Obstetric hemorrhage and shock management: using the low technology Non-pneumatic Anti-Shock Garment in Nigerian and Egyptian tertiary care facilities

Abstract Background Obstetric hemorrhage is the leading cause of maternal mortality globally. The Non-pneumatic Anti-Shock Garment (NASG) is a low-technology, first-aid compression device which, when added to standard hypovolemic shock protocols, may improve outcomes for women with hypovolemic shock secondary to obstetric hemorrhage in tertiary facilities in low-resource settings. Methods This study employed a pre-intervention/intervention design in four facilities in Nigeria and two in Egypt. Primary outcomes were measured mean and median blood loss, severe end-organ failure morbidity (renal failure, pulmonary failure, cardiac failure, or CNS dysfunctions), mortality, and emergency hysterectomy for 1442 women with ≥750 mL blood loss and at least one sign of hemodynamic instability. Comparisons of outcomes by study phase were assessed with rank sum tests, relative risks (RR), number needed to treat for benefit (NNTb), and multiple logistic regression. Results Women in the NASG phase (n = 835) were in worse condition on study entry, 38.5% with mean arterial pressure <60 mmHg vs. 29.9% in the pre-intervention phase (p = 0.001). Despite this, negative outcomes were significantly reduced in the NASG phase: mean measured blood loss decreased from 444 mL to 240 mL (p < 0.001), maternal mortality decreased from 6.3% to 3.5% (RR 0.56, 95% CI 0.35-0.89), severe morbidities from 3.7% to 0.7% (RR 0.20, 95% CI 0.08-0.50), and emergency hysterectomy from 8.9% to 4.0% (RR 0.44, 0.23-0.86). In multiple logistic regression, there was a 55% reduced odds of mortality during the NASG phase (aOR 0.45, 0.27-0.77). The NNTb to prevent either mortality or severe morbidity was 18 (12-36). Conclusion Adding the NASG to standard shock and hemorrhage management may significantly improve maternal outcomes from hypovolemic shock secondary to obstetric hemorrhage at tertiary care facilities in low-resource settings

A High Assurance Window System Prototype

This paper describes the architecture of a prototype multilevel secure windowing system based on the X Window System. The prototype, known as TX, is designed to meet the class B3 architectural requirements of the Trusted Computer System Evaluation Criteria (TCSEC). The architecture and prototype described here demonstrate that high assurance windowing technology is feasible. The TX architecture is based on the encapsulation of untrusted functionality, such as that contained in an ordinary X server, using a relatively small amount of trusted applications code. The untrusted functionality is then polyinstantiated 1 This work is sponsored by the Defense Advanced Research Projects Agency under Contract No. MDA 972-89-C0029. Correspondence should be addressed to Ann Marmor-Squires, TRW Systems Division, Fairfax, VA. or by email to [email protected]. An earlier version of this paper was presented at the Seventh Annual Computer Security Applications Conference, San Antonio TX, December 1..