Skip to Content Skip to Search Skip to Navigation Skip to Sub Navigation
Skip to main content

Department of Biomaterials

Research Areas 

research areas


 

John T. McDevitt

  • BioMEMS and Medical Microdevices
  • Early Disease Detection
  • Mobile Health
  • Artificial intelligence applied to clinical testing
  • Biosensors tailored for various health conditions:
    • Cardiac heart disease
    • Oral cancer
    • Ovarian cancer
    • Prostate cancer
    • Trauma
    • Drugs of abuse
    • Therapeutic drug monitoring
    • Salivary diagnostics

Directory and Research Group

Visit John's faculty directory page and the McDevitt Research Group to learn more.

 

 

 

Tim Bromage

  • Mineralized tissue biology of modern and fossil bone and teeth
  • Mammalian life history, usingtime-resolved incremental structures
  • Comparative bone and skeletal development relevant to environmental reconstruction
  • Craniofacial growth and development
  • Human paleontology and biological anthropology
  • Light and scanning electron microscopy, digital image processing
  • Metabolomics and chronobiology
  • Ecological stoichiometry in metabolic ecology research
  • Fieldwork on African Plio-Pleistocene deposits, and Mediterranean and European Pleistocene localities

Directory and Research Group

Visit Tim's faculty directory page to learn more and the Bromage Research Update.

 

Dindo Mijares

  • Biomaterials for Osteoporosis therapy, prevention and bone repair
  • Effects of synthetic bone mineral on alveolar bone in rat model
  • Mineralization of polymer scaffolds
  • Mineralizing and antibacterial coatings on enamel and dentin surfaces
  • Bioactive coatings on Ti alloy discs
  • Gutta percha obturation of lateral canals using cold lateral, warm vertical and gutta core technique.
  • Water- Expandable Endodontic Obturation Point: A comparative study of the Quality of two Root Canal Obturation Materials Using Micro-Computed Tomography

Directory

Visit Dindo's faculty directory page to learn more.

Paulo Coelho

  • Regeneration of long-bone segmental defects through 3D printing and purinegic stimulators
  • Evaluation of Biomaterials in Systemically Compromised Preclinical Models
  • Biomechanical Mapping of Functionally Graded Structures
  • Clinical, Histologic, and Biomechanical Assessment of Endoesteal Implants in Bone for Craniofacial and Orthopedic Applications
  • Clinical, Histologic, and Biomechanical Assessment of Endoesteal Implants in Bone for Craniofacial and Orthopedic Applications
  • Clinical, Histologic, and Biomechanical Assessment of Grafting Materials for Craniofacial and Orthopedic Applications
  • Macro, Micro, and Nanomechanical Assessment of Tissues
  • Biomechanical Assessment of Dental Restorative Materials
  • Biomechanical Assessment of Implantable Devices
  • Computer Simulation of Complex Biomechanical Systems
  • High-Strain Rate Testing of Tissues

Directory and Research Group

Visit Paulo's faculty directory page to learn more and the Coelho Research Update.

 

 

Yu Zhang

  • Development of functionally graded materials for damage resistance, aesthetics, and bioactivities
  • Bio-inspired functionally graded interface design of laminated structures
  • Fatigue behavior of functionally graded ceramics
  • Fractographic analysis of clinically retrieved dental prostheses
  • Mouth-motion fatigue simulation of full-contour restorations
  • Damage initiation and propagation in dental restorations
  • Mechanical reliability and lifetime prediction for biomechanical structures
  • Development of multifunctional calcium phosphate-based bioglass
  • Effects of MZF-CaP compounds on bone properties

Directory

Visit Yu's faculty directory page to learn more.

 

Jack Ricci

  • Testing and development of advanced microtextured surfaces for enhancement of soft and hard tissue integration of dental and other types of implants
  • Regeneration of craniofacial defects through use of 3D printed scaffolds in combination with bioactive molecules
  • Research in the relationship between composition and lattice parameters of 3D printed scaffolds and quality and quantity of regenerated bone and rates of remodeling
  • Histologic and micro-computed tomography analysis of different types of bone graft substitute materials using animal models
  • In vitro cellular response to implant surfaces and bone regeneration scaffolds using molecular markers and genetic analysis

Directory

Visit Jack's faculty directory page to learn more.

Gallery: May 2018



Gallery: December 2017



Gallery: June 2017


 

 

home
Alumni
mission
people
graduate programs
teaching
research areas
facilities
openings
contact