Your search keyword '"Implant Infection"' showing total 707 results

1. Gold nanoclusters cure implant infections by targeting biofilm.

Author

Gong, Youhuan, Zhao, Xueying, Yan, XiaoJie, Zheng, Wenfu, Chen, Huanwen, and Wang, Le

Subjects

*PHOTOBIOMODULATION therapy, *GOLD clusters, *BACTERIAL DNA, *HYDROXYL group, *POWER density, *LASER therapy

Abstract

We present (3-amino-1,2,4-triazole-5-thiol, ATT)-modified gold nanoclusters (AGNCs) enabling biofilm-targeting and NIR-II light-responsive antibiofilm therapy even at a low laser power density (0.5 W/cm2) for a short-time irradiation (5 min), which can interact with the extracellular DNA to achieve precise treatment and is highly effective in eradicating biofilms in infected catheter implantation model with minimal side effects. [Display omitted] • The AGNCs can target the biofilm by interacting with the extracellular DNA through the formation of hydrogen bonds between the amine groups on the ATT and the hydroxyl groups of the extracellular DNA. • By employing near-infrared (NIR)-II light-responsive therapy, the AGNCs effectively eradicated biofilms with a dispersion rate up to 90 % even at a low power density (0.5 W/cm2) for short-time irradiation (5 min). • Our study suggests the great potential of the AGNCs for long-term prevention and elimination of the biofilm-mediated infections with minimal side effects. The biofilm-mediated implant infections pose a huge threat to human health. It is urgent to explore strategies to reverse this situation. Herein, we design 3-amino-1,2,4-triazole-5-thiol (ATT)-modified gold nanoclusters (AGNCs) to realize biofilm-targeting and near-infrared (NIR)-II light-responsive antibiofilm therapy. The AGNCs can interact with the bacterial extracellular DNA through the formation of hydrogen bonds between the amine groups on the ATT and the hydroxyl groups on the DNA. The AGNCs show photothermal properties even at a low power density (0.5 W/cm2) for a short-time (5 min) irradiation, making them highly effective in eradicating the biofilm with a dispersion rate up to 90 %. In vivo infected catheter implantation model demonstrates an exceptional high ability of the AGNCs to eradicate approximately 90 % of the bacteria encased within the biofilms. Moreover, the AGNCs show no detectable toxicity or systemic effects in mice. Our study suggests the great potential of the AGNCs for long-term prevention and elimination of the biofilm-mediated infections. [ABSTRACT FROM AUTHOR]

Published

2024

2. Pathogenesis‐Guided Engineering: pH‐Responsive Imprinted Polymer Co‐Delivering Folate for Inflammation‐Resolving as Immunotherapy in Implant‐Related Infections.

Author

Costa, Raphael C., Nagay, Bruna E., Villa, Javier E. L., Sotomayor, Maria D. P. T., Neres, Lariel Chagas da Silva, Benso, Bruna, Aguayo, Sebastian, Sacramento, Catarina M., Ruiz, Karina G. S., Spada, Fernanda P., de Avila, Erica Dorigatti, da Costa, Monique G., Faverani, Leonardo P., Cintra, Luciano T. A., Souza, Joāo Gabriel S., and Barão, Valentim A. R.

Subjects

*IMPRINTED polymers, *MOLECULAR imprinting, *TOPICAL drug administration, *FOLIC acid, *INFLAMMATION

Abstract

Folate (FT) is a suitable targeting ligand for folate receptors (FOLR) overexpressed on inflamed cells. Thus, FT‐loaded polymers can be used as FOLRs‐targeted immunotherapy to positively modulate the inflammatory process. A novel biodegradable imprinted polymer with a FT delivery mechanism driven by pH changes [PCL‐MIP@FT] is designed with molecularly imprinted technology. The pH mechanism is validated in vitro, demonstrating that an acidic environment accelerated and increased the release of FT for a period of 7 days (∼100 µg mL−1). For the first time, FT receptors (FOLR‐1 and FOLR‐3) are discovered and also overexpressed on activated human gingival fibroblasts, representing a favorable target in the oral environment. Although FT itself does not have antimicrobial effects, the nanomechanical properties of biofilm are changed after topical FT administration. In vivo systemic toxicity of PCL‐MIP@FT has been demonstrated to be a safe biomaterial (up to 1.3 mg kg−1). When the PCL‐MIP@FT is assessed in the subcutaneous tissue, it promoted an alleviating inflammation and may be able to stimulate tissue repair. The present findings have demonstrated the reliable in vitro and in vivo anti‐inflammatory actions of FT‐loaded polymer and support its use as a novel drug‐free therapeutic platform for modulating and mitigating inflammatory responses in dental implant‐related infections. [ABSTRACT FROM AUTHOR]

Published

2024

3. Prophylactic absorbable antibiotic beads for prepectoral implant-based breast reconstruction: A single institution early experience.

Author

Ahmed, Shahnur, Hajj, John P., VonDerHaar, R. Jason, Bamba, Ravinder, Danforth, Rachel M., Sinha, Mithun, Fisher, Carla S., Ludwig, Kandice K., Lester, Mary E., and Hassanein, Aladdin H.

Abstract

Infection after implant-based breast reconstruction remains challenging, with infection rates up to 24%. Best clinical practice indicates prophylactic oral antibiotics are ineffective at preventing infection. Absorbable antibiotic beads have been routinely used in other surgical subspecialties such as orthopedic and vascular procedures for continuous local antibiotic delivery to the surgical site when implants are placed. Biodegradable calcium sulfate antibiotic beads have been shown to normalize incidence of infection when used prophylactically for a high-risk prepectoral patient population. The purpose of this study is to evaluate the effect of prophylactic biodegradable antibiotic beads when used non-selectively for all prepectoral immediate tissue expander (TE) reconstruction. Patients who underwent mastectomy and immediate prepectoral TE reconstruction on the same day between 2018 and 2024 were reviewed. Patients were divided into two groups: those who received antibiotic beads (Group 1) and those who did not (Group 2). Absorbable calcium-sulfate beads were reconstituted with 1 g vancomycin and 240 mg gentamicin. There were 33 patients (63 TEs) in Group 1 and 330 patients (545 TEs) in Group 2. TE loss was present in 1.5% (1/65 TEs) Group 1 compared to 9.4% (51/545 TEs) in Group 2 (p = 0.032). The mean follow-up time was 178 days (range 93–266 days). Prophylactic biodegradable antibiotic beads used during immediate tissue expander reconstruction decreased implant loss rate. There was one occurrence of SSI in the antibiotic bead group. Antibiotic beads may potentially decrease complications in immediate TE reconstruction when used non-selectively for all patients. [ABSTRACT FROM AUTHOR]

Published

2024

4. Study on the Antibacterial Activity and Bone Inductivity of Nanosilver/PLGA-Coated TI-CU Implants

Author

Geng Z, Dong R, Li X, Xu X, Chen L, Han X, Liu D, and Liu Y

Subjects

nanosilver/plga coating, implant infection, antibacterial, osteogenesis, titanium copper alloy, Medicine (General), R5-920

Abstract

Zhaoli Geng,1– 3 Renping Dong,3 Xinlin Li,1,2 Xinyi Xu,1,2 Lin Chen,1,2 Xu Han,1,2 Dongxu Liu,1,2 Yi Liu1,2 1Department of Orthodontics, School and Hospital of Stomatology, Cheeloo College of Medicine, Shandong University, Jinan, Shandong, 250012, People’s Republic of China; 2Shandong Key Laboratory of Oral Tissue Regeneration & Shandong Engineering Research Center of Dental Materials and Oral Tissue Regeneration & Shandong Provincial Clinical Research Center for Oral Diseases, Jinan, Shandong, 250012, People’s Republic of China; 3Department of Stomatology, Qingdao West Coast New Area People’s Hospital, Qingdao, Shandong, 266400, People’s Republic of ChinaCorrespondence: Yi Liu, Department of Orthodontics, School and Hospital of Stomatology, Cheeloo College of Medicine, Shandong University, No. 44-1 Wenhua Road West, Jinan, Shandong, 250012, People’s Republic of China, Tel +86-531-88381630, Email yiliu@sdu.edu.cnBackground: Implants are widely used in the field of orthopedics and dental sciences. Titanium (TI) and its alloys have become the most widely used implant materials, but implant-associated infection remains a common and serious complication after implant surgery. In addition, titanium exhibits biological inertness, which prevents implants and bone tissue from binding strongly and may cause implants to loosen and fall out. Therefore, preventing implant infection and improving their bone induction ability are important goals.Purpose: To study the antibacterial activity and bone induction ability of titanium–copper alloy implants coated with nanosilver/poly (lactic-co-glycolic acid) (NSPTICU) and provide a new approach for inhibiting implant-associated infection and promoting bone integration.Methods: We first examined the in vitro osteogenic ability of NSPTICU implants by studying the proliferation and differentiation of MC3T3-E1 cells. Furthermore, the ability of NSPTICU implants to induce osteogenic activity in SD rats was studied by micro-computed tomography (micro-CT), hematoxylin-eosin (HE) staining, masson staining, immunohistochemistry and van gieson (VG) staining. The antibacterial activity of NSPTICU in vitro was studied with gram-positive Staphylococcus aureus (Sa) and gram-negative Escherichia coli (E. coli) bacteria. Sa was used as the test bacterium, and the antibacterial ability of NSPTICU implanted in rats was studied by gross view specimen collection, bacterial colony counting, HE staining and Giemsa staining.Results: Alizarin red staining, alkaline phosphatase (ALP) staining, quantitative real-time polymerase chain reaction (qRT-PCR) and western blot analysis showed that NSPTICU promoted the osteogenic differentiation of MC3T3-E1 cells. The in vitro antimicrobial results showed that the NSPTICU implants exhibited better antibacterial properties. Animal experiments showed that NSPTICU can inhibit inflammation and promote the repair of bone defects.Conclusion: NSPTICU has excellent antibacterial and bone induction ability, and has broad application prospects in the treatment of bone defects related to orthopedics and dental sciences.Keywords: nanosilver/PLGA coating, implant infection, antibacterial, osteogenesis, titanium copper alloy

Published

2024

5. The Efficacy and Safety of an Intra-articular Dual-Acting Antibacterial Agent (TNP-2092) for Implant Infection–Associated Methicillin-Resistant Staphylococcus aureus.

