65 results on '"Newlands SD"'
Search Results
2. Surgical treatment of gunshot injuries to the mandible.
- Author
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Newlands SD, Samudrala S, Katzenmeyer WK, Newlands, Shawn D, Samudrala, Sreedhar, and Katzenmeyer, W Kevin
- Abstract
Objectives: Our goal was to review and identify risk factors for complications from treatment of mandible fractures due to gunshot wounds. Study design and setting We conducted a retrospective review of treatment outcomes in 90 patients with gunshot wounds to the mandible treated over a 10-year period at 2 tertiary care centers.Results: Our series of 90 patients with mandibular injuries due to gunshot wounds included 68 patients who underwent surgical procedures on the mandible. There were 14 complications in this group. Complications were more common in patients whose mandibles were rigidly fixated; however, these patients' injuries were more severe. Complications were significantly increased in patients who lost a segment of mandible in the injury.Conclusions: Complications were related to severity of injury and independent of treatment modality.Significance: The complication rate for patients with gunshot injuries can be very high, particularly if bone is missing. Stabilization of remaining mandibular segments with potentially multiple subsequent reconstructive procedures is often required to restore mandibular continuity in these patients. [ABSTRACT FROM AUTHOR]- Published
- 2003
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3. Utilization of panoramic radiographs to evaluate short-term complications of mandibular fracture repair.
- Author
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Childress CS, Newlands SD, Childress, C S, and Newlands, S D
- Abstract
Objectives/hypothesis: Detection of complications after mandibular fracture repair is generally based on the clinical examination. However, postoperative evaluation of the patient often includes imaging of the repaired mandible. At our institution, the majority of patients with mandibular fracture have had at least one panoramic mandible radiograph taken postoperatively. The purpose of this study was to assess whether these radiographic studies contributed to detection of complications and thereby had an impact on the clinical course of the patient.Study Design: Retrospective review.Methods: The available medical records over a 5-and-a-half-year period of all patients who were treated at our institution for a fractured mandible were reviewed. Patients included in the study were those who were followed for at least 2 months and two postoperative visits.Results: Our series of 289 patients included 25 patients with complications. Of these patients, 24 had postoperative panoramic radiographs. All of the complications were discovered based on history and physical examination. In six of the patients with complications, the panoramic radiograph was suspicious for a complication. There were five false-positive studies of the 240 postoperative studies performed in patients without complications. No complications were diagnosed based on radiography.Conclusions: After surgical treatment of mandibular fractures, panoramic radiographs add little to the physical examination and history toward the detection of complications. We believe that panoramic radiographs need not be used routinely, but may be reserved for patients who have complaints or physical findings suggestive of complications. [ABSTRACT FROM AUTHOR]- Published
- 1999
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4. Clinical problem solving: pathology. Pathology quiz case.
- Author
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Rosen EJ, Newlands SD, Rampy BA, Askin FB, and Westra WH
- Published
- 2003
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5. A Cross-Sectional Survey Study Evaluating United States Medical School Curricula in Otolaryngology.
- Author
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Ryll LS, Pellegrini WR, Richards PQ, Zhou MT, Newlands SD, and Levi JR
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- United States, Humans, Schools, Medical, Cross-Sectional Studies, Curriculum, Internship and Residency, Otolaryngology education
- Abstract
Objectives: With an ever-expanding medical knowledge base and requirements for clinical training, medical schools struggle to incorporate subspecialty education, such as otolaryngology (OTO), into curricula. This study aims to assess the current state of OTO education, and evaluate factors contributing to the extent of OTO teaching in United States (U.S.) medical schools., Methods: A 48-question survey evaluated the extent and practices of OTO teaching. The survey was distributed by email to all 155 LCME accredited U.S. allopathic medical schools in 2020 and 2021., Results: Sixty-eight unique responses were received (43.9% of U.S. allopathic medical schools). 36.8% (n = 25) of schools reported having formal expectations of OTO knowledge in their core curriculum. Only 1 school (1.5%) had a required OTO rotation; the majority of schools offered an optional third or fourth year clerkship rotation (76.5% and 95.6%, respectively). Schools with residency programs and who employ their faculty through an OTO or surgery department were more likely to have otolaryngologists teach basic science lectures and the Head & Neck exam, offer an optional third year rotation, and have formal expectations of rotating students., Conclusions: Medical schools with residency programs and who employ their faculty through an OTO or surgery department have more robust OTO curricula. Despite the ubiquity of OTO presentations across specialties, incorporation of OTO knowledge in U.S. medical school curricula remains variable, and at times limited.
- Published
- 2023
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6. An evaluation of otolaryngology resources at United States medical schools.
- Author
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Ryll LS, Pellegrini WR, Richards PQ, Zhou MT, Newlands SD, and Levi JR
- Subjects
- Humans, United States, Schools, Medical, Cross-Sectional Studies, Internship and Residency, Otolaryngology education, Students, Medical
- Abstract
Objective: Otolaryngology (OTO) is a competitive specialty, and medical school factors outside an applicant's control, such as presence of OTO student resources and an affiliated OTO residency program, can impact the competitiveness of a student's application. This study sought to evaluate the extent of OTO resources United States (U.S.) allopathic medical schools provide to help their students be successful, and to evaluate for medical school factors which may bias toward inequitable distribution of student OTO resources., Methods: A 48-question cross-sectional survey evaluating the extent of OTO resources was distributed by email to LCME accredited U.S. allopathic medical schools in 2020 and 2021., Results: Schools with residency programs and where faculty were employed through an OTO or surgery department were more likely to have an Otolaryngology Interest Group (OIG), an Otolaryngology Medical Student Education Director (OMSED), and were more likely to provide opportunities for OTO research., Competing Interests: Conflicts of interest None., (Copyright © 2023 Elsevier Inc. All rights reserved.)
- Published
- 2023
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7. Author Correction: Development of a functional salivary gland tissue chip with potential for high-content drug screening.
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Song Y, Uchida H, Sharipol A, Piraino L, Mereness JA, Ingalls MH, Rebhahn J, Newlands SD, DeLouise LA, Ovitt CE, and Benoit DSW
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- 2022
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8. Author Correction: Development of a functional salivary gland tissue chip with potential for high-content drug screening.
- Author
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Song Y, Uchida H, Sharipol A, Piraino L, Mereness JA, Ingalls MH, Rebhahn J, Newlands SD, DeLouise LA, Ovitt CE, and Benoit DSW
- Published
- 2021
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9. Development of a functional salivary gland tissue chip with potential for high-content drug screening.
- Author
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Song Y, Uchida H, Sharipol A, Piraino L, Mereness JA, Ingalls MH, Rebhahn J, Newlands SD, DeLouise LA, Ovitt CE, and Benoit DSW
- Subjects
- Acinar Cells metabolism, Acinar Cells radiation effects, Animals, Calcium Signaling drug effects, Cells, Cultured, Female, Humans, Hydrogels, Male, Mice, Inbred C57BL, Microbubbles, Middle Aged, Parotid Gland drug effects, Parotid Gland metabolism, Parotid Gland radiation effects, Phenotype, Polyethylene Glycols chemistry, Radiation Injuries etiology, Radiation Injuries metabolism, Salivary Glands metabolism, Salivary Glands radiation effects, Xerostomia etiology, Xerostomia metabolism, Mice, Acinar Cells drug effects, Drug Evaluation, Preclinical, High-Throughput Screening Assays, Radiation Injuries prevention & control, Salivary Glands drug effects, Tissue Array Analysis, Xerostomia prevention & control
- Abstract
Radiation therapy for head and neck cancers causes salivary gland dysfunction leading to permanent xerostomia. Limited progress in the discovery of new therapeutic strategies is attributed to the lack of in vitro models that mimic salivary gland function and allow high-throughput drug screening. We address this limitation by combining engineered extracellular matrices with microbubble (MB) array technology to develop functional tissue mimetics for mouse and human salivary glands. We demonstrate that mouse and human salivary tissues encapsulated within matrix metalloproteinase-degradable poly(ethylene glycol) hydrogels formed in MB arrays are viable, express key salivary gland markers, and exhibit polarized localization of functional proteins. The salivary gland mimetics (SGm) respond to calcium signaling agonists and secrete salivary proteins. SGm were then used to evaluate radiosensitivity and mitigation of radiation damage using a radioprotective compound. Altogether, SGm exhibit phenotypic and functional parameters of salivary glands, and provide an enabling technology for high-content/throughput drug testing.
- Published
- 2021
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10. Long-Term Maintenance of Acinar Cells in Human Submandibular Glands After Radiation Therapy.
- Author
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Luitje ME, Israel AK, Cummings MA, Giampoli EJ, Allen PD, Newlands SD, and Ovitt CE
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- Acinar Cells pathology, Cell Plasticity, Cell Proliferation radiation effects, Chemoradiotherapy adverse effects, DNA Damage, Humans, Prospective Studies, Radiotherapy adverse effects, Radiotherapy Dosage, Retrospective Studies, Submandibular Gland drug effects, Submandibular Gland pathology, Vimentin analysis, Acinar Cells radiation effects, Head and Neck Neoplasms radiotherapy, Submandibular Gland radiation effects
- Abstract
Purpose: In a combined retrospective and prospective study, human salivary glands were investigated after radiation treatment for head and neck cancers. The aim was to assess acinar cell loss and morphologic changes after radiation therapy and to determine whether irradiated salivary glands have regenerative potential., Methods and Materials: Irradiated human submandibular and parotid salivary glands were collected from 16 patients at a range of time intervals after completion of radiation therapy (RT). Control samples were collected from 14 patients who had not received radiation treatments. Tissue sections were analyzed using immunohistochemistry to stain for molecular markers., Results: Human submandibular and parotid glands isolated less than 1 year after RT showed a near complete loss of acinar cells. However, acinar units expressing functional secretory markers were observed in all samples isolated at later intervals after RT. Significantly lower acinar cell numbers and increased fibrosis were found in glands treated with combined radiation and chemotherapy, in comparison to glands treated with RT alone. Irradiated samples showed increased staining for duct cell keratin markers, as well as many cells coexpressing acinar- and duct cell-specific markers, in comparison to nonirradiated control samples., Conclusions: After RT, acinar cell clusters are maintained in human submandibular glands for years. The surviving acinar cells retain proliferative potential, although significant regeneration does not occur. Persistent DNA damage, increased fibrosis, and altered cell identity suggest mechanisms that may impair regeneration., (Copyright © 2020 Elsevier Inc. All rights reserved.)
