review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Jami Saloman | Q42822737 |
Brian M. Davis | Q38322200 | ||
P2093 | author name string | Andrew D Rhim | |
Kathryn M Albers | |||
P2860 | cites work | Tricyclic antidepressant pharmacology and therapeutic drug interactions updated | Q24564967 |
Hereditary pancreatitis: new insights into acute and chronic pancreatitis | Q24670166 | ||
Sympathetic nervous system regulation of the tumour microenvironment | Q26795614 | ||
Schwann cells induce cancer cell dispersion and invasion. | Q27331510 | ||
Personal habits and indoor combustions. Volume 100 E. A review of human carcinogens | Q27692551 | ||
Interleukin-6 is required for pancreatic cancer progression by promoting MAPK signaling activation and oxidative stress resistance | Q28504893 | ||
EMT and dissemination precede pancreatic tumor formation | Q29615854 | ||
Cancer in schizophrenia: is the risk higher or lower? | Q33340764 | ||
Inhibition of human prostate cancer cells proliferation by a selective alpha1-adrenoceptor antagonist labedipinedilol-A involves cell cycle arrest and apoptosis | Q33389709 | ||
Mechanisms of action of antipsychotic drugs of different classes, refractoriness to therapeutic effects of classical neuroleptics, and individual variation in sensitivity to their actions: Part II | Q33612521 | ||
The incidence of cancer in schizophrenic patients | Q33687097 | ||
Functional and chemical anatomy of the afferent vagal system | Q33934014 | ||
Mechanism of cancer pain | Q33953901 | ||
The nicotinic acetylcholine receptor CHRNA5/A3/B4 gene cluster: dual role in nicotine addiction and lung cancer | Q34126960 | ||
Colorectal cancer risk in relation to antidepressant medication use. | Q34234319 | ||
Wnt signaling in cancer | Q34262857 | ||
Blockade of nerve sprouting and neuroma formation markedly attenuates the development of late stage cancer pain | Q34356398 | ||
Which are the cells of origin in merkel cell carcinoma? | Q39488379 | ||
Stress hormones increase cell proliferation and regulates interleukin-6 secretion in human oral squamous cell carcinoma cells | Q39615351 | ||
Neurotoxic effect of capsaicin in mammals. | Q39671890 | ||
Neural invasion in pancreatic cancer: a mutual tropism between neurons and cancer cells | Q39959402 | ||
Use of lithium and cancer risk in patients with bipolar disorder: population-based cohort study. | Q40498981 | ||
Experimental basis for neural-immune interactions | Q40576753 | ||
Neural-immune interactions. | Q40638877 | ||
Mechanisms of action of antipsychotic drugs of different classes, refractoriness to therapeutic effects of classical neuroleptics, and individual variation in sensitivity to their actions: Part I. | Q41846717 | ||
Synergistic role of TRPV1 and TRPA1 in pancreatic pain and inflammation | Q41856267 | ||
Why stress is BAD for cancer patients | Q42127137 | ||
Norepinephrine promotes tumor microenvironment reactivity through β3-adrenoreceptors during melanoma progression | Q42434242 | ||
Primary sensory neurons: a common final pathway for inflammation in experimental pancreatitis in rats | Q44132422 | ||
Reduced cancer incidence among patients with schizophrenia | Q44255437 | ||
Pancreatic cancer pain and its correlation with changes in tumor vasculature, macrophage infiltration, neuronal innervation, body weight and disease progression | Q44306587 | ||
Phase II study of lonidamine and diazepam in the treatment of recurrent glioblastoma multiforme | Q44482659 | ||
The incidence and relative risk factors for developing cancer among patients with schizophrenia: a nine-year follow-up study | Q45068851 | ||
Oncostatic effects of fluoxetine in experimental colon cancer models | Q46724639 | ||
Sympathectomy reduces tumor weight and affects expression of tumor-related genes in melanoma tissue in the mouse | Q47289333 | ||
Persistent postmastectomy pain in breast cancer survivors: analysis of clinical, demographic, and psychosocial factors | Q47995363 | ||
Effects of cigarette smoke extracts on the progression and metastasis of human ovarian cancer cells via regulating epithelial-mesenchymal transition. | Q51690714 | ||
Pain in cancer survivors. | Q54960570 | ||
Pharmacologically induced selective degeneration of chemosensitive primary sensory neurones | Q59082877 | ||
Effects of chronic denervation in type I cutaneous mechanoreceptors (Haarscheiben) | Q71091970 | ||
A quantitative study of the time course of the reduction in Merkel cell number within denervated rat touch domes | Q71334728 | ||
Neural-immune interactions in health and disease | Q73923416 | ||
Chemical sympathectomy suppresses fibrosarcoma development and improves survival of tumor-bearing rats | Q84537479 | ||
Association between use of β-blockers and prostate cancer-specific survival: a cohort study of 3561 prostate cancer patients with high-risk or metastatic disease | Q85959730 | ||
A quantitative sensory analysis of peripheral neuropathy in colorectal cancer and its exacerbation by oxaliplatin chemotherapy | Q34438547 | ||
