Middle and Working Class Struggles Against Authoritarian Whig Reforms of the Eighteenth Century: An Examination of Mess Relations Below Deck

The fans of British naval fiction, like C.S. Forester’s Horatio Hornblower series or Patrick O’Brian’s Aubrey-Maturin series, are drawn into the well-researched and historically accurate depictions of the British professional navy of the late eighteenth and early nineteenth centuries. What they do not see is that from the mid-eighteenth century there were major naval reforms that converted a civilian led navy into a true military force that redefined the rules of combat. These changes created strict hierarchy and discipline on board the ships. Historian Sarah Kinkel argues that the reforms were hotly debated by the mercantile elite in the British urban centers who profited from privateering and feared a strong centralized navy, however her work overlooks the broader public sphere. The seamen who lived and died in the new navy honored and challenged these reforms in their own way and it all began and centered on the mealtime routines that became the barometer of the crew’s temperament. This project is based on primary research involving eight private journals of British seamen from middle- and working-class backgrounds, each of whom write about their messmates and the social networks that were created as they ate together. The struggle to remain free men in a culture of domineering discipline and hierarchy helps us understand the rising tensions that were raging in Britain between the ruling authoritarian Whigs and the lower classes

A polymer coated cicaprost-eluting stent increases neointima formation and impairs vessel function in the rabbit iliac artery

Drug-eluting stents have been successful in reducing in-stent restenosis but are not suitable for all lesion types and have been implicated in causing late stent thrombosis due to incomplete regeneration of the endothelial cell layer. In this study we implanted stents coated with cicaprost, a prostacyclin analogue with a long plasma half-life and antiproliferative effects on vascular smooth muscle cells, into the iliac arteries of rabbits. At 28-day follow-up we compared neointima formation within the stented vessels and vascular function in adjacent vessels, to assess if cicaprost could reduce restenosis without impairing vessel function. Arteries implanted with cicaprost eluting stents had significantly more neointima compared to bare metal stents. In adjacent segments of artery, endothelium-dependent relaxation was impaired by the cicaprost-eluting stent but vasodilation to an endothelium-independent vasodilator was maintained. We conclude that the presence of the polymer and sub-optimal release of cicaprost from the stent may be responsible for the increased neointma and impaired functional recovery of the endothelium observed. Further experiments should be aimed at optimising release of cicaprost and exploring different stent polymer coatings

Threshold of peroxynitrite cytotoxicity in bovine pulmonary artery endothelial and smooth muscle cells

Peroxynitrite is widely reported as highly cytotoxic; yet recent evidence indicates that at certain concentrations, it can induce pulmonary cell hyper-proliferation and tissue remodelling. This study aimed to establish the threshold concentration of peroxynitrite to induce functional impairment of bovine pulmonary artery endothelial (PAEC) and smooth muscle cells (PASMC). PAEC or PASMC were exposed to solution of peroxynitrite or 3-morpholinosydnonimine (SIN-1). Twenty-four hour cell viability, DNA synthesis, and protein biochemistry were assessed by trypan blue dye exclusion, [(3)H] thymidine incorporation and western blot analysis, respectively. Threshold concentration of peroxynitrite to significantly impair viability of PAEC and PASMC was 2μM peroxynitrite. In PASMC and PAEC, low concentrations of peroxynitrite (2nM-0.2μM) increased cell proliferation and did not activate p38 MAP kinase. The decrease in DNA synthesis and cell viability caused by 2μM peroxynitrite was associated with caspase-3 cleavage but not p38 activation. Also, 2-20μM peroxynitrite significantly activated poly ADP ribose polymerase and stress activated kinase JNK in PAEC. However, the higher concentration of 20μM peroxynitrite did cause a threefold increase in p38 activation. In conclusion, the threshold for the cytotoxic effects of peroxynitrite was 2μM; which caused apoptotic cell death independent of p38 MAP kinase activation in pulmonary artery cells

Adventitial ablation technique that permits the assessment of adventitial-dependent contribution to microvascular contractile function

