A multicenter retrospective study on 4480 implanted PICC-ports: A GAVeCeLT project.

BACKGROUND: PICC-ports may be defined as totally implantable central venous devices inserted in the upper limb using the current state-of-the-art techniques of PICC insertion (ultrasound-guided venipuncture of deep veins of the arm, micro-puncture kits, proper location of the tip preferably by intracavitary ECG), with placement of the reservoir at the middle third of the arm. A previous report on breast cancer patients demonstrated the safety and efficacy of these devices, with a very low failure rate. METHODS: This retrospective multicenter cohort study-developed by GAVeCeLT (the Italian Group of Long-Term Venous Access Devices)-investigated the outcomes of PICC-ports in a large cohort of unselected patients. The study included 4480 adult patients who underwent PICC-port insertion in five Italian centers, during a period of 60 months. The primary outcome was device failure, defined as any serious adverse event (SAE) requiring removal. The secondary outcome was the incidence of temporary adverse events (TAE) not requiring removal. RESULTS: The median follow-up was 15.5 months. Device failure occurred in 52 cases (1.2%), the main causes being local infection (n = 7; 0.16%) and CRBSI (n = 19; 0.42%). Symptomatic catheter-related thrombosis occurred in 93 cases (2.1%), but removal was required only in one case (0.02%). Early/immediate and late TAE occurred in 904 cases (20.2%) and in 176 cases (3.9%), respectively. CONCLUSIONS: PICC-ports are safe venous access devices that should be considered as an alternative option to traditional arm-ports and chest-ports when planning chemotherapy or other long-term intermittent intravenous treatments.

Infection of totally implantable venous access devices: A review of the literature.

Totally implantable venous access devices, or ports, are essential in the therapeutic management of patients who require long-term intermittent intravenous therapy. Totally implantable venous access devices guarantee safe infusion of chemotherapy, blood transfusion, parenteral nutrition, as well as repeated blood samples. Minimizing the need for frequent vascular access, totally implantable venous access devices also improve the patient's quality of life. Nonetheless, totally implantable venous access devices are not free from complications. Among those, infection is the most relevant, affecting patients' morbidity and mortality-both in the hospital or outpatient setting-and increasing healthcare costs. Knowledge of pathogenesis and risk factors of totally implantable venous access device-related infections is crucial to prevent this condition by adopting proper insertion bundles and maintenance bundles based on the best available evidence. Early diagnosis and prompt treatment of infection are of paramount importance. As a totally implantable venous access device-related infection occurs, device removal or a conservative approach should be chosen in treating this complication. For both prevention and therapy, antimicrobial lock is a major matter of controversy and a promising field for future clinical studies. This article reviews current evidences in terms of epidemiology, pathogenesis and risk factors, diagnosis, prevention, and treatment of totally implantable venous access device-related infections.

Changes in ceftriaxone pharmacokinetics/pharmacodynamics during the early phase of sepsis: a prospective, experimental study in the rat.

BACKGROUND: Sepsis is characterized by the loss of the perm-selectivity properties of the glomerular filtration barrier (GFB) with consequent albuminuria. We examined whether the pharmacokinetics-pharmacodynamics (PK/PD) of ceftriaxone (CTX), an extensively protein-bound 3rd generation cephalosporin, is altered during early sepsis and whether an increase in urinary loss of bound-CTX, due to GFB alteration, can occur in this condition. METHODS: A prospective, experimental, randomized study was carried out in adult male Sprague-Dawley rats. Sepsis was induced by cecal ligation and puncture (CLP). Rats were divided into two groups: Sham-operated and CLP. CTX (100 mg i.p., equivalent to 1 g dose in humans) was administered in order to measure plasma and lung CTX concentrations at several time-points: baseline and 1, 2, 4 and 6 h after administration. CTX was measured by High Performance Liquid Chromatography (HPLC). The morphological status of the sialic components of the GFB barrier was assessed by lectin histo-chemistry. Monte Carlo simulation was performed to calculate the probability of target attainment (PTA >90%) for 80 and 100% of Tfree > minimum inhibitory concentration (MIC) for 80 and 100% of dosing interval. MEASUREMENTS AND MAIN RESULTS: After CLP, sepsis developed in rats as documented by the growth of polymicrobial flora in the peritoneal fluid (≤1 × 101 CFU in sham rats vs 5 × 104-1 × 105 CFU in CLP rats). CTX plasma concentrations were higher in CLP than in sham rats at 2 and 4 h after administration (difference at 2 h was 47.3, p = 0.012; difference at 4 h was 24.94, p = 0.004), while lung penetration tended to be lower. An increased urinary elimination of protein-bound CTX occurred (553 ± 689 vs 149 ± 128 mg/L, p < 0.05; % of bound/total CTX 22 ± 6 in septic rats vs 11 ± 4 in sham rats, p < 0.01) and it was associated with loss of the GFB sialic components. According to Monte Carlo simulation a PTA > 90% for 100% of the dosing interval was reached neither for sham nor CLP rats using MIC = 1 mg/L, the clinical breakpoint for Enterobacteriacee. CONCLUSIONS: Sepsis causes changes in the PK of CTX and an alteration in the sialic components of the GFB, with consequent loss of protein-bound CTX. Among factors that can affect drug pharmacokinetics during the early phases of sepsis, urinary loss of both free and albumin-bound antimicrobials should be considered.

