Moderne Aknetherapie

Zouboulis, Ch.C.

doi:10.1055/s-2003-38236

Cited by 16 publications

(11 citation statements)

References 28 publications

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“…In order to be able to determine suitable therapy regimens for the varying clinical pictures and different ages of manifestation, a good understanding of the pathogenesis of the disease and possibilities for targeted symptomatic or even etiological therapy is indispensable [9,22]. It is traditionally maintained that various factors contribute to the onset of acne, including increased activity of the sebaceous glands with seborrhea, abnormal follicular differentiation and increased cornification, as well as microbial hypercolonization and inflammatory reactions with a persistent immune response [21].…”

Section: Etiology Of Acnementioning

confidence: 99%

S2k – Guideline on the Therapy of Acne

Nast

Bayerl

Borelli

et al. 2010

J Deutsche Derma Gesell

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Section: Etiology Of Acnementioning

confidence: 99%

S2k – Guideline on the Therapy of Acne

Nast

Bayerl

Borelli

et al. 2010

J Deutsche Derma Gesell

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“…These results confirm that our organotypic epidermis model, built on IGF-1R impairment, demonstrates a good ability to approach important aspects of hormonal ageing on skin. [2] Sex hormones are declined with age and affect cell-cell communication as illustrated by Makrantonaki and colleagues in their study on 17beta-oestradiol and IGF-1 on fibroblasts and sebocytes. [40] Bearing this example in mind, the present model could be accurate to further transpose 2D studies to 3D skin in vitro and explore more complex interactions in a context closer to skin physiology.…”

Section: Discussionmentioning

confidence: 99%

In vitro epidermis model mimicking IGF‐1–specific age‐related decline

Mainzer

Remoué

Molinari

et al. 2018

Experimental Dermatology

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Ageing is a complex multifaceted process affecting skin functionality and structure. Several 3D organotypic skin culture models have reproduced ageing by inducing replicative senescence, glycation or oxidative stress. Yet, very few models have focused on hormonal ageing and especially the insulin-like growth factor 1 (IGF-1) signalling pathway, which has been associated with longevity in animal studies and is necessary for the early stages of skin development. In this study, we built an organotypic epidermis model with targeted IGF-1 receptor knockdown to reproduce some aspects of hormonal ageing on skin. Our model displayed morphological and functional features of aged epidermis, which were mostly attributed to a loss of function of the Stratum basale. IGF-1 receptor knockdown keratinocytes depicted an extended cell cycle, reduced proliferation potential and reduced adhesion capacities and greater sensitivity to oxidative stress than control cells. Altogether, this model represents an essential tool for further investigations into the mechanisms linked to some aspects of hormonal decline or when screening for potent anti-ageing compounds.

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“…With accelerating age, skin functions deteriorate, and the incidence of chronic non-healing is increased. Multiple pathways are involved in the pathogenesis of aged skin, including alterations in DNA repair and stability, mitochondrial function, cell cycle, apoptosis, extracellular matrix activity and cellular metabolism (103).…”

Section: The Interstitial Integration Of Neurogenic and Bone Marrowrementioning

confidence: 99%

The wound‐healing response and upregulated embryonic mechanisms: brothers‐in‐arms forever

Aller

Blanco-Rivero

Arias

et al. 2012

Experimental Dermatology

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The cutaneous wound-healing reaction occurs in overlapping but inter-related phases, which ultimately result in fibrosis. The pathophysiological mechanisms involved in fibrotic diseases, including organ-related and even systemic diseases, such as systemic sclerosis, could represent the successive systemic upregulation of extraembryonic-like phenotypes, that is, amniotic and vitelline phenotypes. These two extraembryonic-like phenotypes act on the injured tissue to induce a process similar to gastrulation, which occurs during the early phases of embryo development. The amniotic-like phenotype plays a leading role in the development of neurogenic responses with significant hydroelectrolytic alterations that essentially represent the development of open microcirculation within the injured tissue. In turn, through the overlapping expression of a vitelline-like phenotype, a bone marrow-related response is produced. Interstitial infiltration by molecular and cellular mediators contributed by amniotic-and vitelline-like functions provides the functional and metabolic autonomy needed for inducing new tissue formation through mechanisms similar to those that act in gastrulation during the early phases of embryonic development. Thus, while a new tissue is formed, it quickly evolves into fibrotic tissue because of premature senescence. Mechanisms related to extraembryonic-like functions have been suggested in the following physiological and pathological processes: embryonic development; wound-healing reactions occurring during adult life; and senescence. The existence of this sort of basic self-organizing fractal-like functional pattern is an essential characteristic of our way of life.

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Moderne Aknetherapie

Cited by 16 publications

References 28 publications

S2k – Guideline on the Therapy of Acne

S2k – Guideline on the Therapy of Acne

In vitro epidermis model mimicking IGF‐1–specific age‐related decline

The wound‐healing response and upregulated embryonic mechanisms: brothers‐in‐arms forever

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