| A | C | D | T | U | V | W | X | Y | Z | AA | AB | |
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1 | Primary Content | Presenter Name | Submission title | Poster Number | Session A Monday April 15 10:00-11:15 am | Poster Number | Session B Monday April 15 2:00- 3:15 pm | Poster Number | Session C Tuesday April 16 10:00-11:15 am | Poster Number | Session D Tuesday April 16 2:00-3:15 pm | |
2 | NIH | Laura Wandner | NIH HEAL Initiative Programs and Funding Opportunities in Clinical Pain Management and Workforce | 1 | X | 1 | X | 1 | X | 1 | X | |
3 | NIH | Rachel Weinberg | NIH HEAL Initiative Funding Opportunities in Translational Pain Research and Therapeutics Development | 2 | X | 2 | X | 2 | X | 2 | X | |
4 | ALL SESSIONS | Elizabeth Sypek | NIH HEAL Initiative Funding Opportunities in Basic and Preclinical Pain Research | 85 | X | 85 | X | 85 | X | 85 | X | |
5 | Abdominal and Pelvic Pain | Anastasiia Gryshyna | Exposure to Psychological Stress in Hemopexin Knockout Mice Contributes to Sex-Dependent Increased Pelvic Nociception | 3 | X | |||||||
6 | Abdominal and Pelvic Pain | Lakeisha Lewter | Assessing the Role of Amygdala Calcitonin Gene-related Peptide (CGRP) Receptors on the Development of Persistent Bladder Pain | 3 | X | |||||||
7 | Abdominal and Pelvic Pain | Marianna Gasperi | Exploring the Genetic Basis of Chronic Prostatitis/Chronic Pelvic Pain Syndrome: Insights from a Large-Scale Multi-ancestry Study | 4 | X | |||||||
8 | Abdominal and Pelvic Pain | Tara McQuillan | Voluntary Wheel Running Improves Hippocampal Integrity and Urogenital Hypersensitivity in Adult Mice Exposed to Neonatal Maternal Separation | 5 | X | |||||||
9 | Abdominal and Pelvic Pain | Shreela Palit | Chronic Overlapping Pain Conditions and Central Sensitization in Individuals with Chronic Pelvic Pain: The Role of Positive and Negative Affect | 3 | X | |||||||
10 | Abdominal and Pelvic Pain | PRANAV PRASOON | Mast cells and vascular endothelial growth factor contribute to pelvic tactile allodynia in a non-invasive mouse model of endometriosis | 3 | X | |||||||
11 | Abdominal and Pelvic Pain | Chloe Shudt | Anatomic Patterns of Mucosal and Muscular Pain Sensitivity in Provoked Vestibulodynia | 4 | X | |||||||
12 | Abdominal and Pelvic Pain | Takao Okuda | Electrophysiological Characteristics of Sacral Spinal Cord Projecting Rostroventral Medulla Neurons in Cystitis Model Mice | 4 | X | |||||||
13 | Abdominal and Pelvic Pain | Yufen Zhang | Identification of Spinal Cord Neurons Involved in the Modulation of Interstitial Cystitis | 5 | X | |||||||
14 | Abdominal and Pelvic Pain | Leena Kader | THE BIDIRECTIONAL IMPACT OF ARGININE-VASOPRESSIN RECEPTOR 1A AND THE GUT MICROBIOME ON VISCERAL HYPERSENSITIVITY. | 5 | X | |||||||
15 | Abdominal and Pelvic Pain | Lauren Papianou | Comparisons Between Persons With Chronic Overlapping Pain Conditions With or Without Abdominal/Pelvic Pain: Does Pain Location Make A Difference? | 4 | X | |||||||
16 | Abdominal and Pelvic Pain | Adam Willits | A Novel Role For The ‘Migraine Molecule’ Calcitonin Gene-Related Peptide In Neurogenic Bowel Pain And Dysfunction | 5 | X | |||||||
17 | Acute to Chronic Pain | Cheyenne Greenhouse | Treating Opioid Induced Hyperalgesia with Sublocade In A Patient With Chronic Pain: A Case Report | 6 | X | |||||||
18 | Acute to Chronic Pain | Torri D Wilson | Investigating the Role of the Parabrachial Nucleus to Central Amygdala Pathway in the Transition from Acute to Chronic Pain in a Mouse Model of Neuropathic Pain. | 7 | X | |||||||
