Preoperative Forced Vital Capacity Research Articles

A thoracoscopic anterior approach to the spine for adolescent idiopathic scoliosis does not have a detrimental effect on pulmonary function at 2years compared to posterior-only surgery.

This study aims to examine pulmonary function outcomes in patients with adolescent idiopathic scoliosis (AIS) undergoing posterior spinal fusion (PSF) with an anterior thoracoscopic release compared to those undergoing PSF alone. A retrospective review of patients with AIS over a 9-year period at a single institution compared 2 groups: PSF with video-assisted thoracoscopic surgery (PSF/VATS) and patients undergoing a posterior spinal fusion (PSF) alone. Standard radiographs and Forced Expiratory Volume (FEV1) and Forced Vital Capacity (FVC) were obtained preoperatively and at regular follow up periods up to 2-year post-operatively. Within group and between-group comparisons were performed. There were 110 patients in the study: 12 in the PSF/VATS cohort and 98 in the PSF only cohort. The PSF/VATS group were younger (12.6 vs. 14.6, p = 0.003) and had larger coronal curves (80.8° vs. 60.7°, p = 0.001), and worse preoperative FVC (64.7% vs. 79.6%, p = 0.018) and FEV1 (62.3% vs. 77.6%, p = 0.003). At 2years, the percent coronal Cobb correction was greater in the PSF/VATS group (67.9% vs. 48.4%, p < 0.001) with greater improvement in thoracic height (32.8mm vs. 20.7mm, p = 0.028). While the 2-year PFTs were the same for FEV1% (75.8% vs. 81.8%, p = 0.368) and FVC% (77.3% vs. 83.7%, p = 0.562), there was greater percent improvement over the 2years in the PSF/VATS cohort: FEV1% (13.5% vs. 4.2%, p = 0.082) and FVC% (12.7% vs. 4.1%, p = 0.112). AIS patients who have a VATS approach in addition to PSF have greater coronal plane correction and improved pulmonary function compared to PSF alone despite more severe spinal deformity and worse baseline pulmonary function.

Incentive Spirometry and Deep Breathing Exercise for Improving Respiratory Volume in Preoperative Spine Surgery Patients

Objective: To investigate the effects of incentive spirometry and deep breathing exercises on forced vital capacity (FVC) and chest expansion in preoperative spine surgery patients. Material &amp; Methods: Fifty-eight patients who were scheduled for spine surgery were recruited from December 2016 to January 2019. Twenty-eight and 30 patients were scheduled for cervical and thoracic/lumbar spine surgery, respectively. All patients were informed of the study protocol, evaluated by a physical therapist, and provided with respiratory training via incentive spirometry and deep breathing exercises. FVC and chest expansion were measured and recorded prior to training, as well as two weeks and four weeks after respiratory training. Results: In preoperative spine patients, FVC and chest expansion were significantly increased (p&lt;0.05) after respiratory training with incentive spirometry and deep breathing exercises. The FVC in a seated position prior to respiratory training, after 2 weeks of training, and after 4 weeks of training is 2,277.9±599, 2,446.6±614.2, and 2,546.5±591.7 milliliters, respectively. The FVC in the supine position prior to respiratory training, after 2 weeks of training, and after 4 weeks of training is 2,080.2±589, 2,268.3±604.3, and 2,365.9±596.1 milliliters, respectively. Chest expansion in a seated position before respiratory training, after 2-week training, and after 4-week training is 4.2±1.3, 4.6±1.2 and 4.7±1.3 centimeters. Chest expansion in supine position before respiratory training, after 2-week training, and after 4-week training is 3.9±1.2, 4.5±1.3 and 4.5±1.2 centimeters respectively. Conclusion: Preoperative respiratory training for 2 weeks and 4 weeks using incentive spirometry and conventional deep breathing exercises significantly increased both FVC and chest expansion in patients undergoing spine surgery.

Intercostal Nerve Cryoablation in Minimally Invasive Repair of Pectus Excavatum: Effect on Pulmonary Function.

Introduction: Cryoablation of intercostal nerves is performed for pain control after minimally invasive repair of pectus excavatum (MIRPE). Cryoablation affects both sensory and motor neurons, resulting in temporary anesthesia to the chest wall and loss of intercostal motor function. The study objective is to determine the effect of cryoablation on incentive spirometry (IS) volumes, as a measure of pulmonary function, after MIRPE. Materials and Methods: A single-institution retrospective review of pediatric patients undergoing MIRPE was performed. All patients received a multimodal regimen (MMR) of analgesics postoperatively. Three groups were compared-cryoablation (CRYO), elastomeric pain pump (EPP), and MMR alone. The primary outcomes were postoperative IS volumes and IS volumes as a ratio of preoperative forced vital capacity (FVC). Secondary outcomes included pain scores, opioid use, length of stay (LOS), and infectious complications. Results: MIRPE was performed in 115 patients: 50 CRYO, 50 EPP, and 15 MMR alone. Groups were similar for demographics and pectus excavatum severity. Postoperative spirometry measurements were similar across groups: IS (CRYO 750 mL [500,961] versus EPP 750 mL [590,1019] versus MMR 696 mL [500,1037], P = .77); IS/FVC (CRYO 0.19 [0.14,0.26] versus EPP 0.20 [0.16,0.26] versus MMR 0.16 [0.15,0.24], P = .69). Although pain scores were also similar across groups, CRYO patients used less opioid (P < .05) and had shorter LOS (P < .05). Postoperative pneumonia was rare and similar across groups (P = 1.00). Conclusion: Intercostal nerve cryoablation during MIRPE does not adversely affect postoperative IS volumes or increase pneumonia rate, despite the temporary loss of motor innervation to intercostal muscles. Cryoablation provides effective pain control with less opioid use.

