Efaproxiral red blood cell concentration predicts efficacy in patients with brain metastases

Efaproxiral (Efaproxyn™, RSR13), a synthetic allosteric modifier of haemoglobin (Hb), decreases Hb-oxygen (O2) binding affinity and enhances oxygenation of hypoxic tumours during radiation therapy. This analysis evaluated the Phase 3, Radiation Enhancing Allosteric Compound for Hypoxic Brain Metastases; RT-009 (REACH) study efficacy results in relation to efaproxiral exposure (efaproxiral red blood cell concentration (E-RBC) and number of doses). Recursive partitioning analysis Class I or II patients with brain metastases from solid tumours received standard whole-brain radiation therapy (3 Gy/fraction × 10 days), plus supplemental O2 (4 l/min), either with efaproxiral (75 or 100 mg/kg daily) or without (control). Efaproxiral red blood cell concentrations were linearly extrapolated to all efaproxiral doses received. Three patient populations were analysed: (1) all eligible, (2) non-small-cell lung cancer (NSCLC) as primary cancer, and (3) breast cancer primary. Efficacy endpoints were survival and response rate. Brain metastases patients achieving sufficient E-RBC (⩾483 μg/ml) and receiving at least seven of 10 efaproxiral doses were most likely to experience survival and response benefits. Patients with breast cancer primary tumours generally achieved the target efaproxiral exposure and therefore gained greater benefit from efaproxiral treatment than NSCLC patients. This analysis defined the efaproxiral concentration-dependence in survival and response rate improvement, and provided a clearer understanding of efaproxiral dosing requirements

Microcirculatory alterations: potential mechanisms and implications for therapy

Multiple experimental and human trials have shown that microcirculatory alterations are frequent in sepsis. In this review, we discuss the characteristics of these alterations, the various mechanisms potentially involved, and the implications for therapy. Sepsis-induced microvascular alterations are characterized by a decrease in capillary density with an increased number of stopped-flow and intermittent-flow capillaries, in close vicinity to well-perfused capillaries. Accordingly, the surface available for exchange is decreased but also is highly heterogeneous. Multiple mechanisms may contribute to these alterations, including endothelial dysfunction, impaired inter-cell communication, altered glycocalyx, adhesion and rolling of white blood cells and platelets, and altered red blood cell deformability. Given the heterogeneous nature of these alterations and the mechanisms potentially involved, classical hemodynamic interventions, such as fluids, red blood cell transfusions, vasopressors, and inotropic agents, have only a limited impact, and the microcirculatory changes often persist after resuscitation. Nevertheless, fluids seem to improve the microcirculation in the early phase of sepsis and dobutamine also can improve the microcirculation, although the magnitude of this effect varies considerably among patients. Finally, maintaining a sufficient perfusion pressure seems to positively influence the microcirculation; however, which mean arterial pressure levels should be targeted remains controversial. Some trials using vasodilating agents, especially nitroglycerin, showed promising initial results but they were challenged in other trials, so it is difficult to recommend the use of these agents in current practice. Other agents can markedly improve the microcirculation, including activated protein C and antithrombin, vitamin C, or steroids. In conclusion, microcirculatory alterations may play an important role in the development of sepsis-related organ dysfunction. At this stage, therapies to target microcirculation specifically are still being investigated

Thoracic epidural anesthesia decreases endotoxin-induced endothelial injury

Background: The sympathetic nervous system is considered to modulate the endotoxin-induced activation of immune cells. Here we investigate whether thoracic epidural anesthesia with its regional symapathetic blocking effect alters endotoxin-induced leukocyte-endothelium activation and interaction with subsequent endothelial injury. Methods: Sprague Dawley rats were anesthetized, cannulated and hemodynamically monitored. E. coli lipopolysaccharide (Serotype 0127: B8, 1.5 mg x kg(-1) x h(-1)) or isotonic saline (controls) was infused for 300 minutes. An epidural catheter was inserted for continuous application of lidocaine or normal saline in endotoxemic animals and saline in controls. After 300 minutes we measured catecholamine and cytokine plasma concentrations, adhesion molecule expression, leukocyte adhesion, and intestinal tissue edema. Results: In endotoxemic animals with epidural saline, LPS significantly increased the interleukin-1 beta plasma concentration (48%), the expression of endothelial adhesion molecules E-selectin (34%) and ICAM-1 (42%), and the number of adherent leukocytes (40%) with an increase in intestinal myeloperoxidase activity (26%) and tissue edema (75%) when compared to healthy controls. In endotoxemic animals with epidural infusion of lidocaine the values were similar to those in control animals, while epinephrine plasma concentration was 32% lower compared to endotoxemic animals with epidural saline. Conclusions: Thoracic epidural anesthesia attenuated the endotoxin-induced increase of IL-1 beta concentration, adhesion molecule expression and leukocyte-adhesion with subsequent endothelial injury. A potential mechanism is the reduction in the plasma concentration of epinephrine

