Your search keyword '"Gallinger, J."' showing total 11 results

1. Impact of acne on women's social media and dating apps photo activity

Author

Kluger, N., primary, Taieb, C., additional, Bedran, J., additional, Payraud, L., additional, Beausillon, C., additional, Sammain, A., additional, Gallinger, J., additional, and Comte, C., additional

Published

2024

2. Impact of acne on women's social media and dating apps photo activity.

Author

Kluger, N., Taieb, C., Bedran, J., Payraud, L., Beausillon, C., Sammain, A., Gallinger, J., and Comte, C.

Subjects

SOCIAL media mobile apps, PEARSON correlation (Statistics), ONLINE social networks, ONLINE dating mobile apps, ONLINE dating

Abstract

The study examines the impact of acne on women's use of social media and dating apps, focusing on photo activity. Over 1700 women participated in the survey, with most reporting feelings of embarrassment and low self-confidence due to acne. The research highlights how acne influences women's online presence, with many avoiding selfies or using filters to modify their appearance. The study underscores the importance of support and management for women with acne to enhance self-acceptance and quality of life. [Extracted from the article]

Published

2025

3. Convergence and molecular evolution of floral fragrance after independent transitions to self-fertilization.

Author

Woźniak NJ, Sartori K, Kappel C, Tran TC, Zhao L, Erban A, Gallinger J, Fehrle I, Jantzen F, Orsucci M, Ninkovic V, Rosa S, Lenhard M, Kopka J, and Sicard A

Subjects

Pollination, Alkenes metabolism, Plant Proteins genetics, Plant Proteins metabolism, Acyclic Monoterpenes, Flowers genetics, Self-Fertilization genetics, Evolution, Molecular, Odorants analysis

Abstract

Studying the independent evolution of similar traits provides valuable insights into the ecological and genetic factors driving phenotypic evolution. 1 The transition from outcrossing to self-fertilization is common in plant evolution 2 and is often associated with a reduction in floral attractive features such as display size, chemical signals, and pollinator rewards. 3 These changes are believed to result from the reallocation of the resources used for building attractive flowers, as the need to attract pollinators decreases. 2 , 3 We investigated the similarities in the evolution of flower fragrance following independent transitions to self-fertilization in Capsella. 4 , 5 , 6 , 7 , 8 , 9 We identified several compounds that exhibited similar changes in different selfer lineages, such that the flower scent composition reflects mating systems rather than evolutionary history within this genus. We further demonstrate that the repeated loss of β-ocimene emission, one of the compounds most strongly affected by these transitions, was caused by mutations in different genes. In one of the Capsella selfing lineages, the loss of its emission was associated with a mutation altering subcellular localization of the ortholog of TERPENE SYNTHASE 2. This mutation appears to have been fixed early after the transition to selfing through the capture of variants segregating in the ancestral outcrossing population. The large extent of convergence in the independent evolution of flower scent, together with the evolutionary history and molecular consequences of a causal mutation, suggests that the emission of specific volatiles evolved as a response to changes in ecological pressures rather than resource limitation., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

4. Communication between undamaged plants can elicit changes in volatile emissions from neighbouring plants, thereby altering their susceptibility to aphids.

Author

Kheam S, Gallinger J, and Ninkovic V

Subjects

Animals, Plants, Alkenes, Herbivory, Aphids, Volatile Organic Compounds pharmacology, Acyclic Monoterpenes

Abstract

Plant volatiles play an important role in intra- and interspecific plant communication, inducing direct and indirect defenses against insect pests. However, it remains unknown whether volatile interactions between undamaged cultivars alter host plant volatile emissions and their perception by insect pests. Here, we tested the effects of exposure of a spring barley, Hordeum vulgare L., cultivar, Salome, to volatiles from other cultivars: Fairytale and Anakin. We found that exposing Salome to Fairytale induced a significantly higher emission of trans-β-ocimene and two unidentified compounds compared when exposed to Anakin. Aphids were repelled at a higher concentration of trans-β-ocimene. Salome exposure to Fairytale had significant repulsive effects on aphid olfactory preference, yet not when Salome was exposed to Anakin. We demonstrate that volatile interactions between specific undamaged plants can induce changes in volatile emission by receiver plants enhancing certain compounds, which can disrupt aphid olfactory preferences. Our results highlight the significant roles of volatiles in plant-plant interactions, affecting plant-insect interactions in suppressing insect pests. This has important implications for crop protection and sustainable agriculture., (© 2024 The Authors. Plant, Cell & Environment published by John Wiley & Sons Ltd.)