Changes in lung aeration and respiratory function after open abdominal surgery: A quantitative magnetic resonance imaging study.

Atelectasis is one of the most common respiratory complications in patients undergoing open abdominal surgery. Peripheral oxygen saturation (SpO2 ) and forced vital capacity (FVC) are bedside indicators of postoperative respiratory dysfunction. The aim of this study was to describe the changes in lung aeration, using quantitative analysis of magnetic resonance imaging (MRI) and the diagnostic accuracy of SpO2 and FVC to detect postoperative atelectasis. Post-hoc analysis of a randomized trial conducted at a University Hospital in Dresden, Germany. Patients undergoing pre- and postoperative lung MRI were included. MRI signal intensity was analyzed quantitatively to define poorly and nonaerated lung compartments. Postoperative atelectasis was defined as nonaerated lung volume above 2% of the total lung volume in the respective MRI investigation. This study included 45 patients, 27 with and 18 patients without postoperative atelectasis. Patients with atelectasis had higher body mass index (p=.024), had more preoperative poorly aerated lung volume (p=.049), a lower preoperative SpO2 (p=.009), and a lower preoperative FVC (p=.029). The amount of atelectasis correlated with preoperative SpO2 (Spearman's ρ=-.51, p < .001) and postoperative SpO2 (ρ=-.60, p < .001), and with preoperative FVC (ρ=-.29, p=.047) and postoperative FVC (ρ=-.40, p=.006). A postoperative SpO2 ≤ 94% had 74% sensitivity and 78% specificity to detect atelectasis, while postoperative FVC ≤ 50% had 56% sensitivity and 100% specificity to detect atelectasis. SpO2 and FVC correlated with the amount of postoperative non-aerated lung volume, showing acceptable diagnostic accuracy in bedside detection of postoperative atelectasis.

Is There a Correlation Between Cobb Angle and Pulmonary Function Tests at 2-year Follow-up in Patients With Severe Spinal Deformity Treated by Posterior Vertebral Column Resection?

Study design:A retrospective study.Objective:The aim was to evaluate the relationships of Cobb angle and pulmonary function tests (PFTs) changes in severe spinal deformity and underwent posterior vertebral column resection (PVCR).Summary of Background Data:No previous study focused on the correlation of deformity correction and PFTs changes in patients with cobb angle >90 degrees.Methods:PFTs values [forced vital capacity (FVC), forced expiratory volume in 1 second (FEV1), and percent-predicted values FVC%, FEV1%] were evaluated preoperative and at 2 years after PVCR. FVC% <80% were defined as restrictive ventilation dysfunction (RVD), the severity of RVD were divided into mild (FEV1% ≥70%), moderate (70% > FEV1% ≥50%) and severe (FEV1% <50%). The relationships among PFTs values improvements and all possible impact factors (mainly correction cobb angle) collected in this study were analyzed. PFTs data were compared among the 3 RVD subgroups (mild vs. moderate vs. severe) and between residual >30 versus <30 degrees.Results:A total of 53 cases (28 male/25 female, mean ages 18.9 Y) underwent PVCR in one center from 2004 to 2016 were enrolled cobb angle. When 2 years after PVCR, average PFTs values showed significant improvements. PFTs values changes showed no correlation with correction rate and correction angle. The only significant impact factor in this study for FVC, FVC%, FEV1 improvements was preoperative FVC% and the only impact factor for FEV1% improvement was preoperative FEV1%, the relationships were negative. In accordance with the regression analysis, PFTs values improvements among the 3 RVD subgroups from high to low was severe>moderate>mild. However, patients with residual cobb angle <30 degrees had less PFTs values improvements than patients with residual cobb angle >30 degrees.Conclusions:Two years after PVCR, PFTs values were significantly improved. There is no linear correlation between cobb angle change and PFTs values improvements. Lower preoperative FVC% and FEV1% indicate more PFTs values improvements at 2 years post-PVCR.Level of Evidence:Level III.