- Published
- 2021
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11. Intrinsic mitotic activity supports the human salivary gland acinar cell population.
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Ingalls MH, Hollomon AJ, Newlands SD, McDavid AN, and Ovitt CE
- Subjects
- Animals, Cell Cycle genetics, Cell Differentiation drug effects, Deoxyuridine analogs & derivatives, Deoxyuridine pharmacology, Epithelial Cells cytology, Epithelial Cells drug effects, Humans, Mice, Salivary Glands cytology, Acinar Cells cytology, Cell Differentiation genetics, Mitosis genetics, Salivary Glands growth & development
- Abstract
To develop treatments for salivary gland dysfunction, it is important to understand how human salivary glands are maintained under normal homeostasis. Previous data from our lab demonstrated that murine salivary acinar cells maintain the acinar cell population through self-duplication under conditions of homeostasis, as well as after injury. Early studies suggested that human acinar cells are mitotically active, but the identity of the resultant daughter cells was not clear. Using markers of cell cycle activity and mitosis, as well as an ex vivo 5-Ethynyl-2´-deoxyuridine assay, we show that human salivary gland acinar cells divide to generate daughter acinar cells. As in mouse, our data indicate that human salivary gland homeostasis is supported by the intrinsic mitotic capacity of acinar cells., (© 2019 Federation of European Biochemical Societies.)
- Published
- 2020
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12. Salivary gland cell aggregates are derived from self-organization of acinar lineage cells.
- Author
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Varghese JJ, Hansen ME, Sharipol A, Ingalls MH, Ormanoski MA, Newlands SD, Ovitt CE, and Benoit DSW
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- Acinar Cells radiation effects, Animals, Calcium physiology, Cell Count, Cell Differentiation, Cell Proliferation, Cells, Cultured, Humans, Mice, Salivary Glands radiation effects, Acinar Cells cytology, Salivary Glands cytology
- Abstract
Objective: The objective of this study was to characterize the mechanism by which salivary gland cells (SGC) aggregate in vitro., Design: Timelapse microscopy was utilized to analyze the process of salivary gland aggregate formation using both primary murine and human salivary gland cells. The role of cell density, proliferation, extracellular calcium, and secretory acinar cells in aggregate formation was investigated. Finally, the ability of cells isolated from irradiated glands to form aggregates was also evaluated., Results: Salivary gland cell self-organization rather than proliferation was the predominant mechanism of aggregate formation in both primary mouse and human salivary gland cultures. Aggregation was found to require extracellular calcium while acinar lineage cells account for ∼80% of the total aggregate cell population. Finally, aggregation was not impaired by irradiation., Conclusions: The data reveal that aggregation occurs as a result of heterogeneous salivary gland cell self-organization rather than from stem cell proliferation and differentiation, contradicting previous dogma. These results suggest a re-evaluation of aggregate formation as a criterion defining salivary gland stem cells., (Copyright © 2018 Elsevier Ltd. All rights reserved.)
- Published
- 2019
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13. Localized Delivery of Amifostine Enhances Salivary Gland Radioprotection.
- Author
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Varghese JJ, Schmale IL, Mickelsen D, Hansen ME, Newlands SD, Benoit DSW, Korshunov VA, and Ovitt CE
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- Acinar Cells drug effects, Acinar Cells radiation effects, Amifostine therapeutic use, Animals, Female, Fluorescent Antibody Technique, Injections, Mercaptoethylamines administration & dosage, Mercaptoethylamines therapeutic use, Mice, Mice, Inbred C57BL, Radiation Injuries, Experimental pathology, Radiation Injuries, Experimental prevention & control, Radiation-Protective Agents therapeutic use, Salivary Glands drug effects, Salivary Glands pathology, Submandibular Gland drug effects, Submandibular Gland radiation effects, Amifostine administration & dosage, Radiation-Protective Agents administration & dosage, Salivary Glands radiation effects
- Abstract
Radiotherapy for head and neck cancers commonly causes damage to salivary gland tissue, resulting in xerostomia (dry mouth) and numerous adverse medical and quality-of-life issues. Amifostine is the only Food and Drug Administration-approved radioprotective drug used clinically to prevent xerostomia. However, systemic administration of amifostine is limited by severe side effects, including rapid decrease in blood pressure (hypotension), nausea, and a narrow therapeutic window. In this study, we demonstrate that retroductal delivery of amifostine and its active metabolite, WR-1065, to murine submandibular glands prior to a single radiation dose of 15 Gy maintained gland function and significantly increased acinar cell survival. Furthermore, in vivo stimulated saliva secretion was maintained in retrograde-treated groups at levels significantly higher than irradiated-only and systemically treated groups. In contrast to intravenous injections, retroductal delivery of WR-1065 or amifostine significantly attenuated hypotension. We conclude that localized delivery to salivary glands markedly improves radioprotection at the cellular level, as well as mitigates the adverse side effects associated with systemic administration. These results support the further development of a localized delivery system that would be compatible with the fractionated dose regimen used clinically.
- Published
- 2018
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14. Murine Salivary Functional Assessment via Pilocarpine Stimulation Following Fractionated Radiation.
- Author
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Varghese JJ, Schmale IL, Hansen ME, Newlands SD, Benoit DSW, and Ovitt CE
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- Animals, Dose Fractionation, Radiation, Female, Humans, Male, Mice, Mice, Inbred C57BL, Pilocarpine pharmacology, Xerostomia radiotherapy, Pilocarpine therapeutic use, Salivary Glands diagnostic imaging, Xerostomia diagnostic imaging
- Abstract
Hyposalivation is commonly observed in the autoimmune reaction of Sjögren's syndrome or following radiation injury to the major salivary glands. In these cases, questions remain regarding disease pathogenesis and effective interventions. An optimized technique that allows functional assessment of the salivary glands is invaluable for investigating exocrine gland biology, dysfunction, and therapeutics. Here, we present a step by step approach to performing pilocarpine stimulated saliva secretion, including tracheostomy and the dissection of the three major murine salivary glands. We also detail the appropriate murine head and neck anatomy accessed during these techniques. This approach is scalable, allowing for multiple mice to be processed simultaneously, thus improving the efficiency of the work flow. We aim to improve the reproducibility of these methods, each of which has further applications within the field. In addition to saliva collection, we discuss metrics for quantifying and normalizing functional capacity of these tissues. Representative data are included from submandibular glands with depressed salivary gland function 2 weeks following fractionated radiation (4 doses of 6.85 Gy).
- Published
- 2018
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15. Retroductal Nanoparticle Injection to the Murine Submandibular Gland.
- Author
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Varghese JJ, Schmale IL, Wang Y, Hansen ME, Newlands SD, Ovitt CE, and Benoit DSW
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- Animals, Humans, Mice, Mice, Inbred C57BL, Nanoparticles chemistry, Submandibular Gland physiopathology
- Abstract
Two common goals of salivary gland therapeutics are prevention and cure of tissue dysfunction following either autoimmune or radiation injury. By locally delivering bioactive compounds to the salivary glands, greater tissue concentrations can be safely achieved versus systemic administration. Furthermore, off target tissue effects from extra-glandular accumulation of material can be dramatically reduced. In this regard, retroductal injection is a widely used method for investigating both salivary gland biology and pathophysiology. Retroductal administration of growth factors, primary cells, adenoviral vectors, and small molecule drugs has been shown to support gland function in the setting of injury. We have previously shown the efficacy of a retroductally injected nanoparticle-siRNA strategy to maintain gland function following irradiation. Here, a highly effective and reproducible method to administer nanomaterials to the murine submandibular gland through Wharton's duct is detailed (Figure 1). We describe accessing the oral cavity and outline the steps necessary to cannulate Wharton's duct, with further observations serving as quality checks throughout the procedure.
- Published
- 2018
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16. Convergence of linear acceleration and yaw rotation signals on non-eye movement neurons in the vestibular nucleus of macaques.
- Author
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Newlands SD, Abbatematteo B, Wei M, Carney LH, and Luan H
- Subjects
- Animals, Macaca fascicularis, Male, Vestibular Nuclei cytology, Neurons physiology, Particle Accelerators, Perception, Rotation, Vestibular Nuclei physiology
- Abstract
Roughly half of all vestibular nucleus neurons without eye movement sensitivity respond to both angular rotation and linear acceleration. Linear acceleration signals arise from otolith organs, and rotation signals arise from semicircular canals. In the vestibular nerve, these signals are carried by different afferents. Vestibular nucleus neurons represent the first point of convergence for these distinct sensory signals. This study systematically evaluated how rotational and translational signals interact in single neurons in the vestibular nuclei: multisensory integration at the first opportunity for convergence between these two independent vestibular sensory signals. Single-unit recordings were made from the vestibular nuclei of awake macaques during yaw rotation, translation in the horizontal plane, and combinations of rotation and translation at different frequencies. The overall response magnitude of the combined translation and rotation was generally less than the sum of the magnitudes in responses to the stimuli applied independently. However, we found that under conditions in which the peaks of the rotational and translational responses were coincident these signals were approximately additive. With presentation of rotation and translation at different frequencies, rotation was attenuated more than translation, regardless of which was at a higher frequency. These data suggest a nonlinear interaction between these two sensory modalities in the vestibular nuclei, in which coincident peak responses are proportionally stronger than other, off-peak interactions. These results are similar to those reported for other forms of multisensory integration, such as audio-visual integration in the superior colliculus. NEW & NOTEWORTHY This is the first study to systematically explore the interaction of rotational and translational signals in the vestibular nuclei through independent manipulation. The results of this study demonstrate nonlinear integration leading to maximum response amplitude when the timing and direction of peak rotational and translational responses are coincident.
