| scholarly article | Q13442814 |
| P50 | author | Markus Büchler | Q89169 |
| Helmut Friess | Q15453363 | ||
| Fabio Francesco di Mola | Q59674706 | ||
| P2093 | author name string | A Zimmermann | |
| C Kulli | |||
| M Korc | |||
| M Reinshagen | |||
| H U Graber | |||
| Z W Zhu | |||
| A Andren-Sandberg | |||
| P2860 | cites work | Analysis of nerves in chronic pancreatitis | Q68326119 |
| A short, eclectic history of exocrine pancreatic insufficiency and chronic pancreatitis | Q70681082 | ||
| The risk of pancreaticointestinal anastomosis can be predicted preoperatively | Q71584921 | ||
| Expression and coexpression of Trk receptors in subpopulations of adult primary sensory neurons projecting to identified peripheral targets | Q71623864 | ||
| Effect of NGF antibodies on mast cell distribution, histamine and substance P levels in the knee joint of TNF-arthritic transgenic mice | Q71699401 | ||
| KAI1 expression is up-regulated in early pancreatic cancer and decreased in the presence of metastases | Q71733962 | ||
| The biological effects of endogenous nerve growth factor on adult sensory neurons revealed by a trkA-IgG fusion molecule | Q71803583 | ||
| Neurotrophic factors and their receptors | Q71880802 | ||
| The effect of systemically administered recombinant human nerve growth factor in healthy human subjects | Q72114050 | ||
| Cytotoxic cells are activated in cellular infiltrates of alcoholic chronic pancreatitis | Q73309519 | ||
| Enhanced urokinase plasminogen activation in chronic pancreatitis suggests a role in its pathogenesis | Q73676021 | ||
| Presence of two signaling TGF-beta receptors in human pancreatic cancer correlates with advanced tumor stage | Q73867368 | ||
| Duodenum-preserving pancreatic head resection: Long-term results | Q77620886 | ||
| Distribution of nerves within the pancreas; an experimental investigation | Q78691973 | ||
| Severe sensory and sympathetic neuropathies in mice carrying a disrupted Trk/NGF receptor gene. | Q34338664 | ||
| Chronic pancreatitis is associated with increased concentrations of epidermal growth factor receptor, transforming growth factor alpha, and phospholipase C gamma | Q34379846 | ||
| NGF as a mediator of inflammatory pain. | Q34390489 | ||
| Mutations in the TRKA/NGF receptor gene in patients with congenital insensitivity to pain with anhidrosis | Q34733805 | ||
| The cause and management of the pain of chronic pancreatitis | Q38018443 | ||
| Chronic pancreatitis: diagnosis and treatment | Q38644103 | ||
| Pancreatic duct pressure in chronic pancreatitis | Q39562626 | ||
| Duodenal stenosis in chronic pancreatitis: clinicopathological correlations | Q39563309 | ||
| The nerve growth factor 35 years later | Q39667849 | ||
| Structural and functional properties of the TRK family of neurotrophin receptors | Q40374660 | ||
| Nerve growth factor and nociception. | Q40492172 | ||
| Neurotrophins and their receptors--current concepts and implications for neurologic disease | Q40829579 | ||
| Update of the NGF saga | Q40961632 | ||
| Phenotypic modification of primary sensory neurons: the role of nerve growth factor in the production of persistent pain | Q41055368 | ||
| Mechanisms of chronic pain | Q41078770 | ||
| Nerve growth factor: from neurotrophin to neurokine | Q41226270 | ||
| Pancreatic extracellular matrix alterations in chronic pancreatitis | Q42522705 | ||
| Pathology of chronic pancreatitis and pancreatic pain | Q44395154 | ||
| Enhanced expression of the type II transforming growth factor beta receptor in human pancreatic cancer cells without alteration of type III receptor expression. | Q46888050 | ||
| Immune cell infiltration and growth-associated protein 43 expression correlate with pain in chronic pancreatitis. | Q48611920 | ||
| The role of nerve growth factor in a model of visceral inflammation. | Q48720808 | ||
| Nerve growth factor-induced hyperalgesia in the neonatal and adult rat | Q56980397 | ||
| Increased content and transport of substance P and calcitonin gene-related peptide in sensory nerves innervating inflamed tissue: Evidence for a regulatory function of nerve growth factor in vivo | Q56990844 | ||
| Changes in peptidergic innervation in chronic pancreatitis | Q67533543 | ||
| [Nerve growth factor receptor (NGFR)-like immunoreactivity in the perineurial cells of the adult rat peripheral nerves: normal appearance and response to nerve section] | Q67963429 | ||
| Nerve growth factor in the synovial fluid of patients with chronic arthritis | Q68058885 | ||
| Effect of nerve growth factor on the release of inflammatory mediators by mature human basophils | Q68126436 | ||
| P433 | issue | 5 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | chronic pancreatitis | Q1996053 |
| P304 | page(s) | 615-624 | |
| P577 | publication date | 1999-11-01 | |
| P1433 | published in | Annals of Surgery | Q4767866 |
| P1476 | title | Nerve growth factor and its high-affinity receptor in chronic pancreatitis | |
| P478 | volume | 230 |
| Q44658609 | Acute pancreatitis results in referred mechanical hypersensitivity and neuropeptide up-regulation that can be suppressed by the protein kinase inhibitor k252a |
| Q58112374 | Antinerve growth factor monoclonal antibodies for the control of pain in dogs and cats |
