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	An upper limit for macromolecular crowding effects Add to Reading List Open Document File Size: 982,00 KB Share Result on Facebook City Mellville / San Marcos / Clearwater / Shelton / Marlboro / Reading / San Diego / / Company Vishay Americas / McMillan AB / Olympus Imaging America Inc. / Jackson Laboratory / Google / Data Translation Inc. / Dell computer / Oxford University Press / Friden / Synergy Software Inc. / Nelson AG / Alder AB / Nikon Instruments Inc. / Wavetek Corp / BioMed Central Ltd. / IMEB Inc / Creative Commons / / Country United States / Canada / United Kingdom / / / Event Environmental Issue / / Facility Bar Harbor / Bar PR / Xie HQ / University of Wisconsin Institutional Animal Care / Center Valley / University of Wisconsin Medical School / University of Wisconsin School / / IndustryTerm sham / typical sports medicine practice / sham control / acquisition software / imaging / muscle / mm / stainless steel roller-clamp system / isokinetic device / chemical and metabolic factors / online submission / injury / Experimental injury protocol / / MedicalCondition inflammatory response / minimally invasive standardized single stretch injury / muscle injury / JE / acute eccentric contraction-induced strain injury / Eccentric exercise-induced injury / strain / twitch / Free radical injury / Muscle injuries / skeletal muscle injury / inflammatory mediators / contraction-induced injury / standardized muscle stretch injury / mm injury / fatigue / injury / muscle strain injuries / Less invasive injury / Acute muscle strain injuries / acute strain injuries / inflammatory cascade / recurrent injury / inflammatory cell infiltration / complete muscle tetany / chronic in vivo measurements / inflammatory genes / standardized single stretch injury / thus creating muscle injury / acute muscle strain injury / single stretch injury / tetany / initial stretch injury / contraction / Experimental injury / muscle strain / common injuries / stretch injury / single stretch murine injury / muscle tetany / eccentric injury / eccentric contraction-induced injury / injuries / fibrosis / substantially decreased immediately following injury / / MedicalTreatment incision / stem cell therapies / Incisions / / Organization Department of Orthopedics and Rehabilitation / University of Wisconsin Institutional Animal Care and Use Committee / University of Wisconsin School of Medicine and Public Health / University of Wisconsin Medical School / Oxford University / of Wisconsin Medical School / / Person Ray Vanderby / Chong Jian Wai Ke Za Zhi / Van Der Vusse / Carol Dizack / Background Muscle / / Position Experimental model / Model 75 / McHugh MP / author / artist / representative / Eclipse microscope model E6000 / model DP70 / / Product isoflurane / CL / / ProvinceOrState Wisconsin / Maine / New York / / PublishedMedium the Bonferroni post / / Technology alpha / Adam / Experimental injury protocol / sports medicine / MTU / Stem cells / / URL www.biomedcentral.com/submit / http / SocialTag Muscular system Exercise Muscle Soft tissue Tissues Physical strength Skeletal striated muscle Triceps surae muscle Stretch shortening cycle Anatomy