- Published
- 2018
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17. Responses of non-eye-movement central vestibular neurons to sinusoidal yaw rotation in compensated macaques after unilateral semicircular canal plugging.
- Author
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Newlands SD, Wei M, Morgan D, and Luan H
- Subjects
- Action Potentials, Animals, Female, Macaca mulatta, Male, Microelectrodes, Models, Animal, Physical Stimulation, Neurons physiology, Proprioception physiology, Rotation, Semicircular Canals physiology, Vestibular Nuclei physiology
- Abstract
After vestibular labyrinth injury, behavioral measures of vestibular performance recover to variable degrees (vestibular compensation). Central neuronal responses after unilateral labyrinthectomy (UL), which eliminates both afferent resting activity and sensitivity to movement, have been well-studied. However, unilateral semicircular canal plugging (UCP), which attenuates angular-velocity detection while leaving afferent resting activity intact, has not been extensively studied. The current study reports response properties of yaw-sensitive non-eye-movement rhesus macaque vestibular neurons after compensation from UCP. The responses at a series of frequencies (0.1-2 Hz) and peak velocities (15-210°/s) were compared between neurons recorded before and at least 6 wk after UCP. The gain (sp/s/°/s) of central type I neurons (responding to ipsilateral yaw rotation) on the side of UCP was reduced relative to normal controls at 0.5 Hz, ±60°/s [0.48 ± 0.30 (SD) normal, 0.32 ± 0.15 ipsilesion; 0.44 ± 0.2 contralesion]. Type II neurons (responding to contralateral yaw rotation) after UCP have reduced gain (0.40 ± 0.27 normal, 0.35 ± 0.25 ipsilesion; 0.25 ± 0.18 contralesion). The difference between responses after UCP and after UL is primarily the distribution of type I and type II neurons in the vestibular nuclei (type I neurons comprise 66% in vestibular nuclei normally; 51% ipsilesion UCP; 59% contralesion UCP; 38% ipsilesion UL; 65% contralesion UL) and the magnitude of the responses of type II neurons ipsilateral to the lesion. These differences suggest that the need to compensate for unilateral loss of resting vestibular nerve activity after UL necessitates a different strategy for recovery of dynamic vestibular responses compared to after UCP., (Copyright © 2016 the American Physiological Society.)
- Published
- 2016
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18. Disease-Specific Survival with Spindle Cell Carcinoma of the Head and Neck.
- Author
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Bice TC, Tran V, Merkley MA, Newlands SD, van der Sloot PG, Wu S, and Miller MC
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- Analysis of Variance, Carcinoma, Squamous Cell mortality, Cohort Studies, Female, Humans, Hypopharyngeal Neoplasms mortality, Laryngeal Neoplasms mortality, Male, Middle Aged, Mouth Neoplasms mortality, Multivariate Analysis, Oropharyngeal Neoplasms mortality, Prognosis, Retrospective Studies, Carcinoma mortality, Head and Neck Neoplasms mortality
- Abstract
Objectives: (1) Determine factors influencing survival in patients diagnosed with spindle cell carcinoma (SpCC), a rare variant of head and neck squamous cell carcinoma (SCC). (2) Compare survival of patients with SpCC to those with conventional SCC., Study Design: Retrospective cohort study., Setting: Surveillance, Epidemiology, and End Results 18 database (years 2004-2009)., Subjects and Methods: Among patients receiving treatment for a single primary in the oral cavity, oropharynx, hypopharynx, or larynx, 118 subjects with SpCC and 18,298 subjects with SCC were identified with complete data for the variables of age, sex, grade, tumor size, stage group, and TNM stage. Disease-specific survival curves were compared. Univariate and multivariate analyses were used to examine the effects of each factor on survival over all sites and within each of 3 sites., Results: Univariate analysis of the combination of the 3 anatomic subsites showed survival with SpCC was worse than with conventional SCC (P < .001). Three-year disease-specific survival with SpCC was 49.5%, and 5-year disease-specific survival was 40.2%. Compared with conventional SCC, survival was worse for SpCC of the oral cavity (P < .001) and oropharynx (P < .001) but no different for the larynx and hypopharynx site (P = .15). Multivariate analysis identified age (P = .02), tumor size (P = .006), and M stage (P < .001) as the only variables significantly affecting survival with SpCC. All variables significantly affected survival with conventional SCC., Conclusions: Spindle cell carcinoma carries a worse prognosis than SCC. Larger tumor size, older age, and metastatic disease portend worse survival with SpCC of the head and neck., (© American Academy of Otolaryngology—Head and Neck Surgery Foundation 2015.)
- Published
- 2015
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19. Long-term deficits in motion detection thresholds and spike count variability after unilateral vestibular lesion.
- Author
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Yu XJ, Thomassen JS, Dickman JD, Newlands SD, and Angelaki DE
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- Animals, Macaca mulatta, Male, Neurons, Afferent physiology, Rotation, Semicircular Canals cytology, Sensory Thresholds, Vestibular Nuclei cytology, Vestibule, Labyrinth cytology, Evoked Potentials, Somatosensory, Motion Perception, Semicircular Canals physiology, Vestibular Nuclei physiology, Vestibule, Labyrinth physiology
- Abstract
The vestibular system operates in a push-pull fashion using signals from both labyrinths and an intricate bilateral organization. Unilateral vestibular lesions cause well-characterized motor deficits that are partially compensated over time and whose neural correlates have been traced in the mean response modulation of vestibular nuclei cells. Here we compare both response gains and neural detection thresholds of vestibular nuclei and semicircular canal afferent neurons in intact vs. unilateral-lesioned macaques using three-dimensional rotation and translation stimuli. We found increased stimulus-driven spike count variability and detection thresholds in semicircular canal afferents, although mean responses were unchanged, after contralateral labyrinth lesion. Analysis of trial-by-trial spike count correlations of a limited number of simultaneously recorded pairs of canal afferents suggests increased noise correlations after lesion. In addition, we also found persistent, chronic deficits in rotation detection thresholds of vestibular nuclei neurons, which were larger in the ipsilesional than the contralesional brain stem. These deficits, which persisted several months after lesion, were due to lower rotational response gains, whereas spike count variability was similar in intact and lesioned animals. In contrast to persistent deficits in rotation threshold, translation detection thresholds were not different from those in intact animals. These findings suggest that, after compensation, a single labyrinth is sufficient to recover motion sensitivity and normal thresholds for the otolith, but not the semicircular canal, system., (Copyright © 2014 the American Physiological Society.)
- Published
- 2014
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20. Responses of non-eye movement central vestibular neurons to sinusoidal horizontal translation in compensated macaques after unilateral labyrinthectomy.
- Author
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Newlands SD, Lin N, and Wei M
- Subjects
- Action Potentials, Animals, Eye Movements, Female, Macaca mulatta, Male, Reflex, Rotation, Sensory Thresholds, Vestibular Nuclei cytology, Ear, Inner physiology, Neurons physiology, Orientation, Vestibular Nuclei physiology
- Abstract
After vestibular labyrinth injury, behavioral deficits partially recover through the process of vestibular compensation. The present study was performed to improve our understanding of the physiology of the macaque vestibular system in the compensated state (>7 wk) after unilateral labyrinthectomy (UL). Three groups of vestibular nucleus neurons were included: pre-UL control neurons, neurons ipsilateral to the lesion, and neurons contralateral to the lesion. The firing responses of neurons sensitive to linear acceleration in the horizontal plane were recorded during sinusoidal horizontal translation directed along six different orientations (30° apart) at 0.5 Hz and 0.2 g peak acceleration (196 cm/s(2)). This data defined the vector of best response for each neuron in the horizontal plane, along which sensitivity, symmetry, detection threshold, and variability of firing were determined. Additionally, the responses of the same cells to translation over a series of frequencies (0.25-5.0 Hz) either in the interaural or naso-occipital orientation were obtained to define the frequency response characteristics in each group. We found a decrease in sensitivity, increase in threshold, and alteration in orientation of best responses in the vestibular nuclei after UL. Additionally, the phase relationship of the best neural response to translational stimulation changed with UL. The symmetry of individual neuron responses in the excitatory and inhibitory directions was unchanged by UL. Bilateral central utricular neurons still demonstrated two-dimension tuning after UL, consistent with spatio-temporal convergence from a single vestibular end-organ. These neuronal data correlate with known behavioral deficits after unilateral vestibular compromise., (Copyright © 2014 the American Physiological Society.)
- Published
- 2014
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21. Sensory convergence in the parieto-insular vestibular cortex.