Tricyclic antidepressants and the incidence of certain cancers: a study using the GPRD | Q34577538 | ||
Effect of chronic restraint stress on human colorectal carcinoma growth in mice | Q34667999 | ||
A nervous tumor microenvironment: the impact of adrenergic stress on cancer cells, immunosuppression, and immunotherapeutic response | Q35077524 | ||
Denervation suppresses gastric tumorigenesis | Q35219277 | ||
Basal cell carcinoma preferentially arises from stem cells within hair follicle and mechanosensory niches. | Q35290089 | ||
Stress, metabolism and cancer: integrated pathways contributing to immune suppression | Q35755577 | ||
The Cancer Chemotherapeutic Paclitaxel Increases Human and Rodent Sensory Neuron Responses to TRPV1 by Activation of TLR4 | Q36106866 | ||
Nociceptive Sensory Fibers Drive Interleukin-23 Production from CD301b+ Dermal Dendritic Cells and Drive Protective Cutaneous Immunity | Q36165375 | ||
Neural-immune interactions: an integrative view of the bidirectional relationship between the brain and immune systems | Q36352525 | ||
Behavioral stress accelerates prostate cancer development in mice | Q36580367 | ||
Ablation of sensory neurons in a genetic model of pancreatic ductal adenocarcinoma slows initiation and progression of cancer | Q36710531 | ||
β-Blockers and survival among Danish patients with malignant melanoma: a population-based cohort study | Q36838466 | ||
TRPV1 and TRPA1 antagonists prevent the transition of acute to chronic inflammation and pain in chronic pancreatitis | Q36948889 | ||
Use of tricyclic antidepressants and risk of glioma: a nationwide case-control study | Q36964312 | ||
Chronic inflammation and pancreatic cancer. | Q37061026 | ||
Involvement of substance P and the NK-1 receptor in pancreatic cancer | Q37617971 | ||
Targeting Wnt signaling: can we safely eradicate cancer stem cells? | Q37763415 | ||
CD44: can a cancer-initiating cell profit from an abundantly expressed molecule? | Q37851351 | ||
α7 nicotinic acetylcholine receptor subunit in angiogenesis and epithelial to mesenchymal transition | Q37980834 | ||
Regulatory role of the α7nAChR in cancer | Q37980835 | ||
The impact of adrenergic signaling in skin cancer progression: possible repurposing of β-blockers for treatment of skin cancer | Q38126354 | ||
Aspirin and nonsteroidal anti-inflammatory drugs can prevent cutaneous squamous cell carcinoma: a systematic review and meta-analysis | Q38292951 | ||
Genetics and Genetic Testing in Pancreatic Cancer | Q38563003 | ||
Neural plasticity in pancreatitis and pancreatic cancer | Q38605689 | ||
Nicotine enhances the malignant potential of human pancreatic cancer cells via activation of atypical protein kinase C. | Q38757520 | ||
Comparison of the Anti-tumor Effects of Selective Serotonin Reuptake Inhibitors as Well as Serotonin and Norepinephrine Reuptake Inhibitors in Human Hepatocellular Carcinoma Cells | Q38838926 | ||
Antiproliferative effects of β-blockers on human colorectal cancer cells. | Q38894715 | ||
Olanzapine inhibits proliferation, migration and anchorage-independent growth in human glioblastoma cell lines and enhances temozolomide's antiproliferative effect | Q38927030 | ||
Neuroplastic changes occur early in the development of pancreatic ductal adenocarcinoma. | Q39032230 | ||
Autonomic nerve development contributes to prostate cancer progression | Q39126984 | ||
Norepinephrine stimulates pancreatic cancer cell proliferation, migration and invasion via β-adrenergic receptor-dependent activation of P38/MAPK pathway | Q39454109 | ||
P433 | issue | 12 | |
P304 | page(s) | 880-889 | |
P577 | publication date | 2016-11-08 | |
P1433 | published in | Trends in Neurosciences | Q3538443 |
P1476 | title | Can Stopping Nerves, Stop Cancer? | |
P478 | volume | 39 |
Q38631444 | Aberrantly methylated-differentially expressed genes and pathways in colorectal cancer |
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Q99558025 | Does sympathetic nervous system modulate tumor progression? A narrative review of the literature |
Q92461139 | Extrapancreatic Neuropathy Correlates with Early Liver Metastasis in Pancreatic Head Adenocarcinoma |
Q47270653 | Motivation for Launching a Cancer Metastasis Inhibition (CMI) Program |
Q90359364 | Muscarinic acetylcholine receptor M1 mediates prostate cancer cell migration and invasion through hedgehog signaling |
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Q92873210 | Schwann cell plasticity-roles in tissue homeostasis, regeneration, and disease |
Q41686738 | The brain is required for normal muscle and nerve patterning during early Xenopus development. |
Q98725916 | The updated landscape of tumor microenvironment and drug repurposing |
Q52318550 | Tumor progression: the neuronal input. |
Q96576389 | Tumor-induced neurogenesis and immune evasion as targets of innovative anti-cancer therapies |
Q91828961 | Weighted Gene Co-Expression Network Analysis Identified Cancer Cell Proliferation as a Common Phenomenon During Perineural Invasion |
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