Published

2024

5. Redefine photoprotection: Sun protection beyond sunburn.

Author

van Bodegraven M, Kröger M, Zamudio Díaz DF, Lohan SB, Moritz RKC, Möller N, Knoblich C, Vogelsang A, Milinic Z, Hallhuber M, Weise JM, Kolbe L, Gallinger J, Graupner C, Klose H, Ulrich C, and Meinke MC

Subjects

Humans, Sunscreening Agents therapeutic use, Skin, Ultraviolet Rays adverse effects, Sunburn prevention & control, Sunburn etiology, Skin Neoplasms prevention & control, Skin Neoplasms drug therapy

Abstract

Excessive exposure to ultraviolet (UV) light leads to acute and chronic UV damage and is the main risk factor for the development of skin cancer. In most countries with western lifestyle, the topical application of sunscreens on UV-exposed skin areas is by far the most frequently used preventive measure against sunburn. Further than preventing sunburns, increasing numbers of consumers are appreciating sunscreens with a medium- to high-level sun protective factor (SPF) as basis for sustainable-skin ageing or skin cancer prevention programs. However, recent investigations indicate that clinically significant DNA damages as well as a lasting impairment of cutaneous immunosurveillance already occur far below the standard of one minimal erythema dose (MED) sunburn level, which contributes to the current discussion of the clinical value of high-protective SPF values. Ex vivo investigations on human skin showed that the application of SPF30 reduces DNA damage for a day long sun exposure (24 MED) drastically by about 53% but is significantly surpassed by SPF100 reducing DNA damage by approx. 73%. Further analysis on different SPF protection levels in UV-exposed cell culture assays focusing on IL-18, cell vitality and cis/trans-urocanic acid support these findings. Whereas SPF30 and SPF50 + sunscreens already offer a solid UVB cover for most indications, our results indicate that SPF100 provides significant additional protection against mutagenic (non-apoptotic-) DNA damage and functional impairment of the cutaneous immunosurveillance and therefore qualifies as an optimized sunscreen for specifically vulnerable patient groups such as immunosuppressed patients, or skin cancer patients., (© 2024 The Authors. Experimental Dermatology published by John Wiley & Sons Ltd.)

Published

2024

6. Correction: Call to action: equity, diversity, and inclusion in emergency medicine resident physician selection.

Author

Primavesi R, Patocka C, Burcheri A, Coutin A, Morizio A, Ali A, Pandya A, Gagné A, Johnston B, Thoma B, LeBlanc C, Fovet F, Gallinger J, Mohadeb J, Ragheb M, Dong S, Smith S, Oyedokun T, Newmarch T, Knight V, and McColl T

Published

2023

7. Call to action: equity, diversity, and inclusion in emergency medicine resident physician selection.

Author

Primavesi R, Patocka C, Burcheri A, Coutin A, Morizio A, Ali A, Pandya A, Gagné A, Johnston B, Thoma B, LeBlanc C, Fovet F, Gallinger J, Mohadeb J, Ragheb M, Dong S, Smith S, Oyedokun T, Newmarch T, Knight V, and McColl T

Subjects

Humans, Diversity, Equity, Inclusion, Canada, Internship and Residency, Emergency Medicine education, Physicians

