Your search keyword '"Sharma, Giriraj"' showing total 16 results

1. Surface kinematic and depth-resolved analysis of human vocal folds in vivo during phonation using optical coherence tomography.

Author

Sharma, Giriraj K, Chen, Lily Y, Chou, Lidek, Badger, Christopher, Hong, Ellen, Rangarajan, Swathi, Chang, Theodore H, Armstrong, William B, Verma, Sunil P, Chen, Zhongping, Ramalingam, Ram, and Wong, Brian J-F

Subjects

image processing, in vivo imaging, larynx, mucosal wave, optical coherence tomography, tissues, Optics, Optical Physics, Biomedical Engineering, Opthalmology and Optometry

Abstract

SignificanceThe human vocal fold (VF) oscillates in multiple vectors and consists of distinct layers with varying viscoelastic properties that contribute to the mucosal wave. Office-based and operative laryngeal endoscopy are limited to diagnostic evaluation of the VF epithelial surface only and are restricted to axial-plane characterization of the horizontal mucosal wave. As such, understanding of the biomechanics of human VF motion remains limited.AimOptical coherence tomography (OCT) is a micrometer-resolution, high-speed endoscopic imaging modality which acquires cross-sectional images of tissue. Our study aimed to leverage OCT technology and develop quantitative methods for analyzing the anatomy and kinematics of in vivo VF motion in the coronal plane.ApproachA custom handheld laryngeal stage was used to capture OCT images with 800 A-lines at 250 Hz. Automated image postprocessing and analytical methods were developed.ResultsNovel kinematic analysis of in vivo, long-range OCT imaging of the vibrating VF in awake human subjects is reported. Cross-sectional, coronal-plane panoramic videos of the larynx during phonation are presented with three-dimensional videokymographic and space-time velocity analysis of VF motion.ConclusionsLong-range OCT with automated computational methods allows for cross-sectional dynamic laryngeal imaging and has the potential to broaden our understanding of human VF biomechanics and sound production.

Published

2021

2. Coupling Pressure Sensing with Optical Coherence Tomography to Evaluate the Internal Nasal Valve.

Author

Hakimi, Amir A, Sharma, Giriraj K, Ngo, Tuan, Heidari, Andrew E, Badger, Christopher D, Tripathi, Prem B, Hong, Ellen M, Chen, Zhongping, and Wong, Brian JF

Subjects

Nasal Cavity, Humans, Tomography, Optical Coherence, Transducers, Pressure, Respiration, Inhalation, Female, Male, Healthy Volunteers, airway obstruction, internal nasal valve, intranasal pressure, nasal valve, optical coherence tomography, Bioengineering, Cardiovascular, Clinical Research, Clinical Sciences, Otorhinolaryngology

Abstract

PurposeTo evaluate endoscopic long-range optical coherence tomography system combined with a pressure sensor to concurrently measure internal nasal valve cross-sectional area and intraluminal pressure.MethodsA pressure sensor was constructed using an Arduino platform and calibrated using a limiter-controlled vacuum system and industrial absolute pressure gauge. Long-range optical coherence tomography imaging and pressure transduction were performed concurrently in the naris of eight healthy adult subjects during normal respiration and forced inspiration. The internal nasal valve was manually segmented using Mimics software and cross-sectional area was measured. Internal nasal valve cross-sectional area measurements were correlated with pressure recordings.ResultsMean cross-sectional area during forced inspiration was 6.49 mm2. The mean change in pressure between normal respiration and forceful inspiration was 12.27 mmHg. The direct correlation between pressure and cross-sectional area as measured by our proposed system was reproducible among subjects.ConclusionsOur results demonstrate a direct correlation between internal nasal valve cross-sectional area and nasal airflow during inspiration cycles. Endoscopic long-range optical coherence tomography coupled with a pressure sensor serves as a useful tool to quantify the dynamic behavior of the internal nasal valve.

