Your search keyword '"Chen, Casey"' showing total 5 results

1. The role of analyte concentration in accelerated reaction rates in evaporating droplets

Author

Chen, Casey J and Williams, Evan R

Subjects

Analytical Chemistry, Chemical Sciences, Physical Chemistry, Chemical sciences

Abstract

Accelerated reactions in microdroplets have been reported for a wide range of reactions with some microdroplet reactions occurring over a million times faster than the same reaction in bulk solution. Unique chemistry at the air-water interface has been implicated as a primary factor for accelerated reaction rates, but the role of analyte concentration in evaporating droplets has not been as well studied. Here, theta-glass electrospray emitters and mass spectrometry are used to rapidly mix two solutions on the low to sub-microsecond time scale and produce aqueous nanodrops with different sizes and lifetimes. We demonstrate that for a simple bimolecular reaction where surface chemistry does not appear to play a role, reaction rate acceleration factors are between 102 and 107 for different initial solution concentrations, and these values do not depend on nanodrop size. A rate acceleration factor of 107 is among the highest reported and can be attributed to concentration of analyte molecules, initially far apart in dilute solution, but brought into close proximity in the nanodrop through evaporation of solvent from the nanodrops prior to ion formation. These data indicate that analyte concentration phenomenon is a significant factor in reaction acceleration where droplet volume throughout the experiment is not carefully controlled.

Published

2023

2. Posterior photoacoustic/ultrasound imaging of the periodontal pocket with a compact intraoral transducer

Author

Fu, Lei, Khazaeinezhad, Reza, Hariri, Ali, Qi, Baiyan, Chen, Casey, and Jokerst, Jesse V

Subjects

Biomedical and Clinical Sciences, Dentistry, Biomedical Imaging, Dental/Oral and Craniofacial Disease, Photoacoustic imaging, Periodontitis, Clinical attachment loss, Oral health, Optoacoustics

Abstract

Periodontitis is a public issue and imaging periodontal pocket is important to evaluate periodontitis. Regular linear transducers have limitations in imaging the posterior teeth due to their geometry restrictions. Here we characterized a transducer that can image the posterior teeth including assessment of periodontal pockets via a combination of photoacoustic and ultrasound imaging. Unlike conventional transducer design, this device has a toothbrush-shaped form factor with a side-view transducer to image molars (total size: 1 ×1.9 cm). A laser diode was integrated as the light source to reduce the cost and size and facilitates clinical transition. The in vivo imaging of a molar of a periodontal patient demonstrated that the transducer could image in the posterior area of gum in vivo; the value determined by imaging was within 7 % of the value measured clinically.

Published

2022

3. A Photoacoustic‐Fluorescent Imaging Probe for Proteolytic Gingipains Expressed by Porphyromonas gingivalis

Author

Moore, Colman, Cheng, Yong, Tjokro, Natalia, Zhang, Brendan, Kerr, Matthew, Hayati, Mohammed, Chang, Kai Chiao Joe, Shah, Nisarg, Chen, Casey, and Jokerst, Jesse V

Subjects

Chemical Sciences, Infectious Diseases, Dental/Oral and Craniofacial Disease, Adhesins, Bacterial, Animals, Cysteine Endopeptidases, Fluorescent Dyes, Gingipain Cysteine Endopeptidases, Humans, Mice, Periodontal Diseases, Porphyromonas gingivalis, Swine, Biosensors, Fluorescent Probes, Gingipain, Imaging Agents, Photoacoustic Imaging, Organic Chemistry, Chemical sciences

Abstract

Porphyromonas gingivalis is a keystone pathogen in periodontal disease. We herein report a dual-modal fluorescent and photoacoustic imaging probe for the detection of gingipain proteases secreted by P. gingivalis. Upon proteolytic cleavage by Arg-specific gingipain (RgpB), five-fold photoacoustic enhancement and >100-fold fluorescence activation was measured with detection limits of 1.1 nM RgpB and 5.0E4 CFU mL-1 bacteria in vitro. RgpB activity was imaged in porcine jaws with low-nanomolar sensitivity. Diagnostic efficacy was evaluated in gingival crevicular fluid samples from subjects with and without periodontal disease, wherein activation was correlated to qPCR-based detection of P. gingivalis (Pearson's r=0.71). Finally, photoacoustic imaging of RgpB-cleaved probe was achieved in murine brains ex vivo, with relevance and potential utility for disease models of general infection by P. gingivalis, motivated by the recent biological link between gingipain and Alzheimer's disease.

