Clinical conditions responsible for hyperviscosity and skin ulcers complications

Macrocephaly and Finger Changes: A Narrative Review

Macrocephaly, characterized by an abnormally large head circumference, often co-occurs with distinctive finger changes, presenting a diagnostic challenge for clinicians. This review aims to provide a current synthetic overview of the main acquired and genetic etiologies associated with macrocephaly and finger changes. The genetic cause encompasses several categories of diseases, including bone marrow expansion disorders, skeletal dysplasias, ciliopathies, inherited metabolic diseases, RASopathies, and overgrowth syndromes. Furthermore, autoimmune and autoinflammatory diseases are also explored for their potential involvement in macrocephaly and finger changes. The intricate genetic mechanisms involved in the formation of cranial bones and extremities are multifaceted. An excess in growth may stem from disruptions in the intricate interplays among the genetic, epigenetic, and hormonal factors that regulate human growth. Understanding the underlying cellular and molecular mechanisms is important for elucidating the developmental pathways and biological processes that contribute to the observed clinical phenotypes. The review provides a practical approach to delineate causes of macrocephaly and finger changes, facilitate differential diagnosis and guide for the appropriate etiological framework. Early recognition contributes to timely intervention and improved outcomes for affected individuals.

Clinical and Histopathologic Characteristics of the Main Causes of Vascular Occusion - Part II: Coagulation Disorders, Emboli, and Other

Vascular occlusion has multiple, diverse clinical manifestations, some of which can have grave consequences for patients. It also has a wide variety of causes, including thrombi, which we recently addressed in partI of this review. In this second part, we look at additional causes of vascular occlusion.

Current opinion on the role of the foot perfusion in limb amputation risk assessment

The most important and consulted guidelines dealing with not healing foot ulcers suggest the measurement of the foot perfusion (FP) to exclude the critical limb ischemia (CLI), because of the high risk of limb amputation. But the recommended cut-off values of FP fail to include all the heterogeneity of patients of the real-life with a not healing ulcer. Often these patients are diabetics with a moderate PAD but with a high level of infection. To meet this goal, in 2014, the Society for Vascular Surgery has published the "Lower Extremity Threatened Limb Classification System: Risk stratification based on Wound, Infection, and foot Ischemia (WIfI)." This new classification system has changed the criteria of assessment of limb amputation risk, replacing the single cut-off value role with a combination of a spectrum of perfusion values along with graded infection and dimension levels of skin ulcers. The impact of this new classification system was remarkable so to propose the substitution of the CLI definition, with the new Critical limb-threatening ischemia (CLTI), that seems to define the limb amputation risk more realistically.

Current opinions about the definition of critical limb ischemia: A debate still open after three decades

Critical limb ischemia (CLI) is the most advanced stage of peripheral arterial disease. It is clinically defined as rest pain with or without skin ulcer or gangrene and carries a very poor prognosis with a high rates of limb amputation and cardiovascular mortality. Despite the first definition of CLI has been published more than 30 years ago, the debate about what it really is, is still open. Over the years the hemodynamic parameters utilised to define the critical level of limb perfusion have changed. This has raised some question about the apparent confusion about the definition of CLI. Moreover, a new term such as "limb threatening ischemia" has replaced the definition of CLI in recent guideline. Therefore, it becomes necessary to understand the evolution of the concept and the definition of CLI, to interpret the future trend.Hence, this work analysing the guideline documents on peripheral arterial disease that have defined the CLI to date, aims to clarify the path that has brought to the current conceptual changes of the definition of CLI.

Trends of the treatment of Critical Limb Ischemia during the last two decades

In this review 14 studies were identified reporting the treatment strategy in 4891 patients with Critical Limb Ischemia (CLI) with the aim to investigate if the strategy of treatment of the first episode of CLI has changed during the last 15-20 years. A computer research has been performed on PubMed and Scopus databases on November 2016. The used terms for the investigation about studies evaluating the strategy of treatment of CLI at the first-time presentation, have been "critical leg ischemia", "critical limb ischemia", "critical lower limb ischemia" along with the terms "placebo", "medical treatment" and/or "conservative" revascularisation, surgical revascularisation, endovascular revascularisation, hybrid revascularisation and primary amputation. Studies were included if they were either retrospective or prospective and reporting the rate of patients who underwent to any form of revascularization, conservative treatment and primary amputation. The one-year limb and life survival rates have been reported as major outcomes. The pooled rate of revascularization was 72.5% (95% CI 80-64.96) of which 54.5%, surgical, 38.3% endovascular and 7.1% hybrid. The bivariate regression of revascularisation procedures has been with not significant increase, from 68% in 1993 to 88% in 2015. The endovascular procedures have shown a significant increase of the trend, from 2% to more the 50% (p 0.007), while surgical and hybrid procedures have not. The pooled rate of conservative treatment was 18% (95% CI 11.6-24.5%) with a not significant increasing trend and primary amputation pooled rate was 8.7% (95% CI 12.0-5,4) with a significant decreasing trend (p 0.009). The one-year limb survival rate was 75,4% (95% CI 81.5-69.3%) and the life survival was 76%. (95% CI 85.4-66.1%) both with a not significant increasing trend. In conclusion, this review highlights how the treatment strategy of the first CLI manifestation has changed over the last 15-20 years. It has shown an increase of the rate of revascularization procedures, particularly for endovascular and a significant reduction of the rate of primary amputations. The rate of patients treated conservatively appears to be unchanged and maybe influencing the rate of limb and life survival, that have remained unchanged.

Obesity, blood rheology and angiogenesis

Adipose tissue is actively involved in angiogenesis through secretion of biologically active substances. This topic has been the subject of many recent publications concerning the pathophysiology and treatment of obesity. We discuss the relationship between obesity, angiogenesis and blood rheology.