- Author
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Shinder ME and Newlands SD
- Subjects
- Animals, Darkness, Eye Movements physiology, Female, Head physiology, Macaca mulatta, Male, Microelectrodes, Neck physiology, Physical Stimulation, Proprioception physiology, Rotation, Visual Perception physiology, Volition, Cerebral Cortex physiology, Motion Perception physiology, Neurons physiology, Parietal Lobe physiology
- Abstract
Vestibular signals are pervasive throughout the central nervous system, including the cortex, where they likely play different roles than they do in the better studied brainstem. Little is known about the parieto-insular vestibular cortex (PIVC), an area of the cortex with prominent vestibular inputs. Neural activity was recorded in the PIVC of rhesus macaques during combinations of head, body, and visual target rotations. Activity of many PIVC neurons was correlated with the motion of the head in space (vestibular), the twist of the neck (proprioceptive), and the motion of a visual target, but was not associated with eye movement. PIVC neurons responded most commonly to more than one stimulus, and responses to combined movements could often be approximated by a combination of the individual sensitivities to head, neck, and target motion. The pattern of visual, vestibular, and somatic sensitivities on PIVC neurons displayed a continuous range, with some cells strongly responding to one or two of the stimulus modalities while other cells responded to any type of motion equivalently. The PIVC contains multisensory convergence of self-motion cues with external visual object motion information, such that neurons do not represent a specific transformation of any one sensory input. Instead, the PIVC neuron population may define the movement of head, body, and external visual objects in space and relative to one another. This comparison of self and external movement is consistent with insular cortex functions related to monitoring and explains many disparate findings of previous studies., (Copyright © 2014 the American Physiological Society.)
- Published
- 2014
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22. Reduced choice-related activity and correlated noise accompany perceptual deficits following unilateral vestibular lesion.
- Author
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Liu S, Dickman JD, Newlands SD, DeAngelis GC, and Angelaki DE
- Subjects
- Analysis of Variance, Animals, Cerebellar Nuclei physiology, Computer Simulation, Head Movements physiology, Likelihood Functions, Macaca mulatta, Vestibular Nuclei physiology, Choice Behavior physiology, Motion Perception physiology, Orientation physiology, Vestibule, Labyrinth injuries
- Abstract
Signals from the bilateral vestibular labyrinths work in tandem to generate robust estimates of our motion and orientation in the world. The relative contributions of each labyrinth to behavior, as well as how the brain recovers after unilateral peripheral damage, have been characterized for motor reflexes, but never for perceptual functions. Here we measure perceptual deficits in a heading discrimination task following surgical ablation of the neurosensory epithelium in one labyrinth. We found large increases in heading discrimination thresholds and large perceptual biases at 1 wk postlesion. Repeated testing thereafter improved heading perception, but vestibular discrimination thresholds remained elevated 3 mo postlesion. Electrophysiological recordings from the contralateral vestibular and cerebellar nuclei revealed elevated neuronal discrimination thresholds, elevated neurometric-to-psychometric threshold ratios, and reduced trial-by-trial correlations with perceptual decisions ["choice probabilities" (CPs)]. The relationship between CP and neuronal threshold was shallower, but not significantly altered, suggesting that smaller CPs in lesioned animals could be largely attributable to greater neuronal thresholds. Simultaneous recordings from pairs of neurons revealed that correlated noise among neurons was also reduced following the lesion. Simulations of a simple pooling model, which takes into account the observed changes in tuning slope and correlated noise, qualitatively accounts for the elevated psychophysical thresholds and neurometric-to-psychometric ratios, as well as the decreased CPs. Thus, cross-labyrinthine interactions appear to play important roles in enhancing neuronal and perceptual sensitivity, strengthening interneuronal correlations, and facilitating correlations between neural activity and perceptual decisions.
- Published
- 2013
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23. Responses of central vestibular neurons to sinusoidal yaw rotation in compensated macaques after unilateral labyrinthectomy.
- Author
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Newlands SD and Wei M
- Subjects
- Animals, Ear, Inner innervation, Ear, Inner surgery, Macaca mulatta, Sensory Thresholds, Vestibular Nuclei cytology, Action Potentials, Ear, Inner physiology, Neurons physiology, Rotation, Vestibular Nuclei physiology
- Abstract
After vestibular labyrinth injury, behavioral measures of vestibular function partially recover through the process of vestibular compensation. The present study was performed to improve our understanding of the physiology of macaque vestibular nucleus neurons in the compensated state (>6 wk) after unilateral labyrinthectomy (UL). The responses of neurons to sinusoidal yaw rotation at a series of frequencies (0.1-2.0 Hz) and peak velocities (7.5-210°/s) were examined to determine how the behavior of these cells differed from those in animals with intact labyrinths. The sensitivity of neurons responding to ipsilateral rotation (type I) did not differ between the intact and injured sides after UL, although this sensitivity was lower bilaterally after lesion than before lesion. The sensitivity of neurons that increase firing with contralateral rotation (type II) was higher ipsilateral to the UL than before lesion or in the nucleus contralateral to the UL. UL did not increase asymmetry in the responses of individual type I or II neurons to ipsilateral vs. contralateral rotation, nor does it change the power law relationship between neuronal firing and level of stimulation. Increased sensitivities of contralesional type I neurons to the remaining vestibular nerve input and increased efficacy of inhibitory vestibular commissures projecting to the ipsilesional vestibular nucleus appear to be responsible for recovery of dynamic function of central vestibular neurons in compensated animals. The portion of type I neurons on the ipsilesional side is reduced in compensated animals, which likely accounts for the asymmetries in vestibular reflexes and perception that characterize vestibular function after UL.
- Published
- 2013
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24. Tests of linearity in the responses of eye-movement-sensitive vestibular neurons to sinusoidal yaw rotation.
- Author
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Newlands SD and Wei M
- Subjects
- Animals, Head Movements, Macaca mulatta, Neurons classification, Reflex, Vestibulo-Ocular, Vestibular Nuclei cytology, Eye Movements, Neurons physiology, Rotation, Vestibular Nuclei physiology
- Abstract
The rotational vestibulo-ocular reflex in primates is linear and stabilizes gaze in space over a large range of head movements. Best evidence suggests that position-vestibular-pause (PVP) and eye-head velocity (EHV) neurons in the vestibular nuclei are the primary mediators of vestibulo-ocular reflexes for rotational head movements, yet the linearity of these neurons has not been extensively tested. The current study was undertaken to understand how varying magnitudes of yaw rotation are coded in these neurons. Sixty-six PVP and 41 EHV neurons in the rostral vestibular nuclei of 7 awake rhesus macaques were recorded over a range of frequencies (0.1 to 2 Hz) and peak velocities (7.5 to 210°/s at 0.5 Hz). The sensitivity (gain) of the neurons decreased with increasing peak velocity of rotation for all PVP neurons and EHV neurons sensitive to ipsilateral rotation (type I). The sensitivity of contralateral rotation-sensitive (type II) EHV neurons did not significantly decrease with increasing peak velocity. These data show that, like non-eye-movement-related vestibular nuclear neurons that are believed to mediate nonlinear vestibular functions, PVP neurons involved in the linear vestibulo-ocular reflex also behave in a nonlinear fashion. Similar to other sensory nuclei, the magnitude of the vestibular stimulus is not linearly coded by the responses of vestibular neurons; rather, amplitude compression extends the dynamic range of PVP and type I EHV vestibular neurons.
- Published
- 2013
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25. Convergence of vestibular and neck proprioceptive sensory signals in the cerebellar interpositus.
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Luan H, Gdowski MJ, Newlands SD, and Gdowski GT
- Subjects
- Animals, Eye Movements physiology, Female, Movement physiology, Posture physiology, Rotation, Saimiri, Semicircular Canals physiology, Cerebellar Nuclei physiology, Head Movements physiology, Neck physiology, Neurons physiology, Proprioception physiology, Vestibular Nuclei physiology
- Abstract
The cerebellar interpositus nucleus (IN) contributes to controlling voluntary limb movements. We hypothesized that the vestibular signals within the IN might be transformed into coordinates describing the body's movement, appropriate for controlling limb movement. We tested this hypothesis by recording from IN neurons in alert squirrel monkeys during vestibular and proprioceptive stimulation produced during (1) yaw head-on-trunk rotation about the C1-C2 axis while in an orthograde posture and (2) lateral side-to-side flexion about the C6-T3 axis while in a pronograde posture. Neurons (44/67) were sensitive to vestibular stimulation (23/44 to rotation and translation, 14/44 to rotation only, 7/44 to translation only). Most neurons responded during contralateral movement. Neurons (29/44) had proprioceptive responses; the majority (21/29) were activated during neck rotation and lateral flexion. In all 29 neurons with convergent vestibular and neck proprioceptive input those inputs functionally canceled each other during all combined sensory stimulation, whether in the orthograde or pronograde posture. These results suggest that two distinct populations of IN neurons exist, each of which has vestibular sensitivity. One population carries vestibular signals that describe the head's movement in space as is traditional for vestibular signals without proprioceptive signals. A second population of neurons demonstrated precise matching of vestibular and proprioceptive signals, even for complicated stimuli, which activated the semicircular canals and otolith organs and involved both rotation and flexion in the spine. Such neurons code body (not head) motion in space, which may be the appropriate platform for controlling limb movements.
- Published
- 2013
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26. Does orbital proprioception contribute to gaze stability during translation?
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Wei M, Lin N, and Newlands SD
- Subjects
- Animals, Eye Movements physiology, Head Movements physiology, Macaca mulatta, Reflex, Vestibulo-Ocular physiology, Orientation physiology, Photic Stimulation methods, Proprioception physiology, Pursuit, Smooth physiology
- Abstract
Translational motion induces retinal image slip which varies with object distance. The brain must know binocular eye position in real time in order to scale eye movements so as to minimize retinal slip. Two potential sources of eye position information are orbital proprioception and an internal representation of eye position derived from central ocular motor signals. To examine the role of orbital proprioceptive information, the position of the left eye was perturbed by microstimulation of the left abducens nerve during translational motion to the right or left along the interaural axis in two rhesus macaques. Microstimulation rotated the eye laterally, activating eye muscle proprioceptors, while keeping central motor commands undisturbed. We found that microstimulation-induced eye position changes did not affect the translational VOR in the abductive (lateral rectus) direction, but it did influence the responses in the adductive (medial rectus) direction. Our findings demonstrate that proprioceptive inputs appear to be involved in the TVOR responses at least during ipsilateral head movements and proprioceptive influences on the TVOR may involve vergence-related signals to the oculomotor nucleus. However, internal representation of eye position, derived from central ocular motor signals, likely plays the dominant role in providing eye position information for scaling eye movements during translational motion, particularly in the abducent direction.
