@article{ene_descriptive_2022,
	title = {Descriptive statistics for plane structures of the multilayer matrix for tissue haemostasis and regeneration},
	volume = {73},
	issn = {12225347},
	url = {http://www.revistaindustriatextila.ro/images/2022/4/13%20ALEXANDRA%20GABRIELA%20ENE%20INDUSTRIA%20TEXTILA%20no.4_2022.pdf},
	doi = {10.35530/IT.073.04.202059},
	abstract = {Bleeding, severe and infected wounds need to be cared for to facilitate recovery and prevent infection. The specific
requirements imposed on dressings for the treatment of these wounds depend fundamentally on the type of lesion;
moreover, they are based on the creation of an optimal environment that allows epithelial cells to move easily to facilitate
regeneration. The objective of the research is to provide a multilayer medical device with composite characteristics,
usable for basic medical interventions on superficial burns with thermal origin (flame and melts) occurred on anatomical
regions protected by clothes (so except face and eyes). The outer, second and interfacing layers have specific
characteristics. Regarding this aspect, 5 variants of woven textile structures were designed and made that differed in
the nature of the raw material, the density of the length/fineness of the threads in the weft, the density in the weft and
the binding. To characterize the populations of flat structures used to make the first layer of the matrix, methods specific
to descriptive statistics were used. The following fundamental statistical indicators were calculated for each of the
3 variables considered defining (mass, thickness and absorption capacity): mean, dispersion and standard deviation;
median and quartiles; eccentricity (skewness) and vaulting (kurtosis) for asymmetry and highlighting the cases in which
interventions should be performed (on the technological flow or on the programming scheme). The results obtained by
the statistical analysis of the groups of results allowed the findings to be generalized to larger populations, so for the
whole set from which the respective sample was extracted. Depending on location and the severity of wounds resulting
from shooting, explosions or fire (wounds that result in bleeding, impaired vital functions, the impotence of an anatomical
segment, celsiene signs, etc.), the first layer of the matrix can be made of woven textile materials. After correlating the
physico-mechanical characteristics of the textile structures with the subsequent processes (realization of layer II, layer
III and functionalization), the technical and physico-mechanical characteristics of the multilayer matrix will be
determined, and the location areas and the field of use (for haemostasis, regeneration of connective tissues or their
simultaneous combination) will be established.},
	number = {04},
	urldate = {2022-09-01},
	journal = {Industria Textila},
	author = {Ene, Alexandra Gabriela and Mihai, Carmen and Visileanu, Emilia and Vladu, Alina Florentina and Hertzog, Radu Gabriel and Popescu, Diana},
	month = aug,
	year = {2022},
	pages = {447--453},
}