Pulmonary function test correlation with subclinical respiratory dysfunction in chronic cervical cord compression

Background: To assess respiratory function in cervical chronic compressive myelopathy (CCM) patients in pre-operative period, post-operative period and to compare pre-operative status with post-operative status. Aims and Objectives: 1. To assess respiratory function in cervical CCM patients in pre-operative period. 2. To assess respiratory function in cervical CCM patients in post-operative period, following relief of compression. 3. To compare, pre-operative status with post-operative status. Materials and Methods: A prospective study was done in 50 patients with cervical CCM due to either cervical disc disease or ossified posterior longitudinal ligament (OPLL) who were operated. None of the patients included in the study had any clinical signs &amp; symptoms of respiratory dysfunction. Spirometry was performed in pre-operative and postoperative period after 3 months and results were analyzed. Forced vital capacity (FVC), forced expiratory volume in first second (FEV1), ratio of mean FEV1 to FVC (FEVI: FVC%) and peak expiratory flow rate (PEFR) were calculated. Results: Majority of the patients were in their fourth decade of life with male predominance. Thirty-six patients (72%) presented with prolapsed intervertebral disc and 14 patients (28%) had ossified posterior longitudinal ligament (OPLL). Patients were operated depending upon the pathology. The present study showed that there was significant reduction in preoperative FVC, FEV1, PEFR values as compared with predicted values and they showed significant improvement in post-operative period after surgical relief of compression. Conclusion: Significant yet occult respiratory dysfunction in form of impairment of various lung capacities exists in patients with cervical CCM. An objective evaluation of this occult respiratory dysfunction is essential to prognosticate, prevent respiratory complications and to improve post-operative respiratory rehabilitation. Institution of incentive spirometry as a routine in all cervical CCM cases will be of benefit in preventing respiratory complications.

Elimination of nasal obstruction improves pulmonary functions and oxygenation

BackgroundNasal obstruction is a significant medical problem. This study aimed to examine the effect of nasal obstruction and nasal packing on arterial blood gases and pulmonary function indices, and the impact of the elimination of nasal obstruction on preoperative values.ResultsThe mean age of the study population was 26.6 ± 10.1 years, males represented 50.8%. Spirometric indices showed statistically significant improvement (preoperative forced expiratory volume in 1st second 66.9 ± 13.9 vs 79.6 ± 14.9 postoperative and preoperative forced vital capacity 65.5 ± 12.7 vs 80.4 ± 13.8 postoperative). Oxygen saturation was significantly lower during nasal packing (95.6 ± 1.6 preoperative vs 94.7 ± 2.8 with nasal pack), and significant improvement (97.2 ± 1.4) was observed after removal of the nasal pack. Nasal obstruction scores significantly improved.ConclusionThe results of this study indicate that either simple nasal obstruction or nasal packing may cause hypoxemia and abnormalities in lung function tests. Hypoxemia was more evident with nasal packing.

How preserved regional pulmonary function after thoracoscopic segmentectomy in clinical stage I non-small cell lung cancers in right upper lobe.

To investigate the efficacy of regional respiratory preservation after pulmonary resection for clinical stage I non-small cell lung cancer (NSCLC) in right upper lobe. This retrospective study analysed patients with clinical stage I NSCLC who underwent open thoracotomy lobectomy (OTL, n = 45), thoracoscopic lobectomy (TSL, n = 137), and thoracoscopic segmentectomy (TSS, n = 37) in right upper lobe. The forced vital capacity (FVC) and forced expiratory volume in 1s (FEV1) were examined at 3 and 6-12months after the operation. The pre- and post-operative lung volumes were evaluated by three-dimensional reconstructed computed tomography. The rates of post- and pre-operative FVC, FEV1, and lung volumes were compared amongst the three groups. Significant differences were found in both FVC and FEV1 at 6-12months between TSL and OTL (p < 0.01 and p = 0.02, respectively). The respiratory recovery rates of FVC and FEV1 at 6-12months were significantly higher in TSS (98.6% ± 1.52% and 96.5% ± 1.66%) than in TSL (93.4% ± 0.79% and 90.4% ± 0.86%) (FVC: p < 0.01 and FEV1: p < 0.01). The volumetric changes were greater in TSL than in TSS for the right middle lobe (19.6% ± 2.39% and 9.59% ± 4.66%; p = 0.06) and right lower lobe (48.3% ± 2.84% and 27.9% ± 5.47%; p < 0.01) CONCLUSION: TSS might be superior to TSL or OTL depending on the moderate expansion of the remaining right lobes.

Evaluation of preoperative naso-alveolar molding in correction of unilateral complete cleft lip and palate associated with nasal deformity