Resistance arteries have been implicated as major contributing factor in the sequela of disease conditions such as hypertension and diabetes and as such are a major focus of cardiovascular research. The paracrine influence of the intimal endothelial layer of resistance arteries is well established. Considering the growing body of evidence substantiating a functionally relevant vascular adventitia in this present study we have established a technique which permits determination of the functional influence of the adventitial layer on resistance artery tone. Isolating adventitial-dependent function, analogous to isolating endothelial function, has potentially significant implication for studying the as yet unexplored role of the microvascular adventitial layer in modulating acute vascular contractile function

Perivascular mast cells promote neointimal elastin deposit and suppress chronic vein graft restensosis in hyperlipidaemic mice : mast cells and vein graft remodelling

Aims: Mast cells are versatile innate immune cells and are reported to promote vascular inflammation and neointimal lesion formation, thereby contributing to the development of vascular stenosis and atherosclerosis. However, it is not clear whether mast cells also regulate vascular matrix remodelling in established neointima. This study addressed the hypothesis that perivascular mast cells regulate neointimal matrix remodelling using a mouse vein graft model. Methods: The impact of mast cells on neointimal remodelling was investigated using mast cell-deficient animals in both normolipidaemic (KitW-sh/W-sh) and hyperlipidaemic (apoE-/-KitW-sh/W-sh) conditions. The effect of perivascular mast cells on vascular matrix remodelling, including collagen and elastin deposition, was investigated using a local mast cell reconstitution method that selectively repopulated mast cells around the carotid artery (where the vein graft was inserted) in KitW-sh/W-sh mice. Results: In normolipidaemic vein grafts (KitW-sh/W-sh vs. the wild type control C57BL/6J), collagen synthesis was not affected by mast cell deficiency at 4 weeks. In contrast, neointimal elastin was reduced by 6.5-fold in mast cell-deficient KitW-sh/W-sh mice, which was prevented by perivascular mast cell reconstitution. Mast cell deficiency induced a similar reduction in neointimal elastin in hyperlipidaemic mice (apoE-/-KitW-sh/W-sh vs. apoE-/-), with a significant increase in cell proliferation and neointimal area at 4 week. Conclusion: Mast cells appear to promote elastin deposition in vein grafts and this may lead to further suppression of cell proliferation and neointimal thickening under hyperlipidaemic conditions

Perivascular mast cells promote neointimal elastin deposition and suppress chronic vein graft restenosis in hyperlipidaemic mice.

Aims: Mast cells are versatile innate immune cells and are reported to promote vascular inflammation and neointimal lesion formation, thereby contributing to the development of vascular stenosis and atherosclerosis. However, it is not clear whether mast cells also regulate vascular matrix remodelling in established neointima. This study addressed the hypothesis that perivascular mast cells regulate neointimal matrix remodelling using a mouse vein graft model. Methods: The impact of mast cells on neointimal remodelling was investigated using mast cell-deficient animals in both normolipidaemic (KitW-sh/W-sh) and hyperlipidaemic (apoE-/-KitW-sh/W-sh) conditions. The effect of perivascular mast cells on vascular matrix remodelling, including collagen and elastin deposition, was investigated using a local mast cell reconstitution method that selectively repopulated mast cells around the carotid artery (where the vein graft was inserted) in KitW-sh/W-sh mice. Results: In normolipidaemic vein grafts (KitW-sh/W-sh vs. the wild type control C57BL/6J), collagen synthesis was not affected by mast cell deficiency at 4 weeks. In contrast, neointimal elastin was reduced by 6.5-fold in mast cell-deficient KitW-sh/W-sh mice, which was prevented by perivascular mast cell reconstitution. Mast cell deficiency induced a similar reduction in neointimal elastin in hyperlipidaemic mice (apoE-/-KitW-sh/W-sh vs. apoE-/-), with a significant increase in cell proliferation and neointimal area at 4 week. Conclusion: Mast cells appear to promote elastin deposition in vein grafts and this may lead to further suppression of cell proliferation and neointimal thickening under hyperlipidaemic conditions

The relationship between oxidised LDL, endothelial progenitor cells and coronary endothelial function in patients with CHD