- Published
- 2011
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27. Response linearity of alert monkey non-eye movement vestibular nucleus neurons during sinusoidal yaw rotation.
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Newlands SD, Lin N, and Wei M
- Subjects
- Action Potentials physiology, Analysis of Variance, Animals, Eye Movements physiology, Macaca mulatta, Reaction Time physiology, Reflex, Vestibulo-Ocular physiology, Rotation, Vision, Ocular physiology, Head Movements physiology, Neurons physiology, Nystagmus, Physiologic physiology, Vestibular Nuclei cytology, Wakefulness
- Abstract
Vestibular afferents display linear responses over a range of amplitudes and frequencies, but comparable data for central vestibular neurons are lacking. To examine the effect of stimulus frequency and magnitude on the response sensitivity and linearity of non-eye movement central vestibular neurons, we recorded from the vestibular nuclei in awake rhesus macaques during sinusoidal yaw rotation at frequencies between 0.1 and 2 Hz and between 7.5 and 210 degrees/s peak velocity. The dynamics of the neurons' responses across frequencies, while holding peak velocity constant, was consistent with previous studies. However, as the peak velocity was varied, while holding the frequency constant, neurons demonstrated lower sensitivities with increasing peak velocity, even at the lowest peak velocities tested. With increasing peak velocity, the proportion of neurons that silenced during a portion of the response increased. However, the decrease in sensitivity of these neurons with higher peak velocities of rotation was not due to increased silencing during the inhibitory portion of the cycle. Rather the neurons displayed peak firing rates that did not increase in proportion to head velocity as the peak velocity of rotation increased. These data suggest that, unlike vestibular afferents, the central vestibular neurons without eye movement sensitivity examined in this study do not follow linear systems principles even at low velocities.
- Published
- 2009
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28. Check Sample Abstracts.
- Author
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Alter D, Grenache DG, Bosler DS, Karcher RE, Nichols J, Rajadhyaksha A, Camelo-Piragua S, Rauch C, Huddleston BJ, Frank EL, Sluss PM, Lewandrowski K, Eichhorn JH, Hall JE, Rahman SS, McPherson RA, Kiechle FL, Hammett-Stabler C, Pierce KA, Kloehn EA, Thomas PA, Walts AE, Madan R, Schlesinger K, Nawgiri R, Bhutani M, Kanber Y, Abati A, Atkins KA, Farrar R, Gopez EV, Jhala D, Griffin S, Jhala K, Jhala N, Bentz JS, Emerson L, Chadwick BE, Barroeta JE, Baloch ZW, Collins BT, Middleton OL, Davis GG, Haden-Pinneri K, Chu AY, Keylock JB, Ramoso R, Thoene CA, Stewart D, Pierce A, Barry M, Aljinovic N, Gardner DL, Barry M, Shields LB, Arnold J, Stewart D, Martin EL, Rakow RJ, Paddock C, Zaki SR, Prahlow JA, Stewart D, Shields LB, Rolf CM, Falzon AL, Hudacki R, Mazzella FM, Bethel M, Zarrin-Khameh N, Gresik MV, Gill R, Karlon W, Etzell J, Deftos M, Karlon WJ, Etzell JE, Wang E, Lu CM, Manion E, Rosenthal N, Wang E, Lu CM, Tang P, Petric M, Schade AE, Hall GS, Oethinger M, Hall G, Picton AR, Hoang L, Imperial MR, Kibsey P, Waites K, Duffy L, Hall GS, Salangsang JA, Bravo LT, Oethinger MD, Veras E, Silva E, Vicens J, Silva E, Keylock J, Hempel J, Rushing E, Posligua LE, Deavers MT, Nash JW, Basturk O, Perle MA, Greco A, Lee P, Maru D, Weydert JA, Stevens TM, Brownlee NA, Kemper AE, Williams HJ, Oliverio BJ, Al-Agha OM, Eskue KL, Newlands SD, Eltorky MA, Puri PK, Royer MC, Rush WL, Tavora F, Galvin JR, Franks TJ, Carter JE, Kahn AG, Lozada Muñoz LR, Houghton D, Land KJ, Nester T, Gildea J, Lefkowitz J, Lacount RA, Thompson HW, Refaai MA, Quillen K, Lopez AO, Goldfinger D, Muram T, and Thompson H
- Abstract
The following abstracts are compiled from Check Sample exercises published in 2008. These peer-reviewed case studies assist laboratory professionals with continuing medical education and are developed in the areas of clinical chemistry, cytopathology, forensic pathology, hematology, microbiology, surgical pathology, and transfusion medicine. Abstracts for all exercises published in the program will appear annually in AJCP.
- Published
- 2009
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29. Do neck levels negative on initial CT need to be dissected after definitive radiation therapy with or without chemotherapy?
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Rao NG, Sanguineti G, Chaljub G, Newlands SD, and Qiu S
- Subjects
- Adult, Carcinoma, Squamous Cell pathology, Chemotherapy, Adjuvant, Female, Head and Neck Neoplasms pathology, Humans, Lymphatic Metastasis, Male, Middle Aged, Predictive Value of Tests, Radiotherapy, Adjuvant, Retrospective Studies, Sensitivity and Specificity, Tomography, X-Ray Computed, Carcinoma, Squamous Cell therapy, Head and Neck Neoplasms therapy, Lymph Nodes diagnostic imaging, Neck Dissection
- Abstract
Background: The extent of the adjuvant neck dissection after radiotherapy with or without chemotherapy remains undefined. We investigated whether we could limit neck dissection to levels with positive lymph nodes on CT scan before treatment., Methods: Twenty-one patients' initial diagnostic CT scans were reviewed retrospectively and neck levels were scored positive for malignancy if the respective lymph nodes met any of the following: maximum axial diameter >1 cm; oval/round shape; hypodensity; presence of extracapsular penetration; and irregular enhancement. Patients were treated with radiation alone (71%) or with radiation plus chemotherapy (29%). Neck dissection consisted of radical (8 heminecks), modified radical (4 heminecks), or selective (13 heminecks)., Results: One hundred two neck levels were dissected. Of these, 56 levels (54.9%) were negative on initial CT scan. None of them was found to contain cancer., Conclusions: After radiation with or without chemotherapy, neck dissection of an initially negative neck level may not be necessary. Neck dissection may target only initially positive levels.
- Published
- 2008
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30. Predictors of reconstruction with Mohs removal of nonmelanoma skin cancers.
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Boyle K, Newlands SD, Wagner RF Jr, and Resto VA
- Subjects
- Age Factors, Aged, Ear Neoplasms surgery, Female, Humans, Male, Middle Aged, Neoplasm Recurrence, Local, Nose Neoplasms surgery, Reoperation, Sex Factors, Treatment Outcome, Mohs Surgery, Plastic Surgery Procedures methods, Skin Neoplasms surgery
- Abstract
Objectives/hypothesis: To assess clinico-demographic characteristics available before Mohs removal of nonmelanoma skin cancers of the head and neck as predictors of the need for extensive reconstruction., Study Design: Retrospective chart review., Methods: Variables examined were age, sex, race, marital status, past medical history, family history of skin cancer, use of tobacco or alcohol, history of radiation therapy, history of reconstruction, history of immunosuppression, tumor size, tumor site, histology, primary or recurrent tumor, number of tumors treated, and history and location of previous skin tumors. Univariate and multivariate analyses were performed assessing the need for extensive reconstruction after skin tumor removal as an outcome variable., Results: Age, tumor site, and a past history of reconstruction after resection of a previous skin tumor were characteristics identified as being predictive of the need for advanced reconstruction. The most common tumor locations that required postablation reconstruction were the nose (228 tumors) and the ear (148 tumors). Thirty-six of recurrent tumors and 32% of primary tumors were reconstructed. The odds of a female requiring reconstruction were 2:1. The mean ages were 64.3 years in the reconstruction group and 67.2 years in those not reconstructed. Size of tumor did not correlate with the need for reconstruction., Conclusions: Patient's age, skin tumor location, and past history of extensive reconstruction after previous resection of skin tumor are patient-specific characteristics available before tumor resection that predict the need for advanced reconstruction in patients undergoing Mohs micrographic surgery removal of skin cancers.
- Published
- 2008
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31. Developing the next generation of otolaryngologist-researchers.
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Newlands SD and Sklare DA
- Subjects
- Career Choice, Fellowships and Scholarships, Female, Forecasting, Humans, Internship and Residency, Male, Mentors, National Institutes of Health (U.S.), Research Support as Topic, United States, Biomedical Research, Otolaryngology education, Otolaryngology trends, Societies, Medical
- Abstract
The lifeblood of any specialty is innovation and discovery. It is important for the field of otolaryngology and its patients that we identify, recruit, train, and develop the next generation of researchers in otolaryngology. This article describes programs and resources currently available to otolaryngologists in training and early in their career for their development as clinician-scientists. We describe the background of the current generation of National Institutes of Health-funded otolaryngologists and discern where the next generation might come from. Special attention is given to the National Institute on Deafness and Other Communication Disorders, which focuses on supporting research and research training in hearing, balance, smell, taste, voice, speech, and language, and to programs aimed at the development of clinician-scientists.