19 | Acute to Chronic Pain | Kiley Christopher | Spinal Cord Expression and Function of Complement C5aR1 Receptor in Neuropathic Pain | 8 | X | |||||||
20 | Acute to Chronic Pain | Emma Raney | Low Pain Self-Efficacy as a Psychological Factor Associated with High Impact Chronic Pain | 6 | X | |||||||
21 | Acute to Chronic Pain | Kyle Oberkrom | The Role of Nitric Oxide in 7α,25-Dihydroxycholesterol-Induced Peripheral Sensitization | 9 | X | |||||||
22 | Acute to Chronic Pain | Rebecca Fillipo | Exploring Definitions of Acute Low Back Pain Severity as Predictors of Transition to Chronic Low Back Pain: a Community-Based Longitudinal Pilot Study | 6 | X | |||||||
23 | Acute to Chronic Pain | Colleen Burke | Transition from Acute to Chronic Low Back Pain: a Community-Based Longitudinal Study | 7 | X | |||||||
24 | Acute to Chronic Pain | Asia Wiggins | The Impact of Sociodemographic Factors on Pain Resilience among Adults with Chronic Low Back Pain | 6 | X | |||||||
25 | Acute to Chronic Pain | Kendall Walker | Exploring Novel Therapeutic Targets in Inflammatory Pain: Insights from the CFA-Induced Paw Pain Model in Mice | 8 | X | |||||||
26 | Acute to Chronic Pain | Cathryn Payne | Clinical and Somatosensory Profile of Patients with C1-2 Atlanto-Axial Pain | 9 | X | |||||||
27 | Acute to Chronic Pain | Hiba Zafar | Effectiveness of Inpatient Rehabilitation for Pediatric Patients with Complex Regional Pain Syndrome | 83 | X | |||||||
28 | Acute to Chronic Pain | Nicolas Dumaire | The NaV1.8-Collapsin Response Mediator Protein 5 Interaction Regulates NaV1.8 Membrane Localization And Nociception. | 7 | X | |||||||
29 | Acute to Chronic Pain | Eric Kruger | Psychological Predictors of Pain Three Months After Severe Musculoskeletal Injury | 8 | X | |||||||
30 | Acute to Chronic Pain | Noga Tsur | The Link Between Trauma and Chronic Pain: Exploring the Role of Pain Flashbacks in Chronic Pain Following Interpersonal Trauma | 8 | X | |||||||
31 | Acute to Chronic Pain | Sabrina de Souza | Mast-Cell-Derived Proteases Mediate Resolution Of Inflammatory Pain In Mice | 9 | X | |||||||
32 | Acute to Chronic Pain | Karin N Westlund High | Humanized Non-opioid Therapy for Pain Management: CCKB Receptor scFv | 9 | X | |||||||
33 | Basic Science - Preclinical | Temiloluwa Olaoluwa | Euphorbia Bicolor Phytochemicals Reduce Oxidative Stress, Inflammatory Mediators, and Pain Signaling in a Rat Model of Burn Pain | 10 | X | |||||||
34 | Basic Science - Preclinical | Yuma Ortiz | Efficacy and Receptor Activity of Mitragynine and Speciogynine in Attenuating Cancer-Induced Bone Pain Associated Mechanical Allodynia | 11 | X | |||||||
35 | Basic Science- Preclinical | Jaclyn Merlo | Role of Truncated TrkB in Oral Cancer Pain | 12 | X | |||||||
36 | Basic Science- Preclinical | Allan-Hermann Pool | Cell-type Map of Pain and Non-Pain Somatosensory States in the Spinal Cord | 13 | X | |||||||
37 | Basic Science- Preclinical | Janelle Siliezar Lugo | Deciphering the Mouse Spinal Cord Astrocyte Translatome at Acute and Chronic Timepoints of Complex Regional Pain Syndrome | 14 | X | |||||||
38 | Basic Science- Preclinical | Amy Nippert | Astrocyte Homeostatic Gene Expression Is Altered Across Pain States | 10 | X | |||||||
39 | Basic Science- Preclinical | Dianise Rodríguez García | Keratinocyte Sensitization Contributes To Sickle Cell Disease Pain | 15 | X | |||||||
40 | Basic Science- Preclinical | Paola Pacifico | Single Cell Transcriptomics Of Mouse Epidermis Reveals A Pivotal Role Of Langerhans Cells In Painful Diabetic Neuropathy | 11 | X | |||||||
