A review of arterial thoracic outlet syndrome.

Arterial thoracic outlet syndrome (TOS) is a condition in which anatomic abnormalities in the thoracic outlet cause compression of the subclavian or, less commonly, axillary artery. Patients are usually younger and typically have an anatomic abnormality causing the compression. The condition usually goes undiagnosed until patients present with signs of acute or chronic hand or arm ischemia. Workup of this condition includes a thorough history and physical examination; chest x-ray to identify potential anatomic abnormalities; and arterial imaging, such as computed tomographic angiography or duplex to identify arterial abnormalities. Patients will usually require operative intervention, given their symptomatic presentation. Intervention should always include decompression of the thoracic outlet with at least a first-rib resection and any other structures causing external compression. If the artery is identified to have intimal damage, mural thrombus, or is aneurysmal, then arterial reconstruction is warranted. Stenting should be avoided due to external compression. In patients with symptoms of embolization, a combination of embolectomy, lytic catheter placement, and/or therapeutic anticoagulation should be done. Typically, patients have excellent outcomes, with resolution of symptoms and high patency of the bypass graft, although patients with distal embolization may require finger amputation.

Management of thoracic outlet syndrome in patients with hemodialysis access.

Patients with threatened arteriovenous access are often found to have central venous stenoses at the ipsilateral costoclavicular junction, which may be resistant to endovascular intervention. Stenoses in this location may not resolve unless surgical decompression of thoracic outlet is performed to relieve the extrinsic compression on the subclavian vein. The authors reviewed the management of dialysis patients with central venous lesions at the thoracic outlet, as well as the role of surgical decompression with first-rib resection or claviculectomy for salvage of threatened, ipsilateral dialysis access.

Thoracic outlet syndrome in women.

Thoracic outlet syndrome (TOS) is observed more frequently in women, although the exact causes of this sex disparity remain unclear. By investigating the three types of TOS-arterial, neurogenic, and venous-regarding symptoms, diagnosis, and treatment, this article aims to shed light on the current understanding of TOS, focusing on its variations in women.

Trans-axillary thoracic outlet decompression.

Thoracic outlet syndrome (TOS) is a group of conditions thought to be caused by the compression of neurovascular structures going to the upper extremity. TOS is a difficult disease to diagnose, and surgical treatment remains challenging. Many different surgical techniques for the treatment of TOS have been described in the literature and many reasonable to good outcomes have been reported, which makes it hard for surgeons to determine which techniques should be used. Our aim was to describe the rationale, techniques, and outcomes associated with the surgical treatment of TOS. Most patients in our center are treated primarily through a trans-axillary approach. We will elaborate on the technical details of performing trans-axillary thoracic outlet decompression. The essential steps during surgery are illustrated with videos. We focused on the idea behind performing a trans-axillary thoracic outlet decompression in primary cases. Institutional data on the outcomes of this surgical approach are described briefly.

The supraclavicular approach to decompression of the thoracic outlet.

Surgical decompression of the thoracic outlet, along with treatment of the involved nerve or vessel, is the accepted treatment modality when indicated. Although neurogenic thoracic outlet syndrome (TOS) is often operated via the axillary approach and venous TOS via the paraclavicular approach, arterial TOS is almost always operated via the supraclavicular approach. The supraclavicular approach provides excellent access to the artery, brachial plexus, phrenic nerve, and the cervical and/or first ribs, along with any bony or fibrous or muscular abnormality that may be causing compression of the neurovascular structures. Even for neurogenic TOS, for which the axillary approach offers good cosmesis, the supraclavicular approach helps with adequate decompression while preserving the first rib. This approach may also be sufficient for thin patients with venous TOS. For arterial TOS, a supraclavicular incision usually suffices for excision of bony abnormality and repair of the subclavian artery.

Systematic review of intermediate and long-term results of thoracic outlet decompression.

