Frailty Phenotypes, Disability, and Outcomes in Adult Candidates for Lung Transplantation
Rationale: Frailty is associated with morbidity and mortality in abdominal organ transplantation but has not been examined in lung transplantation.Objectives: To examine the construct and predictive validity of frailty phenotypes in lung transplant candidates.Methods: In a multicenter prospective cohort, we measured frailty with the Fried Frailty Phenotype (FFP) and Short Physical Performance Battery (SPPB). We evaluated construct validity through comparisons with conceptually related factors. In a nested case-control study of frail and nonfrail subjects, we measured serum IL-6, tumor necrosis factor receptor 1, insulin-like growth factor I, and leptin. We estimated the association between frailty and disability using the Lung Transplant Valued Life Activities disability scale. We estimated the association between frailty and risk of delisting or death before transplant using multivariate logistic and Cox models, respectively.Measurements and Main Results: Of 395 subjects, 354 completed FFP assessments and 262 completed SPPB assessments; 28% were frail by FFP (95% confidence interval [CI], 24-33%) and 10% based on the SPPB (95% CI, 7-14%). By either measure, frailty correlated more strongly with exercise capacity and grip strength than with lung function. Frail subjects tended to have higher plasma IL-6 and tumor necrosis factor receptor 1 and lower insulin-like growth factor I and leptin. Frailty by either measure was associated with greater disability. After adjusting for age, sex, diagnosis, and transplant center, both FFP and SPPB were associated with increased risk of delisting or death before lung transplant. For every 1-point worsening in score, hazard ratios were 1.30 (95% CI, 1.01-1.67) for FFP and 1.53 (95% CI, 1.19-1.59) for SPPB.Conclusions: Frailty is prevalent among lung transplant candidates and is independently associated with greater disability and an increased risk of delisting or death.Keywords: biomarker; body composition; disability; frailty; lung transplantation Author Contributions: J.P.S., J.M.D., C.J.G., P.D.B., P.P.K., J.D.C., and D.J.L. made substantial contributions to the conception and design of the work; J.P.S. wrote the first draft of the manuscript; and J.P.S., J
Prolonged bed rest in young adults leads to a number of cardiovascular alterations, including orthostatic intolerance and decreased exercise capacity. Similar changes occur with advanced age. These modifications of cardiovascular function have been suggested to be causally related to changes in peripheral vascular reactivity. Using rat hindlimb unloading as an animal model of physical inactivity, this study was designed to determine whether prolonged decreases in weight-bearing activity induce changes in vascular reactivity that are similar to those occurring in senescent rats and whether the imposition of inactivity on old rats further modifies any age-related alterations in vasomotor responsiveness. Responses to vasoactive compounds were examined in vitro by using isolated abdominal aortic rings. Maximal isometric contractile force evoked by the vasoconstrictors KCl, norepinephrine (NE), and arginine vasopressin was lower in aortic segments from young hindlimb-unloaded (YHU), old control (OC), and old hindlimb-unloaded (OHU) rats compared with that from young control (YC) rats. Sensitivity [mean effective concentration (EC50)] to KCl was enhanced in segments from both old and unloaded animals compared with YC rats, but EC50 values for the other constrictors were not different among groups. Vasorelaxation responses induced by acetylcholine (10(-7) M NE preconstriction) were lower in vessel rings from OC (1 x 10(-7) to 3 x 10(-6) M), YHU (10(-7) to 10(-5) M), and OHU (10(-7) to 10(-5) M) rats than those from YC animals. In addition, vessel rings from OC, YHU, and OHU rats were less sensitive to sodium nitroprusside-induced relaxation.(ABSTRACT TRUNCATED AT 250 WORDS)
One of the critical questions facing the field of transplantation is how to control effector T cell activation yet simultaneously preserve regulatory T cell (Treg) function. Thus, standard calcineurin inhibitor-based strategies can partially control effector T cells (Teffs), but breakthrough activation still occurs, and these agents are antagonistic to Treg function. Conversely, mTOR inhibition with sirolimus is more Treg-compatible, but is inadequate to fully control Teff activation. In contrast,, blockade of OX40L signaling has the capacity to partially control Teff activation despite maintaining Treg function. Here we have used the non-human primate (NHP) GVHD model to probe the efficacy of combinatorial immunomodulation with sirolimus and the OX40L-blocking antibody KY1005. Our results demonstrate significant biologic activity of KY1005 alone (prolonging median GVHD-free survival from 8 to 19.5 days), as well as striking, synergistic control of GVHD with KY1005 + sirolimus (median survival time >100 days, p< 0.01 compared to all other regimens), which was associated with potent control of both Th/Tc1 and Th/Tc17 activation. Combined administration also maintained Treg reconstitution (resulting in an enhanced Treg:Tcon ratio (40% over baseline) in the KY1005/Sirolimus cohort compared to a 2.9-fold decrease in the unprophylaxed GVHD cohort). This unique immunologic signature resulted in transplant recipients that were able to control GVHD for the length of analysis, and to down-regulate donor/recipient alloreactivity despite maintaining anti-third-party responses. These data indicate that combined OX40L blockade and sirolimus represents a promising strategy to induce immune balance after transplant, and is an important candidate regimen for clinical translation.
