Your search keyword '"Oshinsky ML"' showing total 39 results

1. Trigeminal pain is suppressed by non-invasive vagal nerve stimulation in a rat headache model

Author

Oshinsky, ML, Murphy, AL, Cooper, ME, and Simon, BJ

Published

2013

2. Ictal and Interictal Phonophobia in Migraine—A Quantitative Controlled Study

Author

Ashkenazi, A, primary, Mushtaq, A, additional, Yang, I, additional, and Oshinsky, ML, additional

Published

2009

3. Recurrent Extratrigeminal Stabbing and Burning Sensation with Allodynia in A Migraine Patient

Author

Piovesan, EJ, primary, Young, BW, additional, Werneck, LC, additional, Kowacs, PA, additional, Oshinsky, ML, additional, and Silberstein, SD, additional

Published

2003

4. Open Label Trial of Coenzyme Q10 as A Migraine Preventive

Author

Rozen, TD, primary, Oshinsky, ML, additional, Gebeline, CA, additional, Bradley, KC, additional, Young, WB, additional, Shechter, AL, additional, and Silberstein, SD, additional

Published

2002

5. Consecutive transcranial magnetic stimulation: phosphene thresholds in migraineurs and controls.

Author

Young WB, Oshinsky ML, Shechter AL, Gebeline-Myers C, Bradley KC, and Wassermann EM

Abstract

OBJECTIVE: To characterize the temporal course of transcranial magnetic stimulation-induced phosphene thresholds in subjects with migraine and in controls. METHODS: Eleven subjects with migraine with aura, 10 subjects with migraine without aura, 9 subjects with menstrual migraine, and 15 controls (no history of migraine and without migraine during the study) were studied. Subjects were not on preventive medication. Transcranial magnetic stimulation was performed, and a phosphene threshold was measured 3 times a week over 3 weeks in a manner timed to incorporate the menstrual period in females. A headache calendar was kept during the study. RESULTS: Mean transcranial magnetic stimulation thresholds were lower for each migraine group compared with controls (P <.001) for each comparison. There was a trend for lower thresholds among subjects with migraine with aura compared with subjects with migraine without aura (P <.10), but not subjects with menstrual migraine. There was consistent lowering of thresholds from the first to the last stimulation in all migraine groups and in the controls. Maximum and minimum thresholds did not predict headache occurrence, nor did the occurrence of headache predict an ensuing maximum or minimum phosphene threshold. CONCLUSIONS: Transcranial magnetic stimulation thresholds are lower in subjects with migraine compared with controls. The reported phosphene threshold is lowered with repeated measurement. Neither high nor low phosphene thresholds predict a subsequent headache, nor do migraines predict a subsequent high or low threshold. [ABSTRACT FROM AUTHOR]

Published

2004

6. The headache research priorities: Research goals from the American Headache Society and an international multistakeholder expert group.

Author

Schwedt TJ, Pradhan AA, Oshinsky ML, Brin MF, Rosen H, Lalvani N, Charles A, Ashina M, Do TP, Burstein R, Gelfand AA, Dodick DW, Pozo-Rosich P, Lipton RB, Ailani J, Szperka CL, Charleston L 4th, Digre KB, Russo AF, Buse DC, Powers SW, Tassorelli C, and Goadsby PJ

Subjects

Humans, Research, United States, Goals, Animals, Headache therapy, Biomedical Research, Societies, Medical

Abstract

Objective: To identify and disseminate research priorities for the headache field that should be areas of research focus during the next 10 years., Background: Establishing research priorities helps focus and synergize the work of headache investigators, allowing them to reach the most important research goals more efficiently and completely., Methods: The Headache Research Priorities organizing and executive committees and working group chairs led a multistakeholder and international group of experts to develop headache research priorities. The research priorities were developed and reviewed by clinicians, scientists, people with headache, representatives from headache organizations, health-care industry representatives, and the public. Priorities were revised and finalized after receiving feedback from members of the research priorities working groups and after a public comment period., Results: Twenty-five research priorities across eight categories were identified: human models, animal models, pathophysiology, diagnosis and management, treatment, inequities and disparities, research workforce development, and quality of life. The priorities address research models and methods, development and optimization of outcome measures and endpoints, pain and non-pain symptoms of primary and secondary headaches, investigations into mechanisms underlying headache attacks and chronification of headache disorders, treatment optimization, research workforce recruitment, development, expansion, and support, and inequities and disparities in the headache field. The priorities are focused enough that they help to guide headache research and broad enough that they are widely applicable to multiple headache types and various research methods., Conclusions: These research priorities serve as guidance for headache investigators when planning their research studies and as benchmarks by which the headache field can measure its progress over time. These priorities will need updating as research goals are met and new priorities arise., (© 2024 American Headache Society.)

Published

2024

7. NINDS Common Data Elements for post-traumatic headache: A project from the American Headache Society Post-Traumatic Headache Special Interest Section.

Author

Chong CD, Ashina S, Kamins J, Scher A, Gentile CP, Finkel A, Oshinsky ML, and Schwedt TJ

Subjects

Humans, United States, Common Data Elements, National Institute of Neurological Disorders and Stroke (U.S.), Headache etiology, Post-Traumatic Headache etiology, Biomedical Research

Published

2024

8. Opportunities for Improving Basic and Translational Pain Research.

Author

Oshinsky ML, Bachman JL, and Mohapatra DP

Subjects

Humans, Research, Translational Research, Biomedical, Pain

Abstract

Competing Interests: The authors declare no conflicts of interest.

Published

2022

9. The beneficial role of companion animals in translational pain research.

Author

Lascelles BDX, Brown DC, Conzemius MG, Gill M, Oshinsky ML, and Sharkey M

Abstract

The use of spontaneous painful disease in companion pet animals has been highlighted as one of the changes that could be made to help improve translation of basic science to new therapeutics, acting as a bridge between preclinical and clinical studies, with the goal of accelerating the approval of new therapeutics. This review focuses on the utility of companion pet dogs for translational research by reviewing what outcome measures can be measured, and importantly, the relevance of these outcome measures to human translational research. It also details the practical considerations involved in incorporating companion dogs into human therapeutic development., Competing Interests: DCB is employed by Elanco Animal Health. BDXL has received consulting and speaking honoraria from Boehringer Ingelheim, Zoetis, Elanco and Nexvet and was the Chair of the IASP Non-Human Pain Special Interest Group. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© 2022 Lascelles, Brown, Conzemius, Gill, Oshinsky and Sharkey.)