Minocycline but not tigecycline is neuroprotective and reduces the neuroinflammatory response induced by the superimposition of sepsis upon traumatic brain injury.

OBJECTIVE: The development of sepsis in patients with traumatic brain injury increases mortality, exacerbates morphological and functional cerebral damage, and causes persistent neuroinflammation, including microglial activation. The administration of antibiotics possessing both antimicrobial and immunomodulatory activity might attenuate both sepsis and posttraumatic cerebral inflammation. We compared the potential therapeutic efficacy of two tetracyclines, minocycline and the newer generation tigecycline, on functional neurobehavioral impairment and regional histopathological damage in an experimental model of combined traumatic brain injury and sepsis. DESIGN: Prospective, experimental animal study. SETTING: University Research Laboratory. SUBJECTS: Adult male Sprague-Dawley rats. INTERVENTIONS: Controlled cortical impact was used to induce traumatic brain injury and cecal ligation and puncture for sepsis. Immediately following injury, animals were treated with minocycline (45 mg/kg intraperitoneal), tigecycline (7.5 mg/kg intraperitoneal), or saline every 12 hours for 3 days. MEASUREMENTS AND MAIN RESULTS: The development of sepsis and cerebral inflammatory response were evaluated, respectively, by 1) growth of peritoneal microorganisms and clinical variables and 2) tumor necrosis factor-α expression in the perilesional cortex. To assess posttraumatic outcome, vestibulomotor and cognitive function were evaluated at different time points for 14 days post injury whereupon animals were killed and cerebral tissue analyzed for lesion volume, regional hippocampal (CA1/CA3) cell death, and microglial activation in the perilesional cortex, lesion core zone, and choroid plexus. Treatment with both antibiotics reduced microorganism growth, body weight loss, and mortality but had no effect on vestibulomotor or cognitive function. Minocycline alone attenuated postinjury cortical lesion volume, hippocampal CA3 neuronal cell loss, tumor necrosis factor-α expression, and the extent of microglial activation and infiltration. CONCLUSIONS: The significantly heightened mortality caused by the superimposition of sepsis upon traumatic brain injury can be reduced by administration of both antibiotics but only minocycline can decrease the extent of cell death in selectively cortical and hippocampal brain regions, via, in part, a reduction in cerebral inflammation.

Expression and characterization of anionic components in the tubulointerstitial compartment of rat kidney during polymicrobial sepsis.

The aim of the study was to evaluate sialic acids and hyaluronan expression, anionic components important for the structure and function of the renal tubulointerstitial compartment, in the early stages of sepsis. Two groups of rats were used: (1) sham-operated controls; (2) cecal ligation and puncture (CLP) (polymicrobial sepsis model). A search for microbial growth was made in the peritoneal fluid to document infection. Tubular function was evaluated by means of urinary protein loss, urinary Na(+) and urea excretion. Kidney samples were processed to analyze histology, sialic acids (lectin histochemistry) and hyaluronan (immunohistochemistry) expression. Results showed increased urinary protein loss and fractional excretion of Na(+) and urea reduction in the CLP group. Histological changes, particularly in the cortex and in proximal tubules of the CLP group, were observed. In septic rats, compared to controls, sialic acids decreased in amount and their acetylation increased in the tubules, although to a lesser extent in the proximal portion. Hyaluronan was expressed in the medullary interstitium and in a few areas of cortex in controls. In septic rats it increased in the cortical interstitium and appeared in proximal tubules. These results suggest correlation between expression changes of anionic components and tubulointerstitium morphofunctional alterations during sepsis. A role of these molecules in protection/defense and repair processes may be suggested.

Sepsis induces albuminuria and alterations in the glomerular filtration barrier: a morphofunctional study in the rat.