Thoracic outlet syndrome (TOS) consists of a group of disorders resulting from compression of the neurovascular bundle exiting through the thoracic outlet. TOS can be classified as follows based on the etiology of the pathophysiology: neurogenic TOS, venous TOS, arterial TOS, and mixed TOS. The constellation of symptoms a patient may experience varies, depending on the structures involved. Due to the wide range of etiologies and presenting symptoms, treatments for TOS also differ. Furthermore, most studies focus on the perioperative and short-term outcomes after surgical decompression for TOS. This systematic review aimed to provide a pooled analysis of studies to better understand the intermediate and long-term outcomes of surgical decompression for TOS. We conducted a systematic literature search in the Ovid MEDLINE, Embase, and Google Scholar databases for studies that analyzed long-term outcomes after surgical decompression for TOS. The inclusion period was from January 2015 to May 2023. The primary outcome was postoperative QuickDASH Outcome Measure scores. A total of 16 studies were included in the final analysis. The differences between postoperative and preoperative QuickDASH Outcome Measure scores were calculated, when possible, and there was a mean overall difference of 33.5 points (95% CI, 25.2-41.8; P = .001) after surgical decompression. There was a higher proportion of excellent outcomes reported for patients undergoing intervention for arterial and mixed TOS etiologies, whereas those with venous and neurogenic etiologies had the lowest proportion of excellent outcomes reported. Patients with neurogenic TOS had the highest proportion of poor outcomes reported. In conclusion, surgical decompression for TOS has favorable long-term outcomes, especially in patients with arterial and mixed etiologies.

The infraclavicular approach for venous thoracic outlet syndrome.

Venous thoracic outlet syndrome (vTOS) is an esoteric condition that presents in young, healthy adults. Treatment includes catheter-directed thrombolysis, followed by first-rib resection for decompression of the thoracic outlet. Various techniques for first-rib resection have been described with successful outcomes. The infraclavicular approach is well-suited to treat the most medial structures that are anatomically relevant for vTOS. A narrative review was conducted to specifically examine the literature on infraclavicular exposure for vTOS. The technique for this operation is described, as well as the advantages and disadvantages of this approach. The infraclavicular approach is a reasonable choice for definitive treatment of uncomplicated vTOS.

Video-assisted thoracic surgery and robotic-assisted first-rib excision and thoracic outlet syndrome decompression.

Multiple surgical approaches have been used in the management of thoracic outlet syndrome. These approaches have traditionally been "open" approaches and have been associated with the inherent morbidities of an open approach, including a risk of injury to the neurovascular structures due to traction and trauma while resecting the first rib. In addition, there has been concern that recurrence of symptoms may be related to incomplete resection of the rib with conventional open techniques. With the advent of minimally invasive thoracic surgery, surgeons began to explore first-rib resection via a thoracoscopic approach. Unfortunately, the existing video-assisted thoracic surgery technology and equipment was not well suited to working in the apex of the chest. With the introduction and subsequent progress in robotic surgery and instrumentation, this dissection can be performed with all the advantages of robotics, but also with minimal traction and trauma to the neurovascular structures, and incorporates almost complete resection of the rib with minimal residual stump. Robotics has developed as a reliable, safe, and less invasive approach to first-rib resection, yielding excellent results while limiting the morbidity of the procedure.

Diagnosis and management of thoracic outlet syndrome in athletes.

