Faculty Interest Areas

Shawn S. Adibi's research consists of biomedical studies including devices to solve diagnostic challenges and treatment options for Temporomandibular Disorders (TMD), Orofacial Pain and Nocturnal Bruxism (night time grinding of teeth).

Brett T. Chiquet's research focuses on studying the genetics of craniofacial development, with emphasis on cleft lip and palate. He has shown that the CRISPLD2 gene has been shown to be associated with nonsyndromic cleft lip and palate and critical for normal palate and jaw formation in zebrafish. Pathway analysis is underway testing for association with differentially regulated genes in the presence or absence of CRISPLD2 in zebrafish. Additionally, his lab is looking at a known pathway of development, the β-catenin mediated WNT pathway, to determine if these genes are involved in clefting etiology. Other ongoing projects include (1) studying genetic modifiers of cleft lip and palate phenotype, (2) evaluating the microbiome of patients born with cleft lip and palate, (3) analyzing dental materials used in presurgical appliance therapy for children born with cleft lip and palate, and (4) minimizing exposure of general anesthesia for children undergoing dental rehabilitation under general anesthesia.

Walid Fakhouri's research interests focus on identifying epigenetic and genetic factors that cause and contribute to increase the risk of craniofacial disorders including cleft lip and palate, craniosynostosis and micrognathia. His lab uses mouse models and organ cultures to delineate the molecular mechanism of a novel genetic interaction between two transcription factors, IRF6 and TWIST1, that plays a critical role in regulating the epithelial-mesenchymal interaction during oral, facial and skull development. Using biochemical and genetic approaches, his lab investigates how mutations in TWIST1 phospho-sites disrupt formation of craniofacial tissues derived from mesenchymal cells. Integration of experimental data and bioinformatics for developing computational models are also utilized in Fakhouri’s lab to identify etiologic non-coding DNA variants associated with cancer diseases including head and neck squamous carcinoma. The overall goal of his lab research is to translate their bench findings into the clinic to improve risk assessment and pave the way to personalized medicine.

Jacqueline T. Hecht's has two research focuses. Genes contributing to nonsyndromic cleft lip and palate are identified using next generation sequencing in a family-based approach, and then functionally tested in zebrafish. This approach has successfully identified genes that are now being modeled in mice. In our cartilage biology studies, a DOX-inducible mouse (MT-COMP) with the common COMP mutation was used to delineate the chondrocyte-specific mechanisms causing the dwarfing condition, pseudoachondroplasia. We have successfully tested different treatments in the MT-COMP mouse, which partially rescued the short limb phenotype.

F. Kurtis Kasper's research applies fundamentals of engineering, materials science, and the biosciences toward the development and evaluation of biomaterial-based technologies to meet clinical needs. Current research interests include the application of engineered culture conditions for the development of bioactive constructs for craniofacial and orthopedic tissue regeneration. Additional research focuses on applications of 3D printing and digital technologies in dentistry.

Noriaki Ono's research focuses on the fundamental biology of skeletal stem cells, with a further scope on understanding pathophysiology of dental, craniofacial and skeletal deformities and diseases that affect millions of children and adults.

Mark E. Wong's has two major research interests. Within the AFIRM consortium, his project focuses on the management of severe maxillofacial injuries through a series of therapeutic interventions. First, preservation of skeletal space is accomplished with a drug-eluting methylmethacrylate polymer. This is followed by the generation of customized vascularized bone grafts formed in a distant site and subsequently transferred into the traumatic defect. His second research focus involves the characterization of TMJ disease and the regeneration of the disc and condyle using tissue engineering principles.

Muhammad F. Walji's research interests are focused on using informatics approaches to improve the safety and quality of oral healthcare, with a particular focus on electronic health records. He currently serves as a Principal Investigator of two NIH/NIDCR funded studies 1) “Developing a Patient Safety System for Dentistry” and 2) Implementing Dental Quality Measures in Practice. He also serves as a PI on an AHRQ funded study titled “Measuring Occurrence of and Disparities in Dental Clinic Adverse Events”. He has provided informatics expertise in the development and maintenance of the Dental Diagnostic System (DDS) which serves as a collection of specific dental terms that is designed for the purposes of dental diagnosis documentation. He also leads a multi-institutional team that has developed the BigMouth Dental Data Repository, which currently contains data on over 2 million patients derived from EHRs from 6 dental institutions.

Shawn S. Adibi's research includes studies of policies with integration of care. Understanding of the oral and systemic disorders including Orofacial Pain condition connections by means of radiographic images, salivary components and the new and innovative technologies in clinical research.

