Promoting Comfort: A Clinician Guide and Evidence-Based Skin Care Plan in the Prevention and Management of Radiation Dermatitis for Patients with Breast Cancer

Patients with breast cancer may be offered adjuvant radiation therapy (RT) after surgery. Up to 95% of these patients develop radiation dermatitis (RD) during or following RT. Randomized clinical trials and other literature provide evidence that RD can be prevented or reduced. The aim of this article is to propose a Clinician Guide and Evidence-based Skin Care Plan to prevent and/or reduce radiation dermatitis and promote the comfort of breast cancer patients receiving RT. As an integrative review, the databases searched were CINAHL and Medline, using the key terms: breast cancer, skin care, radiation, radiation therapy, radiotherapy, radiation dermatitis, and radiation skin reaction, prevention, and management. Search criteria included English language, full text, published between 2012 through 2020, and peer-reviewed. The search yielded 320 articles. Relevant articles were evaluated using the Quality Assessment Tool (QAT), and highly rated articles were selected to be included in the review of literature. The outcomes were the development of a Clinician Guide to offer holistic, patient-centered care and an Evidence-based Skin Care Plan. The research literature supports a standard skin care regimen, along with use of an emollient cream to the treatment area, use of deodorants depending on patient preferences, and application of a topical steroid cream daily throughout treatment and two weeks post RT. Clinician’s weekly assessments of patients offers therapeutic support and ensures optimal skin care during and post-RT. The comfort of breast cancer patients receiving RT requires the best level of evidence regarding the efficacy of interventions, coupled with clinician’s judgement, and patient’s preferences and wishes. The clinician-patient relationship is essential in addressing the physical, emotional, social, spiritual, and functional challenges associated with a cancer diagnosis and adjunctive radiation therapy to improve long-term survival.

Plant and Herbal Extracts as Ingredients of Topical Agents in the Prevention and Treatment Radiodermatitis: A Systematic Literature Review

Background: The use of herbal extracts as the source of antioxidant substances capable of neutralizing free radicals and providing protection from ionizing radiation appears to be an alternative therapy for radiodermatitis. As concerns the prevention and treatment of side effects, a lot of recommendations are based on proper experience of radiotherapy centers. We summarize recent research aiming at reducing radiation-induced skin injuries by use of proper skin care, using topical preparations with herbal extracts including onco-cosmetics. Methods: This article is limited to a critical analysis of scientific and professional literature. It concerns preparations in different physicochemical forms, e.g., gels, emulsions, ointments. We stress the connection between the type of applied skin care (type of preparation, its composition, the dose), the properties of the herbal extract and the evaluation of its efficiency in preventing and treating radiation reaction on skin. Conclusions: Herbal extracts can be added to recipes because they are part of a category of cosmeceutical supplements and can be introduced into preparations without prescription. The effectiveness evaluation for herbal extracts in radiotherapy is not an easy task since there are no strict guidelines. Studies should be preceded by the analysis of herbal extracts and recipe in terms of physicochemical, dermatological and performance characteristics.

NF-E2-Related Factor 2 (Nrf2) Ameliorates Radiation-Induced Skin Injury

Radiation-induced skin injury (RISI) commonly occur in cancer patients who received radiotherapy and is one of the first clinical symptoms after suffering from nuclear exposure. Oxidative damage is the major causes of RISI. Nuclear factor erythroid 2-related factor 2 (Nrf2) is considered as a key mediator of the cellular antioxidant response. However, whether Nrf2 can alleviate RISI after high-dose irradiation remains unknown. In this study, we demonstrated that Nrf2-deficient (Nrf2^-/-) mice were susceptible to high-dose irradiation and adenovirus-mediated overexpression of Nrf2 (ad-Nrf2) protected against radiation in skin cells. Overexpression of Nrf2 attenuated the severity of skin injury after high-dose electron beam irradiation. To uncover the mechanisms of Nrf2 involved in RISI, mRNA sequencing technology was performed to analyze the mRNA expression profiles of Ad-Nrf2 skin cells following radiation. The results revealed that a total of 127 genes were significantly changed, 55 genes were upregulated, and 72 genes were downregulated after Nrf2 overexpression. GSEA showed that Nrf2 was associated with positive regulation of genes involved in the reactive oxygen species pathway after radiation. Taken together, this study illustrated the role of Nrf2 in RISI and provided potentially strategies for ameliorating RISI.

