Michael Malinowski

Evidence for a Standardized Preadmission Showering Regimen to Achieve Maximal Antiseptic Skin Surface Concentrations of Chlorhexidine Gluconate, 4%, in Surgical Patients

IMPORTANCE To reduce the amount of skin surface bacteria for patients undergoing elective surgery, selective health care facilities have instituted a preadmission antiseptic skin cleansing protocol using chlorhexidine gluconate. A Cochrane Collaborative review suggests that existing data do not justify preoperative skin cleansing as a strategy to reduce surgical site infection. OBJECTIVES To develop and evaluate the efficacy of a standardized preadmission showering protocol that optimizes skin surface concentrations of chlorhexidine gluconate and to compare the findings with the design and methods of published studies on preoperative skin preparation. DESIGN, SETTING, AND PARTICIPANTS A randomized prospective analysis in 120 healthy volunteers was conducted at an academic tertiary care medical center from June 1, 2014, to September, 30, 2014. Data analysis was performed from October 13, 2014, to October 27, 2014. A standardized process of dose, duration, and timing was used to maximize antiseptic skin surface concentrations of chlorhexidine gluconate applied during preoperative showering. The volunteers were randomized to 2 chlorhexidine gluconate, 4%, showering groups (2 vs 3 showers), containing 60 participants each, and 3 subgroups (no pause, 1-minute pause, or 2-minute pause before rinsing), containing 20 participants each. Volunteers used 118 mL of chlorhexidine gluconate, 4%, for each shower. Skin surface concentrations of chlorhexidine gluconate were analyzed using colorimetric assay at 5 separate anatomic sites. Individual groups were analyzed using paired t test and analysis of variance. INTERVENTION Preadmission showers using chlorhexidine gluconate, 4%. MAIN OUTCOMES AND MEASURES The primary outcome was to develop a standardized approach for administering the preadmission shower with chlorhexidine gluconate, 4%, resulting in maximal, persistent skin antisepsis by delineating a precise dose (volume) of chlorhexidine gluconate, 4%; duration (number of showers); and timing (pause) before rinsing. RESULTS The mean (SD) composite chlorhexidine gluconate concentrations were significantly higher (P < .001) in the 1- and 2-minute pause groups compared with the no-pause group in participants taking 2 (978.8 [234.6], 1042.2 [219.9], and 265.6 [113.3] µg/mL, respectively) or 3 (1067.2 [205.6], 1017.9 [227.8], and 387.1 [217.5] µg/mL, respectively) showers. There was no significant difference in concentrations between 2 and 3 showers or between the 1- and 2-minute pauses. CONCLUSIONS AND RELEVANCE A standardized preadmission shower regimen that includes 118 mL of aqueous chlorhexidine gluconate, 4%, per shower; a minimum of 2 sequential showers; and a 1-minute pause before rinsing results in maximal skin surface (16.5 µg/cm2) concentrations of chlorhexidine gluconate that are sufficient to inhibit or kill gram-positive or gram-negative surgical wound pathogens. This showering regimen corrects deficiencies present in current nonstandardized preadmission shower protocols for patients undergoing elective surgery.

Empowering the Surgical Patient: A Randomized, Prospective Analysis of an Innovative Strategy for Improving Patient Compliance with Preadmission Showering Protocol

BACKGROUND Surgical site infections (SSIs) are responsible for significant morbidity, mortality, and excess use of health care resources. The preadmission antiseptic shower is accepted as an effective strategy for reducing the risk for SSIs. The study analyzes the benefit of an innovative electronic patient alert system (EAS) for enhancing compliance with a preadmission showering protocol with 4% chlorhexidine gluconate (CHG). STUDY DESIGN After providing informed consent, 80 volunteers were randomized to 4 CHG showering groups. Groups A1 and A2 showered twice. Group A1 was prompted to shower via EAS. Groups B1 and B2 showered 3 times. Group B1 was prompted via EAS. Subjects in groups A2 and B2 were not prompted (non-EAS groups). Skin-surface concentrations of CHG (μg/mL) were analyzed using colorimetric assay at 5 separate anatomic sites. Study personnel were blinded to the randomization code; after final volunteer processing, the code was broken and individual groups were analyzed. RESULTS Mean composite CHG skin-surface concentrations were significantly higher (p < 0.007) in EAS groups A1 (30.9 ± 8.8 μg/mL) and B1 (29.0 ± 8.3 μg/mL) compared with non-EAS groups A2 (10.5 ± 3.9 μg/mL) and B2 (9.5 ± 3.1 μg/mL). Overall, 66% and 67% reductions in CHG skin-surface concentrations were observed in non-EAS groups A2 and B2 compared with EAS study groups. Analysis of returned (unused) CHG (mL) suggests that a wide variation in volume of biocide was used per shower in all groups. CONCLUSIONS The findings suggest that EAS was effective in enhancing patient compliance with a preadmission showering protocol, resulting in a significant (p < 0.007) increase in skin-surface concentrations of CHG compared with non-EAS controls. However, variation in amount of unused 4% CHG suggests that rigorous standardization is required to maximize the benefits of this patient-centric interventional strategy.

