The 'Seattle Criteria' reduced the false-positive rate of ECG screening from 17% to 4.2%, while still identifying the 0.3% of athletes with a cardiac abnormality.
Changes in human immunodeficiency virus (HIV) type 1 concentration and protease genotype were evaluated in semen specimens from 22 HIV-positive men before and 6 months after the addition of indinavir to dual nucleoside therapy. Seminal HIV was detected by polymerase chain reaction analysis for DNA or RNA for 59% of men before combination treatment and persisted at 6 months for 31% of the men who initially had seminal HIV detected (P = .026). The maximum levels of cell-free RNA, cell-associated RNA, and proviral DNA in semen before treatment and at 6 months were 400,000 and 10,000 copies/mL, 70,000 and 27,000 copies/mL, and 80,000 and 3,000 copies/mL, respectively. Three of the four men with persistent seminal DNA had plasma viral loads of > 10,000 copies/mL before treatment. One patient who became intolerant to indinavir had seminal HIV RNA detected by PCR analysis after 6 months. Although none of the cultures of semen specimens from the four men with PCR analysis-detectable seminal DNA after 6 months yielded HIV, indinavir resistance mutations were identified in a seminal leukocyte DNA specimen from one patient, and a second patient whose therapy was switched to saquinavir had different protease inhibitor resistance mutations in seminal and blood leukocyte DNA specimens. HIV-1 protease inhibitor resistance mutants may emerge in the semen of patients receiving combination therapy.
Background
Age-related loss of muscle mass and function (sarcopenia) is linked to poor outcomes after surgery and trauma. Here we evaluate CT measured psoas muscle density and area using quick and simple tools available to the beside clinician. We hypothesize these measures will predict poor outcomes after blunt traumatic injury.
Methods
We conducted a retrospective cohort study of patients ages ≥ 45 years in the Ohio State University Trauma Registry in 2008 that received a CT abdomen/pelvis with intravenous contrast. Psoas Index (PI) and Hounsfield Unit average calculation (HUAC) were measured at the L3 level. 90-day mortality, complication, length of stay ≥ 7 days, dependent discharge were compared to PI and HUAC.
Results
151 patients met inclusion criteria. Patients were stratified into interquartile ranges based either on PI or HUAC values. After adjustment with sex-specific cutoffs, the lowest interquartile range of PI was associated with 90-day mortality (RR 5.95, p < 0.008) but did not reach significance in other outcomes. The lowest interquartile range of HUAC was associated with 90-day mortality (RR 5.95, p < 0.008) length of stay ≥ 7 days (RR 1.63, p = 0.048), complication risk (RR 2.30, p = 0.002), and dependent discharge 2.14, p = 0.015).
Conclusion
Psoas muscle density is a significant predictor of poor outcomes after traumatic injury. This objective, quick, and readily available measure of sarcopenia can identify patients requiring aggressive nutritional and physical therapy to improve prognosis, prevent recurrent traumatic injury, and aid in discharge planning.
Stem-cell therapy has the potential to regenerate damaged heart tissue after a heart attack. Injectable hydrogels may be used as stem-cell carriers to improve cell retention in the heart tissue. However, current hydrogels are not ideal to serve as cell carriers because most of them block blood vessels after solidification. In addition, these hydrogels have a relatively slow gelation rate (typically >60 s), which does not allow them to quickly solidify upon injection, so as to efficiently hold cells in the heart tissue. As a result, the hydrogels and cells are squeezed out of the tissue, leading to low cell retention. To address these issues, we have developed hydrogels that can quickly solidify at the pH of an infarcted heart (6-7) at 37 °C but cannot solidify at the pH of blood (7.4) at 37 °C. These hydrogels are also clinically attractive because they can be injected through catheters commonly used for minimally invasive surgeries. The hydrogels were synthesized by free-radical polymerization of N-isopropylacrylamide, propylacrylic acid, hydroxyethyl methacrylate-co-oligo(trimethylene carbonate), and methacrylate poly(ethylene oxide) methoxy ester. Hydrogel solutions were injectable through 0.2-mm-diameter catheters at pH 8.0 at 37 °C, and they can quickly form solid gels under pH 6.5 at 37 °C. All of the hydrogels showed pH-dependent degradation and mechanical properties with less mass loss and greater complex shear modulus at pH 6.5 than at pH 7.4. When cardiosphere-derived cells (CDCs) were encapsulated in the hydrogels, the cells were able to survive during a 7-day culture period. The surviving cells were differentiated into cardiac cells, as evidenced by the expression of cardiac markers at both the gene and protein levels, such as cardiac troponin T, myosin heavy chain α, calcium channel CACNA1c, cardiac troponin I, and connexin 43. The gel integrity was found to largely affect CDC cardiac differentiation. These results suggest that the developed dual-sensitive hydrogels may be promising carriers for cardiac cell therapy.
Stem cell therapy has the potential to regenerate heart tissue after myocardial infarction (MI). The regeneration is dependent upon cardiac differentiation of the delivered stem cells. We hypothesized that timing of the stem cell delivery determines the extent of cardiac differentiation as cell differentiation is dependent on matrix properties such as biomechanics, structure and morphology, and these properties in cardiac extracellular matrix (ECM) continuously vary with time after MI. In order to elucidate the relationship between ECM properties and cardiac differentiation, we created an in vitro model based on ECM-mimicking fibers and a type of cardiac progenitor cell, cardiosphere-derived cells (CDCs). A simultaneous fiber electrospinning and cell electrospraying technique was utilized to fabricate constructs. By blending a highly soft hydrogel with a relatively stiff polyurethane and modulating fabrication parameters, tissue constructs with similar cell adhesion property but different global modulus, single fiber modulus, fiber density and fiber alignment were achieved. The CDCs remained alive within the constructs during a 1 week culture period. CDC cardiac differentiation was dependent on the scaffold modulus, fiber volume fraction and fiber alignment. Two constructs with relatively low scaffold modulus, ~50–60 kPa, most significantly directed the CDC differentiation into mature cardiomyocytes as evidenced by gene expressions of cardiac troponin T (cTnT), calcium channel (CACNA1c) and cardiac myosin heavy chain (MYH6), and protein expressions of cardiac troponin I (cTnI) and connexin 43 (CX43). Of these two low-modulus constructs, the extent of differentiation was greater for lower fiber alignment and higher fiber volume fraction. These results suggest that cardiac ECM properties may have an effect on cardiac differentiation of delivered stem cells.
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