Topical cream containing nanoparticles with vitamin E to prevent radiodermatitis in women with breast cancer: a clinical trial protocol

OBJECTIVE

Little is known about the efficacy of products aiming to prevent radiodermatitis, which affects between 90-95% of women with breast cancer. The use of antioxidants is promising, however, there is a lack of evidenceon their effectiveness. Here, the authors present a clinical trial protocol to evaluate the effects of applying a cream containing nanoparticles with vitamin E to prevent radiodermatitis in patients with breast cancer.

METHOD

The protocol recommends that 108 women with breast cancer, receiving radiotherapy, are included in this triple-blinded, randomized, controlled study at an oncology hospital. Patients will be divided in three groups of 36 individuals each: group A will receive a cream with lipid nanoparticles and vitamin E, group B will receive a cream without nanoparticles nor vitamin E, and group C will receive a cream with nanoparticles without vitamin E. The primary endpoints will evaluate the incidence, degree, and time of onset of radiodermatitis. The secondary endpoints will focus on the quality of life, symptoms, and local temperature. Patients will be assessed three times a week, from the start of their radiotherapy treatment to two weeks after the last session. This protocol was approved by the research ethics committee of the institutions involved and registered on an international trials database.

Topical application of Jatyadi Ghrita and Jatyadi Taila accelerates wound healing in Sprague-Dawley rats: a study in gamma-radiation-induced skin wound model

PURPOSE

Radiation-induced skin wounds/dermatitis can occur due to therapeutic, occupational, or accidental exposure to ionizing radiation. This study investigated the therapeutic efficacy of standardized Ayurvedic formulations [Jatyadi ghrita (JG) and Jatyadi taila (JT)] against 60Co-γ-radiation-induced acute skin wounds in rats.

MATERIAL AND METHODS

Animal's [Sprague-Dawley rats (200 ± 20 g)] flanked skin was locally exposed to 45 Gy radiation (R45Gy) in Cobalt-60-teletherapy unit (Bhabhatron) to generate radiation wounds. JG and JT were applied topically twice daily on wounds from day 14 onwards after appearance of moist desquamation and wound healing efficacy was observed for a period of 42 days.

RESULTS

R45Gy induced significant time dependent changes in rat's skin with erythema on day 7 followed by dry and moist desquamation. JG and JT application significantly (p < .001) reduced skin damage score, wound area (92% and 97% respectively on day 42), and bacterial load, when compared with R45Gy and showed better efficacy than sucralfate and betamethasone (positive controls). Formulations significantly reduced lipid peroxidation and enhanced antioxidant defenses, reduced inflammatory infiltrates and collagen fibers deposition as evident by decreased myeloperoxidase and hydroxyproline levels, and also reduced transforming growth factor-beta 1 (TGF-β1) expression. Further, histology revealed reduced epidermal hyperplasia and dermal thinning with improved densities of hair follicles. Formulations were found to be nontoxic on 28 days application.

CONCLUSIONS

The results demonstrated that JG and JT accelerated wound healing in irradiated skin tissue by faster re-epithelialization; reducing inflammation, collagen fibers deposition, and TGF-β1 expression, indicated their potential human application in countering radiation wounds.