- Published
- 2007
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32. Multimodal coding of three-dimensional rotation and translation in area MSTd: comparison of visual and vestibular selectivity.
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Takahashi K, Gu Y, May PJ, Newlands SD, DeAngelis GC, and Angelaki DE
- Subjects
- Animals, Eye Movements physiology, Fixation, Ocular physiology, Macaca mulatta, Male, Photic Stimulation, Physical Stimulation, Vision, Binocular physiology, Form Perception physiology, Motion Perception physiology, Rotation, Temporal Lobe physiology, Vestibule, Labyrinth physiology
- Abstract
Recent studies have shown that most neurons in the dorsal medial superior temporal area (MSTd) signal the direction of self-translation (i.e., heading) in response to both optic flow and inertial motion. Much less is currently known about the response properties of MSTd neurons during self-rotation. We have characterized the three-dimensional tuning of MSTd neurons while monkeys passively fixated a central, head-fixed target. Rotational stimuli were either presented using a motion platform or simulated visually using optic flow. Nearly all MSTd cells were significantly tuned for the direction of rotation in the absence of optic flow, with more neurons preferring roll than pitch or yaw rotations. The preferred rotation axis in response to optic flow was generally the opposite of that during physical rotation. This result differs sharply from our findings for translational motion, where approximately half of MSTd neurons have congruent visual and vestibular preferences. By testing a subset of neurons with combined visual and vestibular stimulation, we also show that the contributions of visual and vestibular cues to MSTd responses depend on the relative reliabilities of the two stimulus modalities. Previous studies of MSTd responses to motion in darkness have assumed a vestibular origin for the activity observed. We have directly verified this assumption by recording from MSTd neurons after bilateral labyrinthectomy. Selectivity for physical rotation and translation stimuli was eliminated after labyrinthectomy, whereas selectivity to optic flow was unaffected. Overall, the lack of MSTd neurons with congruent rotation tuning for visual and vestibular stimuli suggests that MSTd does not integrate these signals to produce a robust perception of self-rotation. Vestibular rotation signals in MSTd may instead be used to compensate for the confounding effects of rotatory head movements on optic flow.
- Published
- 2007
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33. Responses of monkey vestibular-only neurons to translation and angular rotation.
- Author
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Zhou W, Tang BF, Newlands SD, and King WM
- Subjects
- Acceleration, Animals, Data Interpretation, Statistical, Electrodes, Implanted, Fixation, Ocular physiology, Gravitation, Macaca mulatta, Neurons, Afferent physiology, Orientation physiology, Otolithic Membrane physiology, Rotation, Stereotaxic Techniques, Vestibule, Labyrinth cytology, Eye Movements physiology, Head Movements physiology, Neurons physiology, Vestibule, Labyrinth physiology
- Abstract
Single-unit recordings were obtained from central vestibular neurons in three monkeys during passive head movements. Neurons that discharged in relation to head translation or changes in head orientation, but not eye movement ("vestibular-only," n = 154), were examined in detail. Neuronal discharge rates were analyzed during four stimulus conditions: sinusoidal head translation in the horizontal plane (0.2-4 Hz, 0.2 g peak acceleration), static head tilt in the vertical plane (+/-20 degrees ), oscillatory head tilt (0.5-2 Hz), and sinusoidal angular rotation about an earth-vertical axis (0.5 or 1 Hz). Vestibular-only cells were divided into two groups based on the regularity of their spontaneous discharge rates (CV*). One group (low-sensitivity units) exhibited regular discharge rates (CV* < 0.2), weak discharge modulation during head translation (<25 spikes . s(-1) . g(-1) at f = 1 Hz), and persistent discharge rates related to static head tilt (0.68 spikes . s(-1) . degrees (-1) of head tilt). The second group (high sensitivity neurons) exhibited irregular discharge rates (CV* > 0.2), strong discharge modulation during head translation ( approximately 100 spikes . s(-1) . g(-1) at f = 1 Hz), and little or no change in discharge rate during static head tilt (0.32 spikes . s(-1) . degrees (-1)). The firing rates of some neurons in both groups were modulated during rotation about an earth-vertical axis (42%), but the modulation was greater for neurons classified as high sensitivity units. Previous reports have described neurons similar to the high sensitivity group; however, the low sensitivity or tilt neurons have not previously been characterized. Significantly, recent theoretical models have predicted neurons with discharge patterns similar to those of low- and high-sensitivity neurons.
- Published
- 2006
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34. Deficits and recovery in visuospatial memory during head motion after bilateral labyrinthine lesion.
- Author
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Wei M, Li N, Newlands SD, Dickman JD, and Angelaki DE
- Subjects
- Animals, Cues, Functional Laterality, Macaca mulatta, Motor Activity, Neural Pathways, Reference Values, Rotation, Space Perception, Time Factors, Visual Perception, Ear, Inner physiology, Head Movements physiology, Memory physiology
- Abstract
To keep a stable internal representation of the environment as we move, extraretinal sensory or motor cues are critical for updating neural maps of visual space. Using a memory-saccade task, we studied whether visuospatial updating uses vestibular information. Specifically, we tested whether trained rhesus monkeys maintain the ability to update the conjugate and vergence components of memory-guided eye movements in response to passive translational or rotational head and body movements after bilateral labyrinthine lesion. We found that lesioned animals were acutely compromised in generating the appropriate horizontal versional responses necessary to update the directional goal of memory-guided eye movements after leftward or rightward rotation/translation. This compromised function recovered in the long term, likely using extravestibular (e.g., somatosensory) signals, such that nearly normal performance was observed 4 mo after the lesion. Animals also lost their ability to adjust memory vergence to account for relative distance changes after motion in depth. Not only were these depth deficits larger than the respective effects on version, but they also showed little recovery. We conclude that intact labyrinthine signals are functionally useful for proper visuospatial memory updating during passive head and body movements.
- Published
- 2006
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35. Sensory convergence solves a motion ambiguity problem.
- Author
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Shaikh AG, Green AM, Ghasia FF, Newlands SD, Dickman JD, and Angelaki DE
- Subjects
- Animals, Electrophysiology, Macaca fascicularis, Neurons, Afferent physiology, Cerebellum physiology, Gravity Sensing physiology, Motion Perception physiology, Semicircular Canals physiology
- Abstract
Our inner ear is equipped with a set of linear accelerometers, the otolith organs, that sense the inertial accelerations experienced during self-motion. However, as Einstein pointed out nearly a century ago, this signal would by itself be insufficient to detect our real movement, because gravity, another form of linear acceleration, and self-motion are sensed identically by otolith afferents. To deal with this ambiguity, it was proposed that neural populations in the pons and midline cerebellum compute an independent, internal estimate of gravity using signals arising from the vestibular rotation sensors, the semicircular canals. This hypothesis, regarding a causal relationship between firing rates and postulated sensory contributions to inertial motion estimation, has been directly tested here by recording neural activities before and after inactivation of the semicircular canals. We show that, unlike cells in normal animals, the gravity component of neural responses was nearly absent in canal-inactivated animals. We conclude that, through integration of temporally matched, multimodal information, neurons derive the mathematical signals predicted by the equations describing the physics of the outside world.
- Published
- 2005
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36. Microdebrider excision of a lipoma of the esophageal inlet.
- Author
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Rosen FS and Newlands SD
- Subjects
- Equipment Design, Humans, Male, Middle Aged, Debridement instrumentation, Esophageal Neoplasms pathology, Esophageal Neoplasms surgery, Laryngoscopy methods, Lipoma pathology, Lipoma surgery, Microsurgery instrumentation
- Published
- 2005
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37. Relationship of static and dynamic mechanisms in vestibuloocular reflex compensation.
- Author
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Newlands SD, Dara S, and Kaufman GD
- Subjects
- Animals, Ear, Inner surgery, Female, Gerbillinae, Male, Models, Animal, Neuronal Plasticity, Rotation, Semicircular Canals physiology, Reflex, Vestibulo-Ocular physiology
- Abstract
Objectives/hypothesis: We tested the hypothesis that recovery of dynamic oculomotor behavior (specifically the vestibuloocular reflex [VOR]) after a unilateral labyrinthectomy (UL) is independent from static deficit recovery (e.g., spontaneous nystagmus). This hypothesis predicts that VOR recovery from peripheral vestibular lesions that do not cause static symptoms, such as unilateral semicircular canal plugging (UCP), would have a similar time course and magnitude as recovery from a lesion that creates both a static and dynamic imbalance, such as UL. Furthermore, animals compensated after UCP would be expected to retain their compensated VOR response after the additional insult of ipsilateral labyrinthectomy., Study Design: An experimental study in the Mongolian gerbil animal model., Methods: The horizontal VOR was measured from both eyes using infrared video-oculography on gerbils before and after UCP, UL, or ipsilateral labyrinthectomy after a previous UCP. Eye movements were recorded during yaw rotation in the dark., Results: UL resulted in a more severe acute deficit than the UCP. Over several weeks, the UCP animals compensated their horizontal VOR, particularly on rotation toward the intact side, quicker and more completely than the UL animals. Animals that underwent ipsilateral labyrinthectomy 8 to 11 weeks after UCP demonstrated preservation of the improved gain, particularly on rotation toward the intact labyrinth. However, the difference between the UL groups with or without precedent UCP was not retained after 72 hours, and long-term compensation was poorest in the UL after UCP group., Conclusions: Plasticity in dynamic vestibular reflexes induced by UCP is preserved after a subsequent UL. However, neurologic events during the first and second day after UL appear to limit, change, or suppress the long-term dynamic compensation of the VOR, regardless of whether the animal had a previous UCP.
- Published
- 2005
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38. Spike detection, characterization, and discrimination using feature analysis software written in LabVIEW.