Preadmission Application of 2% Chlorhexidine Gluconate (CHG): Enhancing Patient Compliance While Maximizing Skin Surface Concentrations.

OBJECTIVE Surgical site infections (SSIs) are responsible for significant morbidity and mortality. Preadmission skin antisepsis, while controversial, has gained acceptance as a strategy for reducing the risk of SSI. In this study, we analyze the benefit of an electronic alert system for enhancing compliance to preadmission application of 2% chlorhexidine gluconate (CHG). DESIGN, SETTING, AND PARTICIPANTS Following informed consent, 100 healthy volunteers in an academic, tertiary care medical center were randomized to 5 chlorhexidine gluconate (CHG) skin application groups: 1, 2, 3, 4, or 5 consecutive applications. Participants were further randomized into 2 subgroups: with or without electronic alert. Skin surface concentrations of CHG (μg/mL) were analyzed using a colorimetric assay at 5 separate anatomic sites. INTERVENTION Preadmission application of chlorhexidine gluconate, 2% RESULTS Mean composite skin surface CHG concentrations in volunteer participants receiving EA following 1, 2, 3, 4, and 5 applications were 1,040.5, 1,334.4, 1,278.2, 1,643.9, and 1,803.1 µg/mL, respectively, while composite skin surface concentrations in the no-EA group were 913.8, 1,240.0, 1,249.8, 1,194.4, and 1,364.2 µg/mL, respectively (ANOVA, P<.001). Composite ratios (CHG concentration/minimum inhibitory concentration required to inhibit the growth of 90% of organisms [MIC90]) for 1, 2, 3, 4, or 5 applications using the 2% CHG cloth were 208.1, 266.8, 255.6, 328.8, and 360.6, respectively, representing CHG skin concentrations effective against staphylococcal surgical pathogens. The use of an electronic alert system resulted in significant increase in skin concentrations of CHG in the 4- and 5-application groups (P<.04 and P<.007, respectively). CONCLUSION The findings of this study suggest an evidence-based standardized process that includes use of an Internet-based electronic alert system to improve patient compliance while maximizing skin surface concentrations effective against MRSA and other staphylococcal surgical pathogens.

Assessment of an innovative antimicrobial surface disinfectant in the operating room environment using adenosine triphosphate bioluminescence assay

Terminal cleaning in the operating room is a critical step in preventing the transmission of health care-associated pathogens. The persistent disinfectant activity of a novel isopropyl alcohol/organofunctional silane solution (ISO) was evaluated in 4 operating rooms after terminal cleaning. Adenosine triphosphate bioluminescence documented a significant difference (P < .048) in surface bioburden on IOS-treated surfaces versus controls. RODAC plate cultures revealed a significant (P < .001) reduction in microbial contamination on IOS-treated surfaces compared with controls. Further studies are warranted to validate the persistent disinfectant activity of ISO within selective health care settings.

Abdominal Aortic Aneurysm Associated with Congenital Solitary Pelvic Kidney Treated with Novel Hybrid Technique

Renal ectopia in the rare condition of associated abdominal aortic aneurysm presents a difficult clinical challenge with respect to access to the aorto-iliac segment and preservation of renal function because of its anomalous renal arterial anatomy and inevitable renal ischemia at the time of open repair. Multiple operative techniques are described throughout the literature to cope with both problems. We report a case of a 57-year-old male with an aorto-iliac aneurysm and a congenital solitary pelvic kidney successfully treated by hybrid total renal revascularization using iliorenal bypass followed by unilateral internal iliac artery coil embolization and conventional endovascular aortic aneurysm repair without any clinical evidence of renal impairment.

Proper hepatic artery reconstruction with gastroduodenal artery transposition during pancreaticoduodenectomy.