Radiation-induced skin injury: pathogenesis, treatment, and management

Radiation-induced skin injury (RSI) refers to a frequently occurring complication of radiation therapy. Nearly 90% of patients having received radiation therapy underwent moderate-to-severe skin reactions, severely reducing patients' quality of life and adversely affecting their disease treatment. No gold standard has been formulated for RSIs. In the present study, the mechanism of RSI and topical medications was discussed. Besides, this study can be referenced for clinicians to treat RSIs to guide subsequent clinical medicine.

Comparative Evaluation of Topical Corticosteroid and Moisturizer in the Prevention of Radiodermatitis in Breast Cancer Radiotherapy

Background:

Radiodermatitis is a frequent side effect of breast cancer radiotherapy (RT). Treating radiation oncologist should know the prevention and treatment of every grade of radiodermatitis.

Aims:

The aim of this study was to compare the topical corticosteroid and moisturizer usage in breast cancer RT.

Materials and Methods:

Fifty patients with early-stage breast cancer undergoing breast-conserving surgery referred to our department for adjuvant RT between October 2009 and October 2016 were compared with regard to topical steroid or moisturizer usage. Patients were followed up weekly after the start of treatment.

Results:

Mean age was 46 years. Twenty-four patients had stage 1 breast cancer and 26 patients had stage 2 disease. KPS (Karnofsky performance score) was 100 for all patients. Five patients (20.8%) had grade 2 and seven (29.1%) patients had grade 1 acute radiodermatitis in the first group. Eleven (42.3%) patients had grade 2 and 12 (46.1%) patients had grade 1 acute radiodermatitis in the second group. Thirteen (54.1%) patients in the first group had no acute radiodermatitis and three (11.5%) patients in the second group had no acute radiodermatitis. No patient in either group experienced grade 3 radiodermatitis.

Conclusions:

Daily use of topical betamethasone for breast cancer RT improves dermal sparing, reduces acute radiodermatitis, and may be recommended for patients receiving RT to the breast.

Topical treatment of radiation-induced dermatitis: current issues and potential solutions

Approximately 95% of patients receiving radiotherapy (RT) will ultimately develop radiation-induced dermatitis (RID) during or after the course of treatment, with major consequences on quality of life and treatment outcomes. This paper reviews the pathophysiology of RID and currently used topical products for the prevention and treatment of RID. Although there is no consensus on the appropriate management, recent evidence suggests that the use of topical products supports to protect and promote tissue repair in patients with RID. Basic recommendations include advice to wear loose clothing, using electric razors if necessary, and avoiding cosmetic products, sun exposure or extreme temperatures. Based on mechanisms involved and on the clinical characteristics of oncological patients, the profile of the ideal topical product for addressing RID can be designed; it should have limited risk of adverse events, systemic adsorption and drug–drug interactions, should be characterized by multiple clinical activities, with a special focus on localized pain, and should have a careful formulation as some vehicles can block the RT beam.

Treatment of Skin Disorders with Aloe Materials

The skin is the largest organ and functions as a barrier to protect the underlying tissues against the elements and pathogens, while also fulfilling many physiological roles and biochemical functions such as preventing excessive water loss. Skin disorders vary greatly in terms of origin, severity, symptoms and affect persons of all ages. Many plants have been used for medicinal purposes since ancient times including the treatment of skin disorders and diseases. Aloe represents one of the earliest medicinal plant species mentioned in antique scriptures and even in rock art dating back thousands of years. Different Aloe species and materials have been used in the prevention and treatment of skin related disorders. Aloe vera is the most commonly used Aloe species for medicinal purposes. Some of the most prominent skin related applications and disorders that Aloe materials have been investigated for are discussed in this paper, which include cosmetic, radiation, cancer, wound and antimicrobial applications. Both in vitro and in vivo studies are included in the discussions of this paper and comprehensive summaries of all these studies are given in tables in each section. Although some contradictory results were obtained among studies, certain Aloe materials have shown excellent efficacy and exhibited potential for the treatment of skin related disorders and cosmetic applications.