| Q36808138 | Blockade of NGF and trk receptors inhibits increased peripheral mechanical sensitivity accompanying cystitis in rats |
| Q74385354 | Brain-derived neurotrophic factor (BDNF) is upregulated and associated with pain in chronic pancreatitis |
| Q33875370 | Brain-derived neurotrophic factor is upregulated in rats with chronic pancreatitis and mediates pain behavior |
| Q35124914 | Chronic pancreatitis: the perspective of pain generation by neuroimmune interaction |
| Q28344075 | Connective tissue growth factor is involved in pancreatic repair and tissue remodeling in human and rat acute necrotizing pancreatitis |
| Q26776148 | Current understanding of the neuropathophysiology of pain in chronic pancreatitis |
| Q46518096 | Decreased lithium disposition to cerebrospinal fluid in rats with glycerol-induced acute renal failure |
| Q42468547 | Desmoplastic reaction influences pancreatic cancer growth behavior |
| Q37179368 | Distribution and neurochemical identification of pancreatic afferents in the mouse |
| Q37061548 | Does the pain-protective GTP cyclohydrolase haplotype significantly alter the pattern or severity of pain in humans with chronic pancreatitis? |
| Q35064502 | Effect of NCPB and VSPL on pain and quality of life in chronic pancreatitis patients |
| Q36931658 | Emerging drugs for osteoarthritis |
| Q54109841 | Functional effects of TrkA inhibition on system xC--mediated glutamate release and cancer-induced bone pain. |
| Q35794844 | Infection, immune function, and functional gut disorders |
| Q36385372 | Management of pain in small duct chronic pancreatitis |
| Q35607796 | Molecular pathophysiology of chronic pancreatitis--an update |
| Q35360190 | Nerve growth factor and Trk high affinity receptor (TrkA) gene expression in inflammatory bowel disease |
| Q46419772 | Nerve growth factor modulates TRPV1 expression and function and mediates pain in chronic pancreatitis |
| Q38605689 | Neural plasticity in pancreatitis and pancreatic cancer |
| Q35209131 | New insights on the involvement of Nerve Growth Factor in allergic inflammation and fibrosis |
| Q52279610 | Operative treatment for chronic pancreatitis pain. |
| Q38164701 | Pain and chronic pancreatitis: a complex interplay of multiple mechanisms |
| Q37156898 | Pain and chronic pancreatitis: is it the plumbing or the wiring? |
| Q37364689 | Pain and inflammatory bowel disease |
| Q37056288 | Pain and pain generation in pancreatic cancer. |
| Q42696011 | Pain in chronic pancreatitis: managing beyond the pancreatic duct |
| Q37820380 | Pain mechanisms in chronic pancreatitis: of a master and his fire |
| Q38195223 | Pancreatic pain. |
| Q42833516 | Pancreatic regeneration in chronic pancreatitis requires activation of the notch signaling pathway |
| Q36192959 | Pancreatic stellate cells: a starring role in normal and diseased pancreas |
| Q35566367 | Pathogenesis of Pain in Chronic Pancreatitis: Ongoing Enigma |
| Q37937421 | Perineural invasion and associated pain in pancreatic cancer |
| Q37317433 | Pharmacological pain management in chronic pancreatitis |
| Q35463321 | Potential mechanisms for hypoalgesia induced by anti-nerve growth factor immunoglobulin are identified using autoimmune nerve growth factor deprivation |
| Q37054639 | Repeated variate stress in male rats induces increased voiding frequency, somatic sensitivity, and urinary bladder nerve growth factor expression |
| Q26738297 | Road map for pain management in pancreatic cancer: A review |
| Q44607464 | Role of nerve growth factor in the trinitrobenzene sulfonic acid-induced colonic hypersensitivity |
| Q48911388 | Spatial and temporal aspects of muscle hyperalgesia induced by nerve growth factor in humans |
| Q42728130 | Substance P and calcitonin gene related peptide mediate pain in chronic pancreatitis and their expression is driven by nerve growth factor |
| Q34273607 | Surgery and chronic pancreatitis. |
| Q39233608 | Surgical approach to chronic pancreatitis: draining and resection procedure |
| Q38312536 | Systematic mechanism-orientated approach to chronic pancreatitis pain |
| Q34061917 | Systemic administration of anti-NGF increases A-type potassium currents and decreases pancreatic nociceptor excitability in a rat model of chronic pancreatitis |
| Q46259879 | Tanezumab for the Treatment of Pain from Osteoarthritis of the Knee |
| Q26866465 | The Pancreas: Causes for Malabsorption |
| Q35761443 | The neurotrophic factor artemin influences the extent of neural damage and growth in chronic pancreatitis |
| Q24679996 | The role of Transient Receptor Potential Vanilloid 1 (TRPV1) channels in pancreatitis |
| Q24802890 | The role of mast cells in the pathogenesis of pain in chronic pancreatitis |
| Q37978115 | Unraveling the mystery of pain in chronic pancreatitis |
| Q73181168 | Unravelling the mystery of pancreatic pain |
| Q73381941 | Up-regulation of p75 neurotrophin receptor (p75NTR) is associated with apoptosis in chronic pancreatitis |
| Q58617465 | [EXPRESS] Differential modulation of voltage-gated sodium channels by nerve growth factor in three major subsets of TrkA-expressing nociceptors |
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