Published

2022

10. Preclinical target validation for non-addictive therapeutics development for pain.

Author

Hargreaves R, Akinsanya K, Ajit SK, Dhruv NT, Driscoll J, Farina P, Gavva N, Gill M, Houghton A, Iyengar S, Jones C, Kavelaars A, Kaykas A, Koroshetz WJ, Laeng P, Laird JM, Lo DC, Luthman J, Munro G, Oshinsky ML, Sittampalam GS, Woller SA, and Tamiz AP

Subjects

Humans, Pain drug therapy, Opioid-Related Disorders drug therapy

Abstract

Introduction: The Helping to End Addiction Long-term SM Initiative supports a wide range of programs to develop new or improved prevention and opioid addiction treatment strategies. An essential component of this effort is to accelerate development of non-opioid pain therapeutics. In all fields of medicine, therapeutics development is an arduous process and late-stage translational efforts such as clinical trials to validate targets are particularly complex and costly. While there are plentiful novel targets for pain treatment, successful clinical validation is rare. It is therefore crucial to develop processes whereby therapeutic targets can be reasonably 'de-risked' prior to substantial late-stage validation efforts. Such rigorous validation of novel therapeutic targets in the preclinical space will give potential private sector partners the confidence to pursue clinical validation of promising therapeutic concepts and compounds., Areas Covered: In 2020, the National Institutes of Health (NIH) held the Target Validation for Non-Addictive Therapeutics Development for Pain workshop to gather insights from key opinion leaders in academia, industry, and venture-financing., Expert Opinion: The result was a roadmap for pain target validation focusing on three modalities: 1) human evidence; 2) assay development in vitro ; 3) assay development in vivo .

Published

2022

11. Diseases, Disorders, and Comorbidities of Interoception.

Author

Bonaz B, Lane RD, Oshinsky ML, Kenny PJ, Sinha R, Mayer EA, and Critchley HD

Subjects

Brain, Emotions, Humans, Chronic Pain, Interoception, Mental Disorders epidemiology

Abstract

Interoception, the sense of the body's internal physiological state, underpins homeostatic reflexes, motivational states, and sensations contributing to emotional experiences. The continuous nature of interoceptive processing, coupled to behavior, is implicated in the neurobiological construction of the sense of self. Aberrant integration and control of interoceptive signals, originating in the brain and/or the periphery, can perturb the whole system. Interoceptive abnormalities are implicated in the pathophysiology of psychiatric disorders and in the symptomatic expression of developmental, neurodegenerative, and neurological disorders. Moreover, interoceptive mechanisms appear central to somatic disorders of brain-body interactions, including functional digestive disorders, chronic pain, and comorbid conditions. The present article provides an overview of disorders of interoception and suggests future directions for better understanding, diagnosis, and management of these disorders., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

12. Measurement of chronic pain in companion animals: Priorities for future research and development based on discussions from the Pain in Animals Workshop (PAW) 2017.

Author

Lascelles BDX, Brown DC, Conzemius M, Gill M, Oshinsky ML, and Sharkey M

Subjects

Animals, Cats, Chronic Pain diagnosis, Dogs, Pain Management veterinary, Chronic Pain veterinary, Research Design trends, Veterinary Medicine trends

Abstract

The estimation of long-standing pain in companion animals through the measurement of different dimensions impacted by pain is a fundamental requirement if pain management, and pain therapeutic development, are to advance. Although pain management in veterinary medicine has advanced considerably in the last 20 years, there is much critical work to do in the area of measurement of chronic pain. To date, most work has centered on musculoskeletal pain, and has been focused around the measurement of limb use and the development of owner-completed questionnaires, or clinical metrology instruments (CMI). Recent areas of research have extended to developing measures of activity, sensory function (quantitative sensory testing; nociceptive withdrawal reflexes), and quality of life (QoL). Across all these areas, more data on validity are needed, and studies should be extended to other painful disease states. By necessity, assessing measurement tools requires testing in field studies, which incur considerable time and expense. Facilitating these studies could be optimized with a collaborative (industry, academia and private practice) approach, and the utility of the information produced from all field studies would be enhanced by full and transparent reporting and data sharing, including data already generated by industry in the form of studies submitted to the regulatory authorities., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

13. Measurement of chronic pain in companion animals: Discussions from the Pain in Animals Workshop (PAW) 2017.

Author

Lascelles BDX, Brown DC, Conzemius MG, Gill M, Oshinsky ML, and Sharkey M

Subjects

Animals, Cats, Chronic Pain pathology, Dogs, Cat Diseases pathology, Chronic Pain veterinary, Dog Diseases pathology, Pain Measurement veterinary

Abstract

In the face of increasing recognition and interest in treating chronic pain in companion animals, we struggle with a lack of therapeutic options. A significant barrier to the development of new therapeutics, or the critical evaluation of current therapies, is our inability to accurately measure chronic pain and its impact on companion animals. Over the last 20 years, much progress has been made in developing methods to measure chronic pain via subjective and objective methods - particularly in owner assessment tools and measurements of limb use and activity. Most work has been focused on chronic joint pain conditions, but there has been relatively little work in other areas of chronic pain, such as neuropathic and cancer pain. Although progress has been made, there is a considerable interest in improving our assessment of chronic pain, as evidenced by the multiple disciplines across industry, academia, and clinical practice from the veterinary and human medical fields that participated in the Pain in Animals Workshop held at the National Institutes of Health in 2017. This review is one product of that meeting and summarizes the current state of knowledge surrounding the measurement of chronic pain (musculoskeletal, cancer, neuropathic), and its impact, in cats and dogs., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

14. Improving research through NINDS Headache Common Data Elements.

Author

Oshinsky ML and Tanveer S

Subjects

Biomedical Research, Humans, National Institute of Neurological Disorders and Stroke (U.S.), United States, Common Data Elements, Headache

Published

2018

15. Sphenopalatine Ganglion Block to Treat Shoulder Tip Pain After Thoracic Surgery: Report of 2 Cases.

Author

Grant GJ, Echevarria GC, Lax J, Pass HI, and Oshinsky ML

Subjects

Aged, Female, Humans, Male, Middle Aged, Thoracic Surgery, Shoulder Pain therapy, Sphenopalatine Ganglion Block

Abstract

Shoulder tip pain may occur after thoracic surgical procedures. The pain is caused by diaphragmatic irritation and is referred to the shoulder. Shoulder tip pain is often resistant to treatment with conventional analgesics. The sphenopalatine ganglion block has been described to manage many painful conditions. We report here the first use of this block to treat shoulder tip pain in 2 thoracic surgical patients. In both patients, the block produced rapid and sustained relief of the shoulder tip pain. We suggest that sphenopalatine ganglion block be considered to treat postoperative shoulder tip pain after thoracic surgical procedures.

Published

2018

16. Accelerating Clinical Research Using Headache Common Data Elements.

Author

Oshinsky ML, Tanveer S, and Hershey A

Subjects

Humans, Biomedical Research, Common Data Elements, Headache Disorders

Published

2018

17. Region-specific disruption of the blood-brain barrier following repeated inflammatory dural stimulation in a rat model of chronic trigeminal allodynia.

