At the coalface and the cutting edge: general practitioners’ accounts of the rewards of engaging with HIV medicine

The interviews we conducted with GPs suggest that an engagement with HIV medicine enables clinicians to develop strong and long-term relationships with and expertise about the care needs of people living with HIV ‘at the coalface’, while also feeling connected with a broader network of medical practitioners and other professionals concerned with and contributing to the ever-changing world of science: ‘the cutting edge’. The general practice HIV prescriber is being modelled here as the interface between these two worlds, offering a rewarding opportunity for general practitioners to feel intimately connected to both community needs and scientific change

Breast cancer diagnosis using scattered X-rays

Small-angle X-ray diffraction data has been collected from 99 `core-cut' breast tissue specimens representing a number of different pathologies. Data in the range 75–1390 Å have been compared with controls from patients with no breast disease. Bessel functions and Bragg maxima resulting from the fibrillar structure of collagen have been identified. The Bragg maxima indexed onto a 649 Å lattice. Systematic differences in the intensities and D-spacings between the collagen of malignant, benign and normal tissue groups have been clearly demonstrated and quantified. These differences appear to be due to a significantly lower structural order within the malignant tissues. Possible explanations for this are discussed and the potential for utilizing this observation in cancer diagnosis is considered

Preliminary observations of breast tumor collagen using synchrotron radiation

The most frequently occurring cancer in women is that of the breast where it accounts for almost 20% of all cancer deaths. The U.K. has the world's highest mortality rate from breast cancer with an increasing incidence of 25000 per annum. Characterizing the complex physiological and tissue changes that form the natural history of breast cancer is clearly important for understanding associated biological mechanisms and for diagnosis. We report the initial findings of a diffraction study of breast tissue collagen that we believe may be due to tumor genesis. Small angle, synchrotron X-ray scattering has enabled us to examine `core cut' biopsy specimens and characterize their collagen architecture. We present data that demonstrates possible structural differences between tumor and normal tissue. We discuss the implications of these findings in the context of using molecular structure characteristics as new and novel markers of disease progression