Published

2021

3. Telelecture Educational Series in Facial Plastic and Reconstructive Surgery

Author

Hakimi, Amir A, Dunn, Brandyn S, Sharma, Giriraj K, Bhandarkar, Naveen D, and Wong, Brian J-F

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Quality Education, Curriculum, Humans, Internship and Residency, Plastic Surgery Procedures, Surgeons, Surgery, Plastic, education, telecommunication, resident, videoconferencing, Otorhinolaryngology

Abstract

We sought to evaluate the usefulness of a monthly telelecture educational series in facial plastic and reconstructive surgery for resident education and to identify potential areas for improvement. A monthly series of facial plastic and reconstructive surgery telelectures were hosted at our institution between 2016 and 2018. A web-based survey was sent to 13 residents and 7 invited faculty presenters. Resident survey questions included rating of presentation topics, interface, networking opportunities, and educational value. Faculty survey questions included satisfaction, temporal convenience, likelihood of future telelecture participation, and likelihood of telelecture series implementation at speaker's home institution. The survey response rate was 100%. All of the residents expressed satisfaction with topics presented, lecture duration, perceived enhancement of education, and overall satisfaction with the telelecture series. 46% of residents indicated that the telelecture format limited networking opportunities. 72% of faculty reported they would participate in a future telelecture, and 86% indicated interest in integrating telelectures into their home institution educational curriculum. Live virtual telelectures effectively allow experienced facial plastic surgeons to share their operative techniques and management pearls in an interactive and practical format. This is a contemporary solution to bridging knowledge gaps between expert facial plastic surgeons from all corners of the world and the next generation of surgeons.

Published

2020

4. Dynamic programming and automated segmentation of optical coherence tomography images of the neonatal subglottis: enabling efficient diagnostics to manage subglottic stenosis

Author

Kozlowski, Konrad M, Sharma, Giriraj K, Chen, Jason J, Qi, Li, Osann, Kathryn, Jing, Joseph C, Ahuja, Gurpreet S, Heidari, Andrew E, Chung, Phil-Sang, Kim, Sehwan, Chen, Zhongping, and Wong, Brian J-F

Subjects

Paediatrics, Biomedical and Clinical Sciences, Pediatric, Preterm, Low Birth Weight and Health of the Newborn, Bioengineering, Perinatal Period - Conditions Originating in Perinatal Period, Infant Mortality, Biomedical Imaging, Clinical Research, Detection, screening and diagnosis, 4.2 Evaluation of markers and technologies, 4.1 Discovery and preclinical testing of markers and technologies, Algorithms, Humans, Image Interpretation, Computer-Assisted, Infant, Newborn, Laryngostenosis, Larynx, Tomography, Optical Coherence, diagnostic imaging, intubation injury, neonate, optical coherence tomography, subglottic stenosis, texture analysis, Optical Physics, Biomedical Engineering, Opthalmology and Optometry, Optics, Ophthalmology and optometry, Biomedical engineering, Atomic, molecular and optical physics

Abstract

Subglottic stenosis (SGS) is a challenging disease to diagnose in neonates. Long-range optical coherence tomography (OCT) is an optical imaging modality that has been described to image the subglottis in intubated neonates. A major challenge associated with OCT imaging is the lack of an automated method for image analysis and micrometry of large volumes of data that are acquired with each airway scan (1 to 2 Gb). We developed a tissue segmentation algorithm that identifies, measures, and conducts image analysis on tissue layers within the mucosa and submucosa and compared these automated tissue measurements with manual tracings. We noted small but statistically significant differences in thickness measurements of the mucosa and submucosa layers in the larynx (p

Published

2019

5. Evaluation of the American college of surgeons thyroid and parathyroid ultrasound course: Results of a web‐based survey

Author

Sharma, Giriraj K, Sofferman, Robert A, and Armstrong, William B

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Biomedical Imaging, Quality Education, Adult, Aged, Clinical Competence, Cross-Sectional Studies, Education, Medical, Continuing, Female, Humans, Internet, Male, Middle Aged, Parathyroid Glands, Practice Patterns, Physicians', Self Report, Societies, Medical, Specialties, Surgical, Thyroid Gland, Ultrasonography, United States, Young Adult, Head and neck ultrasonography, surgeon-performed ultrasound, point-of-care ultrasound, thyroid, parathyroid, American College of Surgeons, Otorhinolaryngology, Clinical sciences

