Alexander de Giorgio-Miller scite author profile

With novel therapies in development, there is an opportunity to consider asthma remission as a treatment goal. In this Rostrum, we present a generalized framework for clinical and complete remission in asthma, on and off treatment, developed on the basis of medical literature and expert consensus. A modified Delphi survey approach was used to ascertain expert consensus on core components of asthma remission as a treatment target. Phase 1 identified other chronic inflammatory diseases with remission definitions. Phase 2 evaluated components of those definitions as well as published definitions of spontaneous asthma remission. Phase 3 evaluated a remission framework created using consensus findings. Clinical remission comprised 12 or more months with (1) absence of significant symptoms by validated instrument, (2) lung function optimization/ stabilization, (3) patient/provider agreement regarding remission, and (4) no use of systemic corticosteroids. Complete remission was defined as clinical remission plus objective resolution of asthma-related inflammation and, if appropriate, negative bronchial hyperresponsiveness. Remission off treatment required no asthma treatment for 12 or more months. The proposed framework is a first step toward developing asthma remission as a treatment target and should be refined through future research, patient input, and clinical study. (J

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A comparative study of the structure of human and murine greater omentum

Wilkosz

Ireland

Khwaja

et al. 2005

Anat Embryol

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In humans, the greater omentum is a fatty peritoneal fold that extends from the greater curvature of the stomach to cover most abdominal organs. It performs many functions, which include acting as a reservoir of resident peritoneal inflammatory cells, a storage site for lipid, and a regulator of fluid exchange in and out of the peritoneal cavity. Most importantly, the omentum readily adheres to areas of inflammation and peritoneal damage, often leading to adhesion formation. Despite its clinical importance, the omentum remains an understudied organ, and discrepancies exist as to its exact morphology. This study uses a combination of phase contrast microscopy, scanning electron microscopy (SEM), and transmission electron microscopy (TEM) to elucidate the structure of the greater omentum of both human and mouse and determine whether it possesses a typical surface mesothelial cell lining similar to other serosa. Results indicated that both human and murine omenta were of similar structure and composed of two distinct types of tissue, one adipose-rich and the other translucent and membranous. The adipose-rich regions were well-vascularised and covered by a continuous mesothelial cell layer except at the sites of milky spots. In contrast, translucent areas were poorly vascularised and contained numerous fenestrations of varying size. The possible function and developmental origin of these gaps is unclear; however, their role in promoting omental adhesion formation and in the successful use of omental graft material is discussed.

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Fibrin-Induced Skin Fibrosis in Mice Deficient in Tissue Plasminogen Activator

Giorgio-Miller

Bottoms

Laurent

et al. 2005

The American Journal of Pathology

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The deposition of fibrin is an integral part of the tissue repair process, but its persistence is also associated with a number of fibrotic conditions. This study addressed the hypothesis that reduced fibrinolysis and fibrin persistence are associated with an enhanced accumulation of collagen and the development of skin fibrosis. Decreased fibrinolysis was confirmed in fibrin gel cultures that contained human dermal fibroblasts plus the specific plasmin inhibitor ␣ 2 -antiplasmin or dermal fibroblasts isolated from plasminogen activator (PA)-deficient mice. Collagen accumulation was significantly increased in the presence of inhibitor and in tPA-deficient, but not uPAdeficient, fibroblasts compared with controls. These findings were also confirmed using a skin fibrosis model in which multiple injections of fibrin were given subcutaneously to PA-deficient mice. Injection sites from tPA-deficient mice displayed significantly increased collagen levels compared with uPA-deficient mice and wild-type controls. Up-regulation of fibroblast procollagen gene expression and reduced activation of pro-MMP-1 appeared to mediate the increase in collagen by human dermal fibroblasts in the presence of ␣2-antiplasmin. These findings suggest that persistent fibrin is associated with enhanced collagen accumulation that may result in the development of fibrotic skin disorders in which reduced fibrinolysis is a feature.

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Remodelling of adipose tissue during experimental omental adhesion formation

Wilkosz

Epstein

Giorgio-Miller

et al. 2008

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The Translational Pharmacology of a Novel, Potent, and Selective Nonsteroidal Progesterone Receptor Antagonist, 2-[4-(4-Cyano-phenoxy)-3,5-dicyclopropyl-1H-pyrazol-1-yl]-N-methylacetamide (PF-02367982)

Giorgio-Miller

Bungay²,

Tutt³

et al. 2008

J Pharmacol Exp Ther

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The progesterone receptor (PR) is an important regulator of endometrial function. Blockade of PR function has been recognized as the potential basis for preventing gynecological conditions such as endometriosis and uterine fibroids. In this study, we examine the in vitro and in vivo properties of a nonsteroidal PR antagonist, 2-[4-(4-cyano-phenoxy)-3,5-dicyclopropyl-1H-pyrazol-1-yl]-N-methylacetamide (PF-02367982) in comparison with the nonselective steroidal antagonist RU-486 (mifepristone). PF-02367982 was found to be a potent PR antagonist with far greater selectivity over the glucocorticoid receptor than RU-486. Both PF-02367982 and RU-486 blocked progesterone-induced arborization of the rabbit endometrium in a dose-dependent manner at unbound drug exposures that were commensurate with their potencies as PR antagonists in vitro. Translation of this pharmacology to a clinically relevant system was required to bridge the pharmacological gap between nonmenstruating rabbits and humans. Thus, the pharmacokinetic (PK) and pharmacodynamic (PD) data from the rabbit were combined to predict pharmacological effects on the naturally cycling cynomolgus macaque endometrium. PF-02367982 blocked the effect of progesterone on the cynomolgus macaque endometrium to the same degree as RU-486 and at exposures predicted by the rabbit PK-PD model. With such an efficacious and superior selectivity profile to the nonselective RU-486, PF-02367982 may have significant therapeutic value in the treatment of gynecological conditions such as endometriosis.The discovery of synthetic progesterone receptor (PR) modulators has underscored the important role that progesterone plays in reproductive physiology, including the menstrual cycle, endometrial growth, breast development and maintenance of pregnancy (Chabbert-Buffet et al., 2005;Spitz, 2006). RU-38486 (RU-486, mifepristone) is the founding member of steroidal PR antagonists and is approved clinically for pregnancy termination and emergency contraception. Studies with RU-486 and other PR antagonists, such as onapristone, ZK-137316 (Zelinski-Wooten et al., 1998), and ZK-230211, have revealed that these agents, as well as directly antagonizing progesterone function, can block ovarian function and also arrest the effect of estrogen on the endometrium in women and nonhuman primates (NHP) (Wolf et al., 1989;Baird et al., 2003;Brenner et al., 2005; ChabbertBuffet et al., 2005;Slayden et al., 2006).The potential usefulness of RU-486 and other PR antagonists in the treatment of pathological conditions such as endometriosis, uterine fibroids, and cancer is supported by a number of preclinical observations and clinical findings (Grow et al., 1996;Kettel et al., 1996;Baird et al., 2003;Fiscella et al., 2006). Although RU-486 has potent antiprogestagenic activity, it is also an equipotent antagonist at the glucocorticoid receptor (GR) (Heikinheimo et al., 1987). As a consequence, RU-486 suppresses the inhibition of corticotropin secretion induced by corticosteroids, limiting its wider usefu...

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