David Feller-Kopman

Pneumothorax Following Thoracentesis: A Systematic Review and Meta-analysis

BACKGROUNDnLittle is known about the factors related to the development of pneumothorax following thoracentesis. We aimed to determine the mean pneumothorax rate following thoracentesis and to identify risk factors for pneumothorax through a systematic review and meta-analysis.nnnMETHODSnWe reviewed MEDLINE-indexed studies from January 1, 1966, through April 1, 2009, and included studies of any design with at least 10 patients that reported the pneumothorax rate following thoracentesis. Two investigators independently extracted data on the pneumothorax rate, risk factors for pneumothorax, and study methodological quality.nnnRESULTSnTwenty-four studies reported pneumothorax rates following 6605 thoracenteses. The overall pneumothorax rate was 6.0% (95% confidence interval [CI], 4.6%-7.8%), and 34.1% of pneumothoraces required chest tube insertion. Ultrasonography use was associated with significantly lower risk of pneumothorax (odds ratio [OR], 0.3; 95% CI, 0.2-0.7). Lower pneumothorax rates were observed with experienced operators (3.9% vs 8.5%, P = .04), but this was nonsignificant within studies directly comparing this factor (OR, 0.7; 95% CI, 0.2-2.3). Pneumothorax was more likely following therapeutic thoracentesis (OR, 2.6; 95% CI, 1.8-3.8), in conjunction with periprocedural symptoms (OR, 26.6; 95% CI, 2.7-262.5), and in association with, although nonsignificantly, mechanical ventilation (OR, 4.0; 95% CI, 0.95-16.8). Two or more needle passes conferred a nonsignificant increased risk of pneumothorax (OR, 2.5; 95% CI, 0.3-20.1).nnnCONCLUSIONSnIatrogenic pneumothorax is a common complication of thoracentesis and frequently requires chest tube insertion. Real-time ultrasonography use is a modifiable factor that reduces the pneumothorax rate. Performance of thoracentesis for therapeutic purposes and in patients undergoing mechanical ventilation confers a higher likelihood of pneumothorax. Experienced operators may have lower pneumothorax rates. Patient safety may be improved by changes in clinical practice in accord with these findings.

Electromagnetic Navigation Bronchoscopy-Guided Fiducial Placement for Robotic Stereotactic Radiosurgery of Lung Tumors: A Feasibility Study

BACKGROUNDnStereotactic radiosurgery (Cyberknife; Accuray Incorporated; Sunnyvale, CA) is a treatment option for patients who are medically unfit to undergo lung tumor resection. For precise tumor ablation, the Cyberknife requires fiducial marker placement in or near the target tumor. Fiducial placement under transthoracic CT guidance is associated with a high risk of iatrogenic pneumothorax. Electromagnetic navigation bronchoscopy (ENB) may offer a less morbid alternative to accurately deploy fiducials to bronchoscopically invisible peripheral lung lesions.nnnOBJECTIVEnOpen-label, feasibility study to assess fiducial placement in peripheral lung tumors by ENB.nnnMETHODnConsecutive patients with peripheral lung tumors and who were evaluated to be nonsurgical candidates underwent fiducial placement under ENB. This procedure was considered successful if fiducials were placed in or near the tumors and remained in place without migration for radiosurgery to proceed. The need for alternative or additional intrathoracic fiducial placement was documented as procedure failure.nnnRESULTSnA total of 39 fiducials markers were successfully deployed in eight of nine patients (89%). Of these eight successful cases, seven had fiducials placed directly within the tumor (88%). At Cyberknife planning, 7 to 10 days after fiducial placement, 35 of 39 fiducial markers (90%) were still in place and were adequate to allow radiosurgery to proceed. No immediate bronchoscopic complications were observed. One patient had a COPD exacerbation. Another patient returned within 1 day with transient, self-limiting fever.nnnCONCLUSIONSnENB can be used to deploy fiducial markers for Cyberknife radiosurgery of lung tumors safely and accurately without the complications associated with transthoracic placement.

Tracheobronchomalacia: Evolving role of dynamic multislice helical CT

Paired inspiratory and dynamic expiratory multislice CT imaging is a promising method for diagnosing TBM. A low-dose technique should be considered for the dynamic portion to reduce radiation exposure. Visual and quantitative analysis of the central airways provide a comprehensive assessment by allowing for the accurate diagnosis of TBM, determining its extent, assessing for predisposing conditions, and aiding selection of candidates for stent placement or tracheoplasty procedures. This technique can also be helpful for assessing response of airway dynamics following therapeutic intervention.

