2009
DOI: 10.1016/j.jconrel.2009.01.016
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Intramuscular drug transport under mechanical loading: Resonance between tissue function and uptake

Abstract: Dynamic architecture and motion in mechanically active target tissues can influence the pharmacokinetics of locally delivered agents. Drug transport in skeletal muscle under controlled mechanical loads was investigated. Static (0-20%) and cyclic (±2.5% amplitude, 0-20% mean, 1-3 Hz) strains and electrically paced isometric contractions (0.1-3 Hz, 0% strain) were applied to rat soleus incubated in 1 mM 20 kDa FITC-dextran. Dextran penetration, tissue porosity, and active force-length relationship over 0-20% str… Show more

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Cited by 12 publications
(7 citation statements)
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“…infusion is interesting in confirming superior uptake; that there is little drug in the inferior wall is intriguing. These latter findings suggest that deposition of drug within myocardium is dominated by forces far beyond passive diffusion and may point to active modes of elimination consistent with observations related to contractile‐dependent drug uptake 26,27. Local delivery is then far more powerful than a dose‐limiting mode of administration and has the potential to add to the potency of clinical pharmacotherapy despite the complexity of resulting pharmacokinetics.…”
Section: Discussionsupporting
confidence: 71%
“…infusion is interesting in confirming superior uptake; that there is little drug in the inferior wall is intriguing. These latter findings suggest that deposition of drug within myocardium is dominated by forces far beyond passive diffusion and may point to active modes of elimination consistent with observations related to contractile‐dependent drug uptake 26,27. Local delivery is then far more powerful than a dose‐limiting mode of administration and has the potential to add to the potency of clinical pharmacotherapy despite the complexity of resulting pharmacokinetics.…”
Section: Discussionsupporting
confidence: 71%
“…This can be explained by the rapid effusion of the aqueous vehicle, the subsequent creation of the granulomatous envelope, and the low diffusional mobility of micrometersized particles through the continuous network of peri-and endomysial collagen fibers and narrow aqueous channels. 19,20 The formulation spreading and therefore the surface area for systemic absorption is determined by the balance between many variables including the injection volume, the rheological properties of the system, the particle size, stabilizer properties, the injection site, and connective tissue characteristics (i.e., tissue, organ, and species dependent) and the dispersal forces exerted onto the bolus (hydrodynamic pressure and local mechanical forces). 11,19,21,22 In general, the intermuscular disposition of the microsuspensions will have implications on the dissolution and absorption kinetics, as the interfascial space possesses characteristics that resemble more the s.c. than the true i.m.…”
Section: Discussionmentioning
confidence: 99%
“…That influences the pharmacokinetics of systemically of locally delivered drugs. Increased cellular uptake of therapeutics on skeletal muscle cells or nasal epithelial cells has been reported, when the strain was applied [220,221]. This situation could also apply to bone cells, highlighting the importance of drug screening during applied mechanical loading.…”
Section: Drug Screening In the Presence Of Mechanical Loading Is Critmentioning
confidence: 98%