Chest Clause Samples
Chest. Rather deep than broad, breastbone reaching as far backwards as possible. Ribs well arched. Underline and belly: Slight tuck-up towards the rear in an elegant curve; lean. TAIL: Set on high, with long flag following the topline, strong at the base, then tapering. Of medium length. Carried downwards in repose, horizontally and not too high above the level of the topline with a slight sweep when in action. In the lower third it may be curved slightly upwards. LIMBS:
Chest. 2.3.1. The skeleton of the chest consists of a tubular steel frame on which the arm joints are mounted. The spine consists of a steel cable with four threaded terminals.
2.3.2. The skeleton is coated with polyurethane. Measuring equipment can be housed in the chest cavity. Annex 8 - Appendix 1
Chest offers a dedicated Help Desk to answer licensing queries;
Chest. X-RAY OR INTRADERMAL TEST All employees upon initial employment shall present evidence of having submitted to examination (chest x-ray, skin test, or other tests designated as acceptable by the County
Chest. Measure around the fullest part of your bust, under your armpits and around your shoulder blades. Arms – Measure around the largest part of your arms (flexed or not flexed, just make sure to do it the same every week.)
Chest. In the following clinical situations an Out of Hours service may be requested without Consultant Consultation:
(a) trauma with widening of the mediastinum; or
(b) dissection of the aorta. CTPA scans do not routinely fit emergency criteria however may be performed and read if considered clinically urgent/required between 8am and 10pm. After this time these scans will not routinely be performed or read.
Chest. Pulmonary function and CT biomarkers as risk factors for cardiovascular events in male lung cancer screening participants: the ▇▇▇▇▇▇ study ▇▇▇▇▇▇▇ ▇. ▇. ▇▇▇▇ • Rozemarijn Vliegenthart • Firdaus ▇. ▇. ▇▇▇▇▇▇▇ ▇▇▇▇▇▇▇ • ▇▇▇▇▇ ▇▇▇▇▇ • ▇▇▇▇▇ ▇. ▇▇ ▇▇▇▇▇▇ • ▇▇▇▇▇▇ ▇. ▇▇. M. Mali • ▇▇▇▇▇▇▇ ▇. ▇▇▇ ▇▇▇ ▇▇▇▇▇ • ▇▇▇▇▇▇ ▇▇▇▇▇ • ▇▇▇-▇▇▇▇▇▇ ▇. Lammers • ▇▇▇▇▇ ▇. ▇. ▇▇▇▇▇ • ▇▇▇ ▇. ▇▇▇ ▇▇▇▇▇▇▇▇ • ▇▇▇▇▇▇▇ ▇▇▇▇▇▇▇ • ▇▇▇▇ ▇▇▇ ▇▇▇▇▇▇▇▇ • Matthijs Oudkerk • ▇▇▇ ▇▇▇▇▇▇ • ▇▇▇ ▇. ▇▇ ▇▇▇▇ Received: 21 March 2014 / Revised: 5 June 2014 / Accepted: 5 August 2014 / Published online: 3 September 2014 Ⓒ European Society of Radiology 2014 Abstract Objective The objective of this study was to investigate the association of spirometry and pulmonary CT biomarkers with cardiovascular events. Methods In this lung cancer screening trial 3,080 male partic- ipants without a prior cardiovascular event were analysed. Fatal and non-fatal cardiovascular events were included. Spi- rometry included forced expiratory volume measured in units of one-second percent predicted (FEV1%predicted) and FEV1 divided by forced vital capacity (FVC; FEV1/FVC). CT ex- aminations were quantified for coronary artery calcium vol- ume, pulmonary emphysema (perc15) and bronchial wall thickness (pi10). Data were analysed via a Cox proportional hazard analysis, net reclassification improvement (NRI) and C-indices. Results 184 participants experienced a cardiovascular event during a median follow-up of 2.9 years. Age, pack-years and smoking status adjusted hazard ratios were 0.992 (95 % con- fidence interval (CI) 0.985-0.999) for FEV1%predicted, 1.000 (95%CI 0.986-1.015) for FEV1/FVC, 1.014 (95%CI 1.005- 1.023) for perc15 per 10 HU, and 1.269 (95%CI 1.024-1.573) for pi10 per 1 mm. The incremental C-index (<0.015) and NRI (<2.8 %) were minimal. Coronary artery calcium volume had a hazard ratio of 1.046 (95%CI 1.034-1.058) per 100 mm3, an increase in C-index of 0.076 and an NRI of 16.9 % (P<0.0001).