हृदय संबंधी जांच: खुली पहुंच खुला एक्सेस

अमूर्त

Cardiology 2019: The proof and reasons that Starling’s Law for the capillaryinterstitial fluid transfer is wrong: Advancing the hydrodynamics of a porous orifice(G) tube as the real mechanism

Ahmed N Ghanem

Introduction and objective: In 1886, Starling proposed a hypothesis for the capillary–interstitial fluid (ISF) transfer in which the capillary was thought a tube of a uniform diameter that is impermeable to plasma proteins. The flow of fluid across its wall was thought dependent upon a balance between the hydrostatic pressure within its lumen, encouraging fluid to leave ‘filtration’, & the osmotic pressure of plasma proteins, tending to draw fluid back to the capillary lumen ‘absorption’, with similar opposing smaller forces in the ISF space. At the arterial end of the capillary, lumen pressure is greater than the oncotic pressure & fluid is pushed out. At the venous end, osmotic pressure is higher & fluid is withdrawn into capillary lumen.

The physical basis on which lumen pressure of a capillary was thought positive & responsible for filtration was Poiseuille’s work (1799–1869) on long Brass tubes of uniform diameters. However, Burnoulli’s effect of a fluid jet & Venturi’s effect of a tube constriction are well known & must also be considered to be of significance even under laminal flow conditions. LP refers to the arterial pressure of a capillary.

We studied the hydrodynamics of a rubber inlet tube in order to demonstrate the negative side pressure gradient exerted on its wall as well as the flow pressure (FP) components of its lumen pressure (LP). We then studied the porous orifice (G) tube akin to capillary & later enclosed it in a chamber (C), akin to interstitial fluid space, making the G-C apparatus demonstrating the G-C circulation phenomenon.

The factors affecting the speed and efficiency of the G-C circulation were evaluated. These included the proximal (PP), the distal pressure (DP) & the inlet diameter (r) as a relation to the tube diameter (R). The G-C apparatus was enclosed in a circulatory model driven by electrical pump & connected to manometers for evaluating the hydrodynamics of the circulatory model.

The hydrodynamics of a rubber inlet tube that demonstrates the -ve side pressure gradient exerted on its wall as well as the flow pressure (FP) components of its lumen pressure (LP) is shown in Figure 1. A graph showing FP & SP gradients is shown in Figure 2. The hydrodynamics of the G tube is shown in Figure 3. The G-C phenomenon is shown in Figure 4. The relation of PP to SP & CP is shown in Figure 5. The relation of Orifice diameter to SP & CP is U shaped or inverted Bell shaped, & is shown in Figures 6 & 7. The relation of DP to SP & CP is shown in Figure 8. The pressure gradient observed & measured at various points in the G- C circulatory model is shown in Figure 9. Figure 10 shows a circulatory model incorporating the G-C apparatus with manometers measuring various pressures.

Conclusion

Hydrodynamic studies on a porous orifice (G) tube, based on capillary ultrastructure, demonstrate results which differ from Poiseuille’s in a strait tube & hence challenge the role attributed to arterial pressure as a filtration force in Starling’s hypothesis. A perspective literature review shows that the oncotic pressure force has been previously cancelled & the hypothesis has failed to explain the capillary–ISF transfer in most parts of the body.

A concept based on a new hydrodynamic phenomenon is proposed for the capillary–ISF circulation hypothesis. It explains this vital circulation in every organ & tissue under both physiological & pathological conditions. An autonomous dynamic magnetic field-like G–C circulation occurs between fluid in the G tube’s lumen & a surrounding fluid compartment C. Based on results of studies on a circulatory model incorporating the G–C apparatus, factors which initiate, regulate & affect the G–C circulation, its physiological & haemodynamic relevance & its clinical importance to the pathogenesis of oedema, shock & the MVOD/F syndrome are discussed.

अस्वीकृति: इस सारांश का अनुवाद कृत्रिम बुद्धिमत्ता उपकरणों का उपयोग करके किया गया है और इसे अभी तक समीक्षा या सत्यापित नहीं किया गया है।