Author

Dai, Tianyu, Ma, Chi, Zhang, Fan, Wang, Hui, Ma, Zhenkun, Wang, Huan, Wen, Yinxian, and Chen, Liaobin

Subjects

*METHICILLIN-resistant staphylococcus aureus, *PROSTHESIS-related infections, *ANTIBACTERIAL agents, *LABORATORY rats, *INTRA-articular injections

Abstract

Owing to the presence of microbial biofilm on the implant, the eradication of biofilm-associated infections poses a challenge for antibiotic therapies. The study aimed to investigate the efficacy and safety of the novel antibiotic agent TNP-2092 in the context of implant infections. In vivo, rats with periprosthetic joint infection (PJI) treated with antibiotics showed an increase in body weight and decrease in swelling, temperature, and width of knee, compared with the control group. Meanwhile, inflammatory markers in synovium and serum were decreased in the TNP-2092 group, consistent with the pathological results. Moreover, TNP-2092 was effective in eliminating bacteria and disruption biofilm formation, and further alleviated the abnormal bone absorption and reactive bone changes around the prosthesis. In conclusion, intra-articular injection of TNP-2092 is safe and effective in treating knee PJI in a rat model. The study provides a foundation for the future utilization of TNP-2092 in the management of implant-related infections. [ABSTRACT FROM AUTHOR]

Published

2024

6. Ultrasound‐Stimulated "Exocytosis" by Cell‐Like Microbubbles Enhances Antibacterial Species Penetration and Immune Activation Against Implant Infection.

Author

Xiu, Weijun, Li, Xiaoye, Li, Qiang, Ding, Meng, Zhang, Yu, Wan, Ling, Wang, Siyu, Gao, Yu, Mou, Yongbin, Wang, Lianhui, and Dong, Heng

Subjects

*PHAGOCYTOSIS, *MICROBUBBLES, *EXOCYTOSIS, *METHICILLIN-resistant staphylococcus aureus, *MACROPHAGE activation, *IMMUNE system, *ERYTHROCYTE membranes

Abstract

Host immune systems serving as crucial defense lines are vital resisting mechanisms against biofilm‐associated implant infections. Nevertheless, biofilms hinder the penetration of anti‐bacterial species, inhibit phagocytosis of immune cells, and frustrate host inflammatory responses, ultimately resulting in the weakness of the host immune system for biofilm elimination. Herein, a cell‐like construct is developed through encapsulation of erythrocyte membrane fragments on the surface of Fe3O4 nanoparticle‐fabricated microbubbles and then loaded with hydroxyurea (EMB‐Hu). Under ultrasound (US) stimulation, EMB‐Hu undergoes a stable oscillation manner to act in an "exocytosis" mechanism for disrupting biofilm, releasing agents, and enhancing penetration of catalytically generated anti‐bacterial species within biofilms. Additionally, the US‐stimulated "exocytosis" by EMB‐Hu can activate pro‐inflammatory macrophage polarization and enhance macrophage phagocytosis for clearance of disrupted biofilms. Collectively, this work has exhibited cell‐like microbubbles with US‐stimulated "exocytosis" mechanisms to overcome the biofilm barrier and signal macrophages for inflammatory activation, finally achieving favorable therapeutic effects against implant infections caused by methicillin‐resistant Staphylococcus aureus (MRSA) biofilms. [ABSTRACT FROM AUTHOR]

Published

2024

7. Development of pH‐Sensitive Film for Detection of Implant Infection via Ultrasound Luminescent Chemical Imaging

Author

Gretchen B. Schober, Unaiza Uzair, Morgan Reel, Vigjna Abbaraju, Herbert Behlow, Apparao M. Rao, Sriparna Bhattacharya, and Jeffrey N. Anker

Subjects

acidosis, chemical imaging, implant infection, ultrasound luminescence, Technology (General), T1-995, Science

Abstract

Abstract A new hybrid ultrasound luminescent chemical imaging technique is described along with a pH sensor to image chemical concentrations at the surface of implanted medical devices. The purpose is to detect and study local biochemistry during infection. The sensor comprises a mechanoluminescent film (SrAl2O4:Eu, Dy microphosphors embedded in a biocompatible polymer film) and a pH indicator dye. A focused ultrasound beam generates green luminescence at the ultrasound focal point. By pulsing the ultrasound ON and OFF, the modulated luminescence can be distinguished from persistent luminescence, for high spatial resolution imaging. A red fluorescent dye and the pH indicator dye bromothymol blue are added to the coating to modulate the red‐light transmittance via pH dependent absorbance. Acidosis is observed as an increase in red luminescence intensity in spectroscopy and imaging. The films are sensitive to biologically relevant changes in pH (6.0–8.0) and can be imaged through optically scattering media to mimic tissue. The images have a knife edge spatial resolution of ≈3 mm through optically scattering phantoms, limited by the focused ultrasound spot size. This novel technique may permit the elucidation of implant infection at the implant surface and can be further developed for the measurement of other relevant chemical species in the future.

Published

2024

8. Staphylococcus aureus surface attachment selectively influences tolerance against charged antibiotics.

Author

Hayles, Andrew, Bright, Richard, Nguyen, Ngoc Huu, Truong, Vi Khanh, Vongsvivut, Jitraporn, Wood, Jonathan, Kidd, Stephen P., and Vasilev, Krasimir

Subjects

ATTENUATED total reflectance, ANTIBIOTICS, PHENOTYPIC plasticity, BACTERIAL adhesion, ANTIBIOTIC prophylaxis

Abstract

The threat of infection during implant placement surgery remains a considerable burden for millions of patients worldwide. To combat this threat, clinicians employ a range of anti-infective strategies and practices. One of the most common interventions is the use of prophylactic antibiotic treatment during implant placement surgery. However, these practices can be detrimental by promoting the resilience of biofilm-forming bacteria and enabling them to persist throughout treatment and re-emerge later, causing a life-threatening infection. Thus, it is of the utmost importance to elucidate the events occurring during the initial stages of bacterial surface attachment and determine whether any biological processes may be targeted to improve surgical outcomes. Using gene expression analysis, we identified a cellular mechanism of S. aureus which modifies its cell surface charge following attachment to a medical grade titanium surface. We determined the upregulation of two systems involved in the d -alanylation of teichoic acids and the lysylation of phosphatidylglycerol. We supported these molecular findings by utilizing synchrotron-sourced attenuated total reflection Fourier-transform infrared microspectroscopy to analyze the biomolecular properties of the S. aureus cell surface following attachment. As a direct consequence, S. aureus quickly becomes substantially more tolerant to the positively charged vancomycin, but not the negatively charged cefazolin. The present study can assist clinicians in rationally selecting the most potent antibiotic in prophylaxis treatments. Furthermore, it highlights a cellular process that could potentially be targeted by novel technologies and strategies to improve the outcome of antibiotic prophylaxis during implant placement surgery. The antibiotic tolerance of bacteria in biofilm is a well-established phenomenon. However, the physiological adaptations employed by Staphylococcus aureus to increase its antibiotic tolerance during the early stages of surface attachment are poorly understood. Using multiple techniques, including gene expression analysis and synchrotron-sourced Fourier-transform infrared microspectroscopy, we generated insights into the physiological response of S. aureus following attachment to a medical grade titanium surface. We showed that this phenotypic transition enables S. aureus to better tolerate the positively charged vancomycin, but not the negatively charged cefazolin. These findings shed light on the antibiotic tolerance mechanisms employed by S. aureus to survive prophylactically administered antibiotics and can help clinicians to protect patients from infections. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

9. 吲哚在生物材料表面大肠杆菌生物膜中的研究进展.

Author

苏丹燕, 唐文甜, 杨谨旭, 刘　华, 李邦胜, 赵应鼎, and 黄云超

Abstract

Escherichia coli is a highly adaptable opportunistic pathogen bacterium that can form biofilms on the surface of implants and generates persistent cells，leading to life-threatening infections that are difficult to treat with antibiotics alone. Therefore，there is a need for an effective E.coli biofilm inhibitor to combat this public health threat. Indole is a novel quorum-sensing signaling molecule of E. coli discovered in recent years，which is of great significance in regulating bacterial growth and biofilm formation，and is a potential target for future research on new anti-biofilm preparations. This article reviews the research progress on the formation of Escherichia coli biofilms， the microbial metabolism of indole and its regulation of Escherichia coli biofilm formation, in order to provide information for clinical treatment and drug development. [ABSTRACT FROM AUTHOR]

Published

2023

10. Sonodynamic antibacterial application of PEEK coated with BiOBr/Ti3C2 Mxene.

Author

WU Zixiang, SUN Xuechao, WANG Qian, YANG Zhiheng, LIU Jinlong, DENG Yi, and ZHANG Long

Abstract

Bone defects seriously threaten people's lives and health, and implantation of the bone repair material polyetheretherketone (PEEK) is an effective way to treat it. However, the infection caused by PEEK'S lack of antibacterial activity impedes its wide clinical adoption. Therefore, BiOBr/Ti3C2 Mxene (hereinafter referred to as BTC) with sonodynamic properties were synthesized in this project, and its sonodynamic properties were verified by 1, 3-diphenylisobenzofuran (DPBF) consumption, Rhodamine B (RhB) consumption, and glutathione (GSH) consumption. And then we coated it on sulfonated PEEK to form SP@BTC materials. We employed Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus) to represent Gram-negative and Gram-positive bacteria respectively to explore the antibacterial properties and mechanism of SP@BTC by spread plate method, bacterial reactive oxygen species (ROS) detection and bacterial morphology observation. The final results show that BTC has excellent sonodynamic performance, which in turn makes SP@BTC have excellent antibacterial properties. This study explores the application of BTC material in the field of sonodynamic, and provides new ideas for solving the problem of bacterial infection of PEEK. [ABSTRACT FROM AUTHOR]

Published

2023

11. Ultrasound‐Stimulated 'Exocytosis' by Cell‐Like Microbubbles Enhances Antibacterial Species Penetration and Immune Activation Against Implant Infection

