Smart multifunctional sutures for advanced healthcare

Walsh, Tavia

10 September 2020

Recent advances in the miniaturization of biosensors and drug delivery systems have allowed for the continuous and non-invasive monitoring of patient health. While sutures are mainly used for approximating tissues in clinical practice, there has been emerging development of new suture materials for improving wound healing outcomes. We report a novel method of continuous and high-throughput fabrication of multifunctional sutures and threads which allows for control over a wide range of important microstructural and physical properties. In the proposed fabrication method, a thread or suture is spooled across a base collecting plate. The fabrication method involves direct electrospinning (ES) onto the surface of threads and sutures. ES has also been widely used within the area of biomedical and tissue engineering, given its compatibility with a range of synthetic and natural biocompatible polymers. As the thread moves beneath a syringe pump and a spinerette needle that is positively charged, electrospun nanofibers collect on the surface of the thread. The coating layer thickness and the alignment of the nanofibers with the direction of the thread is tuned by varying the spooling speed and the distance between the spinerette needle and the thread. The resulting smart sutures have applications in both passive and on-demand drug release, durable wound biosensing, and improved cell viability and attachment. These structures may be manipulated in different materials (i.e. skin, fabrics, wound dressings) and be combined using textile methods (e.g. braiding, weaving, knitting) to form three dimensional (3D) constructs. / Graduate / 2022-09-10

Electrospinning

Sutures

Biomaterials

Microfabrication

Healing of periodontal flaps following use of MBR 4197 (flucrylate) and silk sutures in rhesus monkeys a histologic evaluation : a thesis submitted in partial fulfillment ... periodontics ... /

Lahiffe, Brian J.

January 1976

Thesis (M.S.)--University of Michigan, 1976.

Healing of periodontal flaps following use of MBR 4197 (flucrylate) and silk sutures in rhesus monkeys a histologic evaluation : a thesis submitted in partial fulfillment ... periodontics ... /

Lahiffe, Brian J.

January 1976

Thesis (M.S.)--University of Michigan, 1976.

Healing of periodontal flaps following use of MBR 4197 (Flucrylate) and silk sutures in rhesus monkeys a biometric and histometric evaluation : a thesis submitted in partial fulfillment ... periodontics ... /

McGraw, Vaughn A.

January 1977

Thesis (M.S.)--University of Michigan, 1977.

A comprehensive screen of genes implicated in craniosynostosis

Johnson, David

January 2000

No description available.

610

Cranial sutures; Premature fusion

Biomechanical Characterization of Complex Thin Bone structures in The Human Craniofacial Skeleton

Maloul, Asmaa

30 August 2012

In spite of burgeoning of new technologies in the field of maxillofacial surgery, such as novel methods for osteosynthesis, bone substitution and bone regeneration, the reconstruction of the craniofacial skeleton (CFS) remains a challenge. Complications and failure in existing technologies and treatments for the CFS may be attributed in part to an incomplete understanding of the biomechanical environment in which these technologies are expected to perform. Characterizing the morphology and biomechanical behaviour of this complex and unique structure is important to understanding its global response to mechanical demands. This thesis aims to characterize the biomechanical behaviour of thin bone regions and sutures in the CFS. We investigated the impact of image degradation in CT scans on the ability to develop accurate specimen-specific FE models. Image degradation resulted in large increases in cortical thickness and decreases in scan intensity, which corresponded to significant changes in maximum principal strains in the FE models. A new semi-automated connectivity technique was developed to quantify the degree of fusion in sutures and revealed varying degrees of connectivity and interdigitation depending on the suture location. Morphological features characterized using this technique were incorporated into idealized suture FE models and analysed under multiple loading directions. The idealized FE models revealed that the impact of the number of interdigitations on the strain energy absorption in the suture/bone complex is dependent on the loading direction (inversely related under pressure and directly related under perpendicular and pressure loading); similar behaviour was seen in a μCT based specimen-specific FE model. Three-point bending tests on bone samples containing sutures revealed a positive correlation between the number of interdigitations and bending strength. Finally, experimental testing of full cadaveric heads demonstrated inter-specimen consistency in strain magnitude and direction under muscle loading in spite of morphological differences. Overall, these findings provide new insight into the complex morphology of the CFS, limitations of current clinical imaging and the biomechanical behaviour of thin bone structures and their articulations. This work forms a solid foundation for future development of image analysis, modeling and experimental investigations focused on characterizing the global behaviour of the CFS.

