Eric R. Simms

Bilateral anterior thoracotomy (clamshell incision) is the ideal emergency thoracotomy incision: an anatomic study.

BackgroundEmergency thoracotomy (ET) is a procedure that provides rapid access to intrathoracic structures for thoracic trauma patients arriving at the hospital in extremis. This study assesses the accessibility of intrathoracic structures provided by six different ET incisions. We hypothesize that the bilateral anterior thoracotomy (“clamshell” incision) provides the most rapid and definitive accessibility to intrathoracic structures.MethodsSix ET incision types (left anterolateral thoracotomy, right anterolateral thoracotomy, left 2nd intercostal space incision, left 3rd intercostal space incision, median sternotomy, and bilateral anterior thoracotomy) were performed multiple times on eight cadavers. The critical intrathoracic structures were assessed for rapid accessibility and control, and they were characterized as “readily accessible,” “accessible,” and “inaccessible” on anatomic accessibility maps.ResultsMedian sternotomy provided better access to intrathoracic structures than left and right anterior thoracotomies. Definitive control of the origin of the left subclavian artery was difficult with left 2nd or 3rd intercostal space incisions. Bilateral anterior thoracotomy, the clamshell incision, was easy to perform and gave superior access to all intrathoracic structures.ConclusionsIn severe thoracic trauma, specific injuries are unknown, even if they can be anticipated. The best incision is therefore one that provides the most rapid and definitive access to all thoracic structures for assessment and control. While the right and left anterolateral incisions may be successfully employed by surgeons with extensive experience in ET, the clamshell incision remains the superior incision choice.Level of Evidence IIObservational study.

Supraclavicular artery island flap innervation: Anatomical studies and clinical implications

BACKGROUND Recently, the supraclavicular artery island flap has gained popularity as a regional flap for head and neck reconstruction. During clinical follow-up, some patients report referred sensation to the shoulder when there is contact with the flap skin island surface. The authors examine the anatomical origin/characteristics of the supraclavicular nerves (C3-4) to this flap and its relationship to the flap pedicle and anatomical boundaries. METHODS SAI flap harvest and nerve dissection was performed in seven fresh frozen cadavers (n = 10) using loupe magnification in order to further elucidate the sensory nerve branches in a typical SAI flap. RESULTS Branches of the supraclavicular nerve innervating the SAI flap were found to emerge from the deep fascia at a separate location from the vascular pedicle with the major nerve root exiting underneath the sternocleidomastoid muscle near the midpoint of the muscle belly. The nerve branches proximal to the pedicle with one branch exiting anterior to the flap and another running axially along the length of the flap. The majority (9/10) flaps had a major cutaneous nerves located 1-2 cm anterior to the pedicle. One (1/10) of the flaps had a major cutaneous nerve located 1-2 cm posterior to the pedicle toward the trapezius muscle. In 3 of the 10 flaps, smaller cutaneous nerves were also found posterior to the pedicle in a more distal location of the flap. CONCLUSIONS The supraclavicular nerves innervating the SAI flap are easily identifiable and can be preserved or ligated, depending on the desired flap function, when present close to the pedicle. Further clinical investigation is warranted to confirm the potential benefit of using the SAI flap as a neurotized regional flap for head/neck reconstruction.

Using simulation to improve root cause analysis of adverse surgical outcomes

OBJECTIVE The purpose of this study was to develop and test a simulation method of conducting investigation of the causality of adverse surgical outcomes. DESIGN Six hundred and thirty-one closed claims of a major medical malpractice insurance company were reviewed. Each case had undergone conventional root cause analysis (RCA). Claims were categorized by comparing the predominant underlying cause documented in the case files. Three cases were selected for simulation. SETTING All records (medical and legal) were analyzed. Simulation scenarios were developed by abstracting data from the records and then developing paper and electronic medical records, choosing appropriate STUDY PARTICIPANTS including test subjects and confederates, scripting the simulation and choosing the appropriate simulated environment. INTERVENTION In a simulation center, each case simulation was run 6-7 times and recorded, with participants debriefed at the conclusion. MAIN OUTCOME MEASURES Sources of error identified during simulation were compared with those noted in the closed claims. Test subject decision-making was assessed qualitatively. RESULTS Simulation of adverse outcomes (SAOs) identified more system errors and revealed the way complex decisions were made by test subjects. Compared with conventional RCA, SAO identified root causes less focused on errors by individuals and more on systems-based error. CONCLUSIONS The use of simulation for investigation of adverse surgical outcomes is feasible and identifies causes that may be more amenable to effective systems changes than conventional RCA. The information that SAO provides may facilitate the implementation of corrective measures, decreasing the risk of recurrence and improving patient safety.