Author

Weijun Xiu, Xiaoye Li, Qiang Li, Meng Ding, Yu Zhang, Ling Wan, Siyu Wang, Yu Gao, Yongbin Mou, Lianhui Wang, and Heng Dong

Subjects

bacterial biofilms, immune therapy, implant infection, microbubbles, ultrasound‐responsive drug delivery, Science

Abstract

Abstract Host immune systems serving as crucial defense lines are vital resisting mechanisms against biofilm‐associated implant infections. Nevertheless, biofilms hinder the penetration of anti‐bacterial species, inhibit phagocytosis of immune cells, and frustrate host inflammatory responses, ultimately resulting in the weakness of the host immune system for biofilm elimination. Herein, a cell‐like construct is developed through encapsulation of erythrocyte membrane fragments on the surface of Fe3O4 nanoparticle‐fabricated microbubbles and then loaded with hydroxyurea (EMB‐Hu). Under ultrasound (US) stimulation, EMB‐Hu undergoes a stable oscillation manner to act in an “exocytosis” mechanism for disrupting biofilm, releasing agents, and enhancing penetration of catalytically generated anti‐bacterial species within biofilms. Additionally, the US‐stimulated “exocytosis” by EMB‐Hu can activate pro‐inflammatory macrophage polarization and enhance macrophage phagocytosis for clearance of disrupted biofilms. Collectively, this work has exhibited cell‐like microbubbles with US‐stimulated “exocytosis” mechanisms to overcome the biofilm barrier and signal macrophages for inflammatory activation, finally achieving favorable therapeutic effects against implant infections caused by methicillin‐resistant Staphylococcus aureus (MRSA) biofilms.

Published

2024

12. Effect of Immediate Lymphatic Reconstruction on Postmastectomy Implant Reconstruction

Author

Ahmed, Shahnur, Mercho, Patrick F., Brown, Whitney A., Aguilar Neuville, Paola, Fisher, Carla S., Lester, Mary E., and Hassanein, Aladdin H.

Published

2024

13. Alternative approach for fracture fixation following implant infection in a Salter‐Harris type‐II fracture of the proximal phalanx in a Warmblood foal.

Author

Kalinovskiy, Andrey, Ehrle, Anna, Müller, Eva, and Lischer, Christophorus

Subjects

*PHALANGES, *FRACTURE fixation, *FOALS, *FRACTURE healing, *REOPERATION, *HORSE breeding

Abstract

Summary: A 2‐day‐old female Warmblood foal (70 kg) presented with a closed, displaced Salter‐Harris type‐II fracture of the proximal physis of the left hind first phalanx. The fracture was repaired with four 4.5 mm cortical screws and a wire in a figure‐of‐8 pattern applied on the lateral and medial aspect of the phalanx, respectively. A 4.5 mm cortical screw was additionally inserted in lag‐fashion to engage the lateral metaphyseal spike. Three days postoperatively, medial and proximal displacement of the distal fracture fragment and implant infection were apparent and revision surgery was performed. Previous implants were removed and two 4.5 mm transphyseal cortical lag‐screws were placed in proximolateral–distomedial and dorsoproximal–plantarodistal direction across the physis and the fracture line. Postoperatively, the fracture healed rapidly and the implants were removed 6 weeks later. Nineteen months after implant removal, the horse did not show any sign of lameness, despite a shortening of the proximal phalanx compared to the contralateral limb. In cases of postoperative implant instability and infection, implant removal often becomes necessary. However, new implants cannot be placed safely in the previous location. To avoid this problem, this report describes an alternative approach for screw positioning in case of previous implant infection in a Salter‐Harris type‐II fracture of the proximal physis of the first phalanx. [ABSTRACT FROM AUTHOR]

Published

2023

14. The Use of a Novel Antimicrobial Implant Coating In Vivo to Prevent Spinal Implant Infection.

Author

Hegde, Vishal, Park, Howard Y, Dworsky, Erik, Zoller, Stephen D, Xi, Weixian, Johansen, Daniel O, Loftin, Amanda H, Hamad, Christopher D, Segura, Tatiana, and Bernthal, Nicholas M

Subjects

Bioengineering, Prevention, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Infection, Absorbable Implants, Animals, Anti-Bacterial Agents, Drug Implants, Humans, Mice, Mice, Inbred C57BL, Polyethylene Glycols, Postoperative Complications, Prostheses and Implants, Prosthesis-Related Infections, Staphylococcal Infections, Vancomycin, antibiotic coating, antibiotic elution, antibiotic therapy, implant coating, implant infection, mouse model of spinal implant infection, poly(ethylene glycol)-propylene sulfide polymer coating, spine implant infection, tigecycline, vancomycin, Biomedical Engineering, Clinical Sciences, Orthopedics

Abstract

Study designA controlled, interventional animal study.ObjectiveSpinal implant infection (SII) is a devastating complication. The objective of this study was to evaluate the efficacy of a novel implant coating that has both a passive antibiotic elution and an active-release mechanism triggered in the presence of bacteria, using an in vivo mouse model of SII.Summary of background dataCurrent methods to minimize the frequency of SII include local antibiotic therapy (vancomycin powder), betadine irrigation, silver nanoparticles, and passive release from antibiotic-loaded poly(methyl methacrylate) cement beads, all of which have notable weaknesses. A novel implant coating has been developed to address some of these limitations but has not been tested in the environment of a SII.MethodsA biodegradable coating using branched poly(ethylene glycol)-poly(propylene sulfide) (PEG-PPS) polymer was designed to deliver antibiotics. The in vivo performance of this coating was tested in the delivery of either vancomycin or tigecycline in a previously established mouse model of SII. Noninvasive bioluminescence imaging was used to quantify the bacterial burden, and implant sonication was used to determine bacterial colony-forming units (CFUs) from the implant and surrounding bone and soft tissue.ResultsThe PEG-PPS-vancomycin coating significantly lowered the infection burden from postoperative day 3 onwards (P

Published

2020

15. Felodipine enhances aminoglycosides efficacy against implant infections caused by methicillin-resistant Staphylococcus aureus, persisters and biofilms

Author

Shutao Zhang, Xinhua Qu, Juyang Jiao, Haozheng Tang, Minqi Wang, You Wang, Hongtao Yang, Weien Yuan, and Bing Yue

Subjects

Aminoglycosides, Felodipine, Persisters, Methicillin-resistant Staphylococcus aureus, Implant infection, Materials of engineering and construction. Mechanics of materials, TA401-492, Biology (General), QH301-705.5

Abstract

Methicillin-resistant Staphylococcus aureus (MRSA), biofilms, and persisters are three major factors leading to recurrent and recalcitrant implant infections. Although antibiotics are still the primary treatment for chronic implant infections in clinical, only few drugs are effective in clearing persisters and formed biofilms. Here, felodipine, a dihydropyridine calcium channel blocker, was reported for the first time to have antibacterial effects against MRSA, biofilm, and persisters. Even after continuous exposure to sub-lethal concentrations of felodipine, bacteria are less likely to develop resistance. Besides, low doses of felodipine enhances the antibacterial activity of gentamicin by inhibiting the expression of protein associated with aminoglycoside resistance (aacA-aphD). Next, biofilm eradication test and persisters killing assay suggested felodipine has an excellent bactericidal effect against formed biofilms and persisters. Furthermore, the result of protein profiling, and quantitative metabonomics analysis indicated felodipine reduce MRSA virulence (agrABC), biofilm formation and TCA cycle. Then, molecular docking showed felodipine inhibit the growth of persisters by binding to the H pocket of ClpP protease, which could lead to substantial protein degradation. Furthermore, murine infection models suggested felodipine in combination with gentamicin alleviate bacterial burden and inflammatory response. In conclusion, low dose of felodipine might be a promising agent for biomaterial delivery to enhance aminoglycosides efficacy against implant infections caused by MRSA, biofilm, and persisters.

Published

2022

16. A case of mediastinal abscess and infected aortic aneurysm caused by dissemination of Mycobacterium abscessus subsp. massiliense pulmonary disease.

Author

Matsumoto, Yuji, Murata, Masayuki, Takayama, Koji, Yamasaki, Sho, Hiramine, Satoshi, Toyoda, Kazuhiro, Kibe, Yasushi, Nishida, Ruriko, Kimura, Satoshi, Sonoda, Hiromichi, Shiose, Akira, and Shimono, Nobuyuki

Subjects

*AORTIC aneurysms, *LUNG diseases, *AORTIC rupture, *MYCOBACTERIUM avium paratuberculosis, *MYCOBACTERIUM, *AORTIC valve insufficiency, *ABSCESSES

Abstract

An 81-year-old man was admitted to our hospital because of fever and malaise that had persisted for 3 months. The patient had undergone two aortic valve replacements, 10 and 5 years previously, because of aortic valve regurgitation and infectious endocarditis. He also had had asymptomatic Mycobacterium abscessus complex (MABC) pulmonary disease for the two previous years. Contrast-enhanced computed tomography showed a mediastinal abscess and an ascending aortic aneurysm. Mycobacterium abscessus subsp. massiliense was cultured from his blood, suggesting the aortic aneurysm was secondary to infection of an implanted device. After enlargement over only a few days, a leakage of contrast medium to the mediastinal abscess was found on computed tomography. The patient was diagnosed with rupture of an infectious aortic aneurysm, and emergency aortic replacement and drainage of the mediastinal abscess were successful. The patient was treated with several antibiotics, including meropenem, amikacin, and clarithromycin, and his general condition improved. Cultures from both the mediastinal abscess and a pericardial patch that was placed at the time of surgery 5 years previously revealed MABC. In our case, the infected aortic aneurysm most likely resulted from MABC pulmonary disease rather than from previous intraoperative contamination. This route of infection is rare. Physicians should be aware of the possibility of dissemination and subsequent infection of implants related to MABC pulmonary disease. [ABSTRACT FROM AUTHOR]

Published

2023

17. A surprising complication of breast augmentation surgery

Author

Caroline Koan, Rose J. Venegas, and Richard A. Murphy

Subjects

Implant infection, Fungal infection, Breast augmentation complication, Plastic surgery, Surgery, RD1-811

Abstract

Infections caused by opportunistic fungal organisms such as Scedosporium spp. have been increasingly recognized over the last few decades. Most affected patients are immunocompromised or critically ill, but Scedosporium spp. infections have also been described in immunocompetent patients, such as localized disease from direct inoculation or in near-drowning events. We describe a case of a patient with no known underlying immune impairment who experienced significant infection with Scedosporium apiospermum at both sites of breast augmentation. Once identified, the choice of therapeutics can be challenging given the intrinsic resistance and variable activity of different antifungal agents; however, other factors also impact the outcome of this infection such as the host immune status. Thus, both the recognition and treatment of Scedosporium infections can be challenging.