Published

2022

4. Oral microbiota of periodontal health and disease and their changes after nonsurgical periodontal therapy

Author

Chen, Casey, Hemme, Chris, Beleno, Joan, Shi, Zhou Jason, Ning, Daliang, Qin, Yujia, Tu, Qichao, Jorgensen, Michael, He, Zhili, Wu, Liyou, and Zhou, Jizhong

Subjects

Microbiology, Biological Sciences, Dental/Oral and Craniofacial Disease, Genetics, Clinical Research, Oral and gastrointestinal, Adult, Bacteria, Dental Plaque, Humans, Microbiota, Periodontitis, RNA, Ribosomal, 16S, Saliva, Environmental Sciences, Technology, Biological sciences, Environmental sciences

Abstract

This study examined the microbial diversity and community assembly of oral microbiota in periodontal health and disease and after nonsurgical periodontal treatment. The V4 region of 16S rRNA gene from DNA of 238 saliva and subgingival samples of 21 healthy and 48 diseased subjects was amplified and sequenced. Among 1979 OTUs identified, 28 were overabundant in diseased plaque. Six of these taxa were also overabundant in diseased saliva. Twelve OTUs were overabundant in healthy plaque. There was a trend for disease-associated taxa to decrease and health-associated taxa to increase after treatment with notable variations among individual sites. Network analysis revealed modularity of the microbial communities and identified several health- and disease-specific modules. Ecological drift was a major factor that governed community turnovers in both plaque and saliva. Dispersal limitation and homogeneous selection affected the community assembly in plaque, with the additional contribution of homogenizing dispersal for plaque within individuals. Homogeneous selection and dispersal limitation played important roles, respectively, in healthy saliva and diseased pre-treatment saliva between individuals. Our results revealed distinctions in both taxa and assembly processes of oral microbiota between periodontal health and disease. Furthermore, the community assembly analysis has identified potentially effective approaches for managing periodontitis.

Published

2018

5. Oral microbiota of periodontal health and disease and their changes after nonsurgical periodontal therapy.

Author

Chen, Casey, Hemme, Chris, Beleno, Joan, Shi, Zhou Jason, Ning, Daliang, Qin, Yujia, Tu, Qichao, Jorgensen, Michael, He, Zhili, Wu, Liyou, and Zhou, Jizhong

Subjects

Saliva, Dental Plaque, Humans, Bacteria, Periodontitis, RNA, Ribosomal, 16S, Adult, Microbiota, RNA, Ribosomal, 16S, Biological Sciences, Technology, Environmental Sciences, Microbiology

Abstract

This study examined the microbial diversity and community assembly of oral microbiota in periodontal health and disease and after nonsurgical periodontal treatment. The V4 region of 16S rRNA gene from DNA of 238 saliva and subgingival samples of 21 healthy and 48 diseased subjects was amplified and sequenced. Among 1979 OTUs identified, 28 were overabundant in diseased plaque. Six of these taxa were also overabundant in diseased saliva. Twelve OTUs were overabundant in healthy plaque. There was a trend for disease-associated taxa to decrease and health-associated taxa to increase after treatment with notable variations among individual sites. Network analysis revealed modularity of the microbial communities and identified several health- and disease-specific modules. Ecological drift was a major factor that governed community turnovers in both plaque and saliva. Dispersal limitation and homogeneous selection affected the community assembly in plaque, with the additional contribution of homogenizing dispersal for plaque within individuals. Homogeneous selection and dispersal limitation played important roles, respectively, in healthy saliva and diseased pre-treatment saliva between individuals. Our results revealed distinctions in both taxa and assembly processes of oral microbiota between periodontal health and disease. Furthermore, the community assembly analysis has identified potentially effective approaches for managing periodontitis.

Published

2018