Rheological behavior of anionic collagen injectable gels in the presence of rhamsan for plastic surgery applications

Paula, Márcio de; Góissis, Gilberto; Martins, Virgínia da Conceição Amaro

doi:10.1007/s10856-007-3058-x

Cited by 9 publications

(5 citation statements)

References 16 publications

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“…The storage modulus of anionic collagen hydrogel has been found to be between 8 and 80 Pa. 13 In the presence of fibroblasts, collagen hydrogel at 0.3 mg/mL contracted to give a stiffer gel with a linear elastic modulus of 1.54 ± 0.507 kPa. 17 Although it is difficult to directly compare the results of the current method with those in the literature as the methods for measurement are different, the effect of cell-induced collagen gel contraction on the stiffness of the structure has been clearly revealed by the current microplate compression method, in that the mesenchymal stem cell-encapsulated collagen microspheres are several orders of magnitude stiffer than those fabricated without cells.…”

Section: Discussionmentioning

confidence: 99%

A Microplate Compression Method for Elastic Modulus Measurement of Soft and Viscoelastic Collagen Microspheres

Chan

Au-Yeung

et al. 2008

Ann Biomed Eng

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Hydrogel-based microspheres are commonly used for drug and cell delivery in regenerative medicine. Characterization of their physical and mechanical properties is important in monitoring their quality during fabrication and in predicting their performance upon injection. However, existing methods have limitations in measuring these micron-sized, soft and viscoelastic spherical structures. In this study, a protocol is developed to measure the elastic modulus of non-linear viscoelastic spheres by microplate compression, and is applied to collagen microspheres fabricated with or without cells. During the measurement, a microsphere is placed on a rigid surface and is compressed by a calibrated flexible microplate gripped to a rigid end. A step increase in the displacement rate of the rigid end of the flexible microplate is introduced and the reduced elastic modulus of the microsphere is calculated from the deformation response of the microsphere, using an equation derived in this study. The reduced elastic modulus of collagen microspheres with and without mesenchymal stem cells measured by this method was 9.1 kPa and 132 Pa, respectively.

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Section: Discussionmentioning

confidence: 99%

A Microplate Compression Method for Elastic Modulus Measurement of Soft and Viscoelastic Collagen Microspheres

Chan

Au-Yeung

et al. 2008

Ann Biomed Eng

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“…The viscosity of collagenous medium is dependent on pH 11,13 ; therefore, the drag force is a function of distance between the electrodes. The pH of dialyzed collagen solutions (Nutragen Ò , 6 mg/mL, Advanced Biomatrix, San Diego, CA) were adjusted to various values in the range of 3 and 11 using 0.1 N HCl or 0.1 N NaOH solutions.…”

Section: Assessment Of Viscosity As a Function Of Phmentioning

confidence: 99%

Modeling the Electromobility of Type-I Collagen Molecules in the Electrochemical Fabrication of Dense and Aligned Tissue Constructs

Uquillas

Akkuş

2012

Ann Biomed Eng

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Isoelectric focusing (IEF) of type-I collagen molecules is a technology with proven efficacy to produce dense and aligned collagen-based biomaterials. The forces and mechanisms during IEF of collagen molecules in carrier ampholyte-free environments remain unknown. This study presents theoretical framework describing the congregation of collagen molecules along the isoelectric point (pI). A single molecule was modeled as a rod-like particle, distributed homogeneously between parallel electrodes. Upon application of electrical current, molecules migrated to the pI. The results showed that self-aggregation of collagen molecules along the pI occurred due to formation of a non-linear pH gradient that rendered the anodic side acidic, and the cathodic side basic. This pH profile and the amphoteric nature of collagen resulted in positively charged molecules at the anode and negatively charged molecules at the cathode. Therefore, repulsive electrostatic forces aided self-aggregation of molecules along the pI. The model could effectively validate the pI of collagen, the pI location, and predict that the instantaneous velocity acting on a molecule at the anode was higher than those velocities at the cathode. This fundamental information represents the baseline theory upon which we can expand our knowledge to the production of biomaterials to engineer soft tissues.

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“…Interestingly, there is a major deficit of literature describing the use of creep rheology to characterize vaginal gels. Conversely, creep rheology has been used extensively to characterize a range of gel-based pharmaceutical materials [48][49][50]. In relation to vaginal gels, creep rheology is a useful tool in determining the balance of viscous--elastic character within a viscoelastic gel and how this balance may shift as a function of time under the application of small stress values.…”

Section: Creep Rheological Analysismentioning

confidence: 99%

Vaginal gel drug delivery systems: understanding rheological characteristics and performance

Yu¹,

Malcolm²,

Woolfson³

et al. 2011

Expert Opinion on Drug Delivery

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The complex and dynamic environment of the vagina requires a comprehensive understanding of the rheological performance of vaginal gels. The establishment of suitable rheological tests to appropriately define such characteristics may facilitate the selection of a gel that avoids leakage. The ideal gel platform must provide adequate coating with minimal leakage. This is extremely difficult to obtain as it requires the formulation of a gel with a suitable viscoelastic balance.

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Rheological behavior of anionic collagen injectable gels in the presence of rhamsan for plastic surgery applications

Cited by 9 publications

References 16 publications

A Microplate Compression Method for Elastic Modulus Measurement of Soft and Viscoelastic Collagen Microspheres

A Microplate Compression Method for Elastic Modulus Measurement of Soft and Viscoelastic Collagen Microspheres

Modeling the Electromobility of Type-I Collagen Molecules in the Electrochemical Fabrication of Dense and Aligned Tissue Constructs

Vaginal gel drug delivery systems: understanding rheological characteristics and performance

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