- Author
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Stewart CM, Newlands SD, and Perachio AA
- Subjects
- Algorithms, Animals, Behavior, Animal physiology, Discrimination, Psychological physiology, Electrodes, Implanted, Macaca mulatta, Microelectrodes, Models, Neurological, Action Potentials physiology, Electrophysiology methods, Extracellular Fluid physiology, Neurons physiology, Signal Processing, Computer-Assisted
- Abstract
Rapid and accurate discrimination of single units from extracellular recordings is a fundamental process for the analysis and interpretation of electrophysiological recordings. We present an algorithm that performs detection, characterization, discrimination, and analysis of action potentials from extracellular recording sessions. The program was entirely written in LabVIEW (National Instruments), and requires no external hardware devices or a priori information about action potential shapes. Waveform events are detected by scanning the digital record for voltages that exceed a user-adjustable trigger. Detected events are characterized to determine nine different time and voltage levels for each event. Various algebraic combinations of these waveform features are used as axis choices for 2-D Cartesian plots of events. The user selects axis choices that generate distinct clusters. Multiple clusters may be defined as action potentials by manually generating boundaries of arbitrary shape. Events defined as action potentials are validated by visual inspection of overlain waveforms. Stimulus-response relationships may be identified by selecting any recorded channel for comparison to continuous and average cycle histograms of binned unit data. The algorithm includes novel aspects of feature analysis and acquisition, including higher acquisition rates for electrophysiological data compared to other channels. The program confirms that electrophysiological data may be discriminated with high-speed and efficiency using algebraic combinations of waveform features derived from high-speed digital records.
- Published
- 2004
- Full Text
- View/download PDF
39. Central distribution of vestibular afferents that innervate the anterior or lateral semicircular canal in the mongolian gerbil.
- Author
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Kevetter GA, Leonard RB, Newlands SD, and Perachio AA
- Subjects
- Afferent Pathways cytology, Afferent Pathways physiology, Animals, Brain Stem cytology, Brain Stem physiology, Cerebellum cytology, Cerebellum physiology, Dextrans, Ganglia, Sensory cytology, Gerbillinae, Horseradish Peroxidase, Vestibular Nuclei cytology, Vestibular Nuclei physiology, Biotin analogs & derivatives, Central Nervous System physiology, Neurons, Afferent physiology, Semicircular Canals innervation
- Abstract
The central distribution of afferents that innervate the crista ampullaris of the anterior or lateral semicircular canals was determined in gerbils following the direct injection of tracers into one sensory neuroepithelia. Labeled somata were scattered throughout the superior ganglion. The central distribution of fibers demonstrated extensive overlap. The central branch of afferents innervating either canal was located in the rostral part of the nerve. Nerve fibers divided into ascending and descending branches. Ascending branch ramifications terminated in the superior vestibular nucleus, the magnocellular and parvicellular medial vestibular nuclei, and the cerebellum. Cerebellar terminal areas include the flocculus, nodulus and uvula. Descending branch ramifications terminated in the caudal medial, parvicellular medial and descending vestibular nuclei, and the nucleus prepositus hypoglossi. Lateral canal afferents terminated sparsely in nucleus cuneatus. The anterior canal had sparse innervation in the paratrigeminal and gigantocellular reticular formation. This study has shown many similarities in the central distribution of fibers that innervate the anterior and lateral canals and a few areas of segregated input. Projections outside the vestibular nuclei are more extensive than previously determined, including afferents to prepositus hypoglossi, cochlear nuclei, and reticular formation. Projections to the flocculus appear as numerous as those to the vermis.
- Published
- 2004
40. Central projections of the saccular and utricular nerves in macaques.
- Author
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Newlands SD, Vrabec JT, Purcell IM, Stewart CM, Zimmerman BE, and Perachio AA
- Subjects
- Afferent Pathways physiology, Animals, Cerebellar Cortex cytology, Cerebellar Cortex physiology, Cerebellar Nuclei cytology, Cerebellar Nuclei physiology, Cerebellum cytology, Cerebellum physiology, Dextrans, Macaca physiology, Macaca fascicularis physiology, Macaca mulatta physiology, Postural Balance physiology, Saccule and Utricle physiology, Vestibular Nerve cytology, Vestibular Nerve physiology, Vestibular Nuclei physiology, Afferent Pathways cytology, Biotin analogs & derivatives, Macaca anatomy & histology, Saccule and Utricle cytology, Saccule and Utricle innervation, Vestibular Nuclei cytology
- Abstract
The central projections of the utricular and saccular nerve in macaques were examined using transganglionic labeling of vestibular afferent neurons. In these experiments, biotinylated dextran amine was injected directly into the saccular or utricular neuroepithelium of fascicularis (Macaca fascicularis) or rhesus (Macaca mulatta) monkeys. Two to 5 weeks later, the animals were killed and the peripheral vestibular sensory organs, brainstem, and cerebellum were collected for analysis. The principal brainstem areas of saccular nerve termination were lateral, particularly the spinal vestibular nucleus, the lateral portion of the superior vestibular nucleus, ventral nucleus y, the external cuneate nucleus, and cell group l. The principal cerebellar projection was to the uvula with a less dense projection to the nodulus. Principle brainstem areas of termination of the utricular nerve were the lateral/dorsal medial vestibular nucleus, ventral and lateral portions of the superior vestibular nucleus, and rostral portion of the spinal vestibular nucleus. In the cerebellum, a strong projection was observed to the nodulus and weak projections were present in the flocculus, ventral paraflocculus, bilateral fastigial nuclei, and uvula. Although there is extensive overlap of saccular and utricular projections, saccular inputs to the lateral portions of the vestibular nuclear complex suggest that saccular afferents contribute to the vestibulospinal system. In contrast, the utricular nerve projects more rostrally into areas of known concentration of vestibulo-ocular related cells. Although sparse, the projections of the utricle to the flocculus/ventral paraflocculus suggest a potential convergence with floccular projection inputs from the vestibular brainstem that have been implicated in vestibulo-ocular motor learning., (Copyright 2003 Wiley-Liss, Inc.)
- Published
- 2003
- Full Text
- View/download PDF
41. Responses of gerbil utricular afferents to translational motion.
- Author
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Purcell IM, Newlands SD, and Perachio AA
- Subjects
- Afferent Pathways physiology, Animals, Female, Gerbillinae, Male, Motion, Rotation, Action Potentials physiology, Neurons physiology, Saccule and Utricle physiology
- Abstract
In the present study, we report the sensitivity of utricular afferents to sinusoidal translational motion in the horizontal plane. The head orientation was altered relative to the direction of translational travel in 30 degrees increments to allow determination of the head orientation that elicited the maximal and minimal responses of each afferent neuron. We determined gain and phase relationships at a constant peak linear acceleration of 0.1 g applied at frequencies between 0.20 and 2.0 Hz for multiple head orientations. The response dynamics and vector of maximal sensitivity for the utricular afferents are consistent with those reported for other mammalian species. Irregularly (CV>0.3) and intermediate (0.1=CV=0.3) discharging units demonstrated gain enhancement at higher frequencies. Regular units (CV<0.1) showed lower gains and flat response dynamics. The mean gains of the irregular, intermediate, and regular units at 0.5 Hz were 256, 118, and 69 spikes s(-1) g(-1), respectively. The phase of the response was independent of the vector of orientation except near the null response orientation where phase and gain were difficult to accurately measure. Phase leads (relative to acceleration) in irregular units at lower frequencies were reduced at higher frequencies. All afferents demonstrated simple one-dimensional tuning with their vectors of maximal sensitivity distributed throughout the 360 degrees of the horizontal plane, though the majority were directed out of the contralateral ear.
- Published
- 2003
- Full Text
- View/download PDF
42. Central projections of the vestibular nerve: a review and single fiber study in the Mongolian gerbil.
- Author
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Newlands SD and Perachio AA
- Subjects
- Animals, Brain Mapping, Gerbillinae, Histological Techniques history, Histological Techniques methods, History, 19th Century, History, 20th Century, History, 21st Century, Horseradish Peroxidase metabolism, Nerve Fibers classification, Nerve Fibers metabolism, Neuroanatomy history, Vestibular Nerve cytology, Auditory Pathways anatomy & histology, Nerve Fibers physiology, Vestibular Nerve anatomy & histology
- Abstract
The primary purpose of this article is to review the anatomy of central projections of the vestibular nerve in amniotes. We also report primary data regarding the central projections of individual horseradish peroxidase (HRP)-filled afferents innervating the saccular macula, horizontal semicircular canal ampulla, and anterior semicircular canal ampulla of the gerbil. In total, 52 characterized primary vestibular afferent axons were intraaxonally injected with HRP and traced centrally to terminations. Lateral and anterior canal afferents projected most heavily to the medial and superior vestibular nuclei. Saccular afferents projected strongly to the spinal vestibular nucleus, weakly to other vestibular nuclei, to the interstitial nucleus of the eighth nerve, the cochlear nuclei, the external cuneate nucleus, and nucleus y. The current findings reinforce the preponderance of literature. The central distribution of vestibular afferents is not homogeneous. We review the distribution of primary afferent terminations described for a variety of mammalian and avian species. The tremendous overlap of the distributions of terminals from the specific vestibular nerve branches with one another and with other sensory inputs provides a rich environment for sensory integration.
