scholarly article | Q13442814 |
P2093 | author name string | Pankaj Jay Pasricha | |
Mohan Shenoy | |||
LianSheng Liu | |||
P2860 | cites work | Transient receptor potential vanilloid 1 mediates hyperalgesia and is up-regulated in rats with chronic pancreatitis | Q33294178 |
Transcriptional and posttranslational plasticity and the generation of inflammatory pain | Q33679553 | ||
Brain-derived neurotrophic factor is upregulated in rats with chronic pancreatitis and mediates pain behavior | Q33875370 | ||
Type of pain, pain-associated complications, quality of life, disability and resource utilisation in chronic pancreatitis: a prospective cohort study. | Q34154312 | ||
NGF as a mediator of inflammatory pain. | Q34390489 | ||
Pain and chronic pancreatitis: is it the plumbing or the wiring? | Q37156898 | ||
Course and outcome of chronic pancreatitis. Longitudinal study of a mixed medical-surgical series of 245 patients. | Q39554565 | ||
Opioidergic and cholinergic peripheral pain mechanisms. | Q41676120 | ||
Nerve growth factor treatment increases stimulus-evoked release of sensory neuropeptides in the rat spinal cord | Q42439525 | ||
Peripheral cell types contributing to the hyperalgesic action of nerve growth factor in inflammation | Q42522560 | ||
Pancreatic neuropathy and neuropathic pain--a comprehensive pathomorphological study of 546 cases | Q44124539 | ||
Differential contribution of substance P and neurokinin A to spinal cord neurokinin-1 receptor signaling in the rat. | Q45027502 | ||
Calcitonin gene-related peptide receptor activation produces PKA- and PKC-dependent mechanical hyperalgesia and central sensitization | Q45108443 | ||
Pancreatic neuropathy results in "neural remodeling" and altered pancreatic innervation in chronic pancreatitis and pancreatic cancer. | Q45945273 | ||
Transient receptor potential vanilloid 1, calcitonin gene-related peptide, and substance P mediate nociception in acute pancreatitis. | Q46012095 | ||
Nerve growth factor modulates TRPV1 expression and function and mediates pain in chronic pancreatitis | Q46419772 | ||
Molecular and behavioral changes in nociception in a novel rat model of chronic pancreatitis for the study of pain | Q46648872 | ||
Immune cell infiltration and growth-associated protein 43 expression correlate with pain in chronic pancreatitis. | Q48611920 | ||
Nerve growth factor contributes to the generation of inflammatory sensory hypersensitivity. | Q52214955 | ||
Changes in peptidergic innervation in chronic pancreatitis | Q67533543 | ||
Nerve growth factor and its high-affinity receptor in chronic pancreatitis | Q73181165 | ||
NK-1 receptor gene expression is related to pain in chronic pancreatitis | Q73686749 | ||
The neurokinin-2 receptor is not involved in the sensitization of primary afferents of the rat knee joint | Q74268477 | ||
Enhanced excitability and suppression of A-type K+ current of pancreas-specific afferent neurons in a rat model of chronic pancreatitis | Q83215013 | ||
P433 | issue | 4 | |
P921 | main subject | substance P | Q411041 |
chronic pain | Q1088113 | ||
chronic pancreatitis | Q1996053 | ||
P304 | page(s) | 389-394 | |
P577 | publication date | 2011-07-08 | |
P1433 | published in | Journal of the Pancreas | Q15756345 |
P1476 | title | Substance P and calcitonin gene related peptide mediate pain in chronic pancreatitis and their expression is driven by nerve growth factor | |
P478 | volume | 12 |
Q37074592 | Antinociceptive effects of dexmedetomidine via spinal substance P and CGRP |
Q36799724 | Calcitonin gene-related peptide-expressing sensory neurons and spinal microglial reactivity contribute to pain states in collagen-induced arthritis |
Q36259745 | Compromised Neurotrophic and Angiogenic Regenerative Capability during Tendon Healing in a Rat Model of Type-II Diabetes |
Q38040648 | Control of arthritis pain with anti-nerve-growth factor: risk and benefit |
Q36600304 | Mechanism, assessment and management of pain in chronic pancreatitis: Recommendations of a multidisciplinary study group |
Q51744338 | Neuronal Transforming Growth Factor beta Signaling via SMAD3 Contributes to Pain in Animal Models of Chronic Pancreatitis. |
Q38286003 | Sensory nerves and pancreatitis |
Q95270096 | Spinal Mobilization Prevents NGF-Induced Trunk Mechanical Hyperalgesia and Attenuates Expression of CGRP |
Q47698063 | Towards a neurobiological understanding of pain in chronic pancreatitis: mechanisms and implications for treatment |
Q37978115 | Unraveling the mystery of pain in chronic pancreatitis |
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