Author

Fried NT, Maxwell CR, Elliott MB, and Oshinsky ML

Subjects

Animals, Blood-Brain Barrier pathology, Disease Models, Animal, Dura Mater drug effects, Dura Mater pathology, Inflammation chemically induced, Male, Migraine Disorders physiopathology, Rats, Rats, Sprague-Dawley, Trigeminal Caudal Nucleus drug effects, Blood-Brain Barrier drug effects, Capillary Permeability drug effects, Inflammation Mediators toxicity, Trigeminal Caudal Nucleus physiopathology, Trigeminal Neuralgia physiopathology

Abstract

Background The blood-brain barrier (BBB) has been hypothesized to play a role in migraine since the late 1970s. Despite this, limited investigation of the BBB in migraine has been conducted. We used the inflammatory soup rat model of trigeminal allodynia, which closely mimics chronic migraine, to determine the impact of repeated dural inflammatory stimulation on BBB permeability. Methods The sodium fluorescein BBB permeability assay was used in multiple brain regions (trigeminal nucleus caudalis (TNC), periaqueductal grey, frontal cortex, sub-cortex, and cortex directly below the area of dural activation) during the episodic and chronic stages of repeated inflammatory dural stimulation. Glial activation was assessed in the TNC via GFAP and OX42 immunoreactivity. Minocycline was tested for its ability to prevent BBB disruption and trigeminal sensitivity. Results No astrocyte or microglial activation was found during the episodic stage, but BBB permeability and trigeminal sensitivity were increased. Astrocyte and microglial activation, BBB permeability, and trigeminal sensitivity were increased during the chronic stage. These changes were only found in the TNC. Minocycline treatment prevented BBB permeability modulation and trigeminal sensitivity during the episodic and chronic stages. Discussion Modulation of BBB permeability occurs centrally within the TNC following repeated dural inflammatory stimulation and may play a role in migraine.

Published

2018

18. The Role of Adenosine Signaling in Headache: A Review.

Author

Fried NT, Elliott MB, and Oshinsky ML

Abstract

Migraine is the third most prevalent disease on the planet, yet our understanding of its mechanisms and pathophysiology is surprisingly incomplete. Recent studies have built upon decades of evidence that adenosine, a purine nucleoside that can act as a neuromodulator, is involved in pain transmission and sensitization. Clinical evidence and rodent studies have suggested that adenosine signaling also plays a critical role in migraine headache. This is further supported by the widespread use of caffeine, an adenosine receptor antagonist, in several headache treatments. In this review, we highlight evidence that supports the involvement of adenosine signaling in different forms of headache, headache triggers, and basic headache physiology. This evidence supports adenosine A 2A receptors as a critical adenosine receptor subtype involved in headache pain. Adenosine A 2A receptor signaling may contribute to headache via the modulation of intracellular Cyclic adenosine monophosphate (cAMP) production or 5' AMP-activated protein kinase (AMPK) activity in neurons and glia to affect glutamatergic synaptic transmission within the brainstem. This evidence supports the further study of adenosine signaling in headache and potentially illuminates it as a novel therapeutic target for migraine.

Published

2017

19. Functional mitochondrial analysis in acute brain sections from adult rats reveals mitochondrial dysfunction in a rat model of migraine.

Author

Fried NT, Moffat C, Seifert EL, and Oshinsky ML

Subjects

Animals, Energy Metabolism, Oxygen Consumption drug effects, Oxygen Consumption physiology, Rats, Temperature, Brain metabolism, Migraine Disorders metabolism, Mitochondria metabolism

Abstract

Mitochondrial dysfunction has been implicated in many neurological disorders that only develop or are much more severe in adults, yet no methodology exists that allows for medium-throughput functional mitochondrial analysis of brain sections from adult animals. We developed a technique for quantifying mitochondrial respiration in acutely isolated adult rat brain sections with the Seahorse XF Analyzer. Evaluating a range of conditions made quantifying mitochondrial function from acutely derived adult brain sections from the cortex, cerebellum, and trigeminal nucleus caudalis possible. Optimization of this technique demonstrated that the ideal section size was 1 mm wide. We found that sectioning brains at physiological temperatures was necessary for consistent metabolic analysis of trigeminal nucleus caudalis sections. Oxygen consumption in these sections was highly coupled to ATP synthesis, had robust spare respiratory capacities, and had limited nonmitochondrial respiration, all indicative of healthy tissue. We demonstrate the effectiveness of this technique by identifying a decreased spare respiratory capacity in the trigeminal nucleus caudalis of a rat model of chronic migraine, a neurological disorder that has been associated with mitochondrial dysfunction. This technique allows for 24 acutely isolated sections from multiple brain regions of a single adult rat to be analyzed simultaneously with four sequential drug treatments, greatly advancing the ability to study mitochondrial physiology in adult neurological disorders., (Copyright © 2014 the American Physiological Society.)

Published

2014

20. Sensitization and ongoing activation in the trigeminal nucleus caudalis.

Author

Oshinsky ML

Subjects

Animals, Male, Central Nervous System Sensitization physiology, Hyperalgesia physiopathology, Migraine Disorders, Neural Inhibition physiology, Nociceptive Pain physiopathology, Nociceptors physiology, Skin innervation, Trigeminal Nerve physiopathology

Published

2014

21. Noninvasive vagus nerve stimulation as treatment for trigeminal allodynia.

Author

Oshinsky ML, Murphy AL, Hekierski H Jr, Cooper M, and Simon BJ

Subjects

Animals, Dura Mater drug effects, Glutamic Acid metabolism, Headache chemically induced, Headache metabolism, Hyperalgesia chemically induced, Hyperalgesia metabolism, Male, Microdialysis, Nitroglycerin, Prostaglandins, Rats, Rats, Sprague-Dawley, Treatment Outcome, Trigeminal Neuralgia chemically induced, Trigeminal Neuralgia metabolism, gamma-Aminobutyric Acid metabolism, Hyperalgesia therapy, Trigeminal Neuralgia therapy, Vagus Nerve Stimulation methods

Abstract

Implanted vagus nerve stimulation (VNS) has been used to treat seizures and depression. In this study, we explored the mechanism of action of noninvasive vagus nerve stimulation (nVNS) for the treatment of trigeminal allodynia. Rats were repeatedly infused with inflammatory mediators directly onto the dura, which led to chronic trigeminal allodynia. Administration of nVNS for 2 minutes decreased periorbital sensitivity in rats with periorbital trigeminal allodynia for up to 3.5 hours after stimulation. Using microdialysis, we quantified levels of extracellular neurotransmitters in the trigeminal nucleus caudalis (TNC). Allodynic rats showed a 7.7±0.9-fold increase in extracellular glutamate in the TNC after i.p. administration of the chemical headache trigger glyceryl trinitrate (GTN; 0.1 mg/kg). Allodynic rats that received nVNS had only a 2.3±0.4-fold increase in extracellular glutamate after GTN, similar to the response in control naive rats. When nVNS was delayed until 120 minutes after GTN treatment, the high levels of glutamate in the TNC were reversed after nVNS. The nVNS stimulation parameters used in this study did not produce significant changes in blood pressure or heart rate. These data suggest that nVNS may be used to treat trigeminal allodynia., (Copyright © 2014 International Association for the Study of Pain. Published by Elsevier B.V. All rights reserved.)