Background Deviated nasal septum causes variable resistance to inspired air currents, which directly and indirectly influences the efficiency of pulmonary functions. Aim To compare pulmonary function tests performed before and following septoplasty with turbinectomy in patients complaining of nasal obstruction caused by a deviated septum with hypertrophic inferior turbinate. Patients and methods The study was conducted on 60 patients diagnosed with deviated nasal septum with hypertrophied inferior turbinate. All were subjected to complete history taking, external nasal examination, and anterior rhinoscopy, which was performed with a nasal speculum. Additionally, all patients in this study underwent a nasal endoscopy, computed tomography, and spirometry. Septoplasty and turbinectomy were performed for all cases with regular follow‑up, and the spirometry was repeated after 3 months. Results After surgery, the preoperative forced vital capacity (FVC) of 3.14±0.70 increased to 4.43±1.01, with a highly statistically significant difference (P<0.001). Forced expiratory volume in the first second (FEV1) was significantly greater postoperatively (2.66±0.55) than preoperatively (3.96±0.81) (P<0.001). The preoperative FEV1/FVC ratio of 85.08±5.47% improved to 90.39±8.75% after surgery, with a statistically significant increase (P=0.001). The preoperative peak expiratory flow rate of 5.57±1.47 increased to 7.07±2.26 following surgery, a difference that was highly statistically significant (P<0.001). The preoperative forced expiratory flow of 25–75% of vital capacity of 2.73±1.13 increased to 3.73±1.28 after surgery, a change that was highly statistically significant (P<0.001). Conclusion FVC, FEV1, FEV1/FVC, PEF, and forced expiratory flow of 25–75% showed a significant increase after operation. Keywords: pulmonary function, septoplasty, turbinectomy.

Postoperative Pulmonary Complications in Complex Pediatric and Adult Spine Deformity: A Retrospective Review of Consecutive Patients Treated at a Single Site in West Africa.

Study Design:Retrospective review of consecutive series.Objectives:This study sought to assess the incidence, risk factors, and outcomes of pulmonary complication following complex spine deformity surgery in a low-resourced setting in West Africa.Methods:Data of 276 complex spine deformity patients aged 3 to 25 years who were treated consecutively was retrospectively reviewed. Patients were categorized into 2 groups during data analysis based on pulmonary complication status: group 1: yes versus group 2: no. Comparative descriptive and inferential analysis were performed to compare the 2 groups.Results:The incidence of pulmonary complication was 17/276 (6.1%) in group 1. A total of 259 patients had no events (group 2). There were 8 males and 9 females in group 1 versus 100 males and 159 females in group 2. Body mass index was similar in both groups (17.2 vs 18.4 kg/m2, P = .15). Average values (group 1 vs group 2, respectively) were as follows: preoperative sagittal Cobb angle (90.6° vs 88.7°, P = .87.), coronal Cobb angle (95° vs 88.5°, P = .43), preoperative forced vital capacity (45.3% vs 62.0%, P = .02), preoperative FEV1 (forced expiratory volume in 1 second) (41.9% vs 63.1%, P < .001). Estimated blood loss, operating room time, and surgery levels were similar in both groups. Thoracoplasty and spinal osteotomies were performed at similar rates in both groups, except for Smith-Peterson osteotomy. Multivariate logistic regression showed that every unit increase in preoperative FEV1 (%) decreases the odds of pulmonary complication by 9% (OR = 0.91, 95% CI 0.84-0.98, P = .013).Conclusion:The observed 6.1% incidence of pulmonary complications is comparable to reported series. Preoperative FEV1 was an independent predictor of pulmonary complications. The observed case fatality rate following pulmonary complications (17%) highlights the complexity of cases in underserved regions and the need for thorough preoperative evaluation to identify high-risk patients.

The value of preoperative spirometry testing for predicting postoperative risk in upper abdominal and thoracic surgery assessed using big-data analysis.

BackgroundSpirometry is used to evaluate postoperative outcomes in thoracic surgery. However, the clinical utility of spirometry for predicting postoperative complications has not been determined. We used big-data analysis to examine the relationship between pulmonary function tests and postoperative complications.MethodsWe retrospectively analysed clinical data from 31,827 patients who underwent spirometry within the 3 months prior to their surgery between January 2000 and December 2014 at a single tertiary referral hospital. The data were extracted in de-identified form via the automated clinical research information system. Surgical procedures included thoracic and upper abdominal surgery.ResultsMultivariable logistic regression analysis showed that type of surgery, older age (>65 years), low albumin and smoking were associated with postoperative infections [95% confidence interval (CI) of the odds ratio (OR) 1.27–1.60 (>65 years); 1.52–1.96 (low albumin); 1.40–1.98 (current smoker)]. Notably, lower forced vital capacity (FVC) was an independent risk factor for postoperative infection, prolonged intensive care unit stay, and in-hospital death, regardless of airflow limitation [OR 95% CI: 1.31–1.69 (FVC 50–80%); 2.02–4.24 (FVC <50%)]. Lower forced expiratory volume in 1 sec (FEV1) was also an independent risk factor for postoperative infection [OR 95% CI: 1.61–2.26 (FEV1 50–80%); 2.27–4.21 (FEV1 <50%)]. Airflow limitation assessed by FEV1 was negatively correlated with postoperative infection in multivariable analysis (OR 95% CI: 0.51–0.88).ConclusionsLower preoperative FVC could be used to predict postoperative infection and complications in thoracic and upper abdominal surgery regardless of airflow limitation.

Prognostic factors following complete resection of non-superior sulcus lung cancer invading the chest wall.