Abstract

Objectives/hypothesisThe American College of Surgeons Thyroid and Parathyroid Ultrasound Skills-Oriented Course (TPUSC) was designed to teach surgeons how to interpret and perform office-based head and neck ultrasound (HNUS). The objective of this study was to survey attendees of the TPUSC to evaluate the usefulness of the course, to track surgeon performed HNUS practice patterns, and to help identify potential roadblocks to incorporation of HNUS into a surgeon's practice.Study designCross-sectional survey.MethodsA Web-based survey was sent to 952 surgeons who completed the TPUSC between 2010 and 2014. Questions included surgeon specialty, practice type, Likert scale rating of the TPUSC, competency with different HNUS procedures, and current HNUS practice patterns.ResultsThe response rate was 24%. On a scale from 1 (not useful) to 5 (extremely valuable), the mean course usefulness rating was 4.2. Educational goals were met for 194 (92%) surgeons, and 162 (77%) surgeons reported performing HNUS in their practice. Of 48 surgeons not performing HNUS, 24 (50%) attributed insufficient time in their clinic schedule, and 21 (44%) attributed high equipment costs.ConclusionsThe TPUSC is a valuable educational experience for surgeons seeking to gain proficiency in HNUS. The majority of TPUSC graduates gain competency with at least one type of HNUS procedure following the course.Level of evidenceNA Laryngoscope, 127:1950-1958, 2017.

Published

2017

6. Quantitative Evaluation of Adult Subglottic Stenosis Using Intraoperative Long-range Optical Coherence Tomography

Author

Sharma, Giriraj K, Loy, Anthony Chin, Su, Erica, Jing, Joe, Chen, Zhongping, Wong, Brian J-F, and Verma, Sunil

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Bioengineering, Biomedical Imaging, Adult, Ascorbic Acid, Female, Ferrous Compounds, Humans, Image Processing, Computer-Assisted, Imaging, Three-Dimensional, Intraoperative Care, Laryngoscopy, Laryngostenosis, Larynx, Organ Size, Tomography, Optical Coherence, Trachea, subglottic stenosis, optical coherence tomography, airway measurement, direct laryngoscopy, suspension microlaryngoscopy, Clinical Sciences, Otorhinolaryngology, Clinical sciences, Allied health and rehabilitation science

Abstract

ObjectivesTo determine the feasibility of long-range optical coherence tomography (LR-OCT) as a tool to intraoperatively image and measure the subglottis and trachea during suspension microlaryngoscopy before and after endoscopic treatment of subglottic stenosis (SGS).MethodsLong-range optical coherence tomography of the adult subglottis and trachea was performed during suspension microlaryngoscopy before and after endoscopic treatment for SGS. The anteroposterior and transverse diameters, cross-sectional area (CSA), distance from the vocal cords, and length of the SGS were measured using a MATLAB software. Pre-intervention and postintervention airway dimensions were compared. Three-dimensional volumetric airway reconstructions were generated using medical image processing software (MIMICS).ResultsIntraoperative LR-OCT imaging was performed in 3 patients undergoing endoscopic management of SGS. Statistically significant differences in mean anteroposterior diameter (P < .01), transverse diameter (P < .001), and CSA (P < .001) were noted between pre-intervention and postintervention data. Three-dimensional airway models were viewed in cross-sectional format and via virtual "fly through" bronchoscopy.ConclusionsThis is the first report of intraoperative LR-OCT of the subglottic and tracheal airway before and after surgical management of SGS in humans. Long-range optical coherence tomography offers a practical means to measure the dimensions of SGS and acquire objective data on the response to endoscopic treatment of SGS.

Published

2016

7. In vivo cross-sectional imaging of the phonating larynx using long-range Doppler optical coherence tomography.

Author

Coughlan, Carolyn A, Chou, Li-Dek, Jing, Joseph C, Chen, Jason J, Rangarajan, Swathi, Chang, Theodore H, Sharma, Giriraj K, Cho, Kyoungrai, Lee, Donghoon, Goddard, Julie A, Chen, Zhongping, and Wong, Brian JF

Subjects

Vocal Cords, Humans, Tomography, Optical Coherence, Laryngoscopy, Vocal Cord Dysfunction, Tomography, Optical Coherence, Biomedical Imaging, Bioengineering, Biochemistry and Cell Biology, Other Physical Sciences