Alan L. Myers' is interested in gathering more scientific data on the consumption of addictive and carcinogenic areca nut preparations (e.g. betel quid, supari, paan, gutka) in the Houston metropolis. Specifically his research employs a mystery shopper study design to better understand the availability, buying experience, package labeling, costs, and marketing information of these oral toxins. Furthermore, Dr. Myers’ research aims to characterize the chemical diversity of these areca nut products.

Ana C. Candia Solari Neumann's research interest is on the improvement of oral health at a population level. She currently serves as Co-Investigator on two funded NIH/NIDCR projects: a) “CATCH Healthy Smiles: Planning and feasibility of an elementary school-based child oral health RCT” in collaboration with the School of Public Health and the CATCH study team (PI: S. Sharma) and b) “Implementing Dental Quality Measures in Practice” (PI: M. Walji). She is also actively involved in the various applications of Caries Management by Risk Assessment (CAMBRA) and interprofessional initiatives.

Chun-Teh Lee's research interests focus on understanding inflammation resolution and host-microbiome interactions in periodontitis. Specialized pro-resolving lipid mediators (SPMs), including lipoxins, resolvins, protectins, and maresins, induce resolution of inflammation in inflammatory diseases. Treatment of experimental periodontitis with SPMs results in disease reversal and periodontal regeneration. Currently, his research project aims to determine the clinical SPM profile and associated microbiota in periodontitis.

Yahuan Lou's research related to roles of immune cells and molecules in autoimmune diseases and tissue aging. His group developed a unique rat model and discovered a novel immune cell called antigen-presenting NK cell. They are current examining how this novel cell controls autoimmune disease. His team is also examining how immune molecules such as cytokines regulate physiological process such as aging and tissue remodeling. They have identified a cytokine interleukin33 to be critical in rejuvenation of aged neurons in brains in a special mouse model; deficiency of this molecule causes neurodegeneration in the old animals. Currently, they are investigating whether interleukin33 deficiency is a causes of human elderly dementias such as Alzheimer’s disease.

Mary C. Cindy Farach-Carson's research relates to the role of extracellular matrix in progression of cancer following metastasis from primary sites, such as prostate or oral cavity, to bone. Primary tumors are slow growing and are not life-threatening until they form tumors in bone. Factors sequestered in bone matrix provide a rich environment to promote growth of invading cancer cells. Many factors are bound to proteoglycans, including perlecan/HSPG2, that contain heparan sulfate that regulate their bioactivity. We seek to identify factors responsible for cancer growth and progression with the long term aim of developing "molecular drugs" to combat cancer metastasis.

Alan L. Myers' pharmacological-based research focuses on acquiring greater insight towards the biodisposition of chemical compounds (e.g. drugs, drug metabolites, natural products) in the human body. His major areas of current research are: (1) Clarifying the enzyme-mediated mechanisms of activation and detoxification of arecoline, an oral toxicant contained in the areca (betel) nut, in human liver; (2) Elucidating the untoward effects of EdAG and several natural compounds on the glutathione, specifically the thioredoxin enzyme system which is a promising druggable target for oral malignancies; (3) Defining the pre-clinical and clinical pharmacokinetics of novel anti-cancer medications.

Kalu U.E. Ogbureke's research involves investigating the role of the family of glycophosphoproteins comprising osteopontin (OPN), bone sialoprotein (BSP), dentin matrix protein 1 (DMP1), dentin sialophosphoprotein (DSPP) and matrix extracellular phosphoglycoprotein (MEPE) - small integrin-binding ligand N-linked glycoproteins (SIBLINGs)- in biology of oral cancer and other head and neck cancers. These proteins have key functional roles during malignant transformation, invasion and metastasis, and may potentially be used as diagnostic and prognostic tools, as well as targets for therapeutic intervention. Some of the SIBLING family of proteins may therefore identify patients who could benefit from more extensive surgical resection, or from adjunct treatments such as radiotherapy for primary OSCCs. Dissecting the functional and mechanistic pathways of SIBLING activity in oral cancer as well as investigating the interaction of BSP and DSPP with the HPV16 oncoproteins (E6/E7) in the biology of HPV-associated oral cancers are ongoing projects.

Neha Parikh's research interests encompass molecular mechanisms involved in cancer signaling and aging. In collaboration with faculty in the Department of Endodontics and Diagnostic and Biomedical Sciences, Dr. Parikh is currently assessing a poorly characterized brown precipitate formed in the dentinal tubules with the consecutive usage of common irrigant solutions. Using eukaryotic model systems, she is addressing the toxic effects of the brown precipitate and an alternative irrigation protocol to avoid forming this potentially toxic brown precipitate.

