Browsing by Author "Garner, John"

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    Mucosal Perfusion Preservation by a Novel Shapeable Tissue Expander for Oral Reconstruction
    (Wolters Kluwer, 2017-08-28) Barwinska, Daria; Garner, John; Davidson, Darrell D.; Cook, Todd G.; Eckert, George J.; Tholpady, Sunil S.; March, Keith L.; Park, Kinam; Barco, Clark T.; Cellular and Integrative Physiology, School of Medicine
    Background: There are few methods for expanding oral mucosa, and these often cause complications such as tissue necrosis and expander eruption. This study examines mucosal blood perfusion following insertion of a novel shapeable hydrogel tissue expander (HTE). The canine model used subgingival insertion of HTE following tooth extraction and alveolar bone reduction. The primary goal of this study was to gain understanding of epithelial perfusion and reparative responses of gingival mucosa during HTE expansion. Methods: Nine Beagle dogs underwent bilateral premolar maxillary and mandibular tooth extraction. Three to four months later, HTE-contoured inserts were implanted submucosally under the buccal surface of the alveolar ridge. After removal and following a 6- to 7-month period of healing, new HTE implants were inserted at the same sites. The area was assessed weekly for tissue perfusion and volume of expansion. Biopsies for histological analysis were performed at the time of expander removal. Results: Within 2 weeks following the second insertion, blood flow returned to baseline (defined as the values of perfusion measurements at the presurgery assessment) and remained normal until hydrogel full expansion and removal. Volume expansion analysis revealed that the hydrogel doubled in volume. Histological assessment showed no macrophage or inflammatory infiltration of the mucosa. No superficial fibrosis, decreased vascularity, or mucosal change was seen. Conclusion: Maintenance of adequate tissue perfusion is a clinically important aspect of tissue expander performance to reduce risk of device loss or injury to the patient, particularly for areas with a history of previous surgeries.
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    Reshapable polymeric hydrogel for controlled soft-tissue expansion: In vitro and in vivo evaluation
    (Elsevier, 2017-09) Garner, John; Davidson, Darrel; Eckert, George J.; Barco, Clark T.; Park, Haesun; Park; Department of Pathology and Laboratory Medicine, School of Medicine
    Tissue expansion is the process by which extra skin is generated using a device that applies pressure from underneath the skin. Over the course of weeks to months, stretching by this pressure creates a flap of extra tissue that can be used to cover a defect area or enclose a permanent implant. Conventional tissue expanders require a silicone shell inflated either by external injections of saline solution or air, or by internal osmotic pressure generated by a hydrophilic polymer. In this study, a shell-free tissue expander comprised only of a chemically cross-linked biocompatible polymeric hydrogel is developed. The cross-linked network of hydrophilic polymer provides for intrinsically controlled swelling in the absence of an external membrane. The new type of hydrogel expanders were characterized in vitro as well as in vivo using a rat-skin animal model. It was found that increasing the hydrophobic polyester content in the hydrogel reduced the swelling velocity to a rate and volume that eliminate the danger of premature swelling rupturing the sutured area. Additionally, increasing the crosslinking density resulted in enough mechanical strength of the hydrogel to allow for complete post-swelling removal, without the hydrogel cracking or crumbling. No systemic toxicity was noted with the expanders and histology showed the material to be highly biocompatible. These expanders have an advantage of tissue expansion without requiring an external silicone membrane, and thus, they can be cut or reshaped at the time of implantation for applications in small or physically constrained regions of the body.
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    Reshapeable hydrogel tissue expander for ridge augmentation: Results of a series of successive insertions at the same intraoral site
    (Wiley, 2019) Garner, John; Davidson, Darrell D.; Barwinska, Daria; Eckert, George J.; Tholpady, Sunil S.; Park, Kinam; Barco, Clark T.; Pathology and Laboratory Medicine, School of Medicine
    Background Tissue expansion of oral mucosa prior to ridge augmentation promises to reduce the soft tissue exposure and improve the final intraoral bone graft density and volume. This study explored a novel, shapeable hydrogel tissue expander (HTE) in intraoral sites that had undergone previous expansion and surgery. Methods Nine beagle dogs had all premolar teeth extracted with alveolar bone reduction. At least 3 months healing followed before placing the hydrogels at 4 sites for each dog: maxilla and mandible, right and left. After 6 weeks of expansion, the expanded hydrogels were removed and measured for volume expansion and hydrogel condition. Punch biopsies were taken of the expanded oral mucosa. After healing of 3 months a second insertion of hydrogels was done at the same sites. Again, volume and hydrogel condition were recorded. Three dogs received ultrasound imaging of the expanding hydrogels upon the second insertion. Necropsy specimens were taken of both expanded and non‐expanded oral mucosa. Results Blood flow returned to that observed before insertion within two weeks after HTE insertion in both first and second insertions. First insertion resulted in linear gain of 8.13 mm, and second insertion showed a linear gain of 6.44 mm of oral mucosa. First and second insertion erupted at approximately 3% and 4% of the sites, respectively. There was no directional migration of the expanding hydrogels. Histology indicated little inflammatory reaction to any hydrogel implant. Conclusion Oral mucosa can be consistently and successfully expanded prior to bone graft for ridge augmentation even at sites with a history of prior surgeries.