Abstract

Diagnosis and treatment of vocal fold lesions has been a long-evolving science for the otolaryngologist. Contemporary practice requires biopsy of a glottal lesion in the operating room under general anesthesia for diagnosis. Current in-office technology is limited to visualizing the surface of the vocal folds with fiber-optic or rigid endoscopy and using stroboscopic or high-speed video to infer information about submucosal processes. Previous efforts using optical coherence tomography (OCT) have been limited by small working distances and imaging ranges. Here we report the first full field, high-speed, and long-range OCT images of awake patients' vocal folds as well as cross-sectional video and Doppler analysis of their vocal fold motions during phonation. These vertical-cavity surface-emitting laser source (VCSEL) OCT images offer depth resolved, high-resolution, high-speed, and panoramic images of both the true and false vocal folds. This technology has the potential to revolutionize in-office imaging of the larynx.

Published

2016

8. Real-Time Three-Dimensional Imaging of Larynx Using a Swept-Source Optical Coherence Tomography (SS-OCT) System Consisting of a GRIN Lens Rod-Based Probe and a High Speed VCSEL Laser Source

Author

Rangarajan, Swathi, Chou, Li-dek, Sharma, Giriraj, Barnes, Christian, Wong, Brian J-F, and Ramalingam, Ram

Abstract

We have developed an office-based laryngeal OCT imaging system for analyzing the cross-sectional anatomy in awake patients. Real-time in vivo imaging of human vocal cords and native vibrations of vocal folds are demonstrated.

Published

2016

9. Long-Range Optical Coherence Tomography of the Neonatal Upper Airway for Early Diagnosis of Intubation-related Subglottic Injury.

Author

Sharma, Giriraj, Ahuja, Gurpreet, Wiedmann, Maximilian, Osann, Kathryn, Su, Erica, Heidari, Andrew, Jing, Joseph, Qu, Yueqiao, Lazarow, Frances, Wang, Alex, Chou, Lidek, Uy, Cherry, Dhar, Vijay, Cleary, John, Pham, Nguyen, Huoh, Kevin, Chen, Zhongping, and Wong, Brian

Subjects

diagnostic imaging, intubation injury, neonate, optical coherence tomography, subglottic stenosis, Early Diagnosis, Female, Humans, Infant, Infant, Newborn, Intubation, Intratracheal, Laryngostenosis, Male, Retrospective Studies, Tomography, Optical Coherence

Abstract

RATIONALE: Subglottic edema and acquired subglottic stenosis are potentially airway-compromising sequelae in neonates following endotracheal intubation. At present, no imaging modality is capable of in vivo diagnosis of subepithelial airway wall pathology as signs of intubation-related injury. OBJECTIVES: To use Fourier domain long-range optical coherence tomography (LR-OCT) to acquire micrometer-resolution images of the airway wall of intubated neonates in a neonatal intensive care unit setting and to analyze images for histopathology and airway wall thickness. METHODS: LR-OCT of the neonatal laryngotracheal airway was performed a total of 94 times on 72 subjects (age, 1-175 d; total intubation, 1-104 d). LR-OCT images of the airway wall were analyzed in MATLAB. Medical records were reviewed retrospectively for extubation outcome. MEASUREMENTS AND MAIN RESULTS: Backward stepwise regression analysis demonstrated a statistically significant association between log(duration of intubation) and both laryngeal (P < 0.001; multiple r(2) = 0.44) and subglottic (P < 0.001; multiple r(2) = 0.55) airway wall thickness. Subjects with positive histopathology on LR-OCT images had a higher likelihood of extubation failure (odds ratio, 5.9; P = 0.007). Longer intubation time was found to be significantly associated with extubation failure. CONCLUSIONS: LR-OCT allows for high-resolution evaluation and measurement of the airway wall in intubated neonates. Our data demonstrate a positive correlation between laryngeal and subglottic wall thickness and duration of intubation, suggestive of progressive soft tissue injury. LR-OCT may ultimately aid in the early diagnosis of postintubation subglottic injury and help reduce the incidences of failed extubation caused by subglottic edema or acquired subglottic stenosis in neonates. Clinical trial registered with www.clinicaltrials.gov (NCT 00544427).