- Published
- 2003
- Full Text
- View/download PDF
43. Pathology quiz case: cribriform-morular variant of papillary thyroid carcinoma.
- Author
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Rosen EJ, Newlands SD, and Rampy BA
- Subjects
- Adenocarcinoma, Papillary diagnostic imaging, Adenocarcinoma, Papillary surgery, Adult, Biopsy, Needle, Female, Humans, Thyroid Neoplasms diagnostic imaging, Thyroid Neoplasms surgery, Thyroidectomy methods, Tomography, X-Ray Computed, Adenocarcinoma, Papillary pathology, Thyroid Neoplasms pathology
- Published
- 2003
- Full Text
- View/download PDF
44. Mixed myxoid/round cell liposarcoma of the scalp.
- Author
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Newlands SD, Divi V, and Stewart CM
- Subjects
- Adult, Biopsy, Needle, Chemotherapy, Adjuvant, Combined Modality Therapy, Female, Follow-Up Studies, Humans, Immunohistochemistry, Radiotherapy, Adjuvant, Risk Assessment, Surgical Procedures, Operative methods, Treatment Outcome, Liposarcoma, Myxoid pathology, Liposarcoma, Myxoid therapy, Scalp, Skin Neoplasms pathology, Skin Neoplasms therapy
- Abstract
Liposarcoma of the head and neck is rare. Only 12 cases of scalp liposarcoma have been previously reported. In this report, we describe a case of myxoid/round cell liposarcoma in the scalp of a 28-year-old woman. This case report highlights a histologic pattern rarely reported in the head and neck but consistent with the evolving classification of liposarcomas.
- Published
- 2003
- Full Text
- View/download PDF
45. Central projections of the utricular nerve in the gerbil.
- Author
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Newlands SD, Purcell IM, Kevetter GA, and Perachio AA
- Subjects
- Afferent Pathways cytology, Animals, Cerebellar Nuclei cytology, Dextrans, Female, Horseradish Peroxidase, Male, Acoustic Maculae cytology, Acoustic Maculae innervation, Biotin analogs & derivatives, Gerbillinae anatomy & histology, Neurons, Afferent cytology, Vestibular Nuclei cytology
- Abstract
The central projections of primary afferent fibers in the utricular nerve, which convey linear head acceleration signals to neurons in the brainstem and cerebellum, are not completely defined. The purpose of this investigation was twofold: 1) to define the central projections of the gerbil utricular afferents by injecting horseradish peroxidase (HRP) and biotinylated dextran amine (BDA) into the utricular macula; and 2) to investigate the projections of individual utricular afferents by injecting HRP intracellularly into functionally identified utricular neurons. We found that utricular afferents in the gerbil projected to all divisions of the vestibular nuclear complex, except the dorsal lateral vestibular nucleus. In addition, terminals were observed in the interstitial nucleus of the eighth nerve, nucleus Y, external cuneate nucleus, and lobules I, IV, V, IX, and X of the cerebellar vermis. No projections appeared in the flocculus or paraflocculus. Fibers traversed the medial and intermediate cerebellar nuclei, but terminals appeared only occasionally. Individual utricular afferents collateralize extensively, projecting to much of the brainstem area innervated by the whole of the utricular nerve. This study did not produce complete filling of individual afferent collateral projections into the cerebellar cortex., (Copyright 2002 Wiley-Liss, Inc.)
- Published
- 2002
- Full Text
- View/download PDF
46. Inactivation of semicircular canals causes adaptive increases in otolith-driven tilt responses.
- Author
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Angelaki DE, Newlands SD, and Dickman JD
- Subjects
- Animals, Eye Movements physiology, Gravity Sensing physiology, Macaca mulatta, Reflex, Vestibulo-Ocular physiology, Rotation, Space Perception physiology, Torsion Abnormality, Adaptation, Physiological physiology, Otolithic Membrane physiology, Semicircular Canals physiology
- Abstract
Growing experimental and theoretical evidence suggests a functional synergy in the processing of otolith and semicircular canal signals for the generation of the vestibulo-ocular reflexes (VORs). In this study we have further tested this functional interaction by quantifying the adaptive changes in the otolith-ocular system during both rotational and translational movements after surgical inactivation of the semicircular canals. For 0.1-0.5 Hz (stimuli for which there is no recovery of responses from the plugged canals), pitch and roll VOR gains recovered during earth-horizontal (but not earth-vertical) axis rotations. Corresponding changes were also observed in eye movements elicited by translational motion (0.1-5 Hz). Specifically, torsional eye movements increased during lateral motion, whereas vertical eye movements increased during fore-aft motion. The findings indicate that otolith signals can be adapted according to a compromised strategy that leads to improved gaze stabilization during motion. Because canal-plugged animals permanently lose the ability to discriminate gravitoinertial accelerations, adapted animals can use the presence of gravity through otolith-driven tilt responses to assist gaze stabilization during earth-horizontal axis rotations.
- Published
- 2002
- Full Text
- View/download PDF
47. Head unrestrained horizontal gaze shifts after unilateral labyrinthectomy in the rhesus monkey.
- Author
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Newlands SD, Hesse SV, Haque A, and Angelaki DE
- Subjects
- Animals, Denervation, Ear, Inner surgery, Functional Laterality physiology, Macaca mulatta anatomy & histology, Macaca mulatta physiology, Macaca mulatta surgery, Adaptation, Physiological physiology, Ear, Inner physiology, Head Movements physiology, Neural Pathways physiology, Recovery of Function physiology, Reflex, Vestibulo-Ocular physiology, Saccades physiology
- Abstract
Following the orienting saccade of a combined eye-head gaze shift, normal monkeys exhibit a compensatory eye counterrotation that stabilizes gaze as the head movement continues. This counterrotation, which has a gain (eye velocity/head velocity) of near unity, is a manifestation of the vestibulo-ocular reflex (VOR). Acute unilateral labyrinthectomy (UL) causes severe asymmetry in the VOR during passive head rotations that recovers incompletely over time. The purpose of this investigation was to compare the recovery of the counterrotation gain during horizontal gaze shifts with that of the passive VOR after UL. During the 1st week after UL, counterrotation gains were asymmetric, being lower for head movements towards the lesion but nearly normal for head movements towards the intact side. Whereas this asymmetry in the counterrotation gain resolved within a week after UL, asymmetries in the passive VOR persisted. During the 1st week after UL, behavioral performance was generally poor, with a high incidence of inaccurate gaze shifts and larger latencies. In addition, animals used slower head movements such that peak head amplitude during the eye saccade was significantly lower during the 1st week after UL as compared to control values. Bilateral labyrinthectomy (BL) resulted in larger but symmetric deficits in counterrotation, which, contrary to the passive VOR, exhibited significant recovery over time. It is hypothesized that recovery of counterrotation gain after UL has contributions from multiple sources, including the contralateral intact labyrinth and an efference copy of the head movement.
- Published
- 2001
- Full Text
- View/download PDF
48. Reactivated laryngeal coccidioidomycosis.
- Author
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Rosen EJ, Newlands SD, Patel J, Kalia A, and Friedman NR
- Subjects
- Adolescent, Biopsy, Needle, Follow-Up Studies, Humans, Injections, Intravenous, Laryngoscopy, Male, Recurrence, Treatment Outcome, Coccidioidomycosis diagnosis, Coccidioidomycosis drug therapy, Fluconazole administration & dosage, Laryngeal Diseases diagnosis, Laryngeal Diseases drug therapy
- Published
- 2001
- Full Text
- View/download PDF
49. Blastomycosis of the petrous apex.
- Author
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Blackledge FA and Newlands SD
- Subjects
- Antifungal Agents administration & dosage, Antifungal Agents therapeutic use, Blastomycosis complications, Blastomycosis drug therapy, Diagnosis, Differential, Facial Paralysis diagnosis, Facial Paralysis etiology, Hearing Loss, Conductive diagnosis, Hearing Loss, Conductive etiology, Hearing Loss, Sensorineural diagnosis, Hearing Loss, Sensorineural etiology, Humans, Itraconazole administration & dosage, Itraconazole therapeutic use, Magnetic Resonance Imaging, Male, Middle Aged, Tomography, X-Ray Computed, Blastomyces isolation & purification, Blastomycosis diagnosis, Blastomycosis microbiology, Petrous Bone diagnostic imaging, Petrous Bone microbiology, Petrous Bone pathology
- Published
- 2001
- Full Text
- View/download PDF
50. Primate translational vestibuloocular reflexes. IV. Changes after unilateral labyrinthectomy.
- Author
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Angelaki DE, Newlands SD, and Dickman JD
- Subjects
- Animals, Ear, Inner surgery, Fixation, Ocular physiology, Macaca mulatta, Regression Analysis, Ear, Inner physiology, Functional Laterality physiology, Reflex, Vestibulo-Ocular physiology
- Abstract
The effects of unilateral labyrinthectomy on the properties of the translational vestibuloocular reflexes (trVORs) were investigated in rhesus monkeys trained to fixate near targets. Translational motion stimuli consisted of either steady-state lateral and fore-aft sinusoidal oscillations or short-lasting transient displacements. During small-amplitude, steady-state sinusoidal lateral oscillations, a small decrease in the horizontal trVOR sensitivity and its dependence on viewing distance was observed during the first week after labyrinthectomy. These deficits gradually recovered over time. In addition, the vertical response component increased, causing a tilt of the eye velocity vector toward the lesioned side. During large, transient lateral displacements, the deficits were larger and longer lasting. Responses after labyrinthectomy were asymmetric, with eye velocity during movements toward the side of the lesion being more compromised. The most profound effect of the lesions was observed during fore-aft motion. Whereas responses were kinematically appropriate for fixation away from the side of the lesion (e.g., to the left after right labyrinthectomy), horizontal responses were anticompensatory during fixation at targets located ipsilateral to the side of the lesion (e.g., for targets to the right after right labyrinthectomy). This deficit showed little recovery during the 3-mo post-labyrinthectomy testing period. These results suggest that inputs from both labyrinths are important for the proper function of the trVORs, although the details of how bilateral signals are processed and integrated remain unknown.
- Published
- 2000
- Full Text
- View/download PDF
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