Cancer pain physiology

Falk, Sarah; Bannister, Kirsty; Dickenson, Anthony H.

doi:10.1177/2049463714545136

Cited by 44 publications

(49 citation statements)

References 75 publications

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“…The most common cause of cancer-induced pain arises from bone metastases. [1] Of advanced cancer suffers, 60–84% are estimated to experience varying degrees of bone pain. [2] Cancer-induced bone pain (CIBP) involves both neuropathic and inflammatory pain pathways, associated with tumor, stroma, and adjacent tissues, including peripheral and central nerves.…”

Section: Introductionmentioning

confidence: 99%

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Bone Pain and Muscle Weakness in Cancer Patients

Milgrom

Lad

Koniaris

et al. 2017

Curr Osteoporos Rep

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Purpose of review In this article we will discuss the current understanding of bone pain and muscle weakness in cancer patients. We will describe the underlying physiology and mechanisms of cancer-induced bone pain (CIBP) and cancier-induced muscle wasting (CIMW), as well as current methods of diagnosis and treatment. We will discuss future therapies and research directions to help patients with these problems. Recent Findings There are several pharmacologic therapies that are currenly in pre-clinical and clinical testing that appear to be promising adjuncts to current CIBP and CIMW therapies. Such therapies include resiniferitoxin, which is a targeted inhibitor of nociptive nerve fibers, and selective androgen receptor modulators, which show promise in increasing lean mass. Summary CIBP and CIMW are a significant causes of morbidity in affected patients. Current management is mostly palliative; however, targeted therapies are poised to revolutionize how these problems are treated.

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Section: Introductionmentioning

confidence: 99%

“…[2] Cancer-induced bone pain (CIBP) involves both neuropathic and inflammatory pain pathways, associated with tumor, stroma, and adjacent tissues, including peripheral and central nerves. [1]…”

Section: Introductionmentioning

confidence: 99%

Bone Pain and Muscle Weakness in Cancer Patients

Milgrom

Lad

Koniaris

et al. 2017

Curr Osteoporos Rep

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“…In addition to the development of inflammation, neuropathic changes have also been reported in animal models of bone and joint pain [67, 68, 47, 69, 70]. Studies in rat and mouse models of cancer-induced bone pain and chemical-induced osteoarthritis joint pain have demonstrated expression of ATF3, a neural marker of nerve damage, in cell bodies within the dorsal root ganglion innervating the bone or joint [71–73, 69].…”

Section: Site Of Injury or Pathologymentioning

confidence: 99%

“…Many animal and clinical studies have demonstrated that sensitization of peripheral and central neurons develops in the context of chronic bone or joint pain [5, 67, 78]. The international association for the study of pain (IASP) defines sensitization as “Increased responsiveness of nociceptive neurons to their normal input, and/or recruitment of a response to normally subthreshold inputs”.…”

Section: Sensitizationmentioning

confidence: 99%

“…There are many well written overviews of mechanisms contributing to development of peripheral sensitization [80, 58] and central sensitization [67, 68, 80, 81]. Much has been learned about the impact of many of the factors that are released by local tissues, such as ATP, ADP, endothelins, bradykinin, and growth factors [7, 12, 47, 58, 80].…”

Section: Sensitizationmentioning

confidence: 99%

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Mechanisms Underlying Bone and Joint Pain

Havelin

King

2018

Curr Osteoporos Rep

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Purpose of Review. The goal of this review is to provide a broad overview of the current understanding of mechanisms underlying bone and joint pain. Recent Findings. Bone or joint pathology is generally accompanied by local release of pro-inflammatory cytokines, growth factors and neurotransmitters that activate and sensitize sensory nerves resulting in an amplified pain signal. Modulation of the pain signal within the spinal cord and brain that result in net increased facilitation is proposed to contribute to the development of chronic pain. Summary. Great strides have been made in our understanding of mechanisms underlying bone and joint pain that will guide development of improved therapeutic options for these patients. Continued research is required for improved understanding of mechanistic differences driving different components of bone and/or joint pain such as movement related pain compared to persistent background pain. Advances will guide development of more individualized and comprehensive therapeutic options.

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The preoperative machine learning algorithm for extremity metastatic disease can predict 90‐day and 1‐year survival: An external validation study

Skalitzky

Gulbrandsen

Groot

et al. 2021

Journal of Surgical Oncology

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Background:The prediction of survival is valuable to optimize treatment of metastatic long-bone disease. The Skeletal Oncology Research Group (SORG) machine-learning (ML) algorithm has been previously developed and internally validated. The purpose of this study was to determine if the SORG ML algorithm accurately predicts 90-day and 1-year survival in an external metastatic long-bone disease patient cohort.Methods: A retrospective review of 264 patients who underwent surgery for long-bone metastases between 2003 and 2019 was performed. Variables used in the stochastic gradient boosting SORG algorithm were age, sex, primary tumor type, visceral/brain metastases, systemic therapy, and 10 preoperative laboratory values. Model performance was calculated by discrimination, calibration, and overall performance.Results: The SORG ML algorithms retained good discriminative ability (area under the cure [AUC]: 0.83; 95% confidence interval [CI]: 0.76-0.88 for 90-day mortality and AUC: 0.84; 95% CI: 0.79-0.88 for 1-year mortality), calibration, overall performance, and decision curve analysis. Conclusion:The previously developed ML algorithms demonstrated good performance in the current study, thereby providing external validation. The models were incorporated into an accessible application (https://sorg-apps.shinyapps.io/ extremitymetssurvival/) that may be freely utilized by clinicians in helping predict survival for individual patients and assist in informative decision-making discussion before operative management of long bone metastatic lesions.

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Cancer pain physiology

Cited by 44 publications

References 75 publications

Bone Pain and Muscle Weakness in Cancer Patients

Bone Pain and Muscle Weakness in Cancer Patients

Mechanisms Underlying Bone and Joint Pain

The preoperative machine learning algorithm for extremity metastatic disease can predict 90‐day and 1‐year survival: An external validation study

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