Abstract

Objectives: This call to action seeks to improve emergency care in Canada for equity-deserving communities, enabled by equitable representation among emergency physicians nationally. Specifically, this work describes current resident selection processes and makes recommendations to enhance the equity, diversity, and inclusion (EDI) of resident physician selection in Canadian emergency medicine (EM) residency programs., Methods: A diverse panel of EM residency program directors, attending and resident physicians, medical students, and community representatives met monthly from September 2021 to May 2022 via videoconference to coordinate a scoping literature review, two surveys, and structured interviews. This work informed the development of recommendations for incorporating EDI into Canadian EM resident physician selection. At the 2022 Canadian Association of Emergency Physicians (CAEP) Academic Symposium, these recommendations were presented to symposium attendees composed of national EM community leaders, members, and learners. Attendees were divided into small working groups to discuss the recommendations and address three conversation-facilitating questions., Results: Symposium feedback informed a final set of eight recommendations to promote EDI practices during the resident selection process that address recruitment, retention, mitigating inequities and biases, and education. Each recommendation is accompanied by specific, actionable sub-items to guide programs toward a more equitable selection process. The small working groups also described perceived barriers to the implementation of these recommendations and outlined strategies for success that are incorporated into the recommendations., Conclusion: We call on Canadian EM training programs to implement these eight recommendations to strengthen EDI practices in EM resident physician selection and, in doing so, help to improve the care that patients from equity-deserving groups receive in Canada's emergency departments (EDs)., (© 2023. The Author(s), under exclusive licence to Canadian Association of Emergency Physicians (CAEP)/ Association Canadienne de Médecine d'Urgence (ACMU).)

Published

2023

8. Alterations in the odor profile of plants in cultivar mixtures affect aphid host-location behavior.

Author

Tous-Fandos A, Gallinger J, Enting A, Chamorro-Lorenzo L, Sans Serra FX, and Ninkovic V

Abstract

The effect of cultivar mixtures on aphid control is attributed to the masking or alteration of host-preferred cultivar odor cues. However, the underlying physiological mechanism remains unclear. This study assessed alterations in the volatile emissions of wheat cultivars grown together (Florence-Aurora and Forment; Florence-Aurora and Montcada) and the consequences for the olfactory preference of aphids. Volatile organic compounds were collected from wheat plants grown in a laboratory under mixed or monoculture conditions and subsequently analyzed. The odor profiles of Florence-Aurora and Montcada were indistinguishable from each other. However, the odors of Florence-Aurora and Forment grown in monocultures differed significantly from those emitted by their mixture. The Florence-Aurora and Forment mixture induced plant physiological responses that affected the emission of single volatile compounds and, consequently, altered volatile organic compound ratios. English grain aphids ( Sitobion avenae ) were less attracted to the odors of Florence-Aurora and Forment when grown as a mixture than the combination of the odors from Florence-Aurora and Forment monocultures. Moreover, aphids preferred clean air over the odor from the Florence-Aurora and Forment mixture but preferred the odor from the Florence-Aurora and Montcada mixture over clean air. This study highlights the beneficial effects of intraspecific plant diversity on aphid control by altering plant odors in response to plant-plant interactions. The emission of less attractive odor cues consequently affects plant-aphid interactions; hence, less attractive odors are likely to impair aphid host-locating behavior. This effect was exclusive to certain cultivar mixtures, which supports the "right neighbor" concept., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Tous-Fandos, Gallinger, Enting, Chamorro-Lorenzo, Sans Serra and Ninkovic.)

Published

2023

9. Less confident, successful and happy: patients with post-acne hyperpigmentation are stigmatized.

Author

Schuster B, Gallinger J, Philipp-Dormston WG, Vasel M, and Layton AM

Subjects

Humans, Acne Vulgaris, Hyperpigmentation diagnosis, Hyperpigmentation etiology

Abstract

Competing Interests: Conflicts of interest B.S. and J.G. are employees of Beiersdorf AG. W.G.P.-D. has acted as a consultant for, been an investigator for, and/or received honoraria for educational events from AbbVie/Allergan, Almirall-Hermal, BASF, Beiersdorf, Benevi, Biofrontera, EcoElio, Eucerin, FB Dermatology, Galderma, Gen Re, InfectoPharm, Laboratoires Pierre Fabre, La Roche Posay, Leo, L’Oréal, Lysando, McKinsey & Company, Merz, Schulze & Böhm, SkinCeuticals and Skin Jet. M.V. is an employee of Beiersdorf Dermo Medical GmbH. A.M.L. has acted as a consultant for, been chief investigator for research grants (funded to institution) and/or received honoraria for unrestricted educational events from Alliance, Almirall, Beiersdorf, Galderma, GSK, La Roche Posay, Leo, L’Oreal, Meda, Mylan, Novartis, Origimm and Proctor & Gamble.

Published

2023

10. Altered volatile emission of pear trees under elevated atmospheric CO 2 levels has no relevance to pear psyllid host choice.