INTRODUCTION Vascular injuries to hepatic arterial blood flow present a challenge in reconstruction. The location and extent of the injury dictate intraoperative decision making, with repair being performed expeditiously to preserve hepatic function. Formal arterial repair either primarily or with interposition or transposition grafts is indicated in the majority of patients. Special consideration should be made in patients with underlying liver disease and those undergoing biliary reconstructions. This latter group of patients is at high risk of complications following the injury secondary to bile duct ischemia. METHODS A case of proper hepatic artery (PHA) transection repaired with gastroduodenal artery (GDA) transposition is presented with a relevant review of limited literature available on the subject. RESULTS During an elective pancreaticoduodenectomy the PHA was inadvertently transected just distal to the origin of the GDA. As the GDA had not been transected at this stage of the operation, it was available for transposition. This was performed, restoring arterial blood flow to the liver and the bile duct. The patient did well postoperatively with no evidence of biliary or pancreatic leak or hepatic dysfunction at both discharge and follow-up clinic visit. CONCLUSION Injuries to hepatic artery injury are uncommon in experienced hands. This case report is only the second instance of such injury requiring reconstruction in 434 cases of single operator experience pancreaticoduodenectomies. We present arterial transposition of GDA as a feasible method to ensure adequate arterial supply to the hepatobiliary system.

Disseminated Mycotic Aneurysms following Intravesical Bacillus Calmette–Guérin Therapy for Bladder Cancer: Case Discussion and Systematic Treatment Algorithm

Numerous case reports have highlighted the relationship between bacillus Calmette-Guérin (BCG) therapy and development of systemic mycotic aneurysms but none have established a management algorithm in patients with suspected vascular dissemination of Mycobacterium bovis. Delay in diagnosis of this disease process will lead to delays in initiation of antimycobacterium treatment to prevent dissemination into other arterial beds and potentially complicate effective surgical treatment leading to aneurysmal rupture and other devastating vascular consequences. Given the increasing number of reported cases in the literature and the ongoing, standard of care utilization of BCG for bladder cancer, we believe that a systematic approach to the management of patients with suspected BCG-related mycotic aneurysms should be set in place to prevent misdiagnosis and delays in treatment. In this report, we discuss the presentation, work-up, and report our treatment algorithm of a patient who developed diffuse peripheral mycotic aneurysms following BCG therapy for bladder cancer.

Aortic Endograft Infection by Pasteurella multocida: A Rare Case.

Infection of an aortic endograft is a rare complication following endovascular aneurysm repair. These patients have been treated with explantation of the graft to obtain source control followed by an extra-anatomic bypass to restore circulation. The present case study describes an interesting case of Pasteurella infection involving an aortic endograft managed nonoperatively by percutaneous drainage and graft preservation.

Aortic Graft Infection Secondary to Iatrogenic Transcolonic Graft Malposition

Context: Aortic graft infections are a rare but devastating complication of aortic revascularization. Often infections occur due to contamination at the time of surgery. Iatrogenic misplacement of the limbs of an aortobifemoral graft is exceedingly rare, and principles of evaluation and treatment are not well defined. We report two cases of aortobifemoral bypass graft malposition through the colon. Case report: Case 1 is a 54 year old male who underwent aortobifemoral bypass grafting for acute limb ischemia. He had previously undergone a partial sigmoid colectomy for diverticulitis. Approximately six months after vascular surgery, he presented with an occult graft infection. Preoperative imaging and intraoperative findings were consistent with graft placement through the sigmoid colon. Case 2 is a 60 year old male who underwent aorto bifemoral bypass grafting due to a nonhealing wound after toe amputation. His postoperative course was complicated by pneumonia, bacteremia thought to be secondary to the pneumonia, general malaise, and persistent fevers. Approximately ten weeks after the vascular surgery, he presented with imaging and intraoperative findings of graft malposition through the cecum. Conclusions: Aortic graft infection is usually caused by surgical contamination, and presents as an indolent infection. Case 1 presented as such; Case 2 presented more acutely. Both grafts were iatrogenically misplaced through the colon at the index operation. The patients underwent extra-anatomic bypass and graft explantation and subsequently recovered.

Infrarenal Abdominal Aortic Aneurysm: Acute Treatment of Rupture

The feasibility and efficacy of elective endovascular abdominal aortic aneurysm (AAA) repair are well established. Endovascular aneurysm repair (EVAR) of ruptured abdominal aortic aneurysm (rAAA) is being performed with increasing frequency. Early international experiences enhanced the understanding of optimal intervention and aided in recognition and management of endovascular-related complications such as abdominal compartment syndrome, which contributes to early postoperative morbidity and mortality. The advantages of endovascular over open repair are more profound in the setting of aneurysm rupture, where the morbidity and mortality of open repair remains quite high. Endovascular repair of rAAAs offers multiple advantages such as decreased blood loss, minimization of fluid shifts, reduction of hypothermia, and decreased anesthetic requirements. This is especially true with the use of management algorithms that include hypotensive hemostasis, supraceliac balloon occlusion, streamlined preoperative imaging, and improved logistics in emergent endograft utilization. This chapter aims to demonstrate the use of endovascular repair in the setting of rAAA, including technical strategies for addressing challenging access anatomy.