Objectives: This article aims to review the current prevalence rate of latex allergy among healthcare workers, susceptible patients, and the general public, and to investigate why latex is still a ubiquitous occupational health hazard. Methods: Scientific publications on PubMed, particularly those published within the last five years, and current regulations from agencies such as Food and Drug Administration (FDA) were reviewed. Consumer and commercial products that may contain latex were also surveyed. Results: Approximately 12 million tons of natural rubber latex is produced annually and is widely used to manufacture millions of consumer and commercial products. Only limited number of latex-derived products have been approved and regulated by government agencies, such as FDA, whereas the majority of finished products do not label whether they contain latex. Owing to millions of unidentifiable products containing latex and many routes for exposure to latex, preventing contact with latex allergens and reducing the prevalence of latex allergy are more difficult than expected. Reported data suggest that the average prevalence of latex allergy worldwide remains 9.7%, 7.2%, and 4.3% among healthcare workers, susceptible patients, and general population, respectively. Conclusions: Latex-derived products are ubiquitous, and latex allergy remains a highly prevalent health risk in many occupations and to the general population. Developing alternative materials and increasing the ability to identify and label latex-derived products will be practicable approaches to effectively control the health risks associated with latex.
Open heart surgery supported by cardiopulmonary bypass is associated with heart and lung ischemia-reperfusion injury (IRI). Limb remote ischemic preconditioning (RIPC) reduces injury caused by ischemia-reperfusion in multiple distant organs. We conducted a prospective clinical trial (randomized and controlled) to test the feasibility and safety of limb RIPC, as well as its protective effects against myocardial and pulmonary IRI for infants undergoing repair of simple congenital heart defects. Infants undergoing repair of ventricular septal defects were enrolled in our study and randomly assigned to one of two treatment groups: limb RIPC or control. RIPC was induced twice (24 h and 1 h preoperatively) via three 5-min cycles of ischemia and reperfusion on the left upper arm using a blood pressure cuff. Lung compliance, respiratory index (RI), and cardiac inotropic score (IS) were calculated for each patient. Serum concentrations of the following factors were measured perioperatively: interleukin (IL)-6, IL-8, IL-10, and tumor necrosis factor (TNF)-alpha; lactate dehydrogenase (LDH), creatine kinase (CK), and its isoenzyme (CK-MB), and troponin I (TnI); malondialdehyde (MDA) and superoxide dismutase (SOD). The expression of heat shock protein 70 (HSP 70) in cardiomyocytes was analyzed by Western blot. Surgical outcomes, including limb movement and sensory function, were recorded in detail. Sixty infants weighting less than 7 kg were studied, with 30 patients in the RIPC group and 30 in the control group. Within 6 months of discharge from the hospital, no limb disability, sensory disturbance, or other surgical complications were found in any patient. Compared with the control group, patients in the RIPC group had higher Cs and Cd, along with lower RI and IS at various postoperative phases. At the beginning of the operation, serum concentrations of IL-6, IL-8, IL-10, TNF-alpha, LDH, CK, and TnI were higher in the RIPC group than the control group. Postoperatively, release of cytokines and leakage of heart enzymes were attenuated in the RIPC group; serum concentrations of cytokines and heart enzymes were lower in the RIPC group at some, but not all, postoperative time points. Furthermore, the RIPC group had lower coronary sinus venous concentrations of MDA and higher concentrations of SOD. Similarly, the expression of HSP 70 was upregulated in cardiomyocytes from the RIPC group. Limb RIPC can be applied safely and easily in infants, can attenuate systemic inflammatory response syndrome, and can increase systemic tolerance to IRI, imparting a protective effect against myocardial and pulmonary IRI. The expression of HSP 70 has an important role in the mechanism of action for RIPC.
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