The physical demands of sports can place patients at elevated risk of use-related pathologies, including thoracic outlet syndrome (TOS). Overhead athletes in particular (eg, baseball and football players, swimmers, divers, and weightlifters) often subject their subclavian vessels and brachial plexuses to repetitive trauma, resulting in venous effort thrombosis, arterial occlusions, brachial plexopathy, and more. This patient population is at higher risk for Paget-Schroetter syndrome, or effort thrombosis, although neurogenic TOS (nTOS) is still the predominant form of the disease among all groups. First-rib resection is almost always recommended for vascular TOS in a young, active population, although a surgical benefit for patients with nTOS is less clear. Practitioners specializing in upper extremity disorders should take care to differentiate TOS from other repetitive use-related disorders, including shoulder orthopedic injuries and nerve entrapments at other areas of the neck and arm, as TOS is usually a diagnosis of exclusion. For nTOS, physical therapy is a cornerstone of diagnosis, along with response to injections. Most patients first undergo some period of nonoperative management with intense physical therapy and training before proceeding with rib resection. It is particularly essential for ensuring that athletes can return to their baselines of flexibility, strength, and stamina in the upper extremity. Botulinum toxin and lidocaine injections in the anterior scalene muscle might predict which patients will likely benefit from first-rib resection. Athletes are usually satisfied with their decisions to undergo first-rib resection, although the risk of rare but potentially career- or life-threatening complications, such as brachial plexus injury or subclavian vessel injury, must be considered. Frequently, they are able to return to the same or a higher level of play after full recovery.

Neurogenic thoracic outlet syndrome and controversies in diagnosis and management.

Compression of the neurovascular structures at the level of the scalene triangle and pectoralis minor space is rare, but increasing awareness and understanding is allowing for the treatment of more individuals than in the past. We outlined the recognition, preoperative evaluation, and treatment of patients with neurogenic thoracic outlet syndrome. Recent work has illustrated the role of imaging and centrality of the physical examination on the diagnosis. However, a fuller understanding of the spatial biomechanics of the shoulder, scalene triangle, and pectoralis minor musculotendinous complex has shown that, although physical therapy is a mainstay of treatment, a poor response to physical therapy with a sound diagnosis should not preclude decompression. Modes of failure of surgical decompression stress the importance of full resection of the anterior scalene muscle and all posterior rib impinging elements to minimize the risk of recurrence of symptoms. Neurogenic thoracic outlet syndrome is a rare but critical cause of disability of the upper extremity. Modern understanding of the pathophysiology and evaluation have led to a sounder diagnosis. Although physical therapy is a mainstay, surgical decompression remains the gold standard to preserve and recover function of the upper extremity. Understanding these principles will be central to further developments in the treatment of this patient population.

Current concepts in clinical features and diagnosis of thoracic outlet syndrome.

The diagnosis and clinical features of thoracic outlet syndrome have long confounded clinicians, owing to heterogeneity in symptom presentation and many overlapping competing diagnoses that are "more common." Despite the advent and prevalence of high-resolution imaging, along with the increasing awareness of the syndrome itself, misdiagnoses and untimely diagnoses can result in significant patient morbidity. The authors aimed to summarize the current concepts in the clinical features and diagnosis of thoracic outlet syndrome.

The evolving role of endovascular therapy in the management of arterial thoracic outlet syndrome.