Published

2022

18. Development of new Ti50Zr25Nb20Cu5–xAgx high-entropy alloys with excellent antibacterial property, osteo-conductivity and biocompatibility in vitro and in vivo.

Author

Yu, Bingxiao, Juma, Talante, Wang, Hao, Bao, Xiaotong, Cao, Xiangyu, Wang, Zhiwen, Wang, Rui, Yang, Xin, Ning, Taiguo, Liang, Guanghua, Cao, Yongping, Zhang, Tao, and Guan, Zhenpeng

Subjects

BIOCOMPATIBILITY, COPPER, ALLOYS, SPRAGUE Dawley rats, STAPHYLOCOCCUS aureus, COPPER-titanium alloys, GRAIN

Abstract

• New Zr–Ti–Nb–Cu–Ag high-entropy alloys(HEAs), especially HEACu 2.5 Ag 2.5 showed better antibacterial ability against Staphylococcus aureus than Ti–6Al–4V. • Excellent osteo-conductivity of HEAs was observed in vitro. • HEACu 2.5 Ag 2.5 can prevent serious bacterial infections peri-implants, with a lower PCT in infection models. A new series of medical antibacterial high-entropy alloys (HEAs) with composition Ti 50 Zr 25 Nb 20 Cu 5– x Ag x (x = 0 at.%, 1 at.%, and 2.5 at.%) were developed by arc-melting the mixture of pure elements under a high-purity argon atmosphere. The cytotoxicity, osteo-conductivity, and antibacterial properties of these HEAs were systematically investigated in vitro , along with their in vivo biocompatibility and antibacterial properties. These HEAs, especially Ti 50 Zr 25 Nb 20 Cu 2.5 Ag 2.5 , showed better antibacterial ability against Staphylococcus aureus than Ti–6Al–4V, which has a nearly 99% antibacterial rate in vitro. Moreover, ion release and cytotoxicity tests showed that these HEAs had excellent biosafety, similar to or better than that of Ti–6Al–4V. Osteoblasts were used to evaluate the osteogenic activity of these HEAs, and good osteo-conductivity was observed in vitro. In a Sprague-Dawley rat infection model, Ti 50 Zr 25 Nb 20 Cu 2.5 Ag 2.5 showed remarkable antibacterial properties compared to Ti–6Al–4V. The in vivo biocompatibility results showed that Ti 50 Zr 25 Nb 20 Cu 2.5 Ag 2.5 did not increase biotoxicity compared to Ti–6Al–4V. The excellent biocompatibility and antibacterial properties of the Ti–Zr–Nb–Cu–Ag HEAs are expected to enable the prevention of periprosthetic/peri-implant infections in the future. [ABSTRACT FROM AUTHOR]

Published

2023

19. Zinc alloy-based bone internal fixation screw with antibacterial and anti-osteolytic properties

Author

Xinhua Qu, Hongtao Yang, Bo Jia, Minqi Wang, Bing Yue, Yufeng Zheng, and Kerong Dai

Subjects

Implant infection, Postoperative osteolysis, Zn–Ag alloys, Antibacterial, Anti-osteolytic, Materials of engineering and construction. Mechanics of materials, TA401-492, Biology (General), QH301-705.5

Abstract

There is no targeted effective treatment for patients undergoing internal fixation surgery/two-stage total joint revision surgery with a high risk of postoperative infection and osteolysis, while the rate of reoperation due to infection and osteolysis remains high. In this study, we report a pioneering application of implants made of biodegradable Zn–Ag alloy with active antibacterial and anti-osteolytic properties in three classical animal models, illustrating antibacterial, anti-osteolysis, and internal fixation for fractures. The antibacterial activity of the Zn–2Ag alloy was verified in a rat femur osteomyelitis prevention model, while the anti-osteolytic properties were evaluated using a mouse cranial osteolysis model. Moreover, the Zn–2Ag based screws showed similar performance in bone fracture fixation compared to the Ti–6Al–4V counterpart. The fracture healed completely after 3 months in the rabbit femoral condyle fracture model. Furthermore, the underlying antibacterial mechanism may include inhibition of biofilm formation, autolysis-related pathways, and antibiotic resistance pathways. Osseointegration mechanisms may include inhibition of osteoclast-associated protein expression, no effect on osteogenic protein expression, and no activation of related inflammatory protein expression. The empirical findings here reveal the great potential of Zn–Ag-based alloys for degradable biomaterials in internal fixation surgery/two-stage total joint revision surgery for patients with a high risk of postoperative infection and osteolysis.

Published

2021

20. 载银/钴 β-磷酸三钙的抗菌性能评估及其 应用于感染性骨缺损治疗研究.

Author

何 帅, 刘昱辰, 韩秋阳, 汪寿腾, 谢克难, 谢 璐, 邓 怡, and 杨为中

Abstract

Bone defect caused by trauma, osteomyelitis, and osteosarcoma resection surgery is threatening the patients’ health globally. Currently, implanting orthopedic materials is the mainstream method for repairing bone defects by filling bone defects. However, owing to the poor bactericidal ability, conventional orthopedic implant materials are susceptible to pathogen invasion leading to implant-associated infection (IAI), which would prolong the suffering of patients and cause secondary injury. To cope with this issue, herein, we construct a novel multifunctional implant (Ag@Co/β-TCP) consisting of cobalt metal, silver nanoparticles, and bioceramic beta-tricalcium phosphate（β-TCP） through compression shaping and polydopamine-assisted modification for the purpose of antibiotic-free IAI therapy. Owing to the intrinsic germicidal activity of Ag+ and Co2+, Ag@Co/β-TCP implants exhibit excellent anti-bacterial properties against Gram-positive（Staphylococcus aureus） and Gram-negative（Escherichia coli） pathogenic bacteria. Additionally, in vitro cell experiments demonstrate that Ag@Co/β-TCP displays acceptable biocompatibility and cell growth ability. Accordingly, these merits make the functionalized bioceramic become a promising antibiotic-free anti-bacterial bone implant material for combating the issue of IAI during the implantation process by boosting the anti-bacterial ability of β-TCP. [ABSTRACT FROM AUTHOR]

Published

2022

21. Are late hernia mesh complications linked to Staphylococci biofilms?

Author

Patiniott, P., Jacombs, A., Kaul, L., Hu, H., Warner, M., Klosterhalfen, B., Karatassas, A., Maddern, G., and Richter, K.

Abstract

Purpose: The purpose of this study was to investigate the link between bacterial biofilms and negative outcomes of hernia repair surgery. As biofilms are known to play a role in mesh-related infections, we investigated the presence of biofilms on hernia meshes, which had to be explanted due to mesh failure without showing signs of bacterial infection. Methods: In this retrospective observational study, 20 paraffin-embedded tissue sections from explanted groin hernia meshes were analysed. Meshes have been removed due to chronic pain, hernia recurrence or mesh shrinkage. The presence and bacterial composition of biofilms were determined. First, specimens were stained with fluorescence in situ hybridisation (FISH) probes, specific for Staphylococcus aureus and coagulase-negative staphylococci, and visualised by confocal laser scanning microscopy. Second, DNA was extracted from tissue and identified by S. aureus and S. epidermidis specific PCR. Results: Confocal microscopy showed evidence of bacterial biofilms on meshes in 15/20 (75.0%) samples, of which 3 were positive for S. aureus, 3 for coagulase-negative staphylococci and 9 for both species. PCR analysis identified biofilms in 17/20 (85.0%) samples, of which 4 were positive for S. aureus, 4 for S. epidermidis and 9 for both species. Combined results from FISH/microscopy and PCR identified staphylococci biofilms in 19/20 (95.0%) mesh samples. Only 1 (5.0%) mesh sample was negative for bacterial biofilm by both techniques. Conclusion: Results suggest that staphylococci biofilms may be associated with hernia repair failure. A silent, undetected biofilm infection could contribute to mesh complications, chronic pain and exacerbation of disease. [ABSTRACT FROM AUTHOR]

Published

2022

22. Infectious Complications Following Cochlear Implant: Risk Factors, Natural History, and Management Patterns.

Author

Moon, Peter K., Qian, Z. Jason, Ahmad, Iram N., Stankovic, Konstantina M., Chang, Kay W., and Cheng, Alan G.