Published

2014

22. Quantitative characterization reveals three types of dry-sensitive corneal afferents: pattern of discharge, receptive field, and thermal and chemical sensitivity.

Author

Hirata H, Fried N, and Oshinsky ML

Subjects

Animals, Cold Temperature, Cornea cytology, Male, Neurons, Afferent classification, Nociceptors physiology, Osmolar Concentration, Rats, Rats, Sprague-Dawley, Tears chemistry, Action Potentials, Chemoreceptor Cells physiology, Cornea physiology, Neurons, Afferent physiology, Sensory Thresholds, Thermoreceptors physiology

Abstract

This study reveals that the cold-sensitive (CS) + dry-sensitive (DS) corneal afferents reported in a previous study consist of two types: 1) low threshold (LT)-CS + DS neurons with <1°C cooling sensitivity, and 2) high threshold (HT)-CS + DS neurons with a wide range of cooling sensitivities (~1-10°C cooling). We also found DS neurons with no cooling sensitivity down to 19°C [cold-insensitive (CI) + DS neurons]. LT-CS + DS neurons showed highly irregular discharge patterns during the dry cornea characterized by numerous spiking bursts, reflecting small temperature changes in the cornea. Their receptive fields (RFs) were mainly located in the cornea's center, the first place for tears to ebb from the surface and be susceptible to external temperature fluctuations. HT-CS and CI + DS neurons showed a gradual rise in firing rate to a stable level over ~60 s after the dry stimulus onset. Their RFs were located mostly in the cornea's periphery, the last place for tears to evaporate. The exquisite sensitivity to cooling in LT-CS + DS neurons was highly correlated with heat sensitivity (~45°C). There was a perfect correlation between noxious heat sensitivity and capsaicin responsiveness in each neuron type. The high sensitivity to noxious osmotic stress was a defining property of the HT-CS and CI + DS neurons, while high sensitivity to menthol was a major characteristic of the LT-CS + DS neurons. These observations suggest that three types of DS neurons serve different innocuous and nociceptive functions related to corneal dryness.

Published

2012

23. Spontaneous trigeminal allodynia in rats: a model of primary headache.

Author

Oshinsky ML, Sanghvi MM, Maxwell CR, Gonzalez D, Spangenberg RJ, Cooper M, and Silberstein SD

Subjects

Analgesics pharmacology, Animals, Headache drug therapy, Humans, Hyperalgesia drug therapy, Rats, Rats, Sprague-Dawley, Disease Models, Animal, Headache physiopathology, Hyperalgesia physiopathology, Trigeminal Nerve physiopathology

Abstract

Animal models are essential for studying the pathophysiology of headache disorders and as a screening tool for new therapies. Most animal models modify a normal animal in an attempt to mimic migraine symptoms. They require manipulation to activate the trigeminal nerve or dural nociceptors. At best, they are models of secondary headache. No existing model can address the fundamental question: How is a primary headache spontaneously initiated? In the process of obtaining baseline periorbital von Frey thresholds in a wild-type Sprague-Dawley rat, we discovered a rat with spontaneous episodic trigeminal allodynia (manifested by episodically changing periorbital pain threshold). Subsequent mating showed that the trait is inherited. Animals with spontaneous trigeminal allodynia allow us to study the pathophysiology of primary recurrent headache disorders. To validate this as a model for migraine, we tested the effects of clinically proven acute and preventive migraine treatments on spontaneous changes in rat periorbital sensitivity. Sumatriptan, ketorolac, and dihydroergotamine temporarily reversed the low periorbital pain thresholds. Thirty days of chronic valproic acid treatment prevented spontaneous changes in trigeminal allodynia. After discontinuation, the rats returned to their baseline of spontaneous episodic threshold changes. We also tested the effects of known chemical human migraine triggers. On days when the rats did not have allodynia and showed normal periorbital von Frey thresholds, glycerol trinitrate and calcitonin gene related peptide induced significant decreases in the periorbital pain threshold. This model can be used as a predictive model for drug development and for studies of putative biomarkers for headache diagnosis and treatment., (© 2012 American Headache Society.)

Published

2012

24. Nociceptive neuropeptide increases and periorbital allodynia in a model of traumatic brain injury.

Author

Elliott MB, Oshinsky ML, Amenta PS, Awe OO, and Jallo JI

Subjects

Animals, Brain Injuries metabolism, Brain Stem chemistry, Brain Stem metabolism, Calcitonin Gene-Related Peptide biosynthesis, Disease Models, Animal, Enzyme-Linked Immunosorbent Assay, Headache metabolism, Hyperalgesia metabolism, Immunohistochemistry, Male, Mice, Mice, Inbred C57BL, Nociception physiology, Somatosensory Cortex injuries, Substance P biosynthesis, Brain Injuries complications, Headache etiology, Hyperalgesia etiology, Neuropeptides biosynthesis

Abstract

Objective: This study tests the hypothesis that injury to the somatosensory cortex is associated with periorbital allodynia and increases in nociceptive neuropeptides in the brainstem in a mouse model of controlled cortical impact (CCI) injury., Methods: Male C57BL/6 mice received either CCI or craniotomy-only followed by weekly periorbital von Frey (mechanical) sensory testing for up to 28 days post-injury. Mice receiving an incision only and naïve mice were included as control groups. Changes in calcitonin gene-related peptide (CGRP) and substance P (SP) within the brainstem were determined using enzyme-linked immunosorbent assay and immunohistochemistry, respectively. Activation of ionized calcium-binding adaptor molecule-1-labeled macrophages/microglia and glial fibrillary acidic protein (GFAP)-positive astrocytes were evaluated using immunohistochemistry because of their potential involvement in nociceptor sensitization., Results: Incision-only control mice showed no changes from baseline periorbital von Frey mechanical thresholds. CCI significantly reduced mean periorbital von Frey thresholds (periorbital allodynia) compared with baseline and craniotomy-only at each endpoint, analysis of variance P < .0001. Craniotomy significantly reduced periorbital threshold at 14 days but not 7, 21, or 28 days compared with baseline threshold, P < .01. CCI significantly increased SP immunoreactivity in the brainstem at 7 and 14 days but not 28 days compared with craniotomy-only and controls, P < .001. CGRP levels in brainstem tissues were significantly increased in CCI groups compared with controls (incision-only and naïve mice) or craniotomy-only mice at each endpoint examined, P < .0001. There was a significant correlation between CGRP and periorbital allodynia (P < .0001, r = -0.65) but not for SP (r = 0.20). CCI significantly increased the number of macrophage/microglia in the injured cortex at each endpoint up to 28 days, although cell numbers declined over weeks post-injury, P < .001. GFAP(+) immunoreactivity was significantly increased at 7 but not 14 or 28 days after CCI, P < .001. Craniotomy resulted in transient periorbital allodynia accompanied by transient increases in SP, CGRP, and GFAP immunoreactivity compared with control mice. There was no increase in the number of macrophage/microglia cells compared with controls after craniotomy., Conclusion: Injury to the somatosensory cortex results in persistent periorbital allodynia and increases in brainstem nociceptive neuropeptides. Findings suggest that persistent allodynia and increased neuropeptides are maintained by mechanisms other than activation of macrophage/microglia or astrocyte in the injured somatosensory cortex., (© 2012 American Headache Society.)

