Your search keyword '"Fisher MB"' showing total 7 results

1. Elucidating the combinatorial effect of substrate stiffness and surface viscoelasticity on cellular phenotype.

Author

Chester D, Lee V, Wagner P, Nordberg M, Fisher MB, and Brown AC

Subjects

Biocompatible Materials chemistry, Phenotype, Viscosity, Hydrogels chemistry, Hydrogels pharmacology, Mechanotransduction, Cellular physiology

Abstract

Cells maintain tensional homeostasis by monitoring the mechanics of their microenvironment. In order to understand this mechanotransduction phenomenon, hydrogel materials have been developed with either controllable linear elastic or viscoelastic properties. Native biological tissues, and biomaterials used for medical purposes, often have complex mechanical properties. However, due to the difficulty in completely decoupling the elastic and viscous components of hydrogel materials, the effect of complex composite materials on cellular responses has largely gone unreported. Here, we characterize a novel composite hydrogel system capable of decoupling and individually controlling both the bulk stiffness and surface viscoelasticity of the material by combining polyacrylamide (PA) gels with microgel thin films. By taking advantage of the high degree of control over stiffness offered by PA gels and viscoelasticity, in terms of surface loss tangent, of microgel thin films, it is possible to study the influence that bulk substrate stiffness and surface loss tangent have on complex fibroblast responses, including cellular and nuclear morphology and gene expression. This material system provides a facile method for investigating cellular responses to complex material mechanics with great precision and allows for a greater understanding of cellular mechanotransduction mechanisms than previously possible through current model material platforms., (© 2022 The Authors. Journal of Biomedical Materials Research Part A published by Wiley Periodicals LLC.)

Published

2022

2. Ex vivo evaluation of novel core tenorrhaphy patterns in dogs.

Author

Chiu KW, Duffy DJ, Chang YJ, Gaffney L, and Fisher MB

Subjects

Animals, Biomechanical Phenomena, Cadaver, Dogs, Random Allocation, Suture Techniques veterinary, Sutures veterinary, Tensile Strength, Dog Diseases, Tendon Injuries surgery, Tendon Injuries veterinary

Abstract

Objective: To compare the biomechanical properties and gapping characteristics of four novel tenorrhaphy patterns in a canine flexor tendon model., Study Design: Ex vivo, randomized, biomechanical study., Sample Population: Superficial digital flexor tendons of 60 forelimbs (30 dogs)., Methods: Each tendon was transected 25 mm distal to its musculotendinous junction prior to tenorrhaphy with 2-0 polypropylene. Repair patterns included the three-loop pulley (3LP, control), exposed double-cross-lock (ExDCrL), embedded double-cross-lock (EmDCrL), triple-circle-lock (TCiL), and Modified-Tang patterns (MTang) were randomly assigned to each experimental group (n = 12/group). Yield, peak, and failure loads, gap formation and failure modes were compared., Results: Tendons repaired with ExDCrL (p < .0001), EmDCrL (p < .0001), and MTang (p < .0001) sustained yield, peak, and failure loads ~2.2x, ~2.0x, and ~1.9x, respectively, greater than those repaired with 3LP. Loads to 1 and 3 mm gapping were also higher for ExDCrL (p < .0001), EmDCrL (p < .0004), and MTang constructs (p < .0017) compared to 3LP. Although TCiL constructs sustained higher loads, their resistance to gap formation did not differ from that of 3LP repairs. Failure mode differed between groups (p < .0001), EmDCrL, ExDCrL, MTang, and TCiL constructs failing predominantly by suture breakage compared to 3LP repairs that failed by suture pull-through., Conclusion: Use of novel patterns ExDCrL, EmDCrL, and MTang improved resistance to loads and gap formation and were biomechanically superior compared to 3LP in healthy canine tendon repairs., Clinical Significance: These results justify in vivo evaluation of ExDCrL, EmDCrL, or MTang pattern for tenorrhaphy in dogs., (© 2021 American College of Veterinary Surgeons.)

Published

2021

3. Biomechanical analysis of accessory tendon graft augmentation for primary gastrocnemius tendon reconstruction in dogs.

Author

Duffy DJ, Chang YJ, Fisher MB, and Moore GE

Subjects

Animals, Biomechanical Phenomena, Cadaver, Dogs, Hindlimb, Muscle, Skeletal surgery, Orthopedic Procedures veterinary, Suture Techniques veterinary, Sutures veterinary, Tendon Injuries surgery, Tendons surgery, Tensile Strength, Transplantation, Autologous veterinary, Dog Diseases surgery, Plastic Surgery Procedures veterinary, Tendon Injuries veterinary