RSR13 e modificação alostérica da afinidade hemoglobina-oxigênio: abuso entre atletas RSR13 and allosteric change in the hemoglobin-oxygen afinity: abuse among athletes

O ácido metilpropiônico (RSR13) é um modificador alostérico da hemoglobina, com a qual se liga de forma não-covalente, diminuindo sua afinidade pelo oxigênio de modo dose-dependente e, conseqüentemente, aumentando a oxigenação periférica. O objetivo deste artigo é apresentar brevemente as evidências científicas acerca das características farmacológicas e funcionais, indicações médicas e efeitos adversos do uso do RSR13 por atletas, a mais recente alternativa de aumento artificial do desempenho. Estudos experimentais preliminares verificaram algum efeito positivo do RSR13 sobre a recuperação do miocárdio isquêmico e sobre a extensão da isquemia cerebral, mas as principais indicações estudadas atualmente são a cirurgia com hipotermia e cardioplegia durante circulação extracorpórea e o uso como agente coadjuvante potenciador da radioterapia para certos tumores sólidos. Somente um estudo em modelo canino mostrou aumento do consumo máximo de oxigênio em músculo isolado, não existindo evidências de que o RSR13 possa efetivamente melhorar o desempenho em humanos. Em realidade, já foram descritos efeitos adversos, como diminuição da perfusão sanguínea, elevação da pressão arterial e diminuição da função renal. Antecipando o potencial aumento da utilização do RSR13 por atletas, métodos já foram desenvolvidos para sua detecção em amostras de urina humana.<br>Methylpropionic acid (RSR13) is an allosteric hemoglobin modifier to which it binds in a non-covalent manner, reducing its affinity to oxygen in a dose-dependent fashion, and consequently, increasing peripheral oxygenation. The purpose of this article is to briefly present scientific evidence concerning pharmacological and functional characteristics, medical indications, and adverse effects of RSR13 use by athletes, the most recent alternative to enhance performance artificially. Preliminary experimental studies have verified some positive effect of RSR13 on the recovery of ischemic myocardium and on the extension of cerebral ischemia. However, the main indications currently under study are surgery with hypothermia and cardioplegia during extra-corporeal circulation and the use as a radiotherapy enhancing agent for certain solid tumors. One single study with a canine model has shown increased maximal oxygen consumption in isolated muscles, there existing no evidence that RSR13 can effectively enhance performance in humans. Actually, adverse effects such as reduced blood perfusion, increased arterial blood pressure, and impaired renal function have been described. As an anticipation of the potential increased use of RSR13 by athletes, methods have been developed for its detection in human urine samples

Monitoring the microcirculation.

One of the main goals of hemodynamic support is to preserve tissue perfusion. However issue perfusion is related more to microvascular perfusion than aortic blood flow. Monitoring the microcirculation has long been difficult. Recent technologic advances have made feasible monitoring of the microcirculation at bedside of critically ill patients. In this review, we will discuss the relevance of the various tools available to monitor the microcirculation. Videomicroscopic devices such as sidestream darkfield imaging are the most appropriate techniques to evaluate the microcirculation, taking into account the heterogeneous aspect of diseased microcirculation, as in sepsis. The microcirculation can also be indirectly assessed by measuring tissue PCO2. Transcutaneous PCO2 measurement at ear lobe is particularly promising. Finally, near infrared spectroscopy can also provide interesting information, especially using vascular occlusion tests which reactivity of the microcirculation to a transient hypoxic insult. These different devices have provided important data helping us to better understand the pathophysiology of sepsis and multiple organ failure.Journal ArticleReviewinfo:eu-repo/semantics/publishe