Author

Gallinger J, Rid-Moneta M, Becker C, Reineke A, and Gross J

Subjects

Humans, Animals, Female, Carbon Dioxide metabolism, Trees metabolism, Insecta metabolism, Hemiptera, Pyrus, Volatile Organic Compounds

Abstract

The impact of climate change drivers on cultivated plants and pest insects has come into research focus. One of the most significant drivers is atmospheric carbon dioxide, which is converted into primary plant metabolites by photosynthesis. Increased atmospheric CO 2 concentrations therefore affect plant chemistry. The chemical composition of non-volatile and volatile organic compounds of plants is used by insects to locate and identify suitable host plants for feeding and reproduction. We investigated whether elevated CO 2 concentrations in the atmosphere affect the plant-pest interaction in a fruit crop of high economic importance in Europe. Therefore, potted pear trees were cultivated under specified CO 2 conditions in a Free-Air Carbon dioxide Enrichment (FACE) facility at Geisenheim University in Germany for up to 14 weeks, beginning from bud swelling. We compared emitted volatiles from these pear trees cultivated for 7 and 14 weeks under two different CO 2 levels (ambient: ca. 400 ppm and elevated: ca. 450 ppm CO 2 ) and their impact on pest insect behavior. In total, we detected and analyzed 76 VOCs from pear trees. While we did not detect an overall change in VOC compositions, the relative release of single compounds changed in response to CO 2 increase. Differences in VOC release were inconsistent over time (phenology stages) and between study years, indicating interactions with other climate parameters, such as temperature. Even though insect-plant interaction can rely on specific volatile compounds and specific mixtures of compounds, respectively, the changes of VOC patterns in our field study did not impact the host choice behavior of C. pyri females. In olfactometer trials, 64% and 60% of the females preferred the odor of pear trees cultivated under elevated CO 2 for 7 and 14 weeks, respectively, over the odor from pear trees cultivated under ambient CO 2 . In binary-choice oviposition assays, C. pyri females laid most eggs on pears during April 2020; on average, 51.9 (± 51.3) eggs were laid on pears cultivated under eCO 2 and 60.3 (± 48.7) eggs on aCO 2., (© 2023. The Author(s).)

Published

2023

11. Depth-dependent hydration dynamics in human skin: Vehicle-controlled efficacy assessment of a functional 10% urea plus NMF moisturizer by near-infrared confocal spectroscopic imaging (KOSIM IR) and capacitance method complemented by volunteer perception.

Author

Gallinger J, Kuhn A, Wessel S, Behm P, Heinecke S, Filbry A, Hillemann L, and Rippke F

Subjects

Administration, Topical, Epidermis diagnostic imaging, Humans, Perception, Volunteers, Emollients pharmacology, Skin diagnostic imaging, Urea pharmacology

Abstract

Background: Stratum corneum (SC) hydration is vital for the optimal maintenance and appearance of healthy skin. In this context, we evaluated the efficacy of an NMF-enriched moisturizer containing 10% urea on different aspects of SC hydration of dry skin., Material and Methods: In two clinical studies, the hydration efficacy of the moisturizer in comparison to its vehicle was investigated. In the first study, 42 subjects applied the moisturizer and the vehicle to one lower leg each. Thirty minutes and 24 h after this single treatment, SC hydration was measured by corneometry. Volunteers also rated skin moisturization and evaluated product properties. In the second study, 27 subjects each treated one forearm twice daily for 2 weeks with the moisturizer and the vehicle. Then, depth-resolved water-absorption spectra were measured by near-infrared confocal spectroscopic imaging (KOSIM IR)., Results: The moisturizer exerted a superior hydrating effect compared to the vehicle. KOSIM IR measurements show that, compared to the vehicle, the moisturizer significantly improved the water gradient in the SC from the surface to a depth of 15 μm. Moreover, the moisturizer received high acceptance ratings from the volunteers and was preferred to the vehicle., Conclusion: The humectants applied in the investigated moisturizer improved SC water content in total and as a function of depth. The combination of depth-resolved data (KOSIM IR) with classical corneometry provides an integrated concept in the measurement of skin hydration, rendering both methods complementary. These findings were in line with the volunteers` self-assessments of the moisturizer properties that are relevant to treatment adherence., (© 2022 Beiersdorf AG. Skin Research and Technology published by John Wiley & Sons Ltd.)

Published

2022