metallic ureteral stent (magnesium-strontium-silver alloy) that showed a significant reduction in colony forming units in the urine compared to magnesium stents at 6 and 12 weeks in a swine model [24]. Although complete degradation was not achieved at the end of the 12-week study period [24]. An ideal biodegradable stent needs to maintain patency and stability for the first 1–2 weeks with subsequent quick and reliable degradation time.…”

Section: Reducing Stent-associated Symptomsmentioning

confidence: 99%

“…Most recent animal model studies have demonstrated limited success of biodegradable stents with variable degradation time (either degrading too fast or too slow), increased biofilm formation and bacteriuria [22,23]. Tie et al examined biocompatibility of an antibacterial biodegradable metallic ureteral stent (magnesiumstrontium-silver alloy) that showed a significant reduction in colony forming units in the urine compared to magnesium stents at 6 and 12 weeks in a swine model [24]. Although complete degradation was not achieved at the end of the 12-week study period [24].…”

Section: Biodegradable Ureteral Stentsmentioning

confidence: 99%

Advances in ureteral stent technology

Mawhorter

Streeper

2022

Current Opinion in Urology

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Purpose of reviewUreteral stents are an invaluable tool for urologists but suffer from several drawbacks, including: limited durability due to stent encrustation, significant morbidity from bothersome urinary symptoms, pain and infection, risk of the forgotten stent and costly removal. This review highlights key advances in ureteral stent technology that seek to address these issues. Recent findingsOver the past 2 years clinical trials have brought ureteral stent technology aimed to reduce stent-associated morbidity closer to clinical application. Stent material and changes to stent design show promise in improving patient tolerability without increasing complications. Low-tech innovations such as magnetic and catheter snare removal may quickly reduce costs. Radical advances such as biodegradable stent materials remain in preclinical models but show promise for eliminating the need for stent removal.

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In vivo urinary compatibility of Mg-Sr-Ag alloy in swine model

Cited by 8 publications

References 39 publications

Degradation Adaptability Assessment of Semisolid Powder Molded Mg–Zn–Mn Alloys for Orthopedic Applications

Degradation Adaptability Assessment of Semisolid Powder Molded Mg–Zn–Mn Alloys for Orthopedic Applications

Recent development and future application of biodegradable ureteral stents

Advances in ureteral stent technology

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