Initial assessment on the impact of crystalloids versus colloids during damage control resuscitation.

BACKGROUND High ratios of fresh frozen plasma:packed red blood cells in damage control resuscitation (DCR) are associated with increased survival. The impact of volume and type of resuscitative fluid used during high ratio transfusion has not been analyzed. We hypothesize a difference in outcomes based on the type and quantity of resuscitative fluid used in patients that received high ratio DCR. METHODS A matched case control study of patients who received transfusions of ≥ four units of PRBC during damage control surgery over 4 1/2 y, was conducted at a Level I Trauma Center. All patients received a high ratio DCR, >1:2 of fresh frozen plasma:packed red blood cells. Demographics and outcomes of the type and quantity of resuscitative fluids used in combination with high ratio DCR were compared and analyzed. A Kaplan-Meier survival analysis was computed among four groups: colloid (median quantity = 1.0 L), <3 L crystalloid, 3-6 L crystalloid, and >6 L crystalloid. RESULTS There were 56 patients included in the analysis (28 in the crystalloid group and 28 in the colloid group). Demographics were statistically similar. Intraoperative median units of PRBC: crystalloid versus colloid groups was 13 (IQR 8-21) versus 16 (IQR 12-19), P = 0.135; median units of FFP: 12 (IQR 7-18) versus 12 (IQR 10-18), P = 0.440. OR for 10-d mortality in the crystalloid group was 8.41 [95% CI 1.65-42.76 (P = 0.01)]. Kaplan-Meier survival analysis demonstrated lowest mortality in the colloid group and higher mortality with increasing amounts of crystalloid (P = 0.029). CONCLUSIONS During high ratio DCR, resuscitation with higher volumes of crystalloids was associated with an overall decreased survival, whereas low volumes of colloid use were associated with increased survival. In order to improve outcomes without diluting the survival benefit of hemostatic resuscitation, guidelines should focus on effective low volume resuscitation when high ratio DCR is used. A multi-institutional analysis is needed in order to validate these results.

Complications of liver resection: laparoscopic versus open procedures.

Complications appear to be lower in laparoscopic cases versus open cases for anterolateral and posterosuperior hepatic segment surgery.

Impact of inverse ratios on patients with exsanguinating vascular injuries: should more be the new paradigm?

BACKGROUND Resuscitation strategies in patients with severe hemorrhage have evolved throughout the years. Optimal resuscitation ratios for civilian exsanguinating vascular injuries has not been determined. We hypothesize improved outcomes in patients with exsanguinating vascular injuries when an aggressive hemostatic resuscitation is used with an inverse ratio of fresh frozen plasma (FFP) to packed red blood cell (PRBC). METHODS This is a 5-year retrospective analysis of vascular injuries requiring hemostatic resuscitation. Resuscitation groups by ratios of FFP/PRBC were inverse (>1:1), high (1–1:2), and low (<1:2). Patients with 10 or greater units of PRBC (massively transfused patients) were evaluated in each of the resuscitation groups. Demographics and complications throughout hospital length of stay and were compared between the resuscitation groups. Survivability Kaplan-Meier curves were generated at 6 hours and 5 days. RESULTS A total of 258 patients with vascular injuries required component therapy resuscitation (low, n = 78; high, n = 156; inverse, n = 24). Massively transfused patients (n = 162, 62.7%) showed a significant Kaplan-Meier survivability difference at 6 hours (low, 65.0% vs. high, 75.0% vs. inverse, 100%, p = 0.024) and at 5 days (low, 52.5% vs. high, 62.0% vs. inverse, 100%, p = 0.008). Moreover, for massively transfused patients with extremity vascular injuries (n = 65, 39%), a relationship between resuscitation ratio and amputations was significant (low vs. high vs. inverse was 36.8% vs. 12.8% vs. 0%, respectively; p = 0.033). CONCLUSION This is the first study that highlights the potential outcomes benefits of an inverse ratio of FFP-PRBC in patients with exsanguinating vascular injuries. Multi-institutional prospective analysis is needed to potentially elucidate the cytoprotective effect of FFP to validate these results. LEVEL OF EVIDENCE Therapeutic study, level IV; diagnostic study, level III.