Although rapid growth of the heart during early postnatal development ceases with maturation of the organism, the potential for cardiomyocyte growth is not lost and may be observed even in senescent hearts. Rapid developmental heart growth is accompanied by a proportional growth of capillaries but not always of larger vessels, and thus coronary vascular resistance gradually increases. Growth of adult hearts can be enhanced by thyroid hormones, catecholamines and the renin-angiotensin system hormones, but these do not always stimulate growth of coronary vessels. Likewise, chronic exposure to hypoxia leads to growth, mainly of the right ventricle and its vessels but without vascular growth elsewhere in the heart. On the other hand, ischaemia is a potent stimulus for the release of various growth factors involved in the development of collateral circulation. Heart hypertrophy develops in response to training, pressure or volume overload. Training usually leads to growth of larger coronary vessels but little growth of capillaries, except in young animals. However, growth of the capillary bed, but not the resistance vasculature capacity, can be induced by either increased coronary blood flow, bradycardia (electrically or pharmacologically induced) or increased inotropism, all of which are involved in the training stimulus. Thus, what actually promotes growth of larger vessels as opposed to capillaries in training is unclear. Pressure overload hypertrophy is mediated by both the renin-angiotensin system and the response of cardiomyocytes to stretch; both lead to activation of early oncogenes (c-fos, c-jun, c-myc) and angiotensin II activates several protein kinases involved in cell growth. In this condition, growth of larger vessels is inadequate, although some capillary growth may occur. Volume overload leads to cardiomyocyte hypertrophy and hyperplasia and some increase in vascular supply. Deficits in capillary supply in pressure or volume overload hypertrophy can be reversed by chronic administration of ACE inhibitors, dipyridamole, the bradycardic drug alinidine or pacing-induced bradycardia respectively, but in neither case is training effective. Mechanical and humoral factors are involved in growth of cardiomyocytes and vessels. For cardiomyocytes, stretch is most important, activating oncogenes, protein kinases and possibly the inositol phosphate pathway, but not ion channels, with regulation by the balance of angiotensin II, TGF-β1 and IGF-1, but not FGFs. For vessels, growth is stimulated by stretch and shear stress, possibly with involvement of VEGF. Increased shear stress disrupts the glycocalyx on the luminal side of vessels and releases plasminogen activator and metalloproteinases which disrupt the basement membrane and enable endothelial cell migration and proliferation. It also causes rearrangement of the endothelial cytoskeleton and transmission of mechanical signals to the abluminal side disturbing extracellular matrix and causing distortion of capillary basement membrane. Stretch acting from the ablum...
Controlling graft-versus-host disease (GVHD) remains a major unmet need in stem cell transplantation, and new, targeted therapies are being actively developed. CD28-CD80/86 costimulation blockade represents a promising strategy, but targeting CD80/CD86 with CTLA4-Ig may be associated with undesired blockade of coinhibitory pathways. In contrast, targeted blockade of CD28 exclusively inhibits T cell costimulation and may more potently prevent GVHD. Here, we investigated FR104, an antagonistic CD28-specific pegylated-Fab', in the nonhuman primate (NHP) GVHD model and completed a multiparameter interrogation comparing it with CTLA4-Ig, with and without sirolimus, including clinical, histopathologic, flow cytometric, and transcriptomic analyses. We document that FR104 monoprophylaxis and combined prophylaxis with FR104/sirolimus led to enhanced control of effector T cell proliferation and activation compared with the use of CTLA4-Ig or CTLA4-Ig/sirolimus. Importantly, FR104/sirolimus did not lead to a beneficial impact on Treg reconstitution or homeostasis, consistent with control of conventional T cell activation and IL-2 production needed to support Tregs. While FR104/sirolimus had a salutary effect on GVHD-free survival, overall survival was not improved, due to death in the absence of GVHD in several FR104/sirolimus recipients in the setting of sepsis and a paralyzed INF-γ response. These results therefore suggest that effectively deploying CD28 in the clinic will require close scrutiny of both the benefits and risks of extensively abrogating conventional T cell activation after transplant.
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