41 | Basic Science- Preclinical | Jamie Moffa | Mu Opioid Receptor Knockout in Rostral Ventromedial Medulla Neurons Versus Presynaptic Terminals Has Divergent Effects on Acute Pain Phenotypes in Mice | 16 | X | |||||||
42 | Basic Science- Preclinical | Matias Preisegger | Modeling osteoarthritis pain with a tissue chip | 12 | X | |||||||
43 | Basic Science- Preclinical | Veronica M. Hong | Increased Mechanical Hypersensitivity Resulting from the Loss of Sigma-2 Receptor/TMEM97 Expression in Both Germline and Nociceptor-Specific Context | 17 | X | |||||||
44 | Basic Science- Preclinical | Chelsie Brewer | Determining the Functional Profile of Dorsal Root Ganglion Neurons Driving Osteoarthritis Pain | 10 | X | |||||||
45 | Basic Science- Preclinical | Adam Janowski | Development of a Mouse Model for Myalgic Encephalomyelitis/Chronic Fatigue Syndrome | 10 | X | |||||||
46 | Basic Science- Preclinical | Nicole Ochandarena | A Comprehensive Framework of Mu Opioid Receptor Mechanisms of Function in Anterior Cingulate and Somatosensory Cortex Neuron Types | 18 | X | |||||||
47 | Basic Science- Preclinical | Alexander Mikesell | Keratinocyte Piezo1 mediates paclitaxel-induced mechanical hypersensitivity | 19 | X | |||||||
48 | Basic Science- Preclinical | Benjamin Neugebauer | Electrophysiological Properties of Neuronal Subpopulations Within the Spinopontoamygdaloid Pathway in Relation to a Mouse Model of Time-Dependent Neuropathic Pain | 20 | X | |||||||
49 | Basic Science- Preclinical | Talia Adi | Three-dimensional Morphological Analysis of Meningeal Macrophages Over Time Using In Vivo Two-Photon Microscopy. | 21 | X | |||||||
50 | Basic Science- Preclinical | Kali Esancy | A Novel Small Molecule Reverses the Negative Hedonic Valence of Noxious Stimuli | 11 | X | |||||||
51 | Basic Science- Preclinical | Charles Warwick | Parallel Interrogation of Supraspinal Projections, Excitatory, and Inhibitory Neurons in the Naïve Mouse Dorsal Horn | 13 | X | |||||||
52 | Basic Science- Preclinical | Christina Mecca | Keratinocytes Contribute To Traumatic Nerve Injury-Induced Mechanical Hypersensitivity | 22 | X | |||||||
53 | Basic Science- Preclinical | Sudhuman Singh, PhD | Unraveling the Role of CGRP Receptor-Expressing Neurons in the Central Amygdala: Insights into Neuropathic Pain Mechanisms and Behavioral Responses. | 12 | X | |||||||
54 | Basic Science- Preclinical | Ying Xu | Inflammatory Response in Peripheral and Central Nervous System Is Involved in Alzheimer’s Disease Associated Pain | 23 | X | |||||||
55 | Basic Science- Preclinical | Stephanie Michalski | Adenosine A3 Receptor Agonism Attenuates Chronic Migraine-Induced Trigeminal Hypersensitivity in Mice | 13 | X | |||||||
56 | Basic Science- Preclinical | Deziree Coleman | Genetic Characterization and Exploration of Mu-Opioid Receptor Signaling in C. elegans | 24 | X | |||||||
57 | Basic Science- Preclinical | McKenna Pratt | Probiotic Treatment Alleviates Chronic Pain in Sickle Cell Disease Mice | 11 | X | |||||||
58 | Basic Science- Preclinical | Sofia Farinas | Mapping Nociceptive and Opioidergic Cell-Types in the Cingulate Cortex of Mice and Non-Human Primates | 12 | X | |||||||
59 | Basic Science- Preclinical | Angela Smith | Exploring the Role of Descending Dopamine Pain Modulation in the Transition to Chronic Pain | 13 | X | |||||||
60 | Basic Science- Preclinical | Claudia Vore | Diabetes Risk Mediates the Relationship Between an Unhealthy Food Environment and Pronociceptive Mechanisms: Findings from the Oklahoma Study of Native American Pain Risk (OK-SNAP) | 14 | X | |||||||