Published

2012

25. Ocular dryness excites two classes of corneal afferent neurons implicated in basal tearing in rats: involvement of transient receptor potential channels.

Author

Hirata H and Oshinsky ML

Subjects

Acetanilides pharmacology, Action Potentials drug effects, Analysis of Variance, Animals, Disease Models, Animal, Dose-Response Relationship, Drug, Dry Eye Syndromes etiology, Eye anatomy & histology, Male, Mannitol pharmacology, Neurons, Afferent classification, Neurons, Afferent drug effects, Osmolar Concentration, Purines pharmacology, Pyrazines pharmacology, Pyridines pharmacology, Rats, Rats, Sprague-Dawley, Reaction Time drug effects, Stimulation, Chemical, Temperature, Transient Receptor Potential Channels antagonists & inhibitors, Cornea innervation, Dry Eye Syndromes pathology, Neurons, Afferent physiology, Tears, Transient Receptor Potential Channels physiology, Vision, Ocular physiology

Abstract

This study reports the findings of two classes of corneal afferents excited by drying of the cornea (dry responses) in isoflurane-anesthetized rats: cold-sensitive (CS; 87%) and cold-insensitive (CI; 13%) neurons. Compared with CI neurons, CS neurons showed significantly higher firing rates over warmer corneal temperatures (~31-15°C) and greater responses to menthol, drying, and wetting of the cornea but lower responses when hyperosmolar solutions were applied to the ocular surface. We proposed that the dry responses of these corneal afferents derive from cooling and an increased osmolarity of the ocular surface, leading to the production of basal tears. An ocular application of the transient receptor potential channel TRPM8 antagonist BCTC (20 μM) decreased the dry responses by ~45-80% but failed to completely block them, whereas the TRPA1 antagonist HC030031 did not influence the responses to drying of the cornea or hyperosmolar tears. Furthermore, the responses produced by cold stimulation of the cornea accounted for only 28% of the dry responses. These results support the view that the stimulus for basal tearing (corneal dryness) derives partly from cooling of the cornea that activates TRPM8 channels but that non-TRPM8 channels also contribute significantly to the dry responses and to basal tearing. Finally, we hypothesized that activation of TRPM8 by cooling in CS corneal afferents not only gives rise to the sensation of ocular coolness but also to the "wetness" perception (Thunberg's illusion), whereas a precise role of the CI afferents in basal tearing and other ocular dryness-related functions such as eye blink and the "dryness" sensation remain to be elucidated.

Published

2012

26. Acetate causes alcohol hangover headache in rats.

Author

Maxwell CR, Spangenberg RJ, Hoek JB, Silberstein SD, and Oshinsky ML

Subjects

Acetaldehyde adverse effects, Alcohol Drinking, Analgesia, Animals, Chronic Disease, Ethanol adverse effects, Hypersensitivity, Inflammation, Male, Nociceptors metabolism, Rats, Rats, Sprague-Dawley, Touch, Acetates chemistry, Alcoholic Intoxication metabolism, Headache chemically induced

Abstract

Background: The mechanism of veisalgia cephalgia or hangover headache is unknown. Despite a lack of mechanistic studies, there are a number of theories positing congeners, dehydration, or the ethanol metabolite acetaldehyde as causes of hangover headache., Methods: We used a chronic headache model to examine how pure ethanol produces increased sensitivity for nociceptive behaviors in normally hydrated rats., Results: Ethanol initially decreased sensitivity to mechanical stimuli on the face (analgesia), followed 4 to 6 hours later by inflammatory pain. Inhibiting alcohol dehydrogenase extended the analgesia whereas inhibiting aldehyde dehydrogenase decreased analgesia. Neither treatment had nociceptive effects. Direct administration of acetate increased nociceptive behaviors suggesting that acetate, not acetaldehyde, accumulation results in hangover-like hypersensitivity in our model. Since adenosine accumulation is a result of acetate formation, we administered an adenosine antagonist that blocked hypersensitivity., Discussion: Our study shows that acetate contributes to hangover headache. These findings provide insight into the mechanism of hangover headache and the mechanism of headache induction.

Published

2010

27. Is phonophobia associated with cutaneous allodynia in migraine?

Author

Ashkenazi A, Yang I, Mushtaq A, and Oshinsky ML

Subjects

Acoustic Stimulation methods, Acute Disease, Adolescent, Adult, Auditory Threshold, Female, Humans, Hyperacusis diagnosis, Hyperalgesia diagnosis, Male, Middle Aged, Physical Stimulation methods, Psychoacoustics, Surveys and Questionnaires, Young Adult, Hyperacusis etiology, Hyperalgesia etiology, Migraine with Aura complications, Migraine without Aura complications

Abstract

Objective: To determine whether phonophobia and dynamic mechanical (brush) allodynia are associated in episodic migraine (EM)., Methods: Adult patients with EM were prospectively recruited. A structured questionnaire was used to obtain demographic and migraine related data. Phonophobia was tested quantitatively using a real time sound processor and psychoacoustic software. Sound stimuli were pure tones at frequencies of 1000 Hz, 4000 Hz and 8000 Hz, delivered to both ears at increasing intensities, until an aversive level was reached. Allodynia was assessed by brushing the patient's skin with a gauze pad at different areas. Patients were tested both between and during acute attacks. Sound aversion thresholds (SATs) in allodynic and non-allodynic patients were compared., Results: Between attacks, SATs were lower in allodynic compared with non-allodynic patients, with an average difference of -5.7 dB (p=0.04). During acute attacks, the corresponding average SAT difference (allodynic-non-allodynic) was -15.7 dB (p=0.0008). There was a significant negative correlation between allodynia scores and SATs, both within and between attacks., Conclusions: The results support an association between phonophobia and cutaneous allodynia in migraine.