Abstract

Objective: To evaluate the effect of accessory tendon graft (ATG) augmentation as an adjunct to a core locking-loop (LL) and epitendinous suture (ES) repair in a gastrocnemius tendon (GT) model., Study Design: Randomized, ex vivo, biomechanical., Population: Twenty-two canine GT musculotendinous constructs., Methods: GT repair constructs were randomly divided into two groups (n = 10/group). After transection, paired GT were repaired with LL + ES alone or with concurrent ATG augmentation. Yield, peak and failure loads, tensile loads required to create 1 and 3 mm gapping, and failure modes were evaluated. Four GT were used as intact controls for validation of testing methodology. ATG constructs were compared to LL + ES and control specimens., Results: Yield (p < .0001), peak (p = .0001) and failure loads (p = .0003) were greater when ATG was used for repair. Greater force was required to cause 1 mm (p = .0001) and 3 mm (p = .0002) gap formation in the ATG group, however, the frequency of gap formation did not differ between groups. All repaired constructs failed exclusively by suture pull-through., Conclusion: Autologous ATG augmentation as an adjunct to primary GT repair increased yield, peak and failure forces by approximately 1.6×, 1.9×, 1.8× respectively and required 2.1× greater force to cause 1 and 3 mm formation respectively compared to LL + ES repairs alone., Clinical Significance: ATG augmentation should be considered as an autologous method to support and strengthen the primary GT repair. These results justify studies to determine the effect of ATG on clinical function following graft harvest in dogs., (© 2021 American College of Veterinary Surgeons.)

Published

2021

4. Biomechanical evaluation of a novel barbed suture pattern with epitendinous suture augmentation in a canine flexor tendon model.

Author

Duffy DJ, Chang YJ, Fisher MB, and Moore GE

Subjects

Animals, Biomechanical Phenomena, Cadaver, Dogs, Forelimb, Plastic Surgery Procedures veterinary, Sutures, Tendon Injuries surgery, Tenotomy veterinary, Tensile Strength, Dog Diseases surgery, Suture Techniques veterinary, Tendon Injuries veterinary, Tendons surgery

Abstract

Objective: To determine the effect of a novel barbed suture pattern (NBSP) compared to a three-loop-pulley (3LP) with and without epitendinous suture (ES) augmentation on the biomechanical strength and gap formation of repaired canine tendons., Study Design: Ex vivo, cadaveric, randomized, experimental study., Sample Population: Forty, adult superficial digital flexor tendons (SDFT)., Methods: SDFT were randomly assigned to one of four groups (n = 10/group). Sharp tenotomy was performed and repaired with 3LP, NBSP, 3LP + ES, and NBSP + ES. Constructs were tested to failure while evaluating yield, peak, and failure loads, loads at 1 and 3 mm gap formation, and failure mode., Results: Constructs augmented with ES sustained 80% greater yield (p < .001), peak (p < .001), and failure (p < .001) loads, with no difference between 3LP + ES and NBSP + ES constructs regarding peak (p = .614), and failure forces (p = .865). Loads resulting in 1 and 3 mm gap formation were greater when constructs were augmented with an ES (p ≤ .003). Failure mode differed between groups (p < .001), occurring predominantly due to suture pull-through in 3LP and NBSP groups compared to tissue failure distant to the repair site in ES augmented constructs., Conclusion: Tendons repaired with the NBSP used in this study resisted similar forces as those repaired with 3LP. Augmentation with an ES improved the biomechanical properties of repaired constructs, including resistance to gap formation., Clinical Relevance: The NBSP repair tested here may be advantageous over monofilament suture repair as it uses a similar-sized barbed core suture but eliminates the requirement for knot tying., (© 2021 American College of Veterinary Surgeons.)

Published

2021

5. Biomechanical evaluation of an autologous flexor digitorum lateralis graft to augment the surgical repair of gastrocnemius tendon laceration in a canine ex vivo model.

Author

Duffy DJ, Curcillo CP, Chang YJ, Gaffney L, Fisher MB, and Moore GE

Subjects

Animals, Biomechanical Phenomena, Cadaver, Dogs surgery, Lacerations surgery, Tendon Injuries surgery, Autografts physiology, Dogs injuries, Lacerations veterinary, Muscle, Skeletal surgery, Tendon Injuries veterinary, Tendons transplantation, Transplantation, Autologous veterinary

Abstract

Objective: To evaluate the effect of an autologous flexor digitorum lateralis (FDL) graft to augment a three-loop pulley (3LP) core repair in a canine cadaveric gastrocnemius tendon (GT) laceration model., Study Design: Ex vivo, biomechanical study., Sample Population: Twenty-six canine cadaveric hind limbs., Methods: Tendons were divided into two groups (n = 13). After sharp transection, paired GT were repaired with 3LP or 3LP + FDL tendon augmentation. Yield, peak and failure loads, tensile loads required to create 1 and 3-mm gapping, and failure modes were analyzed. Significance was set at P < .05., Results: Yield and failure force (mean ± SD) for 3LP + FDL were 134.9 ± 44.1 N and 205.4 ± 46.4 N, respectively, which were greater than for 3LP alone (67.9 ± 12.2 N and 91.8 ± 9.9 N, respectively, P < .0001). No constructs (0%) formed 1 or 3-mm gaps in the 3LP + FDL graft group compared with 84% and 39% for 3LP, respectively (P < .0001). Failure modes were different between groups (P < .001), with 85% of 3LP + FDL constructs failing by tissue rupture at the myotendinous junction, distant to the repair site., Conclusion: Addition of an autologous FDL graft to a core 3LP tendon repair increased yield, peak, and failure forces by twofold, 2.3-fold, and 2.2-fold, respectively, compared with core 3LP alone while preventing the occurrence of gap formation., Clinical Significance: Use of FDL tendon augmentation for GT laceration may increase repair site strength and resist gap formation better than 3LP core suture use alone. Additional studies are required in vivo to determine the effect of FDL graft augmentation on clinical function., (© 2020 The American College of Veterinary Surgeons.)

