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1.
J Vasc Res ; 61(1): 1-15, 2024.
Artículo en Inglés | MEDLINE | ID: mdl-38096804

RESUMEN

BACKGROUND: Cardiovascular diseases remain the leading cause of morbidity and mortality worldwide. Arteriolar tone regulation plays a critical role in maintaining appropriate organ blood flow and perfusion distribution, which is vital for both vascular and overall health. SUMMARY: This scoping review aimed to explore the interplay between five major regulators of arteriolar tone: metabolism (adenosine), adrenergic control (norepinephrine), myogenic activation (intravascular pressure), perivascular oxygen tension, and intraluminal flow rates. Specifically, the aim was to address how arteriolar reactivity changes in the presence of other vasoactive stimuli and by what mechanisms. The review focused on animal studies that investigated the impact of combining two or more of these stimuli on arteriolar diameter. Overall, 848 articles were identified through MEDLINE and EMBASE database searches, and 38 studies were included in the final review. KEY MESSAGES: The results indicate that arteriolar reactivity is influenced by multiple factors, including competitive processes, structural limitations, and indirect interactions among stimuli. Additionally, the review identified a lack of research involving female animal models and limited insight into the interaction of molecular signaling pathways, which represent gaps in the literature.


Asunto(s)
Hemodinámica , Vasoconstricción , Femenino , Animales , Vasoconstricción/fisiología , Arteriolas/fisiología , Norepinefrina , Músculo Liso Vascular/metabolismo
2.
J Vasc Res ; 61(4): 197-211, 2024.
Artículo en Inglés | MEDLINE | ID: mdl-38749406

RESUMEN

INTRODUCTION: Acquisition of a deeper understanding of microvascular function across physiological and pathological conditions can be complicated by poor accessibility of the vascular networks and the necessary sophistication or intrusiveness of the equipment needed to acquire meaningful data. Laser Doppler fluximetry (LDF) provides a mechanism wherein investigators can readily acquire large amounts of data with minor inconvenience for the subject. However, beyond fairly basic analyses of erythrocyte perfusion (fluximetry) data within the cutaneous microcirculation (i.e., perfusion at rest and following imposed challenges), a deeper understanding of microvascular perfusion requires a more sophisticated approach that can be challenging for many investigators. METHODS: This manuscript provides investigators with clear guidance for data acquisition from human subjects for full analysis of fluximetry data, including levels of perfusion, single- and multiscale Lempel-Ziv complexity (LZC) and sample entropy (SampEn), and wavelet-based analyses for the major physiological components of the signal. Representative data and responses are presented from a recruited cohort of healthy volunteers, and computer codes for full data analysis (MATLAB) are provided to facilitate efforts by interested investigators. CONCLUSION: It is anticipated that these materials can reduce the challenge to investigators integrating these approaches into their research programs and facilitate translational research in cardiovascular science.


Asunto(s)
Flujometría por Láser-Doppler , Microcirculación , Flujo Sanguíneo Regional , Piel , Humanos , Flujometría por Láser-Doppler/métodos , Piel/irrigación sanguínea , Análisis de Ondículas , Velocidad del Flujo Sanguíneo , Valor Predictivo de las Pruebas , Procesamiento de Señales Asistido por Computador , Entropía
3.
J Vasc Res ; 60(1): 12-68, 2023.
Artículo en Inglés | MEDLINE | ID: mdl-36843014

RESUMEN

Research involving human subjects in ambulatory settings is a critical link in the chain comprising translational research, spanning preclinical research to human subject and patient cohort studies. There are presently a wide array of techniques and approaches available to investigators wishing to study blood flow, perfusion, and vascular structure and function in human subjects. In this multi-sectioned review, we discuss capillaroscopy, carotid intima-media thickness, flow-mediated dilation, laser Doppler flowmetry, near-infrared spectroscopy, peripheral arterial tonometry, pulse wave velocity, retinal fundus imaging, and vascular plethysmography. Each section contains a general overview and the physical basis of the technique followed by a discussion of the procedures involved and the necessary equipment, with attention paid to specific requirements or limitations. Subsequently, we detail which aspects of vascular function can be studied with a given technique, the analytical approach to the collected data, and the appropriate application and limitation(s) to the interpretation of the data collected. Finally, a modified scoping review provides a summary of how each assessment technique has been applied in previous studies. It is anticipated that this review will provide an efficient source of information and insight for preclinical investigators seeking to add translational aspects to their research programs.


Asunto(s)
Grosor Intima-Media Carotídeo , Análisis de la Onda del Pulso , Humanos , Análisis de la Onda del Pulso/métodos , Investigación Biomédica Traslacional , Velocidad del Flujo Sanguíneo/fisiología , Perfusión
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