Abstract

Objective: To describe the natural history, detail the treatment patterns, and identify the risk factors for cochlear implant (CI) infections in a large US cohort.Study Design: Retrospective study based on insurance claims.Setting: Optum Data Mart database: 6101 patients who received CIs from 2003 to 2019.Methods: Infections, treatments patterns, and timelines were described. A multivariable logistic regression model was used to assess the association between postoperative oral antibiotics and CI infection.Results: The cohort includes 4736 (77.6%) adults and 1365 (22.4%) children. Between adult and pediatric patients, rates of CI infection (5.1% vs 4.5%, P = .18) and explantation (1.2% vs 0.8%, P = .11) were not significantly different. Infections typically occurred within 5 months of surgery. Children were diagnosed with CI infection earlier than adults (median difference, -1.5 months; P = .001). Postoperative oral antibiotic supply was not associated with lower risk of CI infection in either children or adults. However, among adults, otitis media was associated with higher odds of CI infection (odds ratio, 1.41; P < .001), while higher income was associated with lower odds of CI infection (odds ratio, 0.71; P = .03).Conclusions: Postoperative oral antibiotics were not associated with lower risk of infection or interventions. Otitis media episodes and lower income were associated with increased risk of infection among adults as well as intervention overall. Infection typically presented within the first 6 months after surgery, with children presenting earlier than adults. Overall, our findings serve as a resource for providers to consider in their care of patients with CIs. [ABSTRACT FROM AUTHOR]

Published

2022

23. Penile Prosthesis Implantation in Complex and Previously Failed Settings

Author

Helo, Sevann, Clavell-Hernandez, Jonathan, Wilson, Steven K., Köhler, Tobias S., Martins, Francisco E., editor, Kulkarni, Sanjay B., editor, and Köhler, Tobias S., editor

Published

2020

24. pH variation in medical implant biofilms: Causes, measurements, and its implications for antibiotic resistance

Author

Shayesteh Beladi Behbahani, Sachindra D. Kiridena, Uthpala N. Wijayaratna, Cedric Taylor, Jeffrey N. Anker, and Tzuen-Rong Jeremy Tzeng

Subjects

implant infection, pH, biofilm, antibiotic resistance, pH measurement, pH targeted treatment, Microbiology, QR1-502

Abstract

The advent of implanted medical devices has greatly improved the quality of life and increased longevity. However, infection remains a significant risk because bacteria can colonize device surfaces and form biofilms that are resistant to antibiotics and the host’s immune system. Several factors contribute to this resistance, including heterogeneous biochemical and pH microenvironments that can affect bacterial growth and interfere with antibiotic biochemistry; dormant regions in the biofilm with low oxygen, pH, and metabolites; slow bacterial growth and division; and poor antibody penetration through the biofilm, which may also be regions with poor acid product clearance. Measuring pH in biofilms is thus key to understanding their biochemistry and offers potential routes to detect and treat latent infections. This review covers the causes of biofilm pH changes and simulations, general findings of metabolite-dependent pH gradients, methods for measuring pH in biofilms, effects of pH on biofilms, and pH-targeted antimicrobial-based approaches.

Published

2022

25. Cervical epidural abscess due to implantation of a spinal cord stimulation lead.

Author

Bara, Gregor A. and Thissen, Jost

Subjects

*EPIDURAL abscess, *SPINAL cord, *CEREBROSPINAL fluid, *PAIN management

Abstract

Spinal cord stimulation (SCS) for intractable pain syndromes has become a pillar of modern pain management. Common complications include lead migration, implant infection, cerebral spinal fluid leak, and lead fracture. Spinal epidural abscess due to spinal cord stimulator implantation is a very rare occurrence with only two cases reported in the literature so far. We present an illustrative case and discuss the pathophysiology and best clinical management for this very rate entity. [ABSTRACT FROM AUTHOR]

Published

2022

26. Novel in vivo mouse model of implant related spine infection

Author

Dworsky, Eric M, Hegde, Vishal, Loftin, Amanda H, Richman, Sherif, Hu, Yan, Lord, Elizabeth, Francis, Kevin P, Miller, Lloyd S, Wang, Jeff C, Scaduto, Anthony, and Bernthal, Nicholas M

Subjects

Engineering, Health Sciences, Sports Science and Exercise, Biomedical Engineering, Prevention, Bioengineering, Infectious Diseases, Emerging Infectious Diseases, Infection, Animals, Disease Models, Animal, Luminescent Measurements, Male, Mice, Inbred C57BL, Neutrophils, Prosthesis-Related Infections, Random Allocation, Spinal Diseases, Staphylococcus aureus, spine, implant infection, Staphylococcus, bioluminescence, Clinical Sciences, Human Movement and Sports Sciences, Orthopedics, Biomedical engineering, Sports science and exercise

Abstract

Post-operative spine infections are a challenge, as hardware must often be retained to prevent destabilization of the spine, and bacteria form biofilm on implants, rendering them inaccessible to antibiotic therapy, and immune cells. A model of posterior-approach spinal surgery was created in which a stainless steel k-wire was transfixed into the L4 spinous process of 12-week-old C57BL/six mice. Mice were then randomized to receive either one of three concentrations (1 × 102 , 1 × 103 , and 1 × 104 colony forming units (CFU)) of a bioluminescent strain of Staphylococcus aureus or normal saline at surgery. The mice were then longitudinally imaged for bacterial bioluminescence to quantify infection. The 1 × 102 CFU group had a decrease in signal down to control levels by POD 25, while the 1 × 103 and 1 × 104 CFU groups maintained a 10-fold higher signal through POD 35. Bacteria were then harvested from the pin and surrounding tissue for confirmatory CFU counts. All mice in the 1 × 104 CFU group experienced wound breakdown, while no mice in the other groups had this complication. Once an optimal bacterial concentration was determined, mice expressing enhanced green fluorescent protein in their myeloid cells (Lys-EGFP) were utilized to contemporaneously quantify bacterial burden, and immune response. Neutrophil fluorescence peaked for both groups on POD 3, and then declined. The infected group continued to have a response above the control group through POD 35. This study, establishes a noninvasive in vivo mouse model of spine implant infection that can quantify bacterial burden and host inflammation longitudinally in real time without requiring animal sacrifice. © 2016 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 35:193-199, 2017.

Published

2017

27. Cervical epidural abscess due to implantation of a spinal cord stimulation lead

Author

Gregor A. Bara and Jost Thissen

Subjects

implant infection, spinal cord stimulation, spinal epidural abscess, Medicine, Medicine (General), R5-920

Abstract

Abstract Spinal cord stimulation (SCS) for intractable pain syndromes has become a pillar of modern pain management. Common complications include lead migration, implant infection, cerebral spinal fluid leak, and lead fracture. Spinal epidural abscess due to spinal cord stimulator implantation is a very rare occurrence with only two cases reported in the literature so far. We present an illustrative case and discuss the pathophysiology and best clinical management for this very rate entity.

Published

2022

28. Surgical Applications of Materials Engineered with Antimicrobial Properties.

Author

Perrault, David P., Sharma, Ayushi, Kim, Jessica F., Gurtner, Geoffrey C., and Wan, Derrick C.

Subjects

*ANTIMICROBIAL peptides, *SURGICAL site infections, *ANTIBIOTICS, *PEPTIDE antibiotics

Abstract

The infection of surgically placed implants is a problem that is both large in magnitude and that broadly affects nearly all surgical specialties. Implant-associated infections deleteriously affect patient quality-of-life and can lead to greater morbidity, mortality, and cost to the health care system. The impact of this problem has prompted extensive pre-clinical and clinical investigation into decreasing implant infection rates. More recently, antimicrobial approaches that modify or treat the implant directly have been of great interest. These approaches include antibacterial implant coatings (antifouling materials, antibiotics, metal ions, and antimicrobial peptides), antibacterial nanostructured implant surfaces, and antibiotic-releasing implants. This review provides a compendium of these approaches and the clinical applications and outcomes. In general, implant-specific modalities for reducing infections have been effective; however, most applications remain in the preclinical or early clinical stages. [ABSTRACT FROM AUTHOR]

Published

2022

29. Long-term antibacterial properties of a nanostructured titanium alloy surface: An in vitro study

Author

Richard Bright, Daniel Fernandes, Jonathan Wood, Dennis Palms, Anouck Burzava, Neethu Ninan, Toby Brown, Dan Barker, and Krasimir Vasilev

Subjects

Nanoprotrusions, Nanostructures, Nanospikes, Antibacterial, Biofilm, Implant infection, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

The demand for joint replacement and other orthopedic surgeries involving titanium implants is continuously increasing; however, 1%–2% of surgeries result in costly and devastating implant associated infections (IAIs). Pseudomonas aeruginosa and Staphylococcus aureus are two common pathogens known to colonise implants, leading to serious complications. Bioinspired surfaces with spike-like nanotopography have previously been shown to kill bacteria upon contact; however, the longer-term potential of such surfaces to prevent or delay biofilm formation is unclear. Hence, we monitored biofilm formation on control and nanostructured titanium disc surfaces over 21 days following inoculation with Pseudomonas aeruginosa and Staphylococcus aureus. We found a consistent 2-log or higher reduction in live bacteria throughout the time course for both bacteria. The biovolume on nanostructured discs was also significantly lower than control discs at all time points for both bacteria. Analysis of the biovolume revealed that for the nanostructured surface, bacteria was killed not just on the surface, but at locations above the surface. Interestingly, pockets of bacterial regrowth on top of the biomass occurred in both bacterial species, however this was more pronounced for S. aureus cultures after 21 days. We found that the nanostructured surface showed antibacterial properties throughout this longitudinal study. To our knowledge this is the first in vitro study to show reduction in the viability of bacterial colonisation on a nanostructured surface over a clinically relevant time frame, providing potential to reduce the likelihood of implant associated infections.

Published

2022

30. Lactobacillus cell‐free supernatant as a novel bioagent and biosurfactant against Pseudomonas aeruginosa in the prevention and treatment of orthopedic implant infection.

Author

Jeyanathan, Augustina, Ramalhete, Rita, Blunn, Gordon, Gibbs, Hannah, Pumilia, Cyrus Anthony, Meckmongkol, Teerin, Lovejoy, John, and Coathup, Melanie J.