INTRODUCTION: Increased vascular permeability represents one of the hallmarks of sepsis. In the kidney, vascular permeability is strictly regulated by the 'glomerular filtration barrier' (GFB), which is comprised of glomerular endothelium, podocytes, their interposed basement membranes and the associated glycocalyx. Although it is likely that the GFB and its glycocalyx are altered during sepsis, no study has specifically addressed this issue. The aim of this study was to evaluate whether albuminuria--the hallmark of GFB perm-selectivity--occurs in the initial stage of sepsis and whether it is associated with morphological and biochemical changes of the GFB. METHODS: Cecal ligation and puncture (CLP) was used to induce sepsis in the rat. Tumor necrosis factor (TNF)-alpha levels in plasma and growth of microorganisms in the peritoneal fluid were evaluated at 0, 3 and 7 hours after CLP or sham-operation. At the same times, kidney specimens were collected and structural and ultrastructural alterations in the GFB were assessed. In addition, several components of GFB-associated glycocalyx, syndecan-1, hyluronan (HA) and sialic acids were evaluated by immunofluorescence, immunohistochemistry and lectin histochemistry techniques. Serum creatinine and creatinine clearance were measured to assess kidney function and albuminuria for changes in GFB permeability. Analysis of variance followed by Tukey's multiple comparison test was used. RESULTS: Septic rats showed increased TNF-alpha levels and growth of microorganisms in the peritoneal fluid. Only a few renal corpuscles had major ultrastructural and structural alterations and no change in serum creatinine or creatinine clearance was observed. Contrarily, urinary albumin significantly increased after CLP and was associated with diffuse alteration in the glycocalyx of the GFB, which consisted in a decrease in syndecan-1 expression and in HA and sialic acids contents. Sialic acids were also changed in their structure, exhibiting a higher degree of acetylation. CONCLUSIONS: In its initial phase, sepsis is associated with a significant alteration in the composition of the GFB-associated glycocalyx, with loss of GFB perm-selectivity as documented by albumin leakage into urine.

[Antibiotics and artificial nutrition in the cardiac intensive care unit]. / Nutrizione e terapia antibiotica in terapia intensiva cardiologica.

Patients admitted to cardiac intensive care units are at high risk for infections, particularly nosocomial pneumonia, pacemaker's pocket and sternotomic wound infections. These complications delay recovery, prolong hospitalization, time on mechanical ventilation, and increase mortality. Both behavioral and pharmacological measures are needed to prevent and control infections in these patients, as well as specific antibiotic treatment and nutritional support. In infected critically ill patients, pathophysiological alterations modify distribution and clearance of antibiotics, and hypercatabolic state leads to malnutrition and immune paralysis, which both contribute to increased infectious risk and worsened outcome. A deep understanding of antibacterial agents pharmacology in the critically ill is essential in order to treat severe infections; moreover, it is necessary to know routes of administration and composition of artificial nutrition solutions. The aim of this review is to define main and specific aspects of antibiotic therapy and nutritional support in cardiac critical care patients in light of recent literature data.

Systemic sepsis exacerbates mild post-traumatic brain injury in the rat.

The development of sepsis in patient suffering from traumatic brain injury (TBI) represents a frequent complication that has been associated with worsened global and neurological outcome. In an effort to better characterize the influence of sepsis following TBI, we developed an in vivo model of combined TBI and sepsis in the rat by coupling two validated models: (1) Controlled Cortical Impact (CCI) and (2) Cecal Ligation and Puncture (CLP). Possible contributing effects of sepsis on post-traumatic outcome were evaluated as mortality rate, body weight change, neurological motor (beam balance), cognitive (Morris water maze [MWM] for memory and learning) function, histopathological damage (lesion volume, cell counts in the CA1 and CA3 hippocampal areas), and morphological indices of inflammation (activated microglia and astrocytes) for the 14-day study period. In this study, we produced a mild TBI characterized by a low mortality rate, a transient delay in weight gain, and a transient impairment in motor and cognitive functions. The histological counterpart was represented by a cortical lesion in the area of impact at 14 days post-injury, associated with cell loss in the CA1 and CA3 hippocampal regions, and scarce infiltration of microglia. The superimposition of sepsis on this mild TBI model resulted in worsening of post-injury mortality and weight loss, significant exacerbation of post-injury motor deficit and cognitive impairments, and further exacerbation of neuronal cell death in the CA3 area together with over-expression and activation of microglial cells in the peri-lesional area. Altogether, our findings indicate that sepsis, when superimposed on TBI, exerts a negative effect on the evolution of post-traumatic damage.