Swelling studies of bovine corneal stroma without bounding membranes.

Elliott, G.F.; Goodfellow, Julia M.; Woolgar, A.E.

doi:10.1113/jphysiol.1980.sp013094

Cited by 61 publications

(59 citation statements)

References 33 publications

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“…In cornea, a substantial part of the fixed net negative charge on the proteins arises from immobilized anions (probably largely chloride ions) trapped in potential wells or otherwise fixed to the protein surfaces (Elliott, 1980;Elliott et al 1980). Hodson et al (1992) have confirmed that transient chloride binding is a large contributory factor to corneal stromal swelling in the ox in the physiological regime, showing that the model described here is reasonable.…”

Section: Ttsupporting

confidence: 48%

Proceedings of the Physiological Society, 23‐25 September 1992, Cambridge Meeting: Communications

1993

The Journal of Physiology

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1TDExtracellular ATP acts on outer hair cells (OHCs) to activate a cationic current which can be detected both by whole-cell recording and by calcium imaging (Nakagawa et al. 1990; Ashmore & Ohmori, 1990). These measurements have been refined on a fast imaging system using the intracellular calcium indicator fura-2 (Kolston & Ashmore, 1992) to investigate the relationship between extracellular ATP and mechanosensitive transducer currents in OHCs.Isolated OHCs were studied in artificial perilymph containing either 1.5 mMI or 20,M Ca2+0. Measurements of Ca2+i in the stereocilial bundle at its resting position indicated the presence of elevated Ca2+i located approximately half way up the bundle. Puff application of 50 pM ATP in 1.5 mAM Ca2+ produced a localized rise of Ca2+i in the bundle (n = 8). In 20 uAI Ca 2+ 0 no such rise occurred (n = 3). In cells in which both current and fluorescence were simultaneously measured, ATPO produced a large inward current under both conditions of Ca2+ .Transducer currents were measured in OHCs during whole-cell recording by engaging the stereocilial array directly with a probe driven by a piezoelectric element. At holding potentials of -50 mV, inward currents of up to 80 pA were recorded. Under voltage clamp in both 1.5 mAM and 20 pMl Ca2+0 application of 50 pM ATP elicited a large inward current but reversibly reduced the maximum transducer current by approximately 50 % (n = 6). Only the amplitude of the transducer current-displacement curve was reduced by ATP; its shape and midpoint were unaltered. The time course of this reduction matched the time course of the whole cell ATP current.These observations can be explained most economically by suggesting that (supersensitive) chromatophores after 1 s (i.e. longer than the indirect response at the same flash strengths) as well as in skin with very low motor tone or inactivated by weak anaesthetics such as ethyl alcohol (1 %). The biophysics of the response, which presumably results from a transmembrane potential generated between pigment body and contacting muscle fibres, have not been investigated. Flash triggers dark waves, but the repetition frequency of spontaneous waves of colour (Packard, 1991), each followed by palor (muscle relaxation), is not affected by flash, suggesting that the pacemaker activity of pulsating denervated chromatophores (Kriebel & Florey, 1969) and/or actively relaxed muscles are refractory.The direct light response possibly plays a role in the natural colouring of octopuses, as it can be obtained in a major population of chromatophores of a related species (Octopus nacropus), simply by pointing a small fibre-optics light source at the fully innervated skin, while skin that is shaded pales. REFERENC'ESAndrews, P.L.R., Packard, A. & Tansey, E.M. (1982). J. Zool. Soc. Lond. 198,[131][132][133][134][135][136][137][138][139][140] Florey, E. & Kriebel AI.E. (1969). Z. 1Vergl. Packard, A. (1991). J. Physiol. 446, 1641'. 429c,P Journal of Physiology (1993 (1982) have reported many similarities between AV...