Subjects

ORTHOPEDIC implants, PSEUDOMONAS aeruginosa, LACTOBACILLUS fermentum, LACTOBACILLUS, LACTOBACILLUS acidophilus

Abstract

The hypothesis was that probiotic Lactobacillus species (spp.) or their cell‐free supernatant (CFS) are effective in inhibiting (a) planktonic growth of Pseudomonas aeruginosa (PA), (b) its adhesion to a Ti6Al4V‐alloy surface, and (c) in dispersing biofilm once formed. (a) A planktonic co‐culture containing PA(104 colony‐forming unit [CFU]/ml) was combined with either Lactobacillus acidophilus, Lactobacillus plantarum (LP), or Lactobacillus fermentum (LF) at a suspension of 104 (1:1) or 108 CFU/ml (1:2). Lactobacillus and PA CFUs were then quantified. (b) Ti‐6Al‐4V discs were inoculated with PA followed by supplementation with CFS and adherent PA quantified. (c) Biofilm covered discs were supplemented with Lactobacillus CFS and remaining PA activity quantified. Results showed that whole‐cell cultures were ineffective in preventing PA growth; however, the addition of CFS resulted in a 99.99 ± 0.003% reduction in adherent PA in all Lactobacillus groups (p <.05 in all groups) with no viable PA growth measured in the LF and LP groups. Following PA biofilm formation, CFS resulted in a significant reduction in PA activity in all Lactobacillus groups (p ≤.05 in all groups) with a 29.75 ± 15.98% increase measured in control samples. Supplementation with CFS demonstrated antiadhesive, antibiofilm, and toxic properties to PA. [ABSTRACT FROM AUTHOR]

Published

2021

31. A Bone-Targeting Enoxacin Delivery System to Eradicate Staphylococcus Aureus-Related Implantation Infections and Bone Loss

Author

Cong Yao, Meisong Zhu, Xiuguo Han, Qiang Xu, Min Dai, Tao Nie, and Xuqiang Liu

Subjects

implant infection, enoxacin, aspartic acid octapeptide, mesoporous silica nanoparticles, bone-targeting, Biotechnology, TP248.13-248.65

Abstract

Post-operative infections in orthopaedic implants are severe complications that require urgent solutions. Although conventional antibiotics limit bacterial biofilm formation, they ignore the bone loss caused by osteoclast formation during post-operative orthopaedic implant-related infections. Fortunately, enoxacin exerts both antibacterial and osteoclast inhibitory effects, playing a role in limiting infection and preventing bone loss. However, enoxacin lacks specificity in bone tissue and low bioavailability-related adverse effects, which hinders translational practice. Here, we developed a nanosystem (Eno@MSN-D) based on enoxacin (Eno)-loaded mesoporous silica nanoparticles (MSN), decorated with the eight repeating sequences of aspartate (D-Asp8), and coated with polyethylene glycol The release results suggested that Eno@MSN-D exhibits a high sensitivity to acidic environment. Moreover, this Eno@MSN-D delivery nanosystem exhibited both antibacterial and anti-osteoclast properties in vitro. The cytotoxicity assay revealed no cytotoxicity at the low concentration (20 μg/ml) and Eno@MSN-D inhibited RANKL-induced osteoclast differentiation. Importantly, Eno@MSN-D allowed the targeted release of enoxacin in infected bone tissue. Bone morphometric analysis and histopathology assays demonstrated that Eno@MSN-D has antibacterial and antiosteoclastic effects in vivo, thereby preventing implant-related infections and bone loss. Overall, our study highlights the significance of novel biomaterials that offer new alternatives to treat and prevent orthopaedic Staphylococcus aureus-related implantation infections and bone loss.

Published

2021

32. Efficacy of short-term antibiotic prophylaxis in immediate two-stage breast reconstruction after mastectomy: A retrospective monocentric study.

Author

Barbera, Federico, Lisa, Andrea, Vinci, Valeriano, Maione, Luca, Veronesi, Alessandra, Giannasi, Silvia, Bandi, Valeria, and Klinger, Francesco

Abstract

Infective complications following implant-based breast reconstruction range from 2,5 to 24% and are often associated with high morbidity and poor outcome. Many authors still employ long-term antibiotic prophylaxis even though there is no conclusive evidence on the impact on infection-rate reduction. In the present study, we report we report our single-shot short-term prophylaxis protocol for surgical site infection prevention in immediate two-stage implant breast reconstruction. We retrospectively compared clinical data from two groups of women undergoing immediate two-stage breast reconstruction with tissue expander. Group 1 (n = 391) was administered with long-term prophylaxis, and Group 2 (n = 89) was administered with short-term prophylaxis associated with early drains removal (21 days maximum). We evaluated risk factors for infection, clinical preoperative data, time before drain removal, and clinical feature of the diagnosed infections (early or late onset) and compared the reconstructive outcome between the two groups (infection rate, implant loss rate). We did not find any statistically significant difference in the infection rate (11,51% overall) and implant loss rate (4,49% overall) between the two groups. We found a difference in the implant loss to infection ratio (46.67% in group 1 and 20% in group 2, p < 0,05) and in the time before drain removal (19 days in group 1 and 15 days in group 2, p < 0.001). We finally found an association between prolonged time before drain removal and increased infection rate (p = 0.004). Short-term single-shot perioperative antibiotic prophylaxis associated with early drain removal (within 21 days postop) represents a safe approach in terms of prevention of local infective surgical complication and allows a more effective treatment of the diagnosed SSI. [ABSTRACT FROM AUTHOR]

Published

2021

33. Rapid diagnostics of orthopedic implant-associated infections using Unyvero ITI implant and tissue infection application is not optimal for Staphylococcus species identification

Author

Hege Vangstein Aamot, Bjørn Odd Johnsen, and Inge Skråmm

Subjects

Rapid diagnostics, Implant infection, Staphylococcus aureus, Unyvero ITI, Orthopedic, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objectives This pilot study aimed to compare the commercial Unyvero ITI multiplex PCR application (U-ITI, Curetis GmbH) with conventional culturing concerning (a) detection of pathogens, (b) time to detection of pathogens and (c) time to and quality of antibiotic treatment recommendation in diagnostics of orthopedic implant-associated infections (OIAI). Results 72 tissue biopsies from 15 consecutive patients with deep OIAI infections were analyzed with conventional culturing including phenotypic antibiotic susceptibility testing and the U-ITI. U-ITI showed lower sensitivity than conventional culturing concerning detection of pathogens (73% vs 93%). 4/15 patients would have been given false negative results by U-ITI, all of which were culture-positive for Staphylococcus species. Median time to detection of pathogens was 47 h and antibiotic resistance 89 h by conventional methods compared to 13.5 h with the U-ITI. The U-ITI did not detect antibiotic resistance, whereas conventional culturing showed resistance to antibiotics covered by the U-ITI panel in 2 patients. Time to detection of pathogens was improved, but the detection limit for staphylococci was unsatisfactory. Although the time to antibiotic treatment recommendation was significantly reduced, the U-ITI would have resulted in incorrect antibiotic recommendation in 2 patients. Our data do not support use of this assay in diagnostics.

Published

2019

34. Therapeutic Potential of Vasoactive Intestinal Peptide and its Derivative Stearyl-Norleucine-VIP in Inflammation-Induced Osteolysis

Author

Michal Eger, Tamar Liron, Sahar Hiram-Bab, Zamzam Awida, Eliezer Giladi, David Dangoor, Mati Fridkin, David Kohavi, Illana Gozes, and Yankel Gabet

Subjects

periodontitis, periimplantitis, aseptic implant loosening, implant wear debris, topical agents, implant infection, Therapeutics. Pharmacology, RM1-950

Abstract

The common use of dental and orthopedic implants calls for special attention to the immune response leading to peri-prosthetic bone loss and implant failure. In addition to the well-established microbial etiology for oral implant failure, wear debris and in particular titanium (Ti) particles (TiP) in the implant vicinity are an important trigger of inflammation and activation of bone resorption around oral and orthopedic implants, presenting an unmet medical need. Here, we employed bacterial-derived lipopolysaccharides (LPS) to model infection and TiP to model aseptic inflammation and osteolysis. We assessed inflammation in vitro by measuring IL1β, IL6 and TNFα mRNA expression in primary macrophages, osteoclastogenesis in RANKL-induced bone marrow derived pre-osteoclasts and osteolysis in vivo in a mouse calvarial model. We also assessed the trans-epithelial penetrability and safety of the tested compound in rats. Our results show that a lipophilic super-active derivative of vasoactive intestinal peptide (VIP), namely stearyl-norleucine-VIP (SNV) presented superior anti-inflammatory and anti-osteoclastogenic effects compared to VIP in vitro. In the bacterial infection model (LPS), SNV significantly reduced IL1β expression, while VIP increased IL6 expression. In the aseptic models of osteolysis, SNV showed greater suppression of in vitro osteoclastogenesis than VIP, and significantly inhibited inflammation-induced osteolysis in vivo. We also observed that expression levels of the VIP receptor VPAC-2, but not that of VPAC-1, dramatically decreased during osteoclast differentiation. Importantly, SNV previously shown to have an increased stability compared to VIP, showed here significant trans-epithelial penetration and a clean toxicological profile, presenting a novel drug candidate that could be applied topically to counter both aseptic and infection-related bone destruction.

Published

2021

35. Mechanisms of Bacterial Colonization of Implants and Host Response

Author

Wagner, Christof, Hänsch, G. Maria, COHEN, IRUN, Series editor, Lajtha, Abel, Series editor, Lambris, John, Series editor, Paoletti, Rodolfo, Series editor, and Drago, Lorenzo, editor

Published

2017

36. Surgical Applications of Materials Engineered with Antimicrobial Properties

Author

David P. Perrault, Ayushi Sharma, Jessica F. Kim, Geoffrey C. Gurtner, and Derrick C. Wan

Subjects

implant infection, surgical site infection, implant coating, antifouling, antibacterial coating, nanostructured surface, Technology, Biology (General), QH301-705.5

Abstract

The infection of surgically placed implants is a problem that is both large in magnitude and that broadly affects nearly all surgical specialties. Implant-associated infections deleteriously affect patient quality-of-life and can lead to greater morbidity, mortality, and cost to the health care system. The impact of this problem has prompted extensive pre-clinical and clinical investigation into decreasing implant infection rates. More recently, antimicrobial approaches that modify or treat the implant directly have been of great interest. These approaches include antibacterial implant coatings (antifouling materials, antibiotics, metal ions, and antimicrobial peptides), antibacterial nanostructured implant surfaces, and antibiotic-releasing implants. This review provides a compendium of these approaches and the clinical applications and outcomes. In general, implant-specific modalities for reducing infections have been effective; however, most applications remain in the preclinical or early clinical stages.

Published

2022

37. Extracellular Proteins Isolated from L. acidophilus as an Osteomicrobiological Therapeutic Agent to Reduce Pathogenic Biofilm Formation, Regulate Chronic Inflammation, and Augment Bone Formation In Vitro.

