13 research outputs found
Bacterial contamination of inanimate surfaces and equipment in the intensive care unit
Intensive care unit (ICU)-acquired infections are a challenging health problem worldwide, especially when caused by multidrug-resistant (MDR) pathogens. In ICUs, inanimate surfaces and equipment (e.g., bedrails, stethoscopes, medical charts, ultrasound machine) may be contaminated by bacteria, including MDR isolates. Cross-transmission of microorganisms from inanimate surfaces may have a significant role for ICU-acquired colonization and infections. Contamination may result from healthcare workers' hands or by direct patient shedding of bacteria which are able to survive up to several months on dry surfaces. A higher environmental contamination has been reported around infected patients than around patients who are only colonized and, in this last group, a correlation has been observed between frequency of environmental contamination and culture-positive body sites. Healthcare workers not only contaminate their hands after direct patient contact but also after touching inanimate surfaces and equipment in the patient zone (the patient and his/her immediate surroundings). Inadequate hand hygiene before and after entering a patient zone may result in cross-transmission of pathogens and patient colonization or infection. A number of equipment items and commonly used objects in ICU carry bacteria which, in most cases, show the same antibiotic susceptibility profiles of those isolated from patients. The aim of this review is to provide an updated evidence about contamination of inanimate surfaces and equipment in ICU in light of the concept of patient zone and the possible implications for bacterial pathogen cross-transmission to critically ill patients
Defect Detection Using Power Supply Transient Signal Analysis
Transient Signal Analysis is a digital device testing method that is based on the analysis of voltage transients at multiple test points. The power supply transient signals of an 8-bit multiplier are analyzed using both hardware and simulations experiments. The small signal variations generated at these test points are analyzed in both the time and frequency domain. A simple statistical procedure is presented that captures the variation introduced by defects while attenuating those variations introduced by process variations. The results of the analysis show that it is possible to distinguish between defect-free and defective devices in both simulations and hardware. Transient Signal Analysis (TSA) is a parametri
Mammographic microcalcifications and breast cancer tumorigenesis: a radiologic-pathologic analysis
Abstract
Background
Microcalcifications (MCs) are tiny deposits of calcium in breast soft tissue. Approximately 30% of early invasive breast cancers have fine, granular MCs detectable on mammography; however, their significance in breast tumorigenesis is controversial. This study had two objectives: (1) to find associations between mammographic MCs and tumor pathology, and (2) to compare the diagnostic value of mammograms and breast biopsies in identifying malignant MCs.
Methods
A retrospective chart review was performed for 937 women treated for breast cancer during 2000–2012 at St. Michael’s Hospital. Demographic information (age and menopausal status), tumor pathology (size, histology, grade, nodal status and lymphovascular invasion), hormonal status (ER and PR), HER-2 over-expression and presence of MCs were collected. Chi-square tests were performed for categorical variables and t-tests were performed for continuous variables. All p-values less than 0.05 were considered statistically significant.
Results
A total of 937 patient charts were included. About 38.3% of the patients presented with mammographic MCs on routine mammographic screening. Patients were more likely to have MCs if they were HER-2 positive (52.9%; p < 0.001). There was a significant association between MCs and peri-menopausal status with a mean age of 50 (64%; p = 0.012). Patients with invasive ductal carcinomas (40.9%; p = 0.001) were more likely to present with MCs than were patients with other tumor histologies. Patients with a heterogeneous breast density (p = 0.031) and multifocal breast disease (p = 0.044) were more likely to have MCs on mammograms. There was a positive correlation between MCs and tumor grade (p = 0.057), with grade III tumors presenting with the most MCs (41.3%). A total of 52.2% of MCs were missed on mammograms which were visible on pathology (p < 0.001).
Conclusion
This is the largest study suggesting the appearance of MCs on mammograms is strongly associated with HER-2 over-expression, invasive ductal carcinomas, peri-menopausal status, heterogeneous breast density and multifocal disease
Recommended from our members
Mammographic microcalcifications and breast cancer tumorigenesis: a radiologic-pathologic analysis
Background: Microcalcifications (MCs) are tiny deposits of calcium in breast soft tissue. Approximately 30% of early invasive breast cancers have fine, granular MCs detectable on mammography; however, their significance in breast tumorigenesis is controversial. This study had two objectives: (1) to find associations between mammographic MCs and tumor pathology, and (2) to compare the diagnostic value of mammograms and breast biopsies in identifying malignant MCs. Methods: A retrospective chart review was performed for 937 women treated for breast cancer during 2000–2012 at St. Michael’s Hospital. Demographic information (age and menopausal status), tumor pathology (size, histology, grade, nodal status and lymphovascular invasion), hormonal status (ER and PR), HER-2 over-expression and presence of MCs were collected. Chi-square tests were performed for categorical variables and t-tests were performed for continuous variables. All p-values less than 0.05 were considered statistically significant. Results: A total of 937 patient charts were included. About 38.3% of the patients presented with mammographic MCs on routine mammographic screening. Patients were more likely to have MCs if they were HER-2 positive (52.9%; p < 0.001). There was a significant association between MCs and peri-menopausal status with a mean age of 50 (64%; p = 0.012). Patients with invasive ductal carcinomas (40.9%; p = 0.001) were more likely to present with MCs than were patients with other tumor histologies. Patients with a heterogeneous breast density (p = 0.031) and multifocal breast disease (p = 0.044) were more likely to have MCs on mammograms. There was a positive correlation between MCs and tumor grade (p = 0.057), with grade III tumors presenting with the most MCs (41.3%). A total of 52.2% of MCs were missed on mammograms which were visible on pathology (p < 0.001). Conclusion: This is the largest study suggesting the appearance of MCs on mammograms is strongly associated with HER-2 over-expression, invasive ductal carcinomas, peri-menopausal status, heterogeneous breast density and multifocal disease
Gastrointestinal perforation: ultrasonographic diagnosis
Gastrointestinal tract perforations can occur for various causes such as peptic ulcer, inflammatory disease, blunt or
penetrating trauma, iatrogenic factors, foreign body or a neoplasm that require an early recognition and, often, a
surgical treatment.
Ultrasonography could be useful as an initial diagnostic test to determine, in various cases the presence and,
sometimes, the cause of the pneumoperitoneum.
The main sonographic sign of perforation is free intraperitoneal air, resulting in an increased echogenicity of a
peritoneal stripe associated with multiple reflection artifacts and characteristic comet-tail appearance.
It is best detected using linear probes in the right upper quadrant between the anterior abdominal wall, in the
prehepatic space.
Direct sign of perforation may be detectable, particularly if they are associated with other sonographic
abnormalities, called indirect signs, like thickened bowel loop and air bubbles in ascitic fluid or in a localized fluid
collection, bowel or gallbladder thickened wall associated with decreased bowel motility or ileus.
Neverthless, this exam has its own pitfalls. It is strongly operator-dependant; some machines have low-quality
images that may not able to detect intraperitoneal free air; furthermore, some patients may be less cooperative to
allow for scanning of different regions; sonography is also difficult in obese patients and with those having
subcutaneous emphysema. Although CT has more accuracy in the detection of the site of perforation, ultrasound
may be particularly useful also in patient groups where radiation burden should be limited notably children and
pregnant women