Education on medically unexplained symptoms: a systematic review with a focus on cultural diversity and migrants

Background: Health care providers often struggle with the management of patients with medically unexplained symptoms (MUS), especially in case of a different ethnicity and/or cultural background. These challenges are insufficiently addressed in their training. Objectives: A systematic review on education in the field of MUS in a diverse context to improve MUS healthcare provider–patient interaction focused on intercultural communication. Methods: Screening of PubMed, Web of Science, Cinahl and Cochrane Library on the keywords ‘Medical unexplained (physical) symptoms (MUS)’, ‘Somatoform disorder’, ‘Functional syndrome’, ‘Diversity’, ‘Migrants’, ‘Ethnicity’, ‘Care models’, ‘Medical education’, ‘Communication skills’, ‘Health literacy’. Results: MUS patients, especially with a different ethnic background, often feel not understood or neglected. Health care providers experience feelings of helplessness, which may provoke medical shopping and resource consumption. Attitudes and perceptions from undergraduate trainees to senior physicians tend to be negative, impacting on the quality of the patient/health care provider relationship and subsequently on health outcomes, patient satisfaction and therapeutic adherence. Current undergraduate, graduate and postgraduate education and training does not prepare health care providers for diagnosing and managing MUS patients in a diverse context. A continuum of training is necessary to achieve a long term and lasting change in attitudes towards these patients and trainers play a key role in this process. Hence, education should pay attention to MUS, requiring a specific competency profile and training, taken into account the variety in patients’ cultural backgrounds. Conclusions: This systematic review identified significant gaps and shortcomings in education on MUS in a diverse context. These need to be addressed to improve outcomes

Synthesis of SrTiO3 thin films for coated conductor applications by aqueous chemical solution deposition

In recent years, the need for new buffer architectures for coated conductors has grown exponentially. With the conventional CeO2 buffer layers problems regarding reproducibility and chemical inertness are observed, giving rise to the formation of intermediate phases and a strong decrease in superconducting properties. A promising material for replacing the cerium oxide appears to be yttrium bismuth oxide (YBiO3) as it shows excellent crystallographic and chemical compatibility with YBa2Cu3O7-x. To ensure the sustainability of the obtained coatings, the YBO thin film is synthesized starting from aqueous solutions. These solutions were deposited on single crystal LaAlO3, La2Zr2O7/Ni-5%W and YSZABAD/SS by dip-coating. Highly epitaxial and smooth layers were achieved, allowing the subsequent deposition of superconducting YBCO with critical current densities up to 3.6 MA/cm² in the case of single crystal substrates

Synthesis of SrTiO3 thin films for coated conductor applications by aqueous chemical solution deposition

In recent years, the need for new buffer architectures for coated conductors has grown exponentially. With the conventional CeO2 buffer layers problems regarding reproducibility and chemical inertness are observed, giving rise to the formation of intermediate phases and a strong decrease in superconducting properties. A promising material for replacing the cerium oxide appears to be yttrium bismuth oxide (YBiO3) as it shows excellent crystallographic and chemical compatibility with YBa2Cu3O7-x. To ensure the sustainability of the obtained coatings, the YBO thin film is synthesized starting from aqueous solutions. These solutions were deposited on single crystal LaAlO3, La2Zr2O7/Ni-5%W and YSZABAD/SS by dip-coating. Highly epitaxial and smooth layers were achieved, allowing the subsequent deposition of superconducting YBCO with critical current densities up to 3.6 MA/cm² in the case of single crystal substrates