OBJECTIVE: Over the past two decades, vascular surgeons have successfully incorporated endovascular techniques to the routine care of patients with arterial thoracic outlet syndrome (ATOS). However, no reports have documented the impact of endovascular therapy. This study describes the trends in management of ATOS by vascular surgeons and outcomes after both endovascular and open repair of the subclavian artery. METHODS: We queried a single-institution, prospectively maintained thoracic outlet syndrome database for ATOS cases managed by vascular surgeons. For comparison, cases were divided into two equal time periods, January 1986 to August 2003 (P-1) vs September 2003 to March 2021 (P-2), and by treatment modality, open vs endovascular. Clinical presentation, outcomes, and the involvement of vascular surgeons in endovascular therapy were compared between groups. RESULTS: Of 2200 thoracic outlet syndrome cases, 51 were ATOS (27 P-1, 24 P-2) and underwent 50 transaxillary decompressive operations. Forty-eight cases (92%) presented with ischemic symptoms. Thrombolysis was done in 15 (29%). During P-1, vascular surgeons performed none of the catheter-based interventions. During P-2, vascular surgeons performed 60% of the angiograms, 50% of thrombolysis, and 100% of stent grafting. Subclavian artery pathology included 16 aneurysms (31%), 15 stenoses (29%), and 19 occlusions (37%). Compared with open aneurysmal repair, endovascular stent graft repairs took less time (241 vs 330 minutes; P = .09), incurred lower estimated blood loss (103 vs 150 mL; P = .36), and had a shorter length of stay (2.4 vs 5.0 days; P = .10). Yet the endovascular group had decreased primary (63% vs 77%; P = .481), primary assisted (75% vs 85%; P = .590), and secondary patency rates (88% vs 92%; P = .719), at a mean follow-up time of 3.0 years for the endovascular group and 6.9 years for the open group (P = .324). These differences did not achieve statistical significance. Functionally, 84% of patients were able to resume work or school. A majority of patients (88%) had a good to excellent functional outcome based on their Derkash score. Somatic pain scores and QuickDASH (disabilities of the arm, shoulder, and hand) scores decreased postoperatively, 2.9 vs 0.8 (P = .015) and 42.6 vs 12.6 (P = .004), respectively. CONCLUSIONS: This study describes the evolving role of endovascular management of ATOS over the past two decades and documents the expanded role of vascular surgeons in the endovascular management of ATOS at a single institution. Compared with open repair, stent graft repair of the subclavian artery may be associated with shorter operative times, less blood loss, but decreased patency, without changes in long-term functional outcomes.

Variability in electrodiagnostic findings associated with neurogenic thoracic outlet syndrome.

INTRODUCTION/AIMS: Neurogenic thoracic outlet syndrome (NTOS) is a heterogeneous and often disputed entity. An electrodiagnostic pattern of T1 > C8 axon involvement is considered characteristic for the diagnosis of NTOS. However, since the advent of high-resolution nerve ultrasound (US) imaging, we have encountered several patients with a proven entrapment of the lower brachial plexus who showed a different, variable electrodiagnostic pattern. METHODS: In this retrospective case series, 14 patients with an NTOS diagnosis with a verified source of compression of the lower brachial plexus and abnormal findings on their electrodiagnostic testing were included. Their medical records were reviewed to obtain clinical, imaging, and electrodiagnostic data. RESULTS: Seven patients showed results consistent with the "classic" T1 axon > C8 pattern of involvement. Less typical findings included equally severe involvement of T1 and C8 axons, more severe C8 involvement, pure motor abnormalities, neurogenic changes on needle electromyography in the flexor carpi radialis and biceps brachii muscles, and one patient with an abnormal sensory nerve action potential (SNAP) amplitude for the median sensory response recorded from the third digit. Patients with atypical findings on electrodiagnostic testing underwent nerve imaging more often compared to patients with classic findings (seven of seven patients vs. five of seven respectively), especially nerve ultrasound. DISCUSSION: When there is a clinical suspicion of NTOS, an electrodiagnostic finding other than the classic T1 > C8 pattern of involvement does not rule out the diagnosis. High resolution nerve imaging is valuable to diagnose additional patients with this treatable condition.

Optimal management of upper extremity deep vein thrombosis: Is venous thoracic outlet syndrome underrecognized?

BACKGROUND: Upper extremity deep vein thrombosis (UEDVT) accounts for ~10% of all cases of DVT. In the most widely referenced general review of DVT, the American Academy of Chest Physicians essentially recommended that UEDVT be treated identically to that of lower extremity DVT, with anticoagulation the default therapy. However, the medical literature has not differentiated well between DVT in the arm vs DVT in the leg and has not emphasized the effects of the costoclavicular junction and the lack of the effect of gravity to the point at which UEDVT due to extrinsic bony compression at the costoclavicular junction is classified as "primary." METHODS: We performed a comprehensive literature review, beginning with both Medline and Google Scholar searches, in addition to collected references. Next, we manually reviewed the relevant citations within the initial reports studied. Both surgical and medical journals were explored. RESULTS: It has been proposed that "effort thrombosis" should be classified as a secondary cause of UEDVT, limiting the definition of "primary" to that which is truly idiopathic. Other causes of secondary UEDVT include catheter- and pacemaker-related thrombosis (the most common cause but often asymptomatic), thrombosis related to malignancy and hypercoagulable conditions, and the rare case of thrombosis due to compression of the vein by a focal malignancy or other space-occupying lesion. In true primary UEDVT and those secondary cases in which no mechanical cause is present or can be corrected, anticoagulation remains the treatment of choice, usually for 3 months or the duration of a needed catheter. However, evidence has suggested that many cases of effort thrombosis are likely missed by a too-narrow adherence to this protocol. CONCLUSIONS: Because proper treatment of effort thrombosis would decrease the long-term symptomatic status rate from 50% to almost 0% and because these are healthy patients with a long lifespan, we believe that a more aggressive attitude toward thrombolysis should be followed for any patient with a reasonable degree of suspicion for venous thoracic outlet syndrome.

