Maximizing Adherence and Minimizing Time to Antibiotics: A Multidisciplinary Institutional Trauma Bay Protocol for Single Antibiotic Prophylaxis in Open Fractures.

OBJECTIVES: To determine if a multidisciplinary institutional protocol can optimize the time to antibiotic (Abx) administration for open fractures (openFx) and improve compliance with the administration of Abx prophylaxis during trauma activation. DESIGN: Retrospective pre-post study design. SETTING: Single Level II Trauma Center. PATIENT SELECTION CRITERIA: All patients who triggered a trauma activation with suspected openFx and were treated according to the institutional single antibiotic regimen were eligible for inclusion. Patients were excluded if fractures did not involve the appendicular skeleton. Patients treated before implementation of a standardized institutional protocol where premixed IV bags of antibiotics were stocked in automated dispensing systems within ED trauma bays (January 2021-October 2022) were defined as the "pre" group and those treated following implementation the "post" group. OUTCOME MEASURES AND COMPARISONS: The primary outcome was time from trauma bay arrival to antibiotic aministration, measured in minutes, with comparisons made between preprotocol and postprotocol implementation. Secondary outcomes for comparison included rates (%) of time to Abx <60 minutes, allergic reactions, acute kidney injury, ototoxicity, surgical site infection, multi-drug-resistant organisms identified in blood or biopsy cultures in cases requiring reoperation, and Clostridium difficile infection in the gastrointestinal system, confirmed by stool test results, within 30 days. RESULTS: Twenty-four patients (mean age 39.5 ± 16.3 years) met the criteria after protocol implementation compared with 72 patients (mean age 34.3 ± 14.8 years) before implementation. Implementation of the institutional protocol resulted in a significant reduction in the time to Abx administration for openFx from 87.9 ± 104.6 minutes to 22.2 ± 12.8 minutes in the postprotocol group ( P < 0.001). In addition, only 53% in the preprotocol group received Abx within 60 minutes compared with 96% in postprotocol group ( P < 0.001). Post hoc power analysis revealed that the study was powered at 92% (effect size = 0.72) to detect a significant difference between the preprotocol and postprotocol groups. CONCLUSION: This study provides evidence that a multidisciplinary institutional protocol for the administration of Abx prophylaxis can be an effective strategy for optimizing the time to Abx administration in cases of suspected openFx. This protocol may be implemented in other trauma centers to optimize time to Abx administration for openFx. LEVEL OF EVIDENCE: Therapeutic Level III. See Instructions for Authors for a complete description of levels of evidence.

Recycling of Clay Sediments for Geopolymer Binder Production. A New Perspective for Reservoir Management in the Framework of Italian Legislation: The Occhito Reservoir Case Study.

Reservoir silting is an unavoidable issue. It is estimated that in Italy, the potential rate of silting-up in large reservoirs ranges from 0.1% to 1% in the presence of wooded river basins and intensive agricultural land use, respectively. In medium and small-sized reservoirs, these values vary between 0.3% and 2%. Considering both the types of reservoirs, the annual average loss of storage capacity would be of about 1.59%. In this paper, a management strategy aimed at sediment productive reuse is presented. Particularly, the main engineering outcomes of an extensive experimental program on geopolymer binder synthesis is reported. The case study deals with Occhito reservoir, located in Southern Italy. Clay sediments coming from this silted-up artificial lake were characterized, calcined and activated, by means of a wide set of alkaline activating solutions. The results showed the feasibility of this recovery process, optimizing a few chemical parameters. The possible reuse in building material production (binders, precast concrete, bricks, etc.) represents a relevant sustainable alternative to landfill and other more consolidated practices.

Heart failure reduces both the effects and interaction between cyclic GMP and cyclic AMP.

BACKGROUND: We tested the hypothesis that the negative functional effects of cyclic GMP would be attenuated by cyclic AMP and this interaction would be reduced in pacing-induced failure of hypertrophic hearts. MATERIALS AND METHODS: 8-Bromo-cGMP (2 microg/kg/min) was infused into a coronary artery in eight control, eight ventricular hypertrophy (HYP), and eight hypertrophic failure (HYP-FAIL) dogs. Then isoproterenol (0.1 microg/kg/min) was infused, followed by 8 Br-cGMP. Regional myocardial work (force*shortening/min), and O(2) consumption (VO(2)) (coronary blood flow*O(2) extraction) were measured. Cyclic GMP levels were determined by radioimmunoassay. RESULTS: 8-Br-cGMP significantly decreased regional work from 3812 +/- 839 g*mm/min by 17% and VO(2) by 29% in control, but not in HYP (1073 +/- 182 by -10%, VO(2) by -16%) or HYP-FAIL (495 +/- 145 by -9%, VO(2) by 0%). Isoproterenol increased work by 43% and VO(2) by 48% in controls and in HYP (work by 54%, VO(2) by 39%), but not in HYP-FAIL (work by -28%, VO(2) by -5%). Subsequently, 8-Br-cGMP had no effect on work or VO(2) in control (-2%, -13%), HYP (-12%, -30%), or HYP-FAIL (+13%, +14%). Cyclic AMP levels were elevated by isoproterenol in control (381 +/- 115 versus 553 +/- 119 pmol/g) and HYP (313 +/- 55 versus 486 +/- 227), but not in HYP-FAIL (300 +/- 60 versus 284 +/- 126). After isoproterenol, 8-Br-cGMP further elevated cyclic AMP in control (687 +/- 122), but not in HYP or HYP-FAIL. CONCLUSIONS: In controls, cyclic AMP attenuated cyclic GMPs negative functional and metabolic effects. The effects and the interaction were blunted in the HYP and HYP-FAIL groups.