Nadarajah Vigneswaran's group focus on clinical and laboratory-based research related to oral cancer and its precursors. His clinical research focuses on the use non-invasive optical imaging and quantitative cytology for monitoring of the progression of oral premalignant lesions. His basic research involves the development of experimental animal models of oral cancer for pre-clinical testing of molecular targeted diagnostic imaging and therapy.

Simon W. Young's research involves the development and characterization of biomaterials-based platform technologies focused in two areas: immunotherapy and craniofacial tissue regeneration. With respect to the treatment of oral cancer, our lab has been working on injectable cancer vaccine systems which act as sites for in situ dendritic cell programming. By leveraging our knowledge of bioengineering technologies for cell recruitment and differentiation, we have been able to translate these fundamental strategies to the cancer immunotherapy setting. Our goal is to examine the efficacy of these vaccine systems in the context of oral squamous cell carcinoma, and explore any synergies that may arise from the use of cancer vaccines and other forms of immunotherapy. The concept of in situ cell programming is also utilized in our tissue regeneration projects where we are exploring the use of various hydrogels and layer-by-layer polymer coating technologies to promote nerve and bone regeneration in several challenging preclinical models.

Nikola Angelov's research focus encompasses basic, clinical and translational studies, mainly in the area of oral mucosal wound healing, periodontal microbiology and dental implants. More recently, a focus of the collaborative research efforts of our department and Baylor’s College of Medicine has been the role of oral bacteria in blood pressure regulation via the Nitrate-Nitrite-Nitric Oxide Pathway. The goal is to understand the role of human microbial communities in the host’s NO homeostasis, to allow the development of new diagnostics and other approaches to manipulate these microbial communities to promote human health and prevent disease.

Gena D. Tribble's research focuses on two groups of anaerobic bacteria associated with periodontitis, Porphyromonas gingivalis and Prevotella spp. In particular, she investigates the molecular mechanisms of horizontal DNA transfer in oral microbial communities, and the biological consequences of gene exchange. Her research objectives are to improve our understanding of the role of DNA exchange as it contributes to bacterial survival and persistence in the host, and adaptive evolution transitioning microbiome- host interactions from commensal to pathogenic.

Bing-Yan Wang's has focused her research on oral infectious diseases such as periodontal diseases and dental caries. Using molecular genetics approach, we are deciphering the mechanisms of interferences of Streptococcus mutans quorum sensing by other oral bacteria. We are also investigating the role of bacterial interspecies interactions in racial discrepancies in periodontitis. We, in collaboration with Dr. Hua Xie, have demonstrated that Streptococcus cristatus (an oral commensal) inhibited the colonization of Porphyromonas gingivalis (a periodontal pathogen) in vitro and in vivo. The long-term goal of our research is to target certain pathogens specifically for prevention of common oral infectious diseases.

Sridhar V.K. Eswaran's primary research focus is hard and soft tissue regeneration. He is also involved in educational and health outcomes research pertaining to the field of periodontology and implant dentistry. His current study involves utilizing Platelet Rich Fibrin (PRF) in extraction sockets and evaluating its efficacy in bone regeneration and maintenance of alveolar ridge width for implant placement. His educational research focuses on faculty calibration. In particular, he investigates the variations in periodontal diagnosis and calculus detection among faculties in the clinic. The study also involves problem centered calibration techniques to enhance the reliability and consistency among faculties in teaching students.

Mary C. Cindy Farach-Carson's laboratory uses proteoglycans, particularly those bearing heparan sulfate chains such as perlecan, in engineering of complex tissues such as bone, cartilage or salivary gland. Cell and molecular engineering strategies are being developed that facilitate controlled tissue growth and differentiation. Growth factor binding and delivery by engineered proteoglycans are used in oral surgery and orthopaedic applications. Engineering partnerships support these studies. We use a variety of techniques including 3D hydrogel cell culture, recombinant and natural protein purification and analysis, cloning and molecular biology, immunodetection, 3D printing, confocal imaging and pre-clinical models.

F. Kurtis Kasper's research applies fundamentals of engineering, materials science, and the biosciences toward the development and evaluation of biomaterial-based technologies to meet clinical needs. Current research interests include the application of engineered culture conditions for the development of bioactive constructs for craniofacial and orthopedic tissue regeneration. Additional research focuses on applications of 3D printing and digital technologies in dentistry.

Mark E. Wong's has two major research interests. Within the AFIRM consortium, his project focuses on the management of severe maxillofacial injuries through a series of therapeutic interventions. First, preservation of skeletal space is accomplished with a drug-eluting methylmethacrylate polymer. This is followed by the generation of customized vascularized bone grafts formed in a distant site and subsequently transferred into the traumatic defect. His second research focus involves the characterization of TMJ disease and the regeneration of the disc and condyle using tissue engineering principles.