Objective The balance between coronary endothelial dysfunction and repair is influenced by many protective and deleterious factors circulating in the blood. We studied the relationship between oxidised low-density lipoprotein (oxLDL), circulating endothelial progenitor cells (EPCs) and coronary endothelial function in patients with stable coronary heart disease (CHD). Methods 33 patients with stable CHD were studied. Plasma oxLDL was measured using ELISA, coronary endothelial function was assessed using intracoronary acetylcholine infusion and EPCs were quantified using flow cytometry for CD34+/KDR+ cells. Results Plasma oxLDL correlated positively with the number of EPCs in the blood (r=0.46, p=0.02). There was a positive correlation between the number of circulating EPCs and coronary endothelial function (r=0.42, p=0.04). There was no significant correlation between oxLDL and coronary endothelial function. Conclusions Plasma levels of oxLDL are associated with increased circulating EPCs in the blood of patients with CHD, which may reflect a host-repair response to endothelial injury. Patients with stable CHD had a high prevalence of coronary endothelial dysfunction, which was associated with lower numbers of circulating EPCs, suggesting a mechanistic link between endothelial dysfunction and the pathogenesis of atherosclerosis

Perivascular mast cells regulate vein graft neointimal formation and remodeling

Objective. Emerging evidence suggests an important role for mast cells in vein graft failure. This study addressed the hypothesis that perivascular mast cells regulate in situ vascular inflammatory and proliferative responses and subsequent vein graft neointimal lesion formation, using an optimized local mast cell reconstitution method. Methods and Results. Neointimal hyperplasia was induced by insertion of a vein graft into the right carotid artery in wild type and mast cell deficient KitW−sh/W−sh mice. In some experiments, mast cells were reconstituted systemically (tail vein injection of bone marrow-derived mast cells) or locally (directly into the right neck area) prior to vein grafting. Vein graft neointimal lesion formation was significantly (P < 0.05) reduced in KitW−sh/W−sh mice. Mast cell deficiency reduced the number of proliferating cells, and inhibited L-selectin, CCL2, M-CSF and MIP-3α expression in the vein grafts. Local but not systemic mast cell reconstitution restored a perivascular mast cell population that subsequently promoted neointimal formation in mast cell deficient mice. Conclusion. Our data demonstrate that perivascular mast cells play a key role in promoting neointima formation by inducing local acute inflammatory and proliferative responses. These results suggest that ex vivo intraoperative targeting of mast cells may have therapeutic potential for the prevention of pathological vein graft remodeling

A polymer coated cicaprost-eluting stent increases neointima formation and impairs vessel function in the rabbit iliac artery

Drug-eluting stents have been successful in reducing in-stent restenosis but are not suitable for all lesion types and have been implicated in causing late stent thrombosis due to incomplete regeneration of the endothelial cell layer. In this study we implanted stents coated with cicaprost, a prostacyclin analogue with a long plasma half-life and antiproliferative effects on vascular smooth muscle cells, into the iliac arteries of rabbits. At 28 day follow-up we compared neointima formation within the stented vessels and vascular function in adjacent vessels, to assess if cicaprost could reduce restenosis without impairing vessel function. Arteries implanted with cicaprost eluting stents had significantly more neointima compared to bare metal stents. In adjacent segments of artery, endothelium-dependent relaxation was impaired by the cicaprost-eluting stent but vasodilation to an endothelium-independent vasodilator was maintained. We conclude that the presence of the polymer and sub-optimal release of cicaprost from the stent may be responsible for the increased neointma and impaired functional recovery of the endothelium observed. Further experiments should be aimed at optimising release of cicaprost and exploring different stent polymer coatings

Modelling arterial wall drug concentrations following the insertion of a drug-eluting stent

A mathematical model of a drug-eluting stent is proposed. The model considers a polymer region, containing the drug initially, and a porous region consisting of smooth muscle cells embedded in an extracellular matrix. An analytical solution is obtained for the drug concentration both in the target cells and the interstitial region of the tissue in terms of the drug release concentration at the interface between the polymer and the tissue. When the polymer region and the tissue region are considered as a coupled system it can be shown, under certain assumptions, that the drug release concentration satisfies a Volterra integral equation which must be solved numerically in general. The drug concentrations, both in the cellular and extracellular regions, are then determined from the solution of this integral equation and used in deriving the mass of drug in the cells and extracellular space