Locally advanced non-small-cell lung cancer (NSCLC) with chest wall invasion carries a high risk of recurrence and portends poor survival (30-40% and 20-50%, respectively). No studies have identified prognostic factors in patients who underwent R0 resection for non-superior sulcus NSCLC. A retrospective review was conducted for all chest wall resections for NSCLC from 2004 to 2018. Patients with superior sulcus tumours, partial (<1 rib) or incomplete (R1/R2) resection or distant metastasis were excluded. Disease-free survival (DFS) and overall survival (OS) were estimated using the Kaplan-Meier method. Cox proportional hazards modelling was used to determine factors associated with DFS and OS. A total of 100 patients met inclusion criteria. Seventy-three (73%) patients underwent induction therapy, and all but 12 (16%) patients experienced a partial radiological response. A median of 3 ribs was resected (range 1-7), and 67 (67%) patients underwent chest wall reconstruction. The 5-year DFS and OS were 36% and 45%, respectively. Pathological N2 status [hazard ratio (HR) 3.12, confidence interval (CI) 1.56-6.25; P = 0.001], intraoperative blood transfusion (HR 2.24, CI 1.28-3.92; P = 0.005) and preoperative forced vital capacity (per % forced vital capacity, HR 0.97, CI 0.96-0.99; P = 0.013) were associated with DFS. Increasing pathological stage, lack of radiological response to induction therapy (HR 7.35, CI 2.35-22.99; P = 0.001) and cardiovascular comorbidity (HR 2.43, CI 1.36-4.36; P = 0.003) were associated with OS. We demonstrate that blood transfusion and forced vital capacity are associated with DFS after R0 resection for non-superior sulcus NSCLC, while radiological response to induction therapy greatly influences OS. We confirm that pathological nodal status and pathological stage are reproducible determinants of DFS and OS, respectively.

316. Is there a correlation between Cobb angle and pulmonary function tests in severe scoliosis patients with respiratory impairment and treated by posterior vertebral column resection?

BACKGROUND CONTEXT Surgical treatment of spinal deformity based on the severity of curves and with a view to improve physical performance and respiratory function. However, there was still controversial in the correlation of deformity correction rate and pulmonary function tests (PFTs) change in AIS, and no more study focused on patients with >90° scoliotic curves. PURPOSE To evaluate the relationships of Cobb angle and PFTs change in severe scoliosis with RI and underwent posterior vertebral column resection (PVCR). STUDY DESIGN/SETTING A retrospective study. PATIENT SAMPLE This study enrolled severe scoliosis (Cobb angle>90°) with moderate or severe RI underwent PVCR in one center from 2004 to 2016. Exclude criteria including neuromuscular or syndromic scoliosis. OUTCOME MEASURES PFTs values, forced vital capacity (FVC) and forced expiratory volume in 1 second (FEV1) were used as both absolute values and percent-predicted values. Radiographic measurements of deformities included Cobb magnitude of major curve and deformity morphological classification. METHODS PFTs and radiographic data had been calculated preop and at 2yrs after PVCR. Patients were grouped according scoliosis angle (90°-130° vs >130°), age (pediatric vs adult), with >90° kyphosis or not, preop RI levels (FVC% 41-60%/moderate RI, 0-40%/severe RI). Pearson's correlation coefficients (r) and two-sample t test were used. RESULTS A total of 62 cases (29 male/33 female, mean age 18.9Yr) was enrolled. Preoperatively, the average scoliotic angle was 118.5, with apex T4-10(54, 87.1%) and T11-L1(8, 12.9%). Respiratory impairments were restrictive (FVC=1.409L, FVC%=40.85%; FEV1=1.283L, FEV1%=44.12%), and 28(45.2%) had FVC% 60 had less improvement of PFTs than angle CONCLUSIONS Severe scoliosis may reveal severe respiratory dysfunction, but preoperative PFTs values did not related to Cobb angle. Age of deformity onset, illegible etiological factors, and lung infection may play an important role for PFTs impairment. After PVCR, most of patients had significant PFTs improvement, and correlated with Cobb angle change in patients with preop moderate respiratory impairment. Much lower of preoperative FVC%, more increase PFTs at 2 years postoperative. But, residual angle 60° or less did not ultimately influence PFTs change. FDA DEVICE/DRUG STATUS This abstract does not discuss or include any applicable devices or drugs.

Value of preoperative spirometry test in predicting postoperative pulmonary complications in high-risk patients after laparoscopic abdominal surgery.