Comparison of Dynamic Expiratory CT With Bronchoscopy for Diagnosing Airway Malacia: A Pilot Evaluation

OBJECTIVEnTo assess the accuracy of dynamic expiratory CT for detecting airway malacia using bronchoscopy as the diagnostic gold standard.nnnMATERIALS AND METHODSnA computerized hospital information system was used to retrospectively identify all patients with bronchoscopically proven airway malacia referred for CT airway imaging at our institution during a 19-month period. CT was performed within 1 week of bronchoscopy. All patients were scanned with a standard protocol, including end-inspiratory and dynamic expiratory volumetric imaging, using an eight-detector multislice helical CT scanner. For both CT and bronchoscopy, malacia was defined as >/= 50% expiratory reduction of the airway lumen. CT and bronchoscopic findings were subsequently jointly reviewed by the radiologist and bronchoscopist for concordance.nnnRESULTSnTwenty-nine patients (12 men and 17 women; mean age, 60 years; range, 36 to 79 years) comprised the study cohort. CT correctly diagnosed malacia in 28 of 29 patients (97%). The most common presenting symptoms were dyspnea in 20 patients (69%), severe or persistent cough in 16 patients (55%), and recurrent infection in 7 patients (24%). The estimated radiation dose (expressed as dose-length product) for the dual-phase study is 508 mGy-cm, which is comparable to a routine chest CT.nnnCONCLUSIONnDynamic expiratory CT is a highly sensitive method for detecting airway malacia and has the potential to serve as an effective, noninvasive test for diagnosing this condition.

Dynamic expiratory volumetric CT imaging of the central airways: Comparison of standard-dose and low-dose techniques

RATIONALE AND OBJECTIVESnInvestigators in this study compared standard-dose and low-dose inspiratory and expiratory computed tomographic (CT) images with regard to their usefulness for measuring the tracheal lumen in patients with or without tracheobronchomalacia (TBM). MATERIALS AND METHODS; Hospital records were reviewed to identify 10 consecutive patients with bronchoscopically proved TBM and 10 control subjects without TBM who underwent paired volumetric inspiratory and dynamic expiratory examinations with multisection CT. A low-dose (40-80 mA) technique was used for dynamic expiratory CT in 14 (70%) of the 20 subjects, and a standard dose (240-280 mA) was used in the remaining six (30%). All images were reviewed in a randomized, blinded fashion by two observers, who measured the tracheal lumen to determine the presence of TBM by consensus. The degree of confidence in measuring the tracheal lumen was graded on a four-point scale from 0(no confidence) to 3 (highest level of confidence), also by consensus of the two observers. Statistical analysis for differences in confidence level was performed with the Mann-Whitney U test. The image noise level was assessed by measuring the standard deviation of the presternal soft tissue, and statistical analysis for differences in noise level was performed with the t test.nnnRESULTSnThe level of confidence in tracheal lumen measurement was high, regardless of respiratory phase and dose (inspiratory mean, 2.9; median, 3; range, 2-3; expiratory low-dose mean, 2.6; median, 3; range, 2-3; expiratory standard-dose mean, 2.8; median, 3; range, 2-3). There was no significant difference in confidence level between standard- and low-dose techniques (P = .53). Excessive central airway collapse (expiratory reduction in cross-sectional diameter, > 50%) was seen in all 10 patients with TBM and in none of the control subjects.nnnCONCLUSIONnThe acquisition of paired inspiratory and dynamic expiratory images with multisection helical CT is a promising method for diagnosing TBM. The low-dose technique performs as well as the standard-dose technique for the dynamic expiratory phase, with a similar degree of confidence for measuring the tracheal lumen.