Diagnosis of Neurogenic Thoracic Outlet Syndrome Based on the Clinical Status.

OBJECTIVES: At our institute, we devised a clinical algorithm for diagnosis of neurogenic thoracic outlet syndrome (TOS). Our approach assisted in the accurate diagnosis and in detection of patients likely to benefit from surgical treatment. The purposes of this study were to propose our diagnostic approach to neurogenic TOS, and to describe the outcomes of surgical and conservative treatment. METHODS: Patients (n = 91) who were suspected to have neurogenic TOS, and therefore, underwent a routine clinical protocol from January 2012 to January 2018 were reviewed. Through the clinical protocol, diagnosis of "true neurologic TOS", "symptomatic TOS", and "not likely TOS" was made. The visual analog scale (VAS) pain score and Disabilities of the Arm, Shoulder and Hand (DASH) score were used to assess the treatment outcomes. Satisfaction with surgery was assessed according to the Derkash classification as excellent, good, fair, or poor. RESULTS: Among 91 patients with presumed neurogenic TOS, 25 patients were "true neurologic TOS", 61 patients were "symptomatic TOS", and five patients were "not likely TOS". Nineteen patients underwent supraclavicular decompression of the brachial plexus whose mean age at the time of surgery was 36.4 years. The VAS average pain score improved from 3.6 to 0.8, and the DASH score improved from 38.4 to 17.1. According to the Derkash classification, ten patients (53%) rated their recovery as excellent, four (21%) as good, and five (26%) as fair. Sixty-seven patients underwent conservative treatment. At the last follow-up visit, their VAS and DASH score were 2.3 and 11.8, respectively. CONCLUSIONS: By using an algorithm, we diagnosed the patients suspected to have neurogenic TOS into three groups based on clinical status. We surgically treated 19 patients using supraclavicular approach, and achieved favorable outcomes.

Development and evolution of a robotic surgical technique for the treatment of thoracic outlet syndrome.

OBJECTIVE: We describe the development and evolution of a surgical technique that uses the robotic da Vinci Surgical System (Intuitive Surgical, Inc, Sunnyvale, Calif) for the transaxillary approach to repair the disabling thoracic outlet syndrome (TOS). We report our patient outcomes associated with the use of this robotic technique. METHODS: We present a retrospective review and analysis of data collected from a 16-year experience of a single surgeon using a robotic surgical system and technique for TOS surgery. From the initial design of an endoscope attached to a microvideo camera in 1982 to the adoption of the monorobotic arm with integrated voice in 1998, the main objective of the transaxillary approach has always been to improve visualization of congenital cervical anomalies of the scalene muscles. From February 2003 to December 2018, we performed 412 transaxillary decompression procedures using the robotic da Vinci Surgical System. The surgical procedure has been described in further detail and includes the following steps: (1) positioning of the patient into a lateral decubitus position and using a monoarm retractor; (2) creation of a mini-incision in the axillary area and creation and maintenance of the subpectoral anatomic working space; (3) placement of endoscopic ports and engagement of the robotic instrumentation; (4) dissection of extrapleural and intrapleural soft tissue; (5) creation of the "floater" first rib; (6) excision of the cervical bands and first rib; and (7) placement of thoracostomy tubes for drainage and closure of the incisions. RESULTS: None of the patients died, and no patient experienced permanent neurovascular damage of the extremity. Of the 306 patients, 22 (5% of 441 operations) experienced complications. One patient developed postoperative scarring that required a redo operation with a robotic-assisted transaxillary approach. CONCLUSIONS: With its three-dimensional visual magnification of the anatomic area, the endoscopic robotic-assisted transaxillary approach offers safe and effective management of disabling TOS symptoms. The endoscope facilitates observation of the cervical bands and the mechanism (pathogenesis) of the neurovascular compression that causes TOS, thereby allowing complete excision of the first rib, cervical bands, and scalene muscle. We sought to develop and perfect this robotic approach. The present study was not intended to be a comparative study to nonrobotic TOS surgery.