Whether preoperative spirometry in non-thoracic surgery can predict postoperative pulmonary complications (PPCs) is controversial. We investigated whether preoperative spirometry results can predict the occurrence of PPCs in patients who had undergone laparoscopic abdominal surgery. This retrospective observational study analyzed the records of patients who underwent inpatient laparoscopic gastric or colorectal cancer surgery at Seoul National University Bundang Hospital between January 2010 and June 2017. Preoperative spirometry was performed for patients at a high risk of PPCs, such as elderly patients (age >60 years), patients aged <60 years with chronic pulmonary disease, and current smokers. The main outcome was the association between the results of spirometry tests performed within 1 month prior to surgery and the occurrence of PPCs, as determined by multivariable logistic regression analysis. Of the 898 included patients who underwent laparoscopic gastric (372 patients) or colorectal cancer surgery (526 patients), PPC occurred in 117 patients (gastric cancer: 74, colorectal cancer: 43). A 1% greater preoperative forced vital capacity (FVC) was associated with a 2% lower incidence of PPCs after laparoscopic gastric or colorectal cancer surgery (odds ratio: 0.98, 95% confidence interval: 0.97–0.99, P = 0.018). However, the preoperative forced expiratory volume in 1 second (FEV1) (%) and FEV1/FVC (%) were not significantly associated with PPCs (P = 0.059 and P = 0.147, respectively). In conclusion, lower preoperative spirometry FVC, but not FEV1 or FEV1/FVC, may predict PPCs in high-risk patients undergoing laparoscopic abdominal surgery.

Effects of bilateral breast reduction on peak airway pressure and pulmonary function tests.

Surgical reduction due to breast size is not carried out merely for anesthetic concerns but also for such complaints as breast pain belonging to breast and skeletal system, back pain, neck pain, and intertriginous rashes. This study aims to investigate the effect of bilateral breast reduction surgery on maximum inspiratory pressure (Ppeak) and pulmonary functions. This study aims to investigate the effect of bilateral breast reduction surgery on pulmonary function test. The study included 50 patients who would undergo bilateral breast reduction. Patients were divided into two groups: group II were given positive end-expiratory pressure (PEEP), which was not administered to the group I. Patients were checked in terms of maximum inspiratory pressures (Ppeak) before surgery, after first and second breasts were removed, and after surgery. Pulmonary function tests were carried out on preoperative, postoperative second and 14th days. As RFT, forced vital capacity (FVC), FEV1 (forced expiratory volume at the first second of FVC), FEV1/FVC and PEF (peak expiratory flow rate) were measured. In both groups, demographic data were not found to statistically significant differences (P > 0.05). When compared both groups in terms of preoperative FVC and FEV1/FVC 14th day, a significant increase was found on the 14th day (P < 0.05). A significant difference was not established between groups in terms of Ppeak values (P > 0.05). Ppeak was found to be significantly higher in group I (22.28 ± 7.56) at the end of intubation compared with group II (19.04 ± 3.73) (P = 0.002, P < 0.05). Similarly, preoperative Ppeak was established to be 21.88 ± 7.51 in group I and it was significantly higher compared with group II (19.44 ± 4.08), (P = 0.002, P < 0.05). When compared Ppeak values at the end of intubation and before operation with entry values a statistically significant difference was not found in either group (P = 0.76, P > 0.05). Some researchers reported a positive correlation between FVC, FEV1/FVC, and PEF along with the excised tissue mass. We established a positive correlation between the excised tissue weight and FVC and FEV1/FVC and that PEEP application did not have an impact on Ppeak.

Preoperative pulmonary function correlates with systemic inflammatory response and prognosis in patients with non-small cell lung cancer: results of a single-institution retrospective study.

This study aimed at analyzing the relationship between preoperative pulmonary function and systemic inflammatory response (SIR) biomarkers, such as neutrophil-to-lymphocyte ratio (NLR), platelet-to-lymphocyte ratio (PLR) and lymphocyte-to-monocyte ratio (LMR) in patients with non-small cell lung cancer (NSCLC). Furthermore, the prognostic significance of these markers was also examined. The medical records of 358 NSCLC patients, who underwent curative lung resection, were retrospectively analyzed. Pulmonary function test values <80% of the predicted values were used to indicate impairment. A receiver operating characteristic curve was used to determine the thresholds of the SIR biomarkers. Univariate and multivariate survival analyses were then performed to identify the factors associated with the overall survival (OS). Furthermore, one prognostic model based on independent prognostic factors was established to classify the patients into low-, intermediate-, and high-risk groups. Results demonstrated that, preoperative forced vital capacity (FVC) was simultaneously associated with NLR, PLR, and LMR (P < 0.05). Multivariate analysis identified age, lymph node status, FVC, and NLR as independent prognostic factors for OS. A subgroup analysis showed that the prognostic value of FVC was independent of age, lymph node status, and NLR. The five-year OS rates for low-, intermediate-, and high-risk groups of prognostic model were 60.9%, 35.9%, and 15.3%, respectively (P < 0.05). Overall, preoperative FVC was an independent prognostic predictor of NSCLC. Significant correlations were observed among preoperative pulmonary function, SIR, and prognosis. Thus, the prognostic model may help us identify risk populations with NSCLC.

Does segmentectomy really preserve the pulmonary function better than lobectomy for patients with early-stage lung cancer?