Published

2010

28. Pain remapping in migraine: a novel characteristic following trigeminal nerve injury.

Author

Hussain A, Stiles MA, and Oshinsky ML

Subjects

Adult, Afferent Pathways physiopathology, Antidepressive Agents, Tricyclic therapeutic use, Diagnosis, Differential, Diagnostic Errors prevention & control, Facial Injuries complications, Female, Humans, Menstruation Disturbances complications, Menstruation Disturbances physiopathology, Middle Aged, Migraine Disorders complications, Migraine Disorders diagnosis, Neuronal Plasticity physiology, Pain, Referred diagnosis, Pain, Referred etiology, Toothache etiology, Toothache physiopathology, Treatment Outcome, Trigeminal Caudal Nucleus physiopathology, Trigeminal Nerve Injuries, Trigeminal Neuralgia diagnosis, Trigeminal Neuralgia etiology, Tryptamines therapeutic use, Facial Injuries physiopathology, Migraine Disorders physiopathology, Pain, Referred physiopathology, Trigeminal Nerve physiopathology, Trigeminal Neuralgia physiopathology

Abstract

The location of pain during the headache phase of migraine varies between individuals as well as between attacks in some individuals. We have observed a "remapping" or a change in the location of migraine pain following injury to the trigeminal system that is a novel characteristic to migraine and has not been described in other trigeminal pain syndromes of the head, neck, and face. Recognition of this clinical feature implies that the pathophysiology of migraine is impressionable and may be why diagnosis and treatment are often delayed.

Published

2010

29. Tension-type headache with medication overuse: pathophysiology and clinical implications.

Author

Monteith TS and Oshinsky ML

Subjects

Female, Headache Disorders, Secondary diagnosis, Humans, Male, Tension-Type Headache diagnosis, Analgesics adverse effects, Headache Disorders, Secondary classification, Headache Disorders, Secondary physiopathology, Tension-Type Headache classification, Tension-Type Headache drug therapy

Abstract

Tension-type headache (TTH) is the most prevalent primary headache disorder. An important factor in the long-term prognosis of TTH is the overuse of acute medications used to treat headache. There are many reasons why patients with TTH overuse acute medications, including biobehavioral influences, dependency, and a lack of patient education. Chronic daily headache occurs in 4.1% of the general population, and chronic tension-type headache and medication overuse headache (MOH) occur in approximately 2.2% and 1.5%, respectively. A proper diagnosis is essential for the treatment of these patients. Treatment should include pathological considerations concerning TTH and MOH, which include peripheral and central mechanisms. Because TTH with MOH carries the worst prognosis, more clinical studies focusing on the complex interaction and treatments of TTH and MOH are needed.

Published

2009

30. Auditory sensitivity of an acoustic parasitoid (Emblemasoma sp., Sarcophagidae, Diptera) and the calling behavior of potential hosts.

Author

Farris HE, Oshinsky ML, Forrest TG, and Hoy RR

Subjects

Acoustic Stimulation, Animals, Auditory Pathways physiology, Circadian Rhythm, Female, Interneurons physiology, Male, Oviposition, Sound Spectrography, Auditory Threshold, Diptera physiology, Hemiptera parasitology, Host-Parasite Interactions, Pattern Recognition, Physiological, Vocalization, Animal

Abstract

Using field broadcasts of model male calling songs, we tested whether Tibicen pruinosa and T. chloromera (Hemiptera: Cicadidae) are candidate hosts for acoustic parasitoid flies. The model calling song of T. pruinosa attracted 90% of the flies (Sarcophagidae: Emblemasoma sp.; all larvapositing females) when broadcast simultaneously with the model T. chloromera song, a phonotactic bias reconfirmed in single song playbacks. In paired broadcasts of model T. pruinosa songs with different relative amplitudes (3 dB or 6 dB), significantly more flies were attracted to the more powerful song, a result consistent with the responses predicted by a model proposed by Forrest and Raspet [1994]. Using intracellular recordings and dye injections, we characterized the sensitivity of auditory units in sound-trapped flies. Intracellular recordings from six auditory units (5 interneurons, 1 afferent) revealed best sensitivity for frequencies near 3-4 kHz, matching the predominant spectral components of the calling songs of both species of cicada. Interestingly, although flies could be attracted to T. pruinosa broadcasts throughout the day, hourly censuses of singing males revealed that calling occurred exclusively at dusk. Furthermore, the duration of the dusk chorus in T. pruinosa was significantly shorter than the midday chorus of the less attractive song of T. chloromera. We propose that the tight temporal aggregation of the dusk chorus time could function to reduce risk from attracted parasitoids., (Copyright 2008 S. Karger AG, Basel.)

Published

2008

31. Episodic dural stimulation in awake rats: a model for recurrent headache.

Author

Oshinsky ML and Gomonchareonsiri S

Subjects

Amino Acids analysis, Animals, Chromatography, High Pressure Liquid, Disease Models, Animal, Headache physiopathology, Inflammation, Male, Microdialysis, Migraine Disorders physiopathology, Migraine Disorders therapy, Rats, Rats, Sprague-Dawley, Touch, Trigeminal Nerve physiopathology, Dura Mater physiopathology, Headache therapy

Abstract

Objectives: To model, in rats, the development of chronic trigeminal nociceptive hypersensitivity seen in patients with recurrent headache., Background: Pathophysiology studies suggest that patients with recurrent migraine headache experience repeated bouts of dural nociceptor activation. In some patients, the severity and frequency of headache attacks increase over time. Patients with recurrent headache are hypersensitive to nitric oxide donors, such as glyceryl trinitrate (GTN). Current trigeminal pain models do not reflect the repeated episodic nature of dural nociceptor activation in patients with recurrent headache. Repeated nociceptor activation creates long-lasting changes in the periphery and brain due to activity-dependent neuronal plasticity. An animal model of repeated activation of dural nociceptors will facilitate the study of the physiological changes caused by repeated, episodic pain and the factors important for the transition of episodic to chronic migraine., Methods: We induced dural inflammation by infusing an inflammatory soup (IS) through a cannula on the dura in awake behaving rats. This was repeated 3 times per week for up to 4 weeks. Periorbital pressure sensory testing was used to monitor the change in trigeminal sensitivity. Rats were challenged with GTN to test the hypothesis that many dural stimulations are required to model the hypersensitivity of migraine patients. Quantitative trigeminal sensory testing and microdialysis in the trigeminal nucleus caudalis (TNC) were used to measure GTN hypersensitivity., Results: Multiple infusions of IS (>8), over weeks, induced a long-lasting decrease in periorbital pressure thresholds that lasted >3 weeks after the last infusion. In contrast, IS infusion in IS-naive rats and those that received 3 IS infusions produced only short-lasting decreases in periorbital pressure thresholds. Rats that received more than 8 IS infusions showed a marked increase in their neurochemical and behavioral responses to GTN. In these rats, GTN induced a decrease in periorbital von Frey thresholds that lasted >5 hours. In contrast, in rats that received only 3 IS infusions, GTN caused a threshold decrease for 1.5 hour. In vivo microdialysis in the TNC showed that GTN increased extracellular glutamate levels in rats with more than 8 IS infusions to 7.7 times the basal levels. In IS-naive rats and those that received only 3 IS infusions, the extracellular glutamate levels rose to only 1.7 and 1.9 times the basal level, respectively., Conclusions: Repeated IS stimulation of the dura produces a chronic state of trigeminal hypersensitivity and potentiates the response to GTN. This hyperresponsiveness outlasts the last IS infusion and is the basis of our rat model of recurrent headache. This model can be used to study the changes in the brain and periphery induced by repeated trigeminovascular nociceptor activation and has the potential to elucidate the mechanisms for the transition of episodic to chronic headache.