Author

Pugazhendhi AS, Seal A, Hughes M, Kumar U, Kolanthai E, Wei F, Schwartzman JD, and Coathup MJ

Subjects

Humans, Osteogenesis physiology, Lactobacillus acidophilus, Proteomics, Biofilms, Inflammation drug therapy, Methicillin-Resistant Staphylococcus aureus

Abstract

Periprosthetic joint infection (PJI) is a challenging complication that can occur following joint replacement surgery. Efficacious strategies to prevent and treat PJI and its recurrence remain elusive. Commensal bacteria within the gut convey beneficial effects through a defense strategy named "colonization resistance" thereby preventing pathogenic infection along the intestinal surface. This blueprint may be applicable to PJI. The aim is to investigate Lactobacillus acidophilus spp. and their isolated extracellular-derived proteins (LaEPs) on PJI-relevant Staphylococcus aureus, methicillin-resistant S. aureus, and Escherichia coli planktonic growth and biofilm formation in vitro. The effect of LaEPs on cultured macrophages and osteogenic, and adipogenic human bone marrow-derived mesenchymal stem cell differentiation is analyzed. Data show electrostatically-induced probiotic-pathogen species co-aggregation and pathogenic growth inhibition together with LaEP-induced biofilm prevention. LaEPs prime macrophages for enhanced microbial phagocytosis via cathepsin K, reduce lipopolysaccharide-induced DNA damage and receptor activator nuclear factor-kappa B ligand expression, and promote a reparative M2 macrophage morphology under chronic inflammatory conditions. LaEPs also significantly augment bone deposition while abating adipogenesis thus holding promise as a potential multimodal therapeutic strategy. Proteomic analyses highlight high abundance of lysyl endopeptidase, and urocanate reductase. Further, in vivo analyses are warranted to elucidate their role in the prevention and treatment of PJIs., (© 2023 Wiley‐VCH GmbH.)

Published

2024

38. Salvaging the infected breast implant: results of a retrospective series of 80 consecutive cases.

Author

Sarfati, Isabelle, Millochau, Jenny, Meredith, Ineke, Leroy, Olivier, Parra, Raquel VL, Romano, Golda, Nos, Claude, and Clough, Krishna B.

Abstract

Breast implants are widely used in reconstruction after breast cancer. Infection after implant reconstruction is a major complication, with rates ranging from 5 to 30%. This rate is less for pure cosmetic augmentation. Historically, infection of an implant mandated implant removal for sepsis control. An alternative is to attempt to salvage the infected implant. This path can be a long one, requiring surgery for washouts and prolonged antibiotic therapy. This article documents our experience of infected implant salvage over the last 13 years. We conducted a retrospective analysis of all patients who developed a breast implant infection between January 2005 and January 2018. All patients had both clinical signs of infection and a positive bacteriological sample. Patients were divided into two groups: upfront medical therapy (including those requiring secondary surgical salvage) and primary surgery. The salvage procedure was defined as successful when the implant was still in place three months after the initial reconstruction. Eighty patients were included: 77 in the medical group and 3 in the surgical group. Overall, implant salvage was achieved in 88.8% of women (n=71). Of these, 73.8% (n=59) underwent medical treatment alone and 15% (n=12) underwent medical treatment followed by surgical management. The main causative organism was staphylococcus in 81.2%. When the infection was caused by a coagulase-negative staphylococcus, the rate of success was 98% (p<0.003). This case series reports that salvage of an infected breast implant was achievable in up to 90% of women presenting with a documented infection, the majority requiring antibiotic management only. Early intervention is central to success. [ABSTRACT FROM AUTHOR]

Published

2020

39. The impact of thermal cycling on Staphylococcus aureus biofilm growth on stainless steel and titanium orthopaedic plates

Author

Margarete K. Akens, Claudia Chien, Ryan N. Katchky, Hans J. Kreder, Joel Finkelstein, and Cari M. Whyne

Subjects

Implant infection, Biofilm, Thermal cycling, Stainless steel plates, Titanium plates, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Orthopaedic implant infections are difficult to eradicate because bacteria adhering to implant surfaces inhibit the ability of the immune system and antibiotics to combat these infections. Thermal cycling is a temperature modulation process that improves performance and longevity of materials through molecular structural reorientation, thereby increasing surface uniformity. Thermal cycling may change material surface properties that reduce the ability for bacteria to adhere to the surface of orthopaedic implants. This study aims to determine whether thermal cycling of orthopaedic implants can reduce bacterial growth. Methods In a randomized, blinded in-vitro study, titanium and stainless steel plates treated with thermal cycling were compared to controls. Twenty-seven treated and twenty-seven untreated plates were covered with 10 ml tryptic soy broth containing ~ 105 colony forming units (CFU)/ml of bioluminescent Staphylococcus aureus (S. aureus)Xen29 and incubated at 37 °C for 14d. Quantity and viability of bacteria were characterized using bioluminescence imaging, live/dead staining and determination of CFUs. Results Significantly fewer CFUs grow on treated stainless steel plates compared to controls (p = 0.0088). Similar findings were seen in titanium plates (p = 0.0048) following removal of an outlier. No differences were evident in live/dead staining using confocal microscopy, or in metabolic activity determined using bioluminescence imaging (stainless steel plates: p = 0.70; titanium plates: p = 0.26). Conclusion This study shows a reduction in CFUs formation on thermal cycled plates in-vitro. Further in-vivo studies are necessary to investigate the influence of thermal cycling on bacterial adhesion during bone healing. Thermal cycling has demonstrated improved wear and strength, with reductions in fatigue and load to failure. The added ability to reduce bacterial adhesions demonstrates another potential benefit of thermal cycling in orthopaedics, representing an opportunity to reduce complications following fracture fixation or arthroplasty.

Published

2018

40. Risk factors and outcome of patients with periprosthetic joint infection admitted to intensive care unit.

Author

Pöll, Alexandra Margarete, Baecker, Hinnerk, Yilmaz, Emre, Jansen, Oliver, Waydhas, Christian, Schildhauer, Thomas Armin, and Hamsen, Uwe

Subjects

*INTENSIVE care units, *ARTIFICIAL joints, *JOINT infections, *INTENSIVE care patients, *GERIATRIC rehabilitation, *REHABILITATION centers

Abstract

Introduction: Prosthetic joint infection (PJI) is a severe complication after total joint replacement surgery. The current study analyzes the outcome and mortality of patients admitted to an intensive care unit following PJI. Methods: Retrospective analysis of all patients treated between 2012 and 2016 due to PJI in the surgical intensive care unit of a university hospital. Results: A total of 124 patients were included. The mean age was 75 ± 11 years. Of those 124 patients, 85 patients (68.5%) suffered a prosthetic infection of the hip, 33 patients (27.3%) of the knee, six patients (4.8%) of hip and knee. 52 patients were male (40.9%). The assessed mean Simplified Acute Physiology Score II (SAPSII) was 29.6 ± 5.9. The mortality rate was 21% (26/124). Of surviving patients, 53.1% were discharged home, 25.5% were transferred to a nursing home, and 21.4% were transferred to a geriatric rehabilitation center. Comparing survivors to non-survivors, the non-survivor group showed a higher incidence of renal replacement therapy (46.1 vs 3.0%; p < 0.01), higher SAPSII on admission (35.7 vs. 29.0; p = 0.01) and higher Charlson Comorbidity Indices (CCI) (5.5 vs. 2.82; p < 0.01). The multivariate regression identified CCI (odds ratio 1.49; p < 0.01) and renal replacement therapy (odds ratio 12.4; p < 0.01) as independent risk factors for increased mortality. Conclusions: Admission to an intensive care unit was associated with a mortality rate of 21%. Factors associated with poor outcomes included renal replacement therapy, higher admission SAPII scores, and higher admission Charlson comorbidity index. These factors could be used for individual risk assessment on admission to the ICU. [ABSTRACT FROM AUTHOR]

Published

2020

41. Late Infections: Algorithm Approach

Author

Konan, Sujith, Haddad, Fares S., Kendoff, Daniel, editor, Morgan-Jones, Rhidian, editor, and Haddad, Fares S., editor

Published

2016

42. Multifunctional nanocoating for enhanced titanium implant osseointegration.

Author

Li, Kun, Tang, Zhen, Song, Kuangyu, Fischer, Nicholas G., Wang, Huihui, Guan, Yunlin, Deng, Yunyun, Cai, Hao, Hassan, Sammer Ul, Ye, Zhou, and Sang, Ting

Subjects

*NANOCOATINGS, *OSSEOINTEGRATION, *TITANIUM, *ANTIMICROBIAL peptides, *X-ray computed microtomography

Abstract

Preventing bacterial infection and promoting osseointegration are essential for the long-term success of titanium (Ti) implants. In this study, we developed a multifunctional nanocoating on Ti mini-implants to simultaneously address these challenges. The nanocoating consists of self-assembled antimicrobial peptides GL13K and silver nanoparticles, referred to as Ag-GL. Our results showed that the Ag-GL coating did not alter the surface morphology of the mini-implants. Ag-GL coated mini-implants demonstrated a two orders of magnitude reduction in colony-forming unit (CFU) values compared to the noncoated eTi group, resulting in minimal inflammation and no apparent bone destruction in a bacterial infection in vivo model. When evaluating osseointegration properties, micro-CT analysis, histomorphometric analysis, and pull-out tests revealed that the Ag-GL coating significantly enhanced osseointegration and promoted new bone formation in vivo. [Display omitted] • Nanocoating on mini-implants composed of GL13K peptides and silver nanoparticles. • In vivo infection and osseointegration models built on rat femoral condyles. • The nanocoating exhibited a significant reduction in bacteria number on mini-implants. • The nanocoating enhanced osseointegration and promoted new bone formation. [ABSTRACT FROM AUTHOR]

Published

2023

43. Effect of Direct Electrical Current on Bones Infected with Staphylococcus epidermidis

Author

Suzannah M Schmidt‐Malan, Cassandra L Brinkman, Melissa J Karau, Robert A Brown, Brian E Waletzki, Lawrence J Berglund, Audrey N Schuetz, Kerryl E Greenwood‐Quaintance, Jayawant N Mandrekar, and Robin Patel

Subjects

ELECTRICAL CURRENT, BIOFILM, IMPLANT INFECTION, ANTIBIOFILM ACTIVITY, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Abstract

ABSTRACT We are developing electrical approaches to treat biofilm‐associated orthopedic foreign‐body infection. Although we have previously shown that such approaches have antibiofilm activity, the effects on bone have not been assessed. Herein, low‐amperage 200 μA fixed direct current (DC) was compared with no current, in a rat femoral foreign‐body infection model. In the infected group, a platinum implant seeded with S. epidermidis biofilm (105 CFU/cm2), plus 50 μL of a 109 CFU suspension of bacteria, were placed in the femoral medullary cavity of 71 rats. One week later, rats were assigned to one of four groups: infected with no current or DC, or uninfected with no current or DC. After 2 weeks, bones were removed and subjected to histopathology, micro‐computed tomography (μCT), and strength testing. Histopathology showed no inflammation or bony changes/remodeling in the uninfected no current group, and some osteoid formation in the DC group; bones from the infected no current group had evidence of inflammation without bony changes/remodeling; along with inflammation, there was moderate osteoid present in the DC group. μCT showed more cortical bone volume and density, trabecular thickness, and cancellous bone volume in the DC group compared with the no current group, for both uninfected and infected bones (p 0.05). © 2018 The Authors. JBMR Plus Published by Wiley Periodicals, Inc. on behalf of the American Society for Bone and Mineral Research.