Published

2015

10. Long-range Fourier domain optical coherence tomography of the pediatric subglottis

Author

Volgger, Veronika, Sharma, Giriraj K, Jing, Joseph C, Peaks, Ya-Sin A, Loy, Anthony Chin, Lazarow, Frances, Wang, Alex, Qu, Yueqiao, Su, Erica, Chen, Zhongping, Ahuja, Gurpreet S, and Wong, Brian J-F

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Pediatric, Bioengineering, Biomedical Imaging, Adolescent, Child, Child, Preschool, Feasibility Studies, Female, Glottis, Humans, Imaging, Three-Dimensional, Intubation, Intratracheal, Laryngostenosis, Male, Signal-To-Noise Ratio, Tomography, Optical Coherence, Optical coherence tomography, Subglottis, Subglottic stenosis, Pediatrics, Paediatrics and Reproductive Medicine, Clinical sciences, Paediatrics

Abstract

BackgroundAcquired subglottic stenosis (SGS) most commonly results from prolonged endotracheal intubation and is a diagnostic challenge in the intubated child. At present, no imaging modality allows for in vivo characterization of subglottic microanatomy to identify early signs of acquired SGS while the child remains intubated. Fourier domain optical coherence tomography (FD-OCT) is a minimally invasive, light-based imaging modality which provides high resolution, three dimensional (3D) cross-sectional images of biological tissue. We used long-range FD-OCT to image the subglottis in intubated pediatric patients undergoing minor head and neck surgical procedures in the operating room.MethodsA long-range FD-OCT system and rotary optical probes (1.2mm and 0.7mm outer diameters) were constructed. Forty-six pediatric patients (ages 2-16 years) undergoing minor upper airway surgery (e.g., tonsillectomy and adenoidectomy) were selected for intraoperative, trans-endotracheal tube FD-OCT of the subglottis. Images were analyzed for anatomical landmarks and subepithelial histology. Volumetric image sets were rendered into virtual 3D airway models in Mimics software.ResultsFD-OCT was performed on 46 patients (ages 2-16 years) with no complications. Gross airway contour was visible on all 46 data sets. Twenty (43%) high-quality data sets clearly demonstrated airway anatomy (e.g., tracheal rings, cricoid and vocal folds) and layered microanatomy of the mucosa (e.g., epithelium, basement membrane and lamina propria). The remaining 26 data sets were discarded due to artifact, high signal-to-noise ratio or missing data. 3D airway models were allowed for user-controlled manipulation and multiplanar airway slicing (e.g., sagittal, coronal) for visualization of OCT data at multiple anatomic levels simultaneously.ConclusionsLong-range FD-OCT produces high-resolution, 3D volumetric images of the pediatric subglottis. This technology offers a safe and practical means for in vivo evaluation of lower airway microanatomy in intubated pediatric patients. Ultimately, FD-OCT may be applied to serial monitoring of the neonatal subglottis in long-term intubated infants at risk for acquired SGS.

Published

2015

11. Intraoperative long range optical coherence tomography as a novel method of imaging the pediatric upper airway before and after adenotonsillectomy

Author

Lazarow, Frances B, Ahuja, Gurpreet S, Loy, Anthony Chin, Su, Erica, Nguyen, Tony D, Sharma, Giriraj K, Wang, Alex, Jing, Joseph, Chen, Zhongping, and Wong, Brian JF

Subjects

Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Clinical Sciences, Pediatric, Biomedical Imaging, Bioengineering, Adenoidectomy, Adolescent, Airway Obstruction, Child, Child, Preschool, Feasibility Studies, Female, Humans, Imaging, Three-Dimensional, Postoperative Care, Preoperative Care, Tomography, Optical Coherence, Tonsillectomy, Long range optical coherence tomography, Paediatrics and Reproductive Medicine, Clinical sciences, Paediatrics