Topical cream containing nanoparticles with vitamin E to prevent radiodermatitis in women with breast cancer: a clinical trial protocol

OBJECTIVE

Little is known about the efficacy of products aiming to prevent radiodermatitis, which affects between 90-95% of women with breast cancer. The use of antioxidants is promising, however, there is a lack of evidenceon their effectiveness. Here, the authors present a clinical trial protocol to evaluate the effects of applying a cream containing nanoparticles with vitamin E to prevent radiodermatitis in patients with breast cancer.

METHOD

The protocol recommends that 108 women with breast cancer, receiving radiotherapy, are included in this triple-blinded, randomized, controlled study at an oncology hospital. Patients will be divided in three groups of 36 individuals each: group A will receive a cream with lipid nanoparticles and vitamin E, group B will receive a cream without nanoparticles nor vitamin E, and group C will receive a cream with nanoparticles without vitamin E. The primary endpoints will evaluate the incidence, degree, and time of onset of radiodermatitis. The secondary endpoints will focus on the quality of life, symptoms, and local temperature. Patients will be assessed three times a week, from the start of their radiotherapy treatment to two weeks after the last session. This protocol was approved by the research ethics committee of the institutions involved and registered on an international trials database.

Clinical protocol for the topical use of a cream with nanoparticles and vitamin E to prevent radiodermatitis in patients with breast cancer]

Sinopsis:

Objetivo:

Poco se conoce sobre la eficacia de productos para la prevención de radiodermatitis, que afecta al 90–95% de las mujeres con cáncer de mama. El uso de antioxidantes es promisorio, sin embargo, poco estudiado. Los autores desarrollaron un protocolo de ensayo clínico para evaluar el efecto potencial de la aplicación de crema con nanopartículas con vitamina E para prevenir radiodermatitis aguda en mujeres con cáncer de mama.

Método:

El protocolo sugiere que 108 mujeres adultas con cáncer de mama, que estén recibiendo radioterapia, sean incluidas en este ensayo clínico, controlado, aleatorizado y triple ciego, en un hospital oncológico. Se prevé la distribución de pacientes en tres grupos de 36 personas: el grupo A recibirá una crema con nanopartículas lipídicas con vitamina E, el grupo B obtendrá una crema sin nanopartículas ni vitamina E, y el grupo C usará una crema con nanopartículas sin vitamina E. Los resultados primarios evaluarán la incidencia, el grado y el tiempo de surgimiento de la radiodermatitis. Los resultados secundarios se centrarán en la calidad de vida, los síntomas y la temperatura local. Las pacientes serán evaluadas tres veces por semana, desde el inicio de la radioterapia hasta dos semanas después de la última sesión. El presente proyecto fue aprobado por el comité de ética en investigación de las instituciones involucradas.

Nigella sativa L. for prevention of acute radiation dermatitis in breast cancer: A randomized, double-blind, placebo-controlled, clinical trial

OBJECTIVE

The present study aimed to evaluate the effectiveness of Nigella sativa L. (N. sativa) extract on preventing the incidence of acute radiation dermatitis (ARD) in breast cancer patients.

METHODS

Sixty-two breast cancer patients undergoing radiotherapy (RT) were randomly assigned to receiveN. sativa 5% gel or placebo. Patients were instructed to apply the medications twice daily during RT period. The severity of ARD, the incidence of moist desquamation, worst experienced pain, and skin-related quality of life (SRQOL) scores were assessed weekly during RT.

RESULTS

Patients who were treated with the N. sativa gel developed ARD significantly less frequently compared to those who used the placebo (p < 0.05 for all weeks except week 2, p = 0.36). The incidence time of grade 2 and 3 of Radiation Therapy Oncology Group and the European Organization for Research and Treatment of Cancer (RTOG/EORTC) toxicity was prolonged significantly with N. sativa gel as compared to placebo (35 vs. 29 days, p = 0.00 and 42 vs. 40 days, p = 0.01, respectively). Furthermore, the occurrence of moist desquamation was delayed in the N. sativa gel group compared with the placebo group (37 vs. 33 days, p = 0.01). The mean score of the worst pain that patients experienced in the placebo group was significantly higher than that of the N. sativa gel group at week 3 (2.5 ± 0.5 vs. 1.2 ± 0.3, p < 0.05). Nonetheless, the application of N. sativa gel had no significant effect on the SRQOL of patients at any week.