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Section: Ttsupporting

confidence: 48%

Proceedings of the Physiological Society, 23‐25 September 1992, Cambridge Meeting: Communications

1993

The Journal of Physiology

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“…The decrease in thickness in the human sclera after enzymetreatment could result from an overall loss of water with s-GAG degradation. The amount and type of negative ionic charges determine the scleral capacity for water absorption through charge [29] and osmotic [30][31][32] effects. However, the water absorption capacity of the tissue is also limited by the collagen interfibrillar spacing, itself governed by GAG-GAG charge repulsion [40] and GAG-GAG anti-parallel interactions [41].…”

Section: Discussionmentioning

confidence: 99%

The contribution of glycosaminoglycans to the mechanical behaviour of the posterior human sclera

Murienne

Chen

Quigley

et al. 2016

J. R. Soc. Interface.

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We characterized the structural and mechanical changes after experimental digestion of sulfated glycosaminoglycans (s-GAGs) in the human posterior sclera, using ultrasound thickness measurements and an inflation test with three-dimensional digital image correlation (3D-DIC). Each scleral specimen was first incubated in a buffer solution to return to full hydration, inflation tested, treated in a buffer solution with chondroitinase ABC (ChABC), then inflation tested again. After each test series, the thickness of eight locations was measured. After enzymatic treatment, the average scleral thickness decreased by 13.3% ( p , 0.001) and there was a stiffer overall stress-strain response ( p , 0.05). The stress-strain response showed a statistically significant increase in the low-pressure stiffness, high-pressure stiffness and hysteresis. Thus, s-GAGs play a measurable role in the mechanical behaviour of the posterior human sclera.

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“…If a small correction for hydration is included (Elliott and his coworkers assumed a physiological hydration of 3 4, whereas we used our measured physiological hydration of 3 2) the correspondence of the independently determined values for the fixed stromal charge is even closer. It appears that Donnan theory predicts accurately intrastromal electrical potential (Elliott, 1980), free swelling rates of stroma in saline (Elliott, Goodfellow & Woolgar, 1980) and corneal gel pressure measured by osmometry (current study) over a wide range of corneal hydrations. The theory accounts quantitatively for all the observed properties of corneal swelling except for one important group of exceptions, which all concern the measurement of corneal swelling pressure by mechanical methods.…”

Section: Discussionmentioning

confidence: 99%

“…1) then weight equilibrium was not attained, and even though the preparation might show an initial tendency to deturgesce, eventually tissue weight gain was progressive. In the whole-corneal preparations, where equilibrium was attained, the natural tendency of cornea to swell in saline (Elliott, Goodfellow & Woolgar, 1980) is balanced by the osmotic pressure generated by the non-penetrating solute (PEG 1OK) in the bathing solution.…”

Section: Resultsmentioning

confidence: 99%

“…The other criticism levelled at Donnan theory is that corneas immersed in hypertonic saline swell more rapidly than predicted by Donnan theory. The explanation given by Elliott et al (1980) is that the matrix charge is composed not only of the sulphonic and carboxylic acid groups of the matrix glycosaminoglycans but also of chloride ion binding to the stromal matrix which increases stromal negative charge and which may explain the relatively high swelling rates in high salt. We propose to investigate these possibilities further.…”

Section: Discussionmentioning

confidence: 99%

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The measurement of ox corneal swelling pressure by osmometry.

Hodson

O’Leary

Watkins

1991

The Journal of Physiology

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1. Ox corneal stromal swelling pressure (gel pressure) may be measured by osmometry: polyethylene glycol of nominal molecular mass 10,000 Da (PEG 10K) is a suitable non‐penetrating solute. 2. Corneal hydrations equilibrate within 4 h of exposure to 154 mM‐NaCl including various concentrations (2‐8%) of PEG 10K, providing that the epithelium covers the anterior surface and Descemet's membrane covers the posterior surface. At equilibrium hydration, corneal gel pressure equals the external osmotic pressure contributed by PEG 10K. 3. The osmotic pressure of PEG 10K may be calibrated using Descemet's membrane as the semi‐permeable membrane. 4. Corneal gel pressure decreases with increasing hydration. 5. The relationship may be adequately explained by the Donnan theory of corneal swelling with a fixed negative matrix charge of 39.5 +/‐ 0.8 mequiv l‐1 at physiological hydration of 3.2 at this salt concentration (154 mM‐NaCl).

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Swelling studies of bovine corneal stroma without bounding membranes.

Cited by 61 publications

References 33 publications

Proceedings of the Physiological Society, 23‐25 September 1992, Cambridge Meeting: Communications

Proceedings of the Physiological Society, 23‐25 September 1992, Cambridge Meeting: Communications

The contribution of glycosaminoglycans to the mechanical behaviour of the posterior human sclera

The measurement of ox corneal swelling pressure by osmometry.

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