Published

2019

44. Penile Prosthesis Salvage: Review of Past and Current Practices.

Author

Barlotta, Ryan, Foote, Christopher, and Simhan, Jay

Abstract

Purpose of Review: This review highlights landmark studies and recent literature regarding penile implant salvage in the setting of infection. We discuss both the historically relevant treatments and newest trends in current practice. Recent Findings: The most recent studies indicate that most penile prosthesis infections can be managed with explantation and washout with immediate implantation of malleable prosthesis. This technique allows for prevention of corporal fibrosis and possible transition to future inflatable penile prosthesis. Summary: While prosthetic infection rates have declined over the years, a 1–3% risk still remains. Originally, prosthetic infections were treated by immediate explantation with consideration for re-implantation months later once the acute period for infection had been managed with broad spectrum antibiotics. However, a landmark study by Mulcahy in 1996 advocated for explantation, antibiotic-based washout, and immediate re-implantation. More recent studies have favored a malleable implant salvage technique (MIST) to preserve penile length. This technique includes explantation, washout, and immediate malleable prosthesis insertion. Further, some researchers are now examining use of temporary intracorporal antibiotic-infused calcium sulfate paste in the setting of implant salvage. [ABSTRACT FROM AUTHOR]

Published

2019

45. Biomaterial surfaces self-defensive against bacteria by contact transfer of antimicrobials.

Author

Liang, Jing, Wang, Hongjun, and Libera, Matthew

Subjects

*BACTERIAL metabolism, *BACTERIAL cells, *MICROGELS, *BACTERIA, *HEALING

Abstract

Abstract Despite extensive engineering of tissue-contacting biomedical devices to control healing, these devices remain susceptible to bacterial colonization, biofilm formation, and chronic infection. The threat of selecting for resistance genes largely precludes sustained antimicrobial elution as a wide-spread clinical solution. In response, self-defensive surfaces have been developed where antimicrobial is released only when and where there is a bacterial challenge. We explore a new self-defensive approach using anionic microgels into which small-molecule cationic antimicrobials are loaded by complexation. We identify conditions where antimicrobial remains sequestered within the microgels for periods as long as weeks. However, bacterial contact triggers release and leads to local bacterial killing. We speculate that the close proximity of bacteria alters the local thermodynamic environment and interferes with the microgel-antimicrobial complexation. The contact-transfer approach does not require bacterial metabolism but instead appears to be driven by differences between the microgels and the bacterial cell envelope where there is a high concentration of negative charge and hydrophobicity. Contact with metabolizing macrophages or osteoblasts is, however, insufficient to trigger antimicrobial release, indicating that contact transfer can be specific to bacteria and suggesting an avenue to biomedical device surfaces that can simultaneously promote healing and resist infection. [ABSTRACT FROM AUTHOR]

Published

2019

46. Nanometric Considerations in Biofilm Formation.

Author

Fernandez-Moure, Joseph S., Mydlowska, Anna, Shin, Crystal, Vella, Michael, and Kaplan, Lewis J.

Subjects

*POROUS materials, *BACTERIAL adhesion, *SURFACE area, *POROSITY, *PROSTHETICS

Abstract

Prosthetic contamination and biofilm formation continue to plague implanted materials. With increasing resistance to traditional antibiotic regimens, alternative approaches to preventing bacterial adhesion and biofilm formation have focused on the physiochemical properties of the prosthetics. Roughness, topography, hydrophobicity, porosity, charge, stiffness, and surface area all influence the processes of adhesion and colonization leading to biofilm formation. In this review, we discuss the physiochemical properties of solid and porous prosthetic materials that influence biofilm formation at the nanometric scale. [ABSTRACT FROM AUTHOR]

Published

2019

47. Microflora Associated With Percutaneous Craniofacial Implants Used for the Retention of Facial Prostheses: A Pilot Study.

Author

Toljanic, Joseph A., Morello, Josephine A., Moran, William J., Panje, William R., and May, Edward F.

Subjects

ARTIFICIAL implants, PROSTHETICS, ENDOSSEOUS dental implants, MAXILLOFACIAL surgery, ORAL surgery, MICROBIOLOGICAL assay

Abstract

Craniofacial implants have been used successfully for the retention of facial prostheses. However, complications occur that can lead to the loss of implant integration. One such complication is infection possibly resulting from crevicular microflora activity. As part of an ongoing study, samples from crevicular sites surrounding 17 craniofacial implants were collected and submitted for microbiological assay. The results demonstrated the presence of opportunistic pathogens in many sites regardless of subjects' hygiene efforts. The significance of the findings is reviewed. [ABSTRACT FROM AUTHOR]

Published

1995

48. CoFe2O4/MXene nanosheets modified hydrogel on PEEK with phototherapeutic and GPx-Mimetic activities for anti-pathogens in infectious bone defect repairment.

Author

Wang, Qiancun, Zang, Chuanmei, Chan, Yau Kei, Wang, Song, Yang, Weizhong, Deng, Yi, Zhu, Tingting, and He, Miaomiao

Subjects

*NANOSTRUCTURED materials, *REACTIVE oxygen species, *BACTERIAL proteins, *ANTIBACTERIAL agents, *PHOTODYNAMIC therapy, *DOPAMINE

Abstract

Polyetheretherketone (PEEK), as a promising alternative for hard tissue implant, still has limitations in anti-pathogens for coping with the clinical challenge. To reverse this situation, CoFe 2 O 4 /MXene nanosheets modified hydrogel was spin-coated on PEEK mediated by polydopamine to endow PEEK with favorable anti-bacterial activity. The modified PEEK implant exhibits the property of photothermal therapy (PTT) for local heat, photodynamic therapy (PDT), and chemodynamic therapy (CDT) for reactive oxygen species (ROS) accumulation to realize robust anti-pathogens. The antibacterial effect can be further enhanced by glutathione (GSH) consumption owing to the glutathione peroxides (GPx)-mimetic activity of CM2. In addition, we investigated the specific effects of the designed materials on bacteria, and the experimental results showed that constructed CM2 can lead to the DNA and protein of bacterial leakage and ATP synthesis decreased, ultimately eliminating more than 99% of bacteria. Furthermore, the sample exhibits favorable blood and cell compatibility with broad prospects in clinical application. Overall, a hydrogel coating-PEEK system with robust antibacterial properties has been manufactured in our work, which can not only exhibit compatibility, but also effectively avoid implant-related infection, which shows great promise for infectious bone defect repairment. • A novel CoFe 2 O 4 /MXene nanosheets modified HA/PEGDA hydrogel coating was prepared by spin-coating method. • The hydrogel coating exhibits multimodal antimicrobial effects with an antibacterial rate of 99%. • The PEEK system exhibits favorable biocompatibility even with NIR excitation. [ABSTRACT FROM AUTHOR]

Published

2023

49. Reducing infection risk in implant-based breast-reconstruction surgery: challenges and solutions

Author

Ooi ASH and Song DH

Subjects

Implant-based breast reconstruction, implant infection, risk reduction, acellular dermal matrix, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Adrian SH Ooi,1,2 David H Song1 1Section of Plastic and Reconstructive Surgery, University of Chicago Medicine and Biological Sciences, Chicago, IL, USA; 2Department of Plastic, Reconstructive, and Aesthetic Surgery, Singapore General Hospital, Singapore Abstract: Implant-based procedures are the most commonly performed method for ­postmastectomy breast reconstruction. While donor-site morbidity is low, these procedures are associated with a higher risk of reconstructive loss. Many of these are related to infection of the implant, which can lead to prolonged antibiotic treatment, undesired additional surgical procedures, and unsatisfactory results. This review combines a summary of the recent literature regarding implant-related breast-reconstruction infections and combines this with a practical approach to the patient and surgery aimed at reducing this risk. Prevention of infection begins with appropriate reconstructive choice based on an assessment and optimization of risk factors. These include patient and disease characteristics, such as smoking, obesity, large breast size, and immediate reconstructive procedures, as well as adjuvant therapy, such as radiotherapy and chemotherapy. For implant-based breast reconstruction, preoperative planning and organization is key to reducing infection. A logical and consistent intraoperative and postoperative surgical protocol, including appropriate antibiotic choice, mastectomy-pocket creation, implant handling, and considered acellular dermal matrix use contribute toward the reduction of breast-implant infections. Keywords: implant infection, risk reduction, acellular dermal matrix

Published

2016

50. A novel and cost-effective method of breast implant-pocket salvage after implant infection – Pilot

Author

Philip Brookes, Iqbal Kasana, Miss. Anitha Muthusami, and Matthew Green

Subjects

Salvage Therapy, medicine.medical_specialty, business.industry, Breast Implants, Cost-Benefit Analysis, Mammaplasty, Implant Infection, Surgery, law.invention, law, Breast implant, Humans, Medicine, business, Breast Implantation, Retrospective Studies

Published

2022