Craniofacial

Biomechanics

Sutures

CT

0541

Biomechanical Characterization of Complex Thin Bone structures in The Human Craniofacial Skeleton

Maloul, Asmaa

30 August 2012

In spite of burgeoning of new technologies in the field of maxillofacial surgery, such as novel methods for osteosynthesis, bone substitution and bone regeneration, the reconstruction of the craniofacial skeleton (CFS) remains a challenge. Complications and failure in existing technologies and treatments for the CFS may be attributed in part to an incomplete understanding of the biomechanical environment in which these technologies are expected to perform. Characterizing the morphology and biomechanical behaviour of this complex and unique structure is important to understanding its global response to mechanical demands. This thesis aims to characterize the biomechanical behaviour of thin bone regions and sutures in the CFS. We investigated the impact of image degradation in CT scans on the ability to develop accurate specimen-specific FE models. Image degradation resulted in large increases in cortical thickness and decreases in scan intensity, which corresponded to significant changes in maximum principal strains in the FE models. A new semi-automated connectivity technique was developed to quantify the degree of fusion in sutures and revealed varying degrees of connectivity and interdigitation depending on the suture location. Morphological features characterized using this technique were incorporated into idealized suture FE models and analysed under multiple loading directions. The idealized FE models revealed that the impact of the number of interdigitations on the strain energy absorption in the suture/bone complex is dependent on the loading direction (inversely related under pressure and directly related under perpendicular and pressure loading); similar behaviour was seen in a μCT based specimen-specific FE model. Three-point bending tests on bone samples containing sutures revealed a positive correlation between the number of interdigitations and bending strength. Finally, experimental testing of full cadaveric heads demonstrated inter-specimen consistency in strain magnitude and direction under muscle loading in spite of morphological differences. Overall, these findings provide new insight into the complex morphology of the CFS, limitations of current clinical imaging and the biomechanical behaviour of thin bone structures and their articulations. This work forms a solid foundation for future development of image analysis, modeling and experimental investigations focused on characterizing the global behaviour of the CFS.

Craniofacial

Biomechanics

Sutures

CT

0541

A histologic study of cranial and craniofacial sutures and a synchondrosis following rapid palatal expansion in Rhesus monkeys

Farmer, Richard Bartholomew, III

January 1975

No description available.

SUTURES

MONKEYS

PALATAL

bones

sutural

A comparative study of tissue reaction to four different suture materials

Cantu, Juan A

January 2011

Photocopy of typescript. / Digitized by Kansas Correctional Industries

Sutures

Tissue metabolism

Defense reaction (Physiology)

Contribution à l’approche anthropologique et médico-légale des sutures viscérocrâniennes utiles dans l’estimation de l’âge au décès (Sutures palatines, fronto-naso-maxillaires et zygomatiques)

Beauthier, Jean-Pol JP

01 March 2009

Le travail consiste en une approche morphométrique des sutures palatines et des sutures fronto-naso-maxillaires et zygomatiques afin d'estimer l'âge au décès, complémentairement aux sutures ectocrâniennes de voûte et aux autres méthodes intéressant notamment le squelette post-crânien. Une méthodologie d'évaluation d'un coefficient moyen d'oblitération et une méthodologie basée sur des équations de régression linéaire sont proposées.

médecine légale

anthropologie

âge au décès

sutures