Published

2020

6. Effect of partial vs complete circumferential epitendinous suture placement on the biomechanical properties and gap formation of canine cadaveric tendons.

Author

Duffy DJ, Chang YJ, Fisher MB, and Moore GE

Subjects

Animals, Biomechanical Phenomena, Cadaver, Dogs injuries, Tendon Injuries surgery, Tensile Strength, Dogs surgery, Plastic Surgery Procedures veterinary, Suture Techniques veterinary, Sutures veterinary, Tendon Injuries veterinary, Tendons surgery

Abstract

Objective: To determine the effect of partial vs complete circumferential epitendinous suture (ES) placement in addition to a core suture on the biomechanical strength and gapping characteristics of repaired canine tendinous constructs., Study Design: Ex vivo, biomechanical study., Sample Population: Thirty-six canine superficial digital flexor tendons., Methods: Superficial digital flexor tendons were randomly assigned to three groups (n = 12), sharply transected and repaired with a core locking-loop suture with Group 1 a partial circumferential ES, 180° on the palmar side; Group 2 a complete circumferential ES, 360° and double knotting technique; or Group 3 a complete circumferential ES, 360° and single knotting technique. After preloading, constructs were distracted to monotonic failure. Failure mode, gap formation, yield, peak, and failure forces were analyzed., Results: Mean yield (group 1 = 68.6 N, group 2 = 106.5 N, group 3 = 114 N, P < .013), peak (group 1 = 92.8 N, group 2 = 134.6 N, group 3 = 147.3 N; P < .001), and failure (group 1 = 88.7 N, group 2 = 133.0 N, group 3 = 145.5 N, P < .001) loads differed between groups. No difference in yield (P = .874), peak (P = .434), or failure load (P = .434) was detected between complete circumferential ES groups. Force to create 1-mm (P < .001) and 3-mm (P < .038) gap formation was greater in specimens with complete vs partial circumferential ES placement. Complete circumferential ES repairs failed primarily by suture pull-through compared with suture breakage in most partial circumferential ES constructs., Conclusion: Addition of a complete circumferential ES with a single or double knotting technique increased the biomechanical strength of normal tendon repairs while reducing gap formation compared with partial ES placement alone., Clinical Significance: Complete circumferential ES is recommended over partial ES placement., (© 2020 American College of Veterinary Surgeons.)

Published

2020

7. Influence of barbed epitendinous sutures combined with a core locking-loop suture to repair experimental flexor tendon lacerations.

Author

Eby AC, Duffy DJ, Chang YJ, Gaffney L, Fisher MB, and Moore GE

Subjects

Animals, Cadaver, Dogs injuries, Lacerations surgery, Plastic Surgery Procedures veterinary, Tendon Injuries surgery, Tensile Strength, Dogs surgery, Lacerations veterinary, Suture Techniques veterinary, Sutures veterinary, Tendon Injuries veterinary, Tendons surgery

Abstract

Objective: To determine the influence of barbed epitendinous sutures (ES) on the biomechanical properties and gap formation of repaired canine tendons., Study Design: Ex vivo, experimental study., Sample Population: Eighty (n = 16/group) canine superficial digital flexor tendons (SDFT)., Methods: After transection, SDFT were repaired with a locking-loop (LL) pattern alone (group 1), an LL + smooth ES with monofilament suture (group 2), an LL + V-loc-ES (group 3), an LL + Quill-ES (group 4), or an LL + Stratafix-ES (group 5). All core LL repairs were performed with 0 USP polypropylene, and all ES were placed with 2-0 USP equivalent. Constructs were preloaded and tested to failure. Yield, peak, and failure loads; occurrence of gap formation; and failure modes were compared., Results: Yield loads were greater for groups 2 and 5 (P < .0001). Peak and failure loads were greater when an ES was used (P < .005), especially for groups 2 and 5 (P < .0001). Groups with an ES required higher loads to generate 1- and 3-mm gaps compared with specimens without an ES (P < .002). Force to create 1- and 3-mm gaps was greater for group 5 (P < .0001) and groups 2 and 5 (P < .0001), respectively. Failure mechanism did not differ (P = .092) between ES groups, consisting of suture breakage in 51 of 64 constructs compared with pull-through in seven of 16 group 1 constructs., Conclusion: Epitendinous suture placement improved the biomechanical properties of repaired tendons. Stratafix barbed suture performed better as an ES compared with other barbed sutures and similarly to monofilament suture., Clinical Significance: Stratafix barbed suture eliminates the requirement for knot tying and seems to be equivalent to smooth monofilament suture when used as an ES in this pattern., (© 2020 American College of Veterinary Surgeons.)

Published

2020