Your search keyword '"Stoikes NFN"' showing total 4 results

1. Correction to: Characterization of host response, resorption, and strength properties, and performance in the presence of bacteria for fully absorbable biomaterials for soft tissue repair.

Author

Stoikes NFN, Scott JR, Badhwar A, Deeken CR, and Voeller GR

Published

2024

2. Laparoscopic Heller Myotomy With EGD and Balloon Dilation: A Durable Solution for Achalasia.

Author

Zambetti BR, Murphy WG, Craner D, Wong DL, Pettigrew BD, Webb DL, Voeller GR, and Stoikes NFN

Subjects

Humans, Esophageal Sphincter, Lower surgery, Dilatation methods, Treatment Outcome, Fundoplication methods, Esophageal Achalasia surgery, Esophageal Achalasia diagnosis, Heller Myotomy methods, Gastroesophageal Reflux surgery, Laparoscopy methods

Abstract

Background: Laparoscopic Heller myotomy (LHM) and esophageal balloon dilation (BD) are the two mainstays of achalasia treatment-this study examines the outcomes when they are performed simultaneously without fundoplication., Methods: All patients undergoing LHM&BD were reviewed for demographic and procedural data, and to see if additional procedures for achalasia had been performed. Patients were surveyed using the Eckardt score and the GERD quality-of-life score (GERD-HRQL) to assess the durability of repair., Results: From 2013-2020, 66 patients underwent LHM&BD. There were no esophageal perforations and a median LOS of 1 day. Seven patients have required additional operations or procedures at median 4-years follow up. 31 patients (47%) responded to the survey. The average Eckardt score was 2.9 (goal<4) with mean GERD-HRQL of 14.4 (goal<25)., Conclusions: LHM&BD allows for a safe, durable repair of achalasia. Reflux symptoms are manageable with PPI without fundoplication and the re-intervention rate similar to published values.

Published

2023

3. Contamination of hybrid hernia meshes compared to bioresorbable Phasix™ Mesh in a rabbit subcutaneous implant inoculation model.

Author

Lake SP, Stoikes NFN, Badhwar A, and Deeken CR

Abstract

Background: Hybrid hernia meshes combine biological tissue-derived extracellular matrix with permanent or resorbable synthetic. The objective of this study was to evaluate hybrid meshes (Gore® Synecor, Zenapro™, Ovitex™ 1S Reinforced Bioscaffold Permanent, and Ovitex™ 1S Reinforced Bioscaffold Resorbable) compared to non-hybrid, bioresorbable synthetic mesh (Phasix™ Mesh) in a rabbit bacterial inoculation model., Materials and Methods: Subcutaneous pockets were bilaterally created in male, New Zealand White rabbits (n = 25). Circular meshes (3.8 cm diameter) were implanted and inoculated with 1 × 10 6 colony forming units (CFU) of clinically-isolated methicillin-resistant Staphylococcus aureus (MRSA). A given animal received a single mesh type. Seven days post-inoculation, animals were euthanized and white material and microbial colonization were assessed by abscess scoring and CFU quantification, respectively. Non-parametric Kruskal-Wallis with Dunn's post-hoc tests compared results for different meshes., Results: Phasix™ Mesh and Synecor exhibited significantly lower abscess scores than Zenapro™, Ovitex™ 1S Permanent, and Ovitex™ 1S Resorbable ( p  < 0.05). All pocket swabs for Zenapro™ and Ovitex™ meshes were positive for MRSA (100%), with 20% of Synecor and 0% Phasix™ Mesh. Microbial colonization was significantly lower for Phasix™ Mesh (0 CFU) relative to Zenapro™ (6.73 × 10 7  CFU (median)), Ovitex™ 1S Permanent (7.87 × 10 7  CFU) and Ovitex™ 1S Resorbable (1.45 × 10 8  CFU), and for Synecor (0 CFU) relative to both Ovitex™ meshes. Phasix™ Mesh was the only device with no detectable abscess or microbial colonization., Conclusion: Phasix™ Mesh demonstrated no detectable abscess or microbial colonization at 7-days post-implantation and inoculation, in contrast with four hybrid meshes, which all demonstrated colonization in a rabbit bacterial inoculation model.

Published

2019

4. Characterization of host response, resorption, and strength properties, and performance in the presence of bacteria for fully absorbable biomaterials for soft tissue repair.

Author

Stoikes NFN, Scott JR, Badhwar A, Deeken CR, and Voeller GR

Subjects

Animals, Biocompatible Materials, Host-Pathogen Interactions, Inflammation physiopathology, Male, Models, Animal, Prostheses and Implants microbiology, Prosthesis Failure, Prosthesis-Related Infections microbiology, Rabbits, Rats, Rats, Sprague-Dawley, Materials Testing methods, Methicillin-Resistant Staphylococcus aureus pathogenicity, Prosthesis-Related Infections physiopathology, Soft Tissue Injuries surgery, Staphylococcal Infections physiopathology, Surgical Mesh microbiology

Abstract

Purpose: The objective was to evaluate the host response, resorption, and strength properties, and to assess the performance in the presence of bacteria for Phasix™ Mesh (Phasix™) and Gore ® Bio-A ® Tissue Reinforcement (Bio-A ® ) in preclinical models., Methods: In a rat model, one mesh (2 × 2 cm) was implanted subcutaneously in n = 60 rats. Animals were euthanized after 2, 4, 8, 12, 16, or 24 weeks (n = 5/mesh/time point), and implant sites were assessed for host inflammatory response and overall fibrotic repair thickness. In a rabbit model, meshes (3.8 cm diameter) were bilaterally implanted in subcutaneous pockets in n = 20 rabbits (n = 10 rabbits/mesh) and inoculated with 10 8  CFU clinically isolated methicillin-resistant Staphylococcus aureus (MRSA). One mesh type was implanted per animal. Animals were euthanized after 7 days, and implants were assessed for abscess formation, bacterial colonization, and mechanical strength., Results: In the rat study, Phasix™ and Bio-A ® exhibited similar biocompatibility, although Bio-A ® demonstrated a significantly greater inflammatory response at 4 weeks compared to Phasix™ (p < 0.01). Morphometric analysis demonstrated rapid resorption of Bio-A ® implants with initially thicker repair sites at 2, 4, 8, and 12 weeks (p < 0.0001), which transitioned to significantly thinner sites compared to Phasix™ at 16 and 24 weeks (p < 0.0001). In the rabbit bacterial inoculation study, Phasix™ exhibited significantly lower abscess score (p < 0.001) and bacterial colonization (p < 0.01), with significantly greater mechanical strength than Bio-A ® (p < 0.001)., Conclusions: Host response, resorption, repair thickness, strength, and bacterial colonization suggest a more stable and favorable outcome for monofilament, macroporous devices such as Phasix™ relative to multifilament, microporous devices such as Bio-A ® over time.

Published

2017