Inflammatory pain - page 2 Scientific Publications

Latest publication 12/06/2021

Small Extracellular Vesicles Derived From Human Ipsc-Derived MSC Ameliorate Tend

Acute pain is the primary symptom of tendinopathy, and mast cells activation is a nonnegligible cause. Currently, safe and effective treatment for...

Array
(
    [id_prestablog_news] => 1483
    [id_shop] => 1
    [date] => 2021-12-06 00:00:00
    [date_modification] => 2024-02-09 14:15:13
    [langues] => ["1","2"]
    [actif] => 1
    [slide] => 0
    [url_redirect] => 
    [average_rating] => 
    [number_rating] => 
    [author_id] => 1
    [featured] => 0
    [prim_key] => 3146
    [id_lang] => 1
    [title] => Small Extracellular Vesicles Derived From Human Ipsc-Derived MSC Ameliorate Tend
    [paragraph] => Small Extracellular Vesicles Derived From Human Ipsc-Derived MSC Ameliorate Tendinopathy-Related Acute Pain Through Inhibiting Mast Cells Activation
    [content] => 
Authors
R Gao, T Ye, Z Zhu et al

 Lab
Shanghai Jiao Tong University Affiliated Sixth People' Hospitaliated to Shanghai Jiaotong University
Journal
ResearchSquare
Abstract
Acute pain is the primary symptom of tendinopathy, and mast cells activation is a nonnegligible cause. Currently, safe and effective treatment for acute pain in tendinopathy is still lacking. This study was aimed to explore the analgesic effect of iPSC-derived mesenchymal stem cell-derived small extracellular vesicles (iMSC-sEVs) on acute pain and further investigate the underlying mechanisms in tendinopathy. 
BIOSEB Instruments Used
Electronic Von Frey 5 with embedded camera (BIO-EVF5),Static Weight Bearing Touch: Incapacitance Test (BIO-SWB-TOUCH-M),Electronic Von Frey 4 (BIO-EVF4)
    [meta_description] => 
    [meta_keywords] => https://doi.org/10.21203/rs.3.rs-1130900/v1
    [meta_title] => 
    [link_rewrite] => small-extracellular-vesicles-derived-from-human-ipsc-derived-msc-ameliorate-tendinopathy-related-acute-pain-through-inhibiting-mast-cells-activation
    [actif_langue] => 1
    [read] => 1061
    [count_comments] => 0
    [id] => 1483
    [categories] => Array
        (
            [70] => Array
                (
                    [id_prestablog_categorie] => 70
                    [title] => Arthritis & Osteoarthritis
                    [link_rewrite] => Arthritis-Osteoarthritis
                )

            [28] => Array
                (
                    [id_prestablog_categorie] => 28
                    [title] => Inflammatory pain
                    [link_rewrite] => Inflammatory-pain
                )

            [2] => Array
                (
                    [id_prestablog_categorie] => 2
                    [title] => Publications
                    [link_rewrite] => publications
                )

        )

    [authors] => 
    [paragraph_crop] => Small Extracellular Vesicles Derived From Human Ipsc-Derived MSC Ameliorate [...]
    [link_for_unique] => 1
    [products_liaison] => Array
        (
            [1860] => Array
                (
                    [name] => Electronic Von Frey 5 with embedded camera
                    [description_short] => 
As an electronic version of the classical Von Frey Filaments esthesiometer (or aesthesiometer), the latest evolution of Bioseb's Electronic Von Frey instrument for determining the mechanical sensitivity threshold in rodents (rats and mice) is a must-have instrument for your reseach on hyperalgesia and allodynia. By measuring and recording the force at which the animal exhibits a paw withdrawal reflex, pathologies related to sensory response and hyper- or hypo-aesthesia can be studied.

The EVF5 includes an embedded camera inside the stimulator handle and a new, dedicated software revolutionizing the experimental process.

                    [thumb] => 
                    [img_empty] => /var/www/vhosts/de3310.ispfr.net/bioseb2024/modules/prestablog/views/img/product_link_white.jpg
                    [image_presente] => 1
                    [link] => https://bioseb.com/en/pain-mechanical-allodynia-hyperalgesia/1860-electronic-von-frey-5-with-embedded-camera.html
                )

            [27] => Array
                (
                    [name] => Static Weight Bearing Touch: Incapacitance Test
                    [description_short] => 
An easy and non pain-inducing solution for assessing the level of discomfort (incapacitance) in the injured paw of a small animal like a rat or a mouse by measuring the Postural Equilibrium “ independently of the operator". The static weight bearing instrument is ideal for your research on analagesia and nociception involving rodents: osteo arthrisis, cartilage degeneration, inflammation models, nerve injury models, and much more... Discover the SWB-Touch: now with a brand new touch-screen console!

                    [thumb] => 
                    [img_empty] => /var/www/vhosts/de3310.ispfr.net/bioseb2024/modules/prestablog/views/img/product_link_white.jpg
                    [image_presente] => 1
                    [link] => https://bioseb.com/en/pain-spontaneous-pain-postural-deficit/27-static-weight-bearing-touch-incapacitance-test.html
                )

            [1859] => Array
                (
                    [name] => Electronic Von Frey - Wireless
                    [description_short] => 
A quick solution to determine the mechanical sensitivity threshold in rodents (mice and rats). Now wireless, to be free from annoying cables!

This precise and easy-to-use electronic instrument is a must-have reference for your research in analgesia, nociception, neuro-pathologies and post-operative pain.

                    [thumb] => 
                    [img_empty] => /var/www/vhosts/de3310.ispfr.net/bioseb2024/modules/prestablog/views/img/product_link_white.jpg
                    [image_presente] => 1
                    [link] => https://bioseb.com/en/pain-mechanical-allodynia-hyperalgesia/1859-electronic-von-frey-4.html
                )

        )

)
1