BackgroundOne of the ways to treat acne is by using chemical peels. Salicylic, glycolic and pyruvic acids due to their keratolytic and antibacterial properties are often recommended for acne patients.AimsThe aim of the study was to compare the effect of a preparation containing glycolic and salicylic acids with pyruvic acid.Patients/Methods14 women diagnosed with acne took part in the study. The facial treatment area was divided into two parts: right (a preparation containing 50% pyruvic acid) and left side ( a preparation containing glycolic and salicylic acids). A series of four treatments was performed at 2‐week intervals. Skin parameters, namely hydration, sebum secretion and skin colour were measured.ResultsAs a result of using 50% pyruvic acid, the hydration of the right side of the face increased statistically and there was a decrease in the amount of melanin in the epidermis. On the left side of the face, there was an increase in skin hydration after using a mixture of glycolic and salicylic acids. The increase in skin hydration on the left side of the chin and nose was not statistically significant. The use of the mixture of glycolic and salicylic acids affected the skin colour on the left side of the face, on the forehead, cheek and nose.ConclusionChemical peels affect a wide range of pathological factors of acne. A mixture of acids yields fewer side effects than a single acid used in high concentration, but the therapeutic effects are comparable.
Topical and oral antibiotic therapy is also a popular method of treatment. The effectiveness of this method is limited by the increasing resistance of bacteria to antibiotics. Over the decades since the introduction of antibiotics to treat acne, the resistance levels of bacteria have changed. This defense mechanism is developed evolutionarily. Modifications of antibiotic receptor sites, alteration of drug influx/efflux, or enzymatic degradation are common mechanisms used by bacteria to initiate and strengthen internal antibiotic resistance. The basic chromophores used in light therapy are hemoglobin, melanin, water bound to proteins, and porphyrins. Hemoglobin absorbs light mainly at 580 nm, while melanin absorbs the entire visible spectral range (400-750 nm). Porphyrins are aromatic compounds, classified as photosensitizing substances, intensively absorbing blue light, and to a lesser extent in long visible bands, such as orange and red light. Using IPL makes it possible to cover the maximum light absorption of porphyrins and hemoglobin, therefore it can be an effective tool in the treatment of inflammatory lesions in acne vulgaris. In view of the effectiveness of light therapy and its effect even on antibiotic-resistant bacteria, it is worth considering the possibility of using light therapy instead of antibiotic therapy. Due to the increasing resistance of bacteria to antimicrobials, they should be used with caution and as a last resort. The high-energy light treatment act only locally (unlike with antibiotics taken orally) and on a chromophore, such as melanin, hemoglobin, or porphyrins.
Background The use of high‐frequency ultrasound for noninvasive assessment of skin during chemical peeling therapies may be a useful tool. Aims To determine whether high‐frequency ultrasound is a useful tool to noninvasive assessment of skin and evaluation therapy progress. Patients/Methods The 14 women underwent four treatments with chemical peelings at 2‐week intervals. Before, after 4 weeks and after 9 weeks, photographic documentation and scans were recorded using a high‐resolution ultrasound system. Results As a result of applying pyruvic acid peeling, the thickness of the entrance echo on the forehead, cheek, and chin was reduced. After applying the peeling consisting of a mixture of glycolic and salicylic acids, the thickness of the entrance echo of the epidermis decreased on the forehead, cheek, and chin. As a result of applying a 50% pyruvic acid peeling, the density of dermis on the forehead, cheeks, and chin increased. A similar increase in the density of dermis was observed on the forehead, cheeks, and chin after applying a mixture of glycolic and salicylic acid. Conclusion High‐frequency ultrasound is a useful tool for monitoring the progress in the treatment of acne vulgaris using chemical peelings.
Background In the treatment of acne, skin parameters such as sebum secretion, hydration, and the content of hemoglobin and melanin are very important. The values of these parameters at the appropriate level show the maintenance of good functionality of the epidermal barrier and the impact of a given treatment procedure on the condition and physiology of the epidermis. Aims The aim of the study was to evaluate the effectiveness of anti‐acne therapy with IPL by volunteers, as well as to quantify parameters such as sebum secretion, hydration level, and the content of melanin and hemoglobin in the skin. Patients/Methods The study involved 27 volunteers with moderate acne. A series of 4 treatments was performed with intense pulse light at weekly intervals. The secretion of sebum, skin hydration, and the content of melanin and hemoglobin was measured. Results A decrease in sebum secretion in the forehead area after light treatments was observed, the level of hydration remained the same in all areas examined, as did the levels of melanin and hemoglobin. The volunteers were asked about the satisfaction with the effects of the treatment: 100% answered that they were satisfied with the effects of the treatment to a degree of 7.8 ± 1.5. Conclusions During anti‐acne therapy, therapists usually focus only on reducing acne lesions, forgetting that proper care has a large impact on the success of dermatological therapies. It is very important to know the influence of treatment procedures on the parameters of the skin in order to choose the right care for the best treatment effect.
Background: Psoriasis is one of the most commonly recognized dermatological diseases, characterized by distinct structural changes, hyperproliferation and inflammation. The aim of the study was quantitative comparisons of psoriatic skin with skin without psoriatic lesions by non-invasive imaging methods. Methods: 71 patients diagnosed with psoriasis vulgaris underwent non-invasive imaging of skin at the site of the psoriatic lesion and at the site without such lesion. Skin density, epidermis thickness and subepidermal low-echogenic band (SLEB) thickness were measured by high-resolution ultrasound (HFU). Blood perfusion was assessed using laser speckle contrast analysis (LASCA) and skin temperature was measured by thermal imaging camera. Hyperspectral camera was used to obtain spectral reflectance profiles in psoriatic lesion and skin without psoriatic changes. Results: The greatest differences in skin density and epidermal thickness between psoriatic and unchanged skin were observed on the forearms. The skin covered with psoriatic plaques was 80% less dense, and the epidermis in this area was 121% thicker. The greatest thickness of SLEB was observed in the knee area (Me = 0.389 mm). Skin with psoriatic lesions is characterized by a higher temperature (Me = 33.6 vs. Me = 31) and blood perfusion than skin without psoriasis (Me = 98.76 vs. Me = 50.65). Skin without psoriasis shows lower reflectance than psoriatic lesion from 623 nm to 1000 nm; below this value, skin without psoriatic lesion shows higher reflectance. Conclusions: Skin density and epidermis thickness, skin blood perfusion, temperature and reflectance can be useful parameters for monitoring the course of psoriasis and its treatment, especially since the examination of psoriatic skin with proposed methods is non-invasive, quantitative and easy to perform in clinical conditions.
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