Effectiveness of systems changes suggested by simulation of adverse surgical outcomes

Background Simulation of adverse outcomes (SAO) has been described as a technique to improve effectiveness of root cause analysis (RCA) in healthcare. We hypothesise that SAO can effectively identify unsuspected root causes amenable to systems changes. Methods Systems changes were developed and tested for effectiveness in a modified simulation, which was performed eight times, recorded and analysed. Results In seven of eight simulations, systems changes were effectively utilised by participants, who contacted anaesthesia using the number list and telephone provided to express concern. In six of seven simulations where anaesthesia was contacted, they provided care that avoided the adverse event. In two simulations, the adverse event transpired despite implemented systems changes, but for different reasons than originally identified. In one case, appropriate personnel were contacted but did not provide the direction necessary to avoid the adverse event, and in one case, the telephone malfunctioned. Conclusions Systems changes suggested by SAO can effectively correct deficiencies and help improve outcomes, although adverse events can occur despite implementation. Further study of systems concepts may provide suggestions for changes that function more reliably in complex healthcare systems. The information gathered from these simulations can be used to identify potential deficiencies, prevent future errors and improve patient safety.

Impact of Infusion Rates of Fresh Frozen Plasma and Platelets During the First 180 Minutes of Resuscitation

BACKGROUND Whether high-ratio resuscitation (HRR) provides patients with survival advantage remains controversial. We hypothesized a direct correlation between HRR infusion rates in the first 180 minutes of resuscitation and survival. STUDY DESIGN This was a retrospective analysis of massively transfused trauma patients surviving more than 30 minutes and undergoing surgery at a level 1 trauma center. Mean infusion rates (MIR) of packed red blood cells (PRBC), fresh frozen plasma (FFP), and platelets (Plt) were calculated for length of intervention (emergency department [ED] time + operating room [OR] time). Patients were categorized as HRR (FFP:PRBC > 0.7, and/or Plts: PRBC > 0.7) vs low-ratio resuscitation (LRR). Students t-tests and chi-square tests were used to compare survivors with nonsurvivors. Cox proportional hazards regression models and Kaplan-Meier curves were generated to evaluate the association between MIR for FFP:PRBC and Plt:PRBC and 180-minute survival. RESULTS There were 151 patients who met criteria: 121 (80.1%) patients survived 180 minutes (MIR:PRBC 71.9 mL/min, FFP 92.0 mL/min, Plt 3.5 mL/min) vs 30 (19.9%) who did not survive (MIR:PRBC 47.3 mL/min, FFP 33.7 mL/min, Plt 1.1 mL/min), p = 0.43, p < 0.0001 and p < 0.011, respectively. A Cox regression model evaluated PRBC rate, FFP rate, and Plt rate (mL/min) as mortality predictors within 180 minutes to assess if they significantly affected survival (hazard ratios 1.01 [p = 0.054], 0.97 [p < 0.0001], and 0.75 [p = 0.01], respectively). Another model used stepwise Cox regression including PRBC rate, FFP rate, and Plt rate (hazard ratios 1.00 [p = 0.85], 0.97 [p < 0.0001], and 0.88 [p = 0.24], respectively), as well as possible confounding variables. CONCLUSIONS This is the first study to examine effects of MIRs on survival. Further studies on the effects of narrow time-interval analysis for blood product resuscitation are warranted.