Recently, segmentectomy has been considered as an alternative to lobectomy in early peripheral non-small lung cancer (NSCLC); however, controversy has remained regarding the long-term functional advantage after segmentectomy. The aim of this study was to analyze the postoperative lung function after segmentectomy and lobectomy for non-small cell lung cancer. Patients with p-T1aN0M0 NSCLC who had undergone segmentectomy (n=37) or lobectomy (n=33) were retrospectively analyzed. The ratios of postoperative to preoperative forced vital capacity (FVC) and forced expiratory volume in 1s (FEV1) were defined as the recovery rates. The radiological lung volume and weight were evaluated before and more than 6months after surgery, and the postoperative values were compared with the predicted values that were calculated from the preoperative values, subtracting the resected lobes or segments. The clinical characteristics, including the preoperative lung function showed no significant differences between the groups. No statistical differences were recognized in the trend lines for recovery ratios of FVC and FEV1.0 (P=0.96 and P=0.33). The recovery ratios for radiologic lung volume and weight showed no significant differences (P=0.46 and P=0.22). The postoperative lung volume and weight were almost the same as the predicted values after segmentectomy, whereas those after lobectomy were significantly higher than the predicted values. No functional advantage for segmentectomy was observed during long-term follow-up, possibly due to compensatory lung growth after lobectomy.

Subclinical respiratory dysfunction in chronic cervical cord compression: a pulmonary function test correlation.

OBJECTIVE Respiratory abnormalities are well documented in acute spinal cord injury; however, the literature available for respiratory dysfunction in chronic compressive myelopathy (CCM) is limited. Respiratory dysfunction in CCM is often subtle and subclinical. The authors studied the pattern of respiratory dysfunction in patients with chronic cord compression by using spirometry, and the clinical and surgical implications of this dysfunction. In this study they also attempted to address the postoperative respiratory function in these patients. METHODS A prospective study was done in 30 patients in whom cervical CCM due to either cervical spondylosis or ossification of the posterior longitudinal ligament (OPLL) was diagnosed. Thirty age-matched healthy volunteers were recruited as controls. None of the patients included in the study had any symptoms or signs of respiratory dysfunction. After clinical and radiological diagnosis, all patients underwent pulmonary function tests (PFTs) performed using a standardized Spirometry Kit Micro before and after surgery. The data were analyzed using Statistical Software SPSS version 13.0. Comparison between the 2 groups was done using the Student t-test. The Pearson correlation coefficient was used for PFT results and Nurick classification scores. A p value < 0.05 was considered significant. RESULTS Cervical spondylotic myelopathy (prolapsed intervertebral disc) was the predominant cause of compression (n = 21, 70%) followed by OPLL (n = 9, 30%). The average patient age was 45.06 years. Degenerative cervical spine disease has a relatively younger onset in the Indian population. The majority of the patients (n = 28, 93.3%) had compression at or above the C-5 level. Ten patients (33.3%) underwent an anterior approach and discectomy, 11 patients (36.7%) underwent decompressive laminectomy, and the remaining 9 underwent either corpectomy with fusion or laminoplasty. The mean preoperative forced vital capacity (FVC) (65%) of the patients was significantly lower than that of the controls (88%) (p < 0.001). The mean postoperative FVC (73.7%) in the patients showed significant improvement compared with the preoperative values (p = 0.003). The mean postoperative FVC was still significantly lower than the control value (p = 0.002). The mean preoperative forced expiratory volume in 1 second (FEV1) (72%) of the patients was significantly lower than that of the controls (96%) (p < 0.001). The mean postoperative FEV1 (75.3%) in the cases showed no significant improvement compared with the preoperative values (p = 0.212). The mean postoperative FEV1 was still significantly lower than the control value (p < 0.001). The mean postoperative FEV1/FVC was not significantly different from the control value (p = 0.204). The mean postoperative peak expiratory flow rate was significantly lower than the control value (p = 0.01). The mean postoperative maximal voluntary ventilation was still significantly lower than the control value (p < 0.001). On correlating the FVC and Nurick scores using the Pearson correlation coefficient, a negative correlation was found. CONCLUSIONS There is subclinical respiratory dysfunction and significant impairment of various lung capacities in patients with CCM. The FVC showed significant improvement postoperatively. Respiratory function needs to be evaluated and monitored to avoid potential respiratory complications.

Preoperative airway colonization prior to transthoracic esophagectomy predicts postoperative pulmonary complications.

Respiratory complications are responsible to a high degree for postoperative morbidity and mortality after Ivor-Lewis esophagectomy. The etiology of respiratory failure is known to be multifactorial with preoperative impaired lung function being the most important one. The aim of this study was to investigate the correlation between preoperative airway colonization (PAC) and postoperative respiratory complications. In this observational study, 64 patients with esophageal cancer were included. All patients underwent Ivor-Lewis esophagectomy with laparoscopic or open gastric mobilization. After induction of anesthesia and intubation with a double-lumen tube, bronchial exudate was collected by random endoluminal suction for further microbiological work-up. Length of postoperative mechanical ventilation (<24h, 24-72h, >72h), re-intubation, and tracheostomy were recorded as primary and secondary study endpoints. In 13 of 64 study patients (20.3%), pathological colonization of the bronchial airways could be proved prior to esophagectomy. Haemophilus species was the most frequently identified pathogen. PAC was associated with a longer history of smoking (p = 0.025), a lower preoperative forced expiratory volume (FEV1, p = 0.009) or vital capacity (VC, p = 0.038), a prolonged postoperative mechanical ventilation (p < 0.001), and a higher frequency of re-intubation (p < 0.001) and tracheostomy (p = 0.017). In the multivariate analysis, PAC was identified as an independent predictor of respiratory failure (hazard ratio 11.4, 95% confidence interval 2.6-54, p = 0.002). Mortality in the PAC group was 30.8% compared to 0% in patients without PAC (p < 0.0001). PAC is a significant risk factor for postoperative respiratory failure. A routine bronchoscopy and bronchoalveolar lavage as part of preoperative management prior to esophagectomy need to be discussed.