FETOS: A Self-Questionnaire for Functional Evaluation in Thoracic Outlet Syndrome.

OBJECTIVE: Thoracic outlet syndrome is caused by the compression of blood vessels and nerves leading to the upper limbs; the level of functional discomfort in activities of daily living can be significant. This discomfort has been evaluated using a variety of nonspecific scales, prompting the development a specific self-questionnaire ("Functional Evaluation in Thoracic Outlet Syndrome). Here, the scale's test-retest reliability, sensitivity to change, and criterion validity were assessed. DESIGN: Between May 2015 and July 2017, a total of 37 patients were assessed during an intensive rehabilitation program. The Functional Evaluation in Thoracic Outlet Syndrome self-questionnaire comprises 16 items rated on a 4-point scale: impossible, major discomfort, moderate discomfort, or no difficulty. A total score is then calculated and the usual level of discomfort is rated on a numerical scale. The questionnaire was completed on day (D)1, D2, and the day of discharge. RESULTS: The questionnaire showed very good test-retest reliability, with an overall correlation coefficient above 0.91. The overall score was highly sensitive to change, with a significant median improvement (-5.89) between D1 and discharge (P < 0.001). Of the 16 items, 9 showed significant scalability in their individual sensitivity to change. The criterion validity was moderate: the coefficient for the correlation with the numerical scale was 0.68 on D1 (P < 0.001), 0.55 on D2 (P < 0.001), and 0.69 at discharge (P < 0.001). CONCLUSIONS: The Functional Evaluation in Thoracic Outlet Syndrome self-questionnaire is a quick, simple way of assessing the impact of thoracic outlet syndrome on activities of daily living. The overall score and most of the items displayed good reproducibility and sensitivity to change.

Physical Therapy Management of Neurogenic Thoracic Outlet Syndrome.

Neurogenic thoracic outlet syndrome is a complex and challenging condition to manage. There is a lack of high-quality evidence to guide clinical decision making and therefore a need to individualize treatment. Examination includes identifying postural, anatomic, and biomechanical factors that contribute to compromise of the neurovascular structures. Patients can experience good outcomes with conservative management with pain science-informed physical therapy combined with biomechanical approaches addressing contributing impairments. Retraining movement patterns while maintaining patency allows for a greater tolerance to functional activities and can have a positive impact on quality of life. Close collaboration with the patient's care team is critical.

Rib-sparing scalenectomy for neurogenic thoracic outlet syndrome: Early results.