Abstract

Background/objectivesWhile upper airway obstruction is a common problem in the pediatric population, the first-line treatment, adenotonsillectomy, fails in up to 20% of patients. The decision to proceed to surgery is often made without quantitative anatomic guidance. We evaluated the use of a novel technique, long-range optical coherence tomography (LR-OCT), to image the upper airway of children under general anesthesia immediately before and after tonsillectomy and/or adenoidectomy. We investigated the feasibility of LR-OCT to identify both normal anatomy and sites of airway narrowing and to quantitatively compare airway lumen size in the oropharyngeal and nasopharyngeal regions pre- and post-operatively.Methods46 children were imaged intraoperatively with a custom-designed LR-OCT system, both before and after adenotonsillectomy. These axial LR-OCT images were both rendered into 3D airway models for qualitative analysis and manually segmented for quantitative comparison of cross-sectional area.ResultsLR-OCT images demonstrated normal anatomic structures (base of tongue, epiglottis) as well as regions of airway narrowing. Volumetric rendering of pre- and post-operative images clearly showed regions of airway collapse and post-surgical improvement in airway patency. Quantitative analysis of cross-sectional images showed an average change of 70.52mm(2) (standard deviation 47.87mm(2)) in the oropharynx after tonsillectomy and 105.58mm(2) (standard deviation 60.62mm(2)) in the nasopharynx after adenoidectomy.ConclusionsLR-OCT is an emerging technology that rapidly generates 3D images of the pediatric upper airway in a feasible manner. This is the first step toward development of an office-based system to image awake pediatric subjects and thus better identify loci of airway obstruction prior to surgery.

Published

2015

12. Analysis and digital 3D modeling of long-range fourier-domain optical coherence tomography images of the pediatric subglottis

Author

Su, Erica, Sharma, Giriraj K, Chen, Jason, Nguyen, Tony D, Wang, Alex, Hamamoto, Ashley, Ahuja, Gurpreet S, Chen, Zhongping, and Wong, Brian J

Subjects

Optical coherence tomography, airway, pediatric, neonatal, image analysis, segmentation, 3D modeling

Abstract

In neonatal and pediatric patients who require long-term endotracheal intubation, the subglottic mucosa is most susceptible to injury from the endotracheal tube. At present, there is no diagnostic modality to identify early signs of subglottic mucosal pathology. Fourier-domain optical coherence tomography (FD-OCT) is a minimally-invasive imaging modality which acquires high-resolution, 3D cross-sectional images of biological tissue. FD-OCT of the neonatal and pediatric airways was conducted to evaluate subglottic microanatomy and histopathologic changes associated with prolonged intubation. FD-OCT of the larynx, subglottis and proximal trachea was conducted in pediatric and neonatal patients. OCT image sets were analyzed by anatomic categorization (airway level), tissue segmentation and mucosa micrometry in MATLAB. Subsequently, OCT data sets were rendered into digital 3D airway models in Mimics software. We report original methods for subglottic OCT image processing and analysis.

Published

2014

13. Optical Coherence Tomography of the Oral Cavity and Pharynx: Normative Anatomy and Benign Processes

Author

Sharma, Giriraj K and Wong, Brian J-F

Subjects

Digestive Diseases, Bioengineering, Dental/Oral and Craniofacial Disease, Biomedical Imaging, Rare Diseases, 4.2 Evaluation of markers and technologies, Detection, screening and diagnosis

Abstract

Optical coherence tomography (OCT) is a minimally invasive optical imaging modality which produces three-dimensional (3D) images of biological tissue. In the last 10 years, technological innovation and research in biophotonics have led to advancements in OCT-based diagnostic evaluation of head and neck anatomy and pathology. With near-histologic resolution of mucosal epithelial and subepithelial tissues, OCT has the potential for in vivo diagnosis of oral and pharyngeal lesions. This chapter focuses on OCT technology, research and clinical applications in anatomical imaging of the pharynx, and OCT-based diagnosis of benign and precancerous lesions of the oral cavity (OC) and pharynx.

Published

2016

14. Optical Coherence Tomography of the Larynx: Normative Anatomy and Benign Processes

Author

Sharma, Giriraj K and Wong, Brian J-F

Subjects

Biomedical Imaging, Bioengineering, Clinical Research

Abstract

Optical coherence tomography (OCT) is a minimally invasive, light-based imaging modality which produces high-resolution, three-dimensional (3D) images of biological tissues. A major focus of biophotonics research over the last 10 years is OCT-based evaluation of subepithelial laryngeal microanatomy, vocal fold vibration, and differentiation between benign and malignant disease processes of the larynx. With utility in both operative and office-based settings, OCT has potential as an adjunct diagnostic imaging modality to assist clinicians in the evaluation of normative and benign laryngeal processes and vibration parameters of the vocal cords. This chapter describes OCT-based delineation of vocal fold microanatomy, evolution of OCT technology, and OCT research to study normative anatomy, benign pathology, and functionality of the larynx.