Non-specific and Usual Interstitial Pneumonia, Short-Term Survival After Surgical Biopsy

To the Editors, Idiopathic interstitial pneumonia (IIP) is a diagnostic challenge. The diagnostic work-up in general includes medical history, physical examination, lung function tests, chest X-ray, high-resolution computed tomography and bronchoalveolar lavage. If no clinical diagnosis can be established on the basis of these data, a surgical lung biopsy might be indicated. In this setting, possible therapeutic and prognostic implications should be weighed against the risk of postoperative complications such as infections, prolonged air leakage, respiratory failure, acute exacerbation of underlying disease and even mortality. Review of literature shows that postoperative mortality after surgical lung biopsy in IIP was found to be 4.8 % after 30 days and 6 % after 90 days [1]. Reported risk factors for mortality were low diffusing capacity for carbon monoxide (DLCO) and low forced vital capacity (FVC) [2, 3]. There are reports suggesting that surgical lung biopsy itself increases the risk of acute exacerbation of underlying disease [2, 3]. The aim of this study was to evaluate the 30- and 90-day mortality rate after surgical lung biopsy in two histological distinct groups of patients: one with a histological pattern of usual interstitial pneumonia (UIP) and one with a pattern of non-specific pneumonia (NSIP). In this retrospective study, we included all patients with a histological UIP or NSIP who underwent surgical lung biopsy between 1993 and 2011 in our centre. Baseline characteristics are presented in Table 1. Data on mortality rate at 30 and 90 days, length of postoperative hospital stay, duration of air leakage, time to drain removal after surgery and infectious complications were collected. Table 1 Baseline characteristics Data of 69 patients were analysed (Table 1). There were 23 patients with histological NSIP and 46 with UIP. Baseline characteristics showed significant differences between both groups: mean forced expiratory volume in 1 s (FEV1) and diffusion capacity (DLCO) were lower in the NSIP group compared with the UIP group. Patients with a UIP pattern in this study were more often male and were older. No significant differences were found in FVC, total lung capacity, Body Mass Index (BMI) and smoking status. Overall, the 90-day mortality rate after surgical lung biopsy in all patients was 11.6 % (8 out of 69). In the UIP group, all patients who died underwent an open lung biopsy, the 30-day mortality rate was 8.7 % (4 out of 46) and the 90-day mortality rate was 15.2 % (7 out of 46). The median pre-operative FVC was 86 % and DLCO 46 % of the seven patients who passed away. Two patients died of pneumonia with radiologic evidence of progression of fibrosis. Post-mortem examination revealed diffuse alveolar damage in one case. Three patients died in the second and third month due to progression of fibrosis, and in two cases, this was proven by post-mortem examination and in one case radiologically. One cause of death was unknown due to loss to follow-up. Among seven patients with UIP who died, five were ultimately diagnosed to have idiopathic pulmonary fibrosis (IPF) and two to nonclassifiable interstitial pneumonia. In the NSIP group, only one patient died due to pneumonia in the first month after surgery. The 30- and 90-day mortality rates were both 4.3 % in the NSIP group. No significant differences were found in postoperative hospital stay (p = 0.906), duration of air leakage (p = 0.721), time to drain removal after surgery (p = 0.65) and infectious complications (p = 0.977) between the NSIP and UIP group. There was no correlation between year of surgery and mortality. Although the difference in mortality rate between the UIP and NSIP group was not statistically significant, we observed a trend towards a higher mortality rate in patients with UIP pattern, which is in agreement with reports in the literature [2, 3]. Interestingly, all deceased UIP patients with a known cause of death showed progression of fibrosis, while no progression of fibrosis was observed in the patient who died in the NSIP group. This observation suggests that the UIP non-survivors, who had relatively good pre-operative lung functions compared to the all NSIP patients, experienced rapid progression of their disease which cannot be excluded to be related to the surgical procedure. We hypothesize that this rapid progression of fibrosis might be induced by the surgical procedure itself causing increased damage of the highly vulnerable alveolar epithelium. Increased vulnerability of the alveolar wall appears to be a fundamental problem in IPF. In conclusion, mortality after surgical lung biopsy is relatively high, especially in patients with a histological pattern of UIP. We think that these results should be taken into account when considering open lung biopsy in patients with suspected IIP.