OBJECTIVE: Neurogenic thoracic outlet syndrome (NTOS) is no longer either "controversial" or "disputed"; however, its optimal surgical management remains unclear. Many thoracic outlet decompression procedures are performed by first rib resection, usually via a transaxillary route. METHODS: A retrospective review of a prospectively maintained NTOS database was performed. Patients with NTOS associated with a cervical rib and those with recurrent NTOS were excluded from the present analysis. All study patients had satisfied a 5-point clinical diagnostic protocol and had experienced a positive response to a local anesthetic scalene block. Surgical decompression included anterior, minimus, and middle scalenectomy and brachial plexus neurolysis via a supraclavicular incision and pectoralis minor tenotomy through a small vertical infraclavicular incision. No first ribs were excised. All the patients had completed QuickDASH (11-item version of the Disability of the Arm, Shoulder, and Hand questionnaire) preoperatively and at 3 or 6 months postoperatively. RESULTS: From 2011 to 2019, 504 thoracic outlet decompression procedures had been performed in 442 patients. The average operative time was 1.15 hours, and the average hospital length of stay was 1.05 days. Major complications, including intraoperative arterial injury, postoperative wound hematoma requiring reoperation, and chylothorax, occurred in 7 patients (1.4%). All but 2 patients (99.6%) had symptomatic improvement. Using a more rigorous definition of operative success of ≥50% improvement in the 3- or 6-month QuickDASH score, 458 rib-sparing NTOS operations (90.9%) were successful. In contrast to the mean preoperative QuickDASH score of 62.6, the average postoperative QuickDASH score was 25.2 (P = .001). CONCLUSIONS: These results suggest that (1) adherence to a rigorous preoperative diagnostic regimen, including performance of a scalene block, ensures, at the least, that surgery for NTOS can be successfully restricted to patients actually with the condition; (2) fibrotic, contracted scalene muscles are the cause of NTOS; (3) the first rib does not require removal for successful surgical treatment of NTOS; and (4) 90% of the patients so treated can expect significant early symptomatic and functional improvement.

Postoperative outcomes in thoracic outlet decompression for acute versus chronic venous thoracic outlet syndrome.

OBJECTIVE: Venous thoracic outlet syndrome (VTOS) is a rare disorder that occurs in young athletes and working adults. There are multiple published reports demonstrating excellent outcomes with thoracic outlet (TO) decompression surgery when patients present acutely (within 2 weeks of symptom onset). Our objective was to assess outcomes after decompression surgery in patients with acute, subacute, chronic, and secondary VTOS. Additionally, we sought to identify risk factors for persistence of symptoms following operative decompression. METHODS: A retrospective chart review was performed for all patients who underwent operative decompression for VTOS at the University of Pittsburgh Medical Center from 2013 to 2017. We examined baseline characteristics, comorbidities, presenting symptoms, interventions performed, and postoperative clinical outcomes. Patients were characterized as acute, subacute, or chronic based on onset of symptoms and presentation to our surgeons (acute <2 weeks, subacute 2 weeks to 3 months, and chronic >3 months). Our outcomes of interest were return to baseline functional status as defined by resumption of sports activity or occupation and axillosubclavian vein patency. RESULTS: A total of 51 operative decompressions were performed in 48 patients for VTOS. There were 23 operations (45%) performed on patients who presented acutely, 7 (14%) in the subacute group, and 21 (41%) surgeries in patients with chronic symptoms. Of these 51 operations, 4 (7.8%) were deemed unsuccessful-two surgeries were in the acute group, one in the subacute, and one in the chronic group. The 30-day morbidity after 51 first rib resections included no pneumothoraces, no lymphatic leaks, two surgical site hematomas with associated hemothorax in one patient, two surgical site infections, and only two unplanned returns to the operating room for hematoma evacuation and superficial wound infection washout. In terms of preoperative vein patency, those who presented acutely were more likely to have an occluded axillosubclavian vein (P = .029). The Fisher's exact was 0.540, indicating that the proportion of patients returning to baseline functional status were similar when comparing acute presenters with those who present late. A multivariate Cox proportional hazards model was attempted; however, a small sample size greatly limited the power of the study and prohibited identification of risk factors for surgical failure. CONCLUSIONS: Patients with acute and chronic VTOS resumed their preintervention sports activity or vocation after TO decompression in more than 90% of cases with a low incidence of adverse events. Based on our study results, patients with chronic VTOS benefit as much from TO decompression as those with acute VTOS.