CONCLUSION

N. sativa extract significantly decreases the severity of ARD and delays the onset of moist desquamation in breast cancer patients.

Enhanced In Situ Availability of Aphanizomenon Flos-Aquae Constituents Entrapped in Buccal Films for the Treatment of Oxidative Stress-Related Oral Diseases: Biomechanical Characterization and In Vitro/Ex Vivo Evaluation

In recent years, the key role of oxidative stress in pathogenesis of oral diseases has been emphasized and the use of antioxidant agents has been encouraged. Aphanizomenon flos-aquae (AFA) is a unicellular blue-green alga with antioxidant and anti-inflammatory properties. The aim of this study was the formulation and characterization of mucoadhesive thin layer films loaded with AFA, finalized to the treatment of oxidative stress (OS)-related oral diseases. First, to enhance the bioavailability of AFA constituents, the raw food grade material was appropriately treated by a high frequency homogenization able to disrupt cell walls. Thus, Eudragit® E100-based buccal films were produced by the solvent casting method, containing 7% and 18% of AFA. The films, characterized by uniformity in thickness, weight, and drug content, showed low swelling degree, good muco-adhesiveness and controlled drug release. The mechanical tests showed elastic moduli of films of almost 5 MPa that is well-suitable for human buccal applications without discomfort, besides biaxial tests highlighted a marked material isotropy. Permeation studies through porcine mucosae demonstrated the ability of films to promote AFA penetration in the tissues, and when sublingually administered, they produced a drug flux up to six-fold higher than an AFA solution. The new formulations represent an interesting alternative for the development of cosmetics and nutraceuticals with a functional appeal containing plant extracts.

Evolution and Management of Treatment-Related Toxicity in Anal Cancer

Over the past several decades, clinical trials have demonstrated improved disease-related outcomes in the definitive treatment of anal cancer. Although treatment with radiation and concurrent chemotherapy results in high rates of cure, significant acute and late toxicities are seen. This review focuses on the evolution of treatment-related toxicity for anal cancer. Management of these adverse effects is reviewed, as are future directions in anal cancer treatment and their impact on toxicity.

The Nrf2/GCH1/BH4 Axis Ameliorates Radiation-Induced Skin Injury by Modulating the ROS Cascade

Radiation-induced skin injury is a common side effect of radiotherapy and can limit the duration and dose of radiotherapy. Most early work focused on elimination of reactive oxygen species (ROS) after radiation; however, less is known about the mechanisms underlying amplification of ROS and consequent skin injury by radiation. 5,6,7,8-Tetrahydrobiopterin (BH4) is an essential cofactor for all nitric oxide synthases. Inadequate availability of BH4 leads to uncoupling of nitric oxide synthases and production of highly oxidative radicals. In this study, we demonstrated that radiation disrupted BH4, which resulted in nitric oxide synthases uncoupling and augmented radiation-induced ROS. Overexpression of GTP cyclohydrolase I (GCH1), the rate-limiting enzyme for BH4 synthesis, restored cellular BH4 levels and nitric oxide production and decreased radiation-induced ROS. GCH1 also protected skin cells and rat skins against radiation-induced damage. We found that GCH1 was regulated by NF-E2-related factor 2, a key mediator of the cellular antioxidant response. Importantly, we identified GCH1 as a key effector for NF-E2-related factor 2-mediated protection against radiation-induced skin injury by inhibiting ROS production. Taken together, the findings of this study illustrate the key role of the NF-E2-related factor 2/GCH1/BH4 axis during radiation-induced skin damage.