Reduction in interaction between cGMP and cAMP in dog ventricular myocytes with hypertrophic failure.

Baseline function and signal transduction are depressed in hearts with hypertrophic failure. We tested the hypothesis that the effects of cGMP and its interaction with cAMP would be reduced in cardiac myocytes from hypertrophic failing hearts. Ventricular myocytes were isolated from control dogs, dogs with aortic valve stenosis hypertrophy, and dogs with pacing hypertrophic failure. Myocyte function was measured using a video edge detector. Cell contraction data were obtained at baseline, with 8-bromo-cGMP (10(-7), 10(-6), and 10(-5) M), with erythro-9-(2-hydroxy-3-nonyl)adenine [EHNA; a cAMP phosphodiesterase (PDE(2)) inhibitor] plus 8-bromo-cGMP, or milrinone (a PDE(3) inhibitor) plus 8-bromo-cGMP. Baseline percent shortening and maximal rates of shortening (R(max)) and relaxation were slightly reduced in hypertrophic myocytes and were significantly lower in failing myocytes (R(max): control dogs, 95.3 +/- 17.3; hypertrophy dogs, 88.2 +/- 5.5; failure dogs, 53.2 +/- 6.4 mum/s). 8-Bromo-cGMP dose dependently reduced myocyte function in all groups. However, EHNA (10(-6) M) and milrinone (10(-6) M) significantly reduced the negative effects of cGMP on cell contractility in control and hypertrophy but not in failing myocytes (R(max) for control dogs: cGMP, -46%; +EHNA, -21%; +milrinone, -19%; for hypertrophy dogs: cGMP, -40%; +EHNA, -13%; +milrinone, -20%; for failure dogs: cGMP, -40%; +EHNA, -29%; +milrinone, -32%). Both combinations of EHNA-cGMP and milrinone-cGMP significantly increased intracellular cAMP in control, hypertrophic, and failing myocytes. These data indicated that the cGMP signaling pathway was preserved in hypertrophic failing cardiac myocytes. However, the interaction of cGMP with the cAMP signaling pathway was impaired in these failing myocytes.

Negative metabolic and coronary flow effects of decreases in cAMP and increases in cGMP in control and renal hypertensive rabbit hearts.

The interaction during stimulation of cGMP and inhibition of cAMP was investigated in control and renal hypertensive hearts. Control and hypertensive [1 kidney, 1 clip (1K1C)] rabbits were used. The anesthetized open-chest groups were vehicle, 8-bromo-cGMP (8-Br-cGMP; 10(-3)M), propranolol (Prop; 2 mg/kg), and Prop + 8-Br-cGMP. O(2) consumption levels (Vo(2)) in the subepicardium (Epi) and subendocardium (Endo) were determined from coronary flow (microspheres) and O(2) extraction (microspectrophotometry). Wall thickening and cAMP levels were also determined. In control, no significant change in Vo(2) was seen for the 8-Br-cGMP group, but Vo(2) was decreased from Epi (9.7 +/- 1.5 ml O(2) x min(-1) x 100 g(-1)) and Endo (10.5 +/- 0.4 ml O(2) x min(-1) x 100 g(-1)) to 6.8 +/- 0.6/7.8 +/- 0.5 ml O(2) x min(-1) x 100 g(-1) in the control Prop group. Control Prop + 8-Br-cGMP did not cause a further fall in Vo(2) but lowered Endo flow. In 1K1C, Vo(2) decreased from Epi/Endo (10.8 +/- 1.3/11 +/- 1.0 ml O(2).min(-1).100 g(-1)) to 7.8 +/- 1.1/8.7 +/- 0.5 ml O(2) x min(-1) x 100 g(-1) in the 1K1C 8-Br-cGMP group and to 7 +/- 0.5/8.1 +/- 0.5 ml O(2) x min(-1) x 100 g(-1) in the 1K1C Prop group. 1K1C Prop + 8-Br-cGMP did not cause a further fall in Vo(2) but lowered blood flow. No significant changes in cAMP levels were present with 8-Br-cGMP in control or 1K1C rabbits, but significant decreases were seen with Prop in both control and 1K1C rabbits. No further change was seen in Prop + 8-Br-cGMP for either control or 1K1C. Thus the negative metabolic effect of stimulating cGMP was seen only in the hypertensive rabbit heart. The negative metabolic effect of inhibiting cAMP was seen in both the control and the hypertensive rabbit heart. However, the negative metabolic effects of cGMP and cAMP were nonadditive.