Published

2007

32. Neurochemistry of trigeminal activation in an animal model of migraine.

Author

Oshinsky ML and Luo J

Subjects

Animals, Humans, Microdialysis methods, Migraine Disorders metabolism, Pain metabolism, Pain physiopathology, Rats, Disease Models, Animal, Glutamic Acid metabolism, Migraine Disorders physiopathology, Trigeminal Nerve physiology

Abstract

Research techniques such as electrophysiology, cFos protein expression, and other measurements of neuronal activation provide insights into the pathophysiology of pain processing in migraine, but they do not indicate the specific neurotransmitter systems involved. This paper summarizes data from microdialysis experiments in which changes in the neurochemistry of the trigeminal nucleus caudalis (TNC) were monitored during dural stimulation. Microdialysis allows the measurement of extracellular concentrations of neurotransmitters in a small area of the brain, in vivo, by means of a probe equipped with a semipermeable membrane. Microdialysis enables direct measurement of changes in extracellular concentrations of neurotransmitters in the intact animal over time in response to dural inflammation. Following the activation of the dural nociceptors, changes in the extracellular amino acid neurotransmitters in the deep lamina of the TNC were tracked. A 5-minute application of inflammatory soup when compared with saline to the dura of rats induced a transient decrease in extracellular glutamate in the TNC at approximately 30 minutes postapplication. This short-lived decrease was followed by a continuous increase in extracellular glutamate to a level of approximately 3 times the baseline value at 3 hours after application of the inflammatory soup. The time course of this increase in extracellular glutamate correlated with changes in sensory thresholds on the face of the rat from electrophysiological recordings of secondary sensory neurons in the TNC. No significant differences between the inflammatory soup and saline conditions were observed for extracellular concentrations of aspartate (an excitatory amino acid) or the inhibitory neurotransmitters gamma-aminobutyric acid or glutamine. Results of these experiments support an integral role for glutamate in central sensitization of neurons in the TNC, and suggest an important contribution of glutamate to allodynia and hyperalgia in this animal model of migraine.

Published

2006

33. Insights from experimental studies into allodynia and its treatment.

Author

Oshinsky ML

Subjects

Analgesics therapeutic use, Animals, Drug Resistance, Humans, Hyperalgesia pathology, Migraine Disorders physiopathology, Hyperalgesia physiopathology, Hyperalgesia therapy, Migraine Disorders etiology, Migraine Disorders therapy

Abstract

Migraine is a common disorder that often is accompanied by cutaneous allodynia. Cutaneous allodynia on the head has been linked to sensitization of neurons in the trigeminal nucleus caudalis in animal models of migraine. In addition, migraine with allodynia is refractory to acute treatment with triptans. Understanding the mechanisms of allodynia, preventing its development, and finding effective treatments have become a priority in headache research. This paper reviews recent research on the pathogenesis of headache and the generation of allodynia. We discuss the regions of the nervous system that are involved in generating and maintaining headache pain and allodynia. We also discuss recent advances in the treatment of migraine based on translation research.

Published

2006

34. The start of phonotactic walking in the fly Ormia ochracea: a kinematic study.

Author

Mason AC, Lee N, and Oshinsky ML

Subjects

Acoustic Stimulation, Animals, Biomechanical Phenomena, Florida, Video Recording, Diptera physiology, Locomotion physiology, Orientation physiology, Sound Localization physiology

Abstract

Ormia ochracea (Diptera, Tachinidae) are acoustic parasitoids of crickets that have one of the most directionally sensitive auditory systems known. We studied dynamic characteristics of walking phonotaxis in these flies in response to variations in sound source azimuth, and compared phonotaxis of flies in freely walking conditions to tethered flies walking on a treadmill. Motor patterns at the initiation of phonotaxis are not stereotyped even for similar stimulus conditions. Flies respond to directional sound sources by walking in a tight curve that combines rotation and forward translation until they are oriented towards the source direction, then continue on a straight path. Translational velocity accelerates throughout the duration of the stimulus then decelerates following stimulus offset. In contrast, rotational velocity accelerates and then decelerates within the duration of the stimulus such that flies have completed the rotational component of the response and reached their final heading before the end of the stimulus. Rotational velocity is the only response parameter that varies systematically with sound source direction (azimuth). Differences in the amplitude of rotational velocity as a function of source azimuth determine the directional orientation of phonotactic responses. The relationship between rotational velocity and source azimuth is similar to a neural measure of auditory directionality (interaural latency). There were some differences between freely walking and tethered conditions, although both showed qualitatively similar responses. Flies accelerated more slowly and attained lower maximum velocities on the treadmill, consistent with the greater inertia of the treadmill sphere relative to the flies. Also, flies tended to continue walking longer on the treadmill following cessation of the stimulus.

Published

2005

35. Convergence of cervical and trigeminal sensory afferents.

Author

Piovesan EJ, Kowacs PA, and Oshinsky ML

Subjects

Electrophysiology instrumentation, Genes, fos genetics, Humans, Hypoglossal Nerve physiopathology, Immunohistochemistry, Nociceptors physiology, Proto-Oncogene Proteins c-fos metabolism, Sensation physiology, Spinal Nerves physiopathology, Headache physiopathology, Neurons, Afferent physiology, Trigeminal Nerve physiopathology

Abstract

Cranial nociceptive perception shows a distinct topographic distribution, with the trigeminal nerve receiving sensory information from the anterior portions of the head, the greater occipital nerve, and branches of the upper cervical roots in the posterior regions. However, this distribution is not respected during headache attacks, even if the etiology of the headache is specific for only one nerve. Nociceptive information from the trigeminal and cervical territories activates the neurons in the trigeminal nucleus caudalis that extend to the C2 spinal segment and lateral cervical nucleus in the dorsolateral cervical area. These neurons are classified as multimodal because they receive sensory information from more than one afferent type. Clinically, trigeminal activation produces symptoms in the trigeminal and cervical territory and cervical activation produces symptoms in the cervical and trigeminal territory. The overlap between the trigeminal nerve and cervical is known as a convergence mechanism. For some time, convergence mechanisms were thought to be secondary to clinical observations. However, animal studies and clinical evidence have expanded our knowledge of convergence mechanisms. In this paper, the role of convergence mechanisms in nociceptive physiology, physiopathology of the headaches, clinical diagnosis, and therapeutic conduct are reviewed.