Published

2016

15. Optical Coherence Tomography of Malignancies of the Head and Neck

Author

Sharma, Giriraj K, Rubinstein, Marc, Betz, Christian, and Wong, Brian J-F

Subjects

Dental/Oral and Craniofacial Disease, Rare Diseases, Cancer, Biomedical Imaging, Bioengineering, Detection, screening and diagnosis, 4.2 Evaluation of markers and technologies

Abstract

Optical coherence tomography (OCT) is a minimally invasive optical imaging modality which produces high-resolution, three-dimensional (3D) images of biological tissue. In the last 10 years, biophotonics and optics research have led to the advancement of OCT technology and expansion of OCT applications within Otorhinolaryngology-Head and Neck Surgery. In vivo clinical studies have demonstrated the potential for OCT to perform minimally invasive diagnostic imaging and differentiation of premalignant and malignant lesions of the head and neck. This chapter reviews the research and clinical applications for OCT imaging of malignancy in the upper aerodigestive tract.

Published

2016

16. Long-Range Optical Coherence Tomography of the Neonatal Upper Airway for Early Diagnosis of Intubation-related Subglottic Injury.

Author

Sharma, Giriraj K, Sharma, Giriraj K, Ahuja, Gurpreet S, Wiedmann, Maximilian, Osann, Kathryn E, Su, Erica, Heidari, Andrew E, Jing, Joseph C, Qu, Yueqiao, Lazarow, Frances, Wang, Alex, Chou, Lidek, Uy, Cherry C, Dhar, Vijay, Cleary, John P, Pham, Nguyen, Huoh, Kevin, Chen, Zhongping, Wong, Brian J-F, Sharma, Giriraj K, Sharma, Giriraj K, Ahuja, Gurpreet S, Wiedmann, Maximilian, Osann, Kathryn E, Su, Erica, Heidari, Andrew E, Jing, Joseph C, Qu, Yueqiao, Lazarow, Frances, Wang, Alex, Chou, Lidek, Uy, Cherry C, Dhar, Vijay, Cleary, John P, Pham, Nguyen, Huoh, Kevin, Chen, Zhongping, and Wong, Brian J-F

Abstract

RationaleSubglottic edema and acquired subglottic stenosis are potentially airway-compromising sequelae in neonates following endotracheal intubation. At present, no imaging modality is capable of in vivo diagnosis of subepithelial airway wall pathology as signs of intubation-related injury.ObjectivesTo use Fourier domain long-range optical coherence tomography (LR-OCT) to acquire micrometer-resolution images of the airway wall of intubated neonates in a neonatal intensive care unit setting and to analyze images for histopathology and airway wall thickness.MethodsLR-OCT of the neonatal laryngotracheal airway was performed a total of 94 times on 72 subjects (age, 1-175 d; total intubation, 1-104 d). LR-OCT images of the airway wall were analyzed in MATLAB. Medical records were reviewed retrospectively for extubation outcome.Measurements and main resultsBackward stepwise regression analysis demonstrated a statistically significant association between log(duration of intubation) and both laryngeal (P < 0.001; multiple r(2) = 0.44) and subglottic (P < 0.001; multiple r(2) = 0.55) airway wall thickness. Subjects with positive histopathology on LR-OCT images had a higher likelihood of extubation failure (odds ratio, 5.9; P = 0.007). Longer intubation time was found to be significantly associated with extubation failure.ConclusionsLR-OCT allows for high-resolution evaluation and measurement of the airway wall in intubated neonates. Our data demonstrate a positive correlation between laryngeal and subglottic wall thickness and duration of intubation, suggestive of progressive soft tissue injury. LR-OCT may ultimately aid in the early diagnosis of postintubation subglottic injury and help reduce the incidences of failed extubation caused by subglottic edema or acquired subglottic stenosis in neonates. Clinical trial registered with www.clinicaltrials.gov (NCT 00544427).

Published

2015