Tracheobronchoplasty for Severe Tracheobronchomalacia: A Prospective Outcome Analysis

RATIONALEnCentral airway stabilization with silicone stents can improve respiratory symptoms in patients with severe symptomatic tracheobronchomalacia (TBM) but is associated with a relatively high rate of complications. Surgery with posterior tracheobronchial splinting using a polypropylene mesh has also been used for this condition but to date has not been evaluated prospectively and objectively for patient outcomes.nnnOBJECTIVESnTo evaluate the effect of surgical tracheobronchoplasty on symptoms, functional status, quality of life, lung function, and exercise capacity in patients with severe and symptomatic TBM.nnnMETHODSnA prospective observational study in which baseline measurements were compared to those obtained 3 months after surgical tracheobronchoplasty.nnnMEASUREMENTS AND MAIN RESULTSnOf 104 referred patients to our complex airway center for severe TBM, 77 had baseline measurements. Of this group, 57 patients had severe malacia and underwent stent placement for central airway stabilization. Of those, 37 patients reported improvement in respiratory symptoms and 35 were considered for surgical tracheobronchoplasty. Two patients were excluded from surgery for medical reasons. Median age was 61 years (range, 39 to 83 years), 20 patients were men, 11 patients (31%) had COPD, 9 patients (26%) had asthma, and 4 patients (11%) had Mounier-Kuhn syndrome. Thirty-three patients (94%) presented with severe dyspnea, 26 patients (74%) with uncontrollable cough, and 18 patients (51%) reported recurrent pulmonary infections. Two patients (3%) presented with respiratory failure requiring mechanical ventilation. After surgery, quality of life scores improved in 25 of 31 patients (p < 0.0001), dyspnea scores improved in 19 of 26 patients (p = 0.007), functional status scores improved in 20 of 31 patients (p = 0.003), and mean exercise capacity improved in 10 patients (p = 0.012).nnnCONCLUSIONSnIn experienced hands, surgical central airway stabilization with posterior tracheobronchial splinting using a polypropylene mesh improves respiratory symptoms, health-related quality of life, and functional status in highly selected patients with severe symptomatic TBM.

Creation of an innovative inpatient medical procedure service and a method to evaluate house staff competency

INTRODUCTION: Training residents in medical procedures is an area of growing interest. Studies demonstrate that internal medicine residents are inadequately trained to perform common medical procedures, and program directors report residents do not master these essential skills. The American Board of Internal Medicine requires substantiation of competence in procedure skills for all internal medicine residents; however, for most procedures, standards of competence do not exist.OBJECTIVE: 1) Create a new and standardized approach to teaching, performing, and evaluating inpatient medical procedures; 2) Determine the number of procedures required until trainees develop competence, by assessing both clinical knowledge and psychomotor skills; 3) Improve patient safety.DESIGN: A Medical Procedure Service (MPS), consisting of select faculty who are experts at common impatient procedures, was established to supervise residents performing medical procedures. Faculty monitor residents’ psychomotor performance, while clinical knowledge is taught through a complementary, comprehensive curriculum. After the completion of each procedure, the trainee and supervising faculty member independently complete online questionnaires.RESULTS: During this pilot program, 246 procedures were supervised, with a pooled major complication rate of 3.7%. 123 thoracenteses were supervised, with a pneumothorax rate of 3.3%; this compares favorably with a pooled analysis of the literature. 87% of surveyed house staff felt the procedure service helped in their education of medical procedures.CONCLUSIONS: The “see one, do one, teach one” model of procedure education is dangerously inadequate. Through the development of a Medical Procedure Service, and an associated procedure curriculum and a mechanism of evaluation, we hope to reduce the rate of complications and errors related to medical procedures and to determine at what point competency is achieved for these procedures.

Reducing Maintenance and Repair Costs in an Interventional Pulmonology Program

BACKGROUNDnIn the current economic climate, hospitals and academic institutions demand that medical departments function in an efficient and cost-effective manner. Detailed business plans are necessary to build new clinical programs, and institutions have learned that new programs are associated with significant costs for purchasing and maintaining equipment. We report our experience with repairs to equipment before and after starting our interventional pulmonary (IP) program, and with the effect of an educational program on reducing these costs.nnnMETHODSnWe retrospectively studied the costs of equipment repair in the 3 years preceding and in the 5 years following the development of an IP program in our institution, a university-based tertiary referral center. We also studied the effect of an educational program that was designed to enhance the skills of physicians and technical staff in handling the equipment.nnnRESULTSnThe cost of repairs to the equipment during the 3 years prior to the development of the IP program was

Acute complications of artificial airways

42 (US dollars) per procedure. In the initial 3 years following the start of the IP program, the yearly average cost rose 21% to

Expiratory Abdominal Rounding in Acute Dyspnea Suggests Congestive Heart Failure

51 per procedure. After the introduction of the educational program, the yearly repair costs decreased by 84% to