Published

2003

36. Subthalamic GAD gene therapy in a Parkinson's disease rat model.

Author

Luo J, Kaplitt MG, Fitzsimons HL, Zuzga DS, Liu Y, Oshinsky ML, and During MJ

Subjects

Animals, Dependovirus genetics, Disease Models, Animal, Dopamine metabolism, Electric Stimulation, Electrophysiology, Genetic Vectors, Glutamate Decarboxylase metabolism, Glutamic Acid metabolism, Humans, Ibotenic Acid pharmacology, Isoenzymes metabolism, Male, Mesencephalon metabolism, Mesencephalon pathology, Mice, Motor Activity drug effects, Nerve Degeneration, Oxidopamine pharmacology, Parkinsonian Disorders metabolism, Parkinsonian Disorders pathology, Phenotype, Rats, Stem Cells virology, Substantia Nigra pathology, Substantia Nigra physiopathology, Subthalamic Nucleus pathology, Synaptic Transmission, Transgenes, gamma-Aminobutyric Acid metabolism, Genetic Therapy, Glutamate Decarboxylase genetics, Isoenzymes genetics, Neurons metabolism, Parkinsonian Disorders therapy, Substantia Nigra metabolism, Subthalamic Nucleus metabolism

Abstract

The motor abnormalities of Parkinson's disease (PD) are caused by alterations in basal ganglia network activity, including disinhibition of the subthalamic nucleus (STN), and excessive activity of the major output nuclei. Using adeno-associated viral vector-mediated somatic cell gene transfer, we expressed glutamic acid decarboxylase (GAD), the enzyme that catalyzes synthesis of the neurotransmitter GABA, in excitatory glutamatergic neurons of the STN in rats. The transduced neurons, when driven by electrical stimulation, produced mixed inhibitory responses associated with GABA release. This phenotypic shift resulted in strong neuroprotection of nigral dopamine neurons and rescue of the parkinsonian behavioral phenotype. This strategy suggests that there is plasticity between excitatory and inhibitory neurotransmission in the mammalian brain that could be exploited for therapeutic benefit.

Published

2002

37. Physiology of the auditory afferents in an acoustic parasitoid fly.

Author

Oshinsky ML and Hoy RR

Subjects

Acoustic Stimulation methods, Action Potentials physiology, Afferent Pathways anatomy & histology, Animals, Auditory Pathways anatomy & histology, Coloring Agents, Female, In Vitro Techniques, Reaction Time physiology, Sensory Receptor Cells anatomy & histology, Sensory Receptor Cells physiology, Sound Localization physiology, Afferent Pathways physiology, Auditory Pathways physiology, Diptera physiology

Abstract

The fly, Ormia ochracea, possess a novel auditory organ, which allows it to detect airborne sounds. The mechanical coupling of its pair of tympanal membranes provides the basis for a unique means of sensing the direction of a sound source. In this study, we characterized the neuroanatomy, frequency tuning, and neurophysiological response properties of the acoustic afferents. Our experiments demonstrate that the fly's nervous system is able to encode and localize the direction of a sound source, although the binaural auditory cues available in the acoustic sound field are miniscule. Almost all of the acoustic afferents recorded in this study responded to short and long sound pulses with a phasic burst of one to four action potentials. A few afferents responded tonically for the duration of the sound stimulus. A prominent class of afferents responds to suprathreshold stimuli with only a single spike discharge, independent of stimulus level, frequency, or duration. We also tested the response of the afferents to speakers separated by 180 degrees along the azimuth of the fly. We found that the afferent responses have a shorter latency because of ipsilateral stimulation. This could be a temporal code of the direction of a sound source. The threshold frequency tuning for the afferents revealed a range of sensitivities to the frequency of the cricket host's calling song frequency. The difference in the number of afferents above threshold on either side of the animal is a population code, which can also be used for sound localization.

Published

2002

38. A neural circuit for circadian regulation of arousal.

Author

Aston-Jones G, Chen S, Zhu Y, and Oshinsky ML

Subjects

Animals, Electrophysiology, Herpesvirus 1, Suid, Hypothalamus physiology, Immunohistochemistry, Male, Microinjections, Microscopy, Fluorescence, Rats, Rats, Sprague-Dawley, Arousal physiology, Circadian Rhythm physiology, Locus Coeruleus physiology, Suprachiasmatic Nucleus physiology

Abstract

An unknown aspect of behavioral state regulation is how the circadian oscillator of the suprachiasmatic nucleus (SCN) regulates sleep and waking. In this report, we describe the necessary elements for a circuit that provides circadian regulation of arousal. Trans-synaptic retrograde tracing revealed a prominent indirect projection from the SCN to the noradrenergic nucleus locus coeruleus (LC), a brain arousal system. Double-labeling experiments revealed several possible links between the SCN and the LC, including the dorsomedial (DMH) and paraventricular hypothalamic nuclei (PVN), as well as medial and ventrolateral pre-optic areas. Lesion studies confirmed that the DMH is a substantial relay in this circuit. Next, neurophysiology experiments revealed circadian variations in LC impulse activity. Lesions of the DMH eliminated these circadian changes in LC activity, confirming the functionality of the SCN-DMH-LC circuit. These results reveal mechanisms for regulation of circadian and sleep-waking functions.

Published

2001

39. Hyperacute directional hearing in a microscale auditory system.

Author

Mason AC, Oshinsky ML, and Hoy RR

Subjects

Animal Communication, Animals, Body Constitution, Diptera anatomy & histology, Equipment Design, Female, Gryllidae, Hearing Aids, Humans, Mechanoreceptors physiology, Diptera physiology, Sound Localization physiology

Abstract

The physics of sound propagation imposes fundamental constraints on sound localization: for a given frequency, the smaller the receiver, the smaller the available cues. Thus, the creation of nanoscale acoustic microphones with directional sensitivity is very difficult. The fly Ormia ochracea possesses an unusual 'ear' that largely overcomes these physical constraints; attempts to exploit principles derived from O. ochracea for improved hearing aids are now in progress. Here we report that O. ochracea can behaviourally localize a salient sound source with a precision equal to that of humans. Despite its small size and minuscule interaural cues, the fly localizes sound sources to within 2 degrees azimuth. As the fly's eardrums are less than 0.5 mm apart, localization cues are around 50 ns. Directional information is represented in the auditory system by the relative timing of receptor responses in the two ears. Low-jitter, phasic receptor responses are pooled to achieve hyperacute timecoding. These results demonstrate that nanoscale/microscale directional microphones patterned after O. ochracea have the potential for highly accurate directional sensitivity, independent of their size. Notably, in the fly itself this performance is dependent on a newly discovered set of specific coding strategies employed by the nervous system.

Published

2001