61 | Basic Science- Preclinical | Sunita Varghese | Spinal Cord Injury-Induced Chronic Pain is Driven by a Central to Peripheral IL-1 Mediated Signaling Pathway | 15 | X | |||||||
62 | Basic Science- Preclinical | Blake Kimmey | Opioidergic state-control of midbrain nociception | 14 | X | |||||||
63 | Basic Science- Preclinical | Sydney Caparaso | Single-nuclei RNA Sequencing Shows Unique Transcriptomic Signatures Of Rat Dorsal Root Ganglia In A Disc-associated Chronic Low Back Pain Model | 16 | X | |||||||
64 | Basic Science- Preclinical | Ben Title | Adaptive Changes in the First CNS Nociceptive Neural Network, Leading to Pathological Pain | 17 | X | |||||||
65 | Basic Science- Preclinical | Stacie Totsch | Therapeutic Potential of a Plant-Based Diet in Reducing Pain and Tumor Growth | 18 | X | |||||||
66 | Basic Science- Preclinical | Gentry Totta-Griese | Methylglyoxal, A Noxious Metabolite, Drives Nociceptive Axon Loss in the Skin | 19 | X | |||||||
67 | Basic Science- Preclinical | Christopher Peters | Anatomical And Functional Interrogation of 5HT3R+ Sensory Neurons In Knee Arthritis | 14 | X | |||||||
68 | Basic Science- Preclinical | Emily Whitaker | Immunologic Synapse Formation Between Mouse Dorsal Root Ganglion Neurons and CD4+ T Cells Induces CD4+ T Cell Cytokine Production | 15 | X | |||||||
69 | Basic Science- Preclinical | Kathryn Braden | Endogenous Opioid Peptide in Dorsal Raphe Nucleus Modulates Pain and Motivation | 16 | X | |||||||
70 | Basic Science- Preclinical | Lana Heslop | Identification of Drug Treatments that Stimulate C-Fiber Regeneration | 20 | X | |||||||
71 | Basic Science- Preclinical | Olivia Davis | Primary Afferents Containing Calcitonin Gene-Related Peptide and Substance P Form Complex Synaptic Arrangements in Human Spinal Dorsal Horn | 17 | X | |||||||
72 | Basic Science- Preclinical | Jonathan Enders | Heat-Treatment Precipitates Latent Painful Neuropathy in Rats with Fabry Disease. | 18 | X | |||||||
73 | Basic Science- Preclinical | Melissa Daeschner | Cell-Specific Alternative Splicing Controls Functional Coupling of Calcium Channels and Vesicle Exocytosis Machinery in Nociceptors | 21 | X | |||||||
74 | Basic Science- Preclinical | Bei Wen | NR2B regulates oxidative damage in keratinocytes during complex regional pain syndrome | 22 | X | |||||||
75 | Basic Science- Preclinical | Adamczyk, Wacław (Vatsi) | Radiation of Pain in Humans: Evidence for a Psychophysical Manifestation of a Neural Population Coding Mechanism? | 19 | X | |||||||
76 | Basic Science- Preclinical | Peter J Sells | The Efficacy of Phenol-Glucose-Glycerin Mixtures as a Prolotherapy Proliferative Substance on Fibroblast Tissue Culture. | 23 | X | |||||||
77 | Basic Science- Preclinical | Nicole Scheff | Impact of Resiniferatoxin on Oral Squamous Cell Carcinoma Pain and Tumor-Associated Immune Response | 20 | X | |||||||
78 | Basic Science- Preclinical | Ryan Loke | Beyond Neuroimaging: A Bottom-Up Approach To Unraveling Pain Mechanisms In The Brain | 24 | X | |||||||
79 | Basic Science- Preclinical | Ran Tao | Exploring Cellular Mechanisms of Inflammatory Temporomandibular Joint Pain by Single-Cell Multiomic Sequencing | 25 | X | |||||||
80 | Basic Science- Preclinical | Sarah Crowards | Chronic Activation of the Innate Immune Receptor Toll-Like Receptor 4 Drives Peripheral Nerve Fiber Loss but not Pain-Like Behavior | 15 | X | |||||||
