Kyed Baker (lisagoose57)

le to perform a combined CCTA and CTA for evaluating access vessels for TAVR patients in free-breathing with single contrast injection. This approach generates acceptable image quality for all vessels and a high negative predictive value in excluding coronary artery disease with relatively low radiation and contrast doses. Given the utility of ultrasonography in assessing pressure injury, some ultrasonographic findings have already been used as indicators of deep tissue pressure injury. Despite reports showing that a cloud-like ultrasonographic pattern reflected the presence of deep tissue necrosis, identifying cloud-like patterns was difficult given the presence of similar findings, such as a cobblestone-like pattern. This case series reports patients with pressure injuries who presented with a cloud-like (five cases) and cobblestone-like (four cases) pattern during ultrasonography. This study was conducted at a Japanese university hospital. Participants included patients who underwent routine examination by an interdisciplinary pressure injury team. Pressure injury severity was assessed using the DESIGN-R® scoring system and the wound size were measured using ImageJ software based on the wound photograph. Among the five cases showing a cloud-like pattern upon ultrasonography, all exhibited an increase in the total DESIGN-R® score, while three exhibited an increase in wound size. On the other hand, all four cases showing a cobblestone-like pattern displayed no increase in the total DESIGN-R® score and a decrease in wound size. This study suggested that distinguishing between cloud-like and cobblestone-like ultrasonography patterns is necessary for determining the presence or absence of deep tissue pressure injury. In order to comprehensively assess pressure injuries with ultrasonography, future studies should be conducted in a large number of participants. This study suggested that distinguishing between cloud-like and cobblestone-like ultrasonography patterns is necessary for determining the presence or absence of deep tissue pressure injury. In order to comprehensively assess pressure injuries with ultrasonography, future studies should be conducted in a large number of participants. Increasing prevalence in breast cancers, workforce shortages and technological advancements have increased the need to further develop advanced practice in breast diagnosis. The Advanced Clinical Practitioner training programme has been introduced to support this need. The aim of this work was to systematically review studies that explore advanced practice in mammography to assess the potential impact of the introduction of a specific Advanced Clinical Practitioner training programme in breast diagnosis within the UK. A systematic PRISMA review of the literature published between 1999 and January 2020 was carried out. A total of 17 studies were included in the review. Four themes were identified in the literature in relation to advanced practice in breast imaging multidisciplinary practice; roles and responsibilities associated with advanced practice; development and progression; embedding and sustaining advanced practice. It was evident across all themes that advanced practice is vital in supporting better care for patients attending breast imaging in light of workforce shortages. Although advanced practice and its benefits are well established in breast imaging, persistent barriers were acknowledged such as role ambiguity, recruitment issues, lack of support from some radiologists and poor funding. Findings suggest that introducing a more formalised pathway to advanced practice into breast imaging through the implementation of a specific Advanced Clinical Practitioner apprenticeship training programme may overcome many of the challenges evidenced in this review. The findings of this review will help inform the development of the Advanced Cli