81 | Basic Science- Preclinical | Stephanie Shiers | Pathological Abnormalities of Painful Diabetic Neuropathy in the Human Dorsal Root Ganglion | 21 | X | |||||||
82 | Basic Science- Preclinical | Laumet, Geoffroy | Lateral Hypothalamic Area Neurons Expressing Neurotensin Support Weight Loss and Alleviate Pain | 25 | X | |||||||
83 | Basic Science- Preclinical | Sydney Lamerand | Spinal Microglia Maintain Multiple Sclerosis-Associated Neuropathic Pain | 16 | X | |||||||
84 | Basic Science- Preclinical | Diana King | Molecular-cellular Analysis of Macrophage-like Perineural Cells in Human Dorsal Root Ganglion Tissue | 17 | X | |||||||
85 | Basic Science- Preclinical | Andre Martel-Matos | Oral Squamous Cell Carcinoma Induces Nerve Injury And Adrenergic Receptor Plasticity, Resulting In Sympathetic-Sensory Coupled Pain | 18 | X | |||||||
86 | Basic Science- Preclinical | Lisa McIlvried | CGRP Neurotransmission Modulates Oral Squamous Cell Carcinoma Pain And Tumor Progression | 26 | X | |||||||
87 | Basic Science- Preclinical | Kayleigh Rodriguez | The Persistence Of Rodent Mechanical Hypersensitivity Following Chronic Constriction Injury From Chronic Early-Life Stress | 19 | X | |||||||
88 | Basic Science- Preclinical | Jennifer Ricano | Activation of Beta-3 Adrenergic Receptors with the Selective Agonist Mirabegron Elicits Multi-Site Mechanical Hypersensitivity, Grimace, and Increased IL-6 Levels in Mice | 20 | X | |||||||
89 | Basic Science- Preclinical | Harrison Stratton | Population Level Functional Characterization Of Primary Afferent Neurons In Response To Epinephrine | 22 | X | |||||||
90 | Basic Science- Preclinical | Jijun Xu | Complement Receptor C3aR1 Contributes to Paclitaxel-Induced Peripheral Neuropathic Pain | 21 | X | |||||||
91 | Basic Science- Preclinical | Randy Rubright | Conditioned Media From Painful Human Schwannomatosis Tumors Hypersensitize Sensory Neurons to Painful Stimuli; an in vitro and in vivo study. | 23 | X | |||||||
92 | Basic Science- Preclinical | Kimberly Gomez | C2230, a Selective, Use- and State-Dependent CaV2.2 Channel Blocker for Neuropathic, Orofacial, and Osteoarthritic Pain | 24 | X | |||||||
93 | Basic Science- Preclinical | Timothy M. Doyle | GPR160 Inhibition Prevents The Development Of Oxaliplatin-Induced Neuropathic Pain And Alteration Of Perineuronal Net In The Spinal Cord Of Rats. | 26 | X | |||||||
94 | Basic Science- Preclinical | Laura Osborn | Behavioral Effects Of Repeated Paclitaxel Cycles On Paclitaxel-Induced Peripheral Neuropathy Resolution | 22 | X | |||||||
95 | Basic Science- Preclinical | Jeremy Thompson | Chronic Pain-Related Hypoexcitability of Accumbal-Projecting Mesolimbic Dopamine Neurons is Associated with Altered Performance on Reward Learning Tasks | 25 | X | |||||||
96 | Basic Science- Preclinical | Aleyah Goins | Neuroimmune Mechanisms Of A Model Of Chronic Back Pain In Mice And Humans | 23 | X | |||||||
97 | Basic Science- Preclinical | Jie Li | Astrocyte D1/D5 dopamine receptors govern non-Hebbian long-term potentiation at sensory synapses onto lamina I spinoparabrachial neurons | 27 | X | |||||||
98 | Basic Science- Preclinical | Michael M. Morgan | Preclinical Assessment of Opioid Tolerance: Methodological Problems and Solutions | 24 | X | |||||||
99 | Basic Science- Preclinical | Wei Lei | Treatment of Compound 968 (C968) and CU1015 reduces chemotherapy-induced peripheral neuropathy in CD-1 mice. | 26 | X | |||||||
100 | Basic Science- Preclinical | M. Imad Damaj | PHARMACOLOGY OF CLASSICAL PSYCHEDELIC IN MOUSE MODELS OF CHRONIC PAIN | 27 | X |