Purpose: Neurogenic Thoracic Outlet Syndrome accounts for over 95% of patients with TOS. We report a single institution experience with robotic first rib resection in patients with Neurogenic TOS. Methods: The diagnos...Purpose: Neurogenic Thoracic Outlet Syndrome accounts for over 95% of patients with TOS. We report a single institution experience with robotic first rib resection in patients with Neurogenic TOS. Methods: The diagnosis of NTOS was made in patients in whom all specific localizing and diagnostic orthopedic and neurologic conditions were ruled out. Preoperative diagnostic tests included a comprehensive history and physical exam, Chest X-ray, Chest CT, MRI if the cervical spine, Nerve conduction studies, and Magnetic Resonance angiography of the Thoracic outlet with arm maneuvers (MRA). Patients with NTOS who underwent robotic first rib resection with disarticulation of the costosternal joint and scalenectomy. Results: There were 137 patients (47 men and 90 women). Mean age was 34 ± 9.5 years. Operative time was 93 minutes ± 10.3 minutes. There were no intraoperative complications. There was no injury to the subclavian vessels during the dissection. There were no neurovascular complications. There was no 30 or 90 day mortality. Quick DASH Scores (Mean ± SEM) decreased from 60.3+/2.1 preoperatively to 5 ± 2.3 in the immediate postoperative period, and 3.5+/1.1 at 6 months. (P < 0.01) Immediate relief of symptoms was seen in all patients (100%). Complete relief of symptoms was seen in 133/137 (97%) of patients. Conclusions: Robotic resection of the medial aspect of the first rib with disarticulation of the costo-sternal joint is associated with excellent relief of neurologic symptoms in patients with Neurogenic Thoracic Outlet Syndrome.展开更多
Background: Historically, the pathophysiology of Hiatal Hernias (HH) has not been fully understood. As a result, the surgical therapy of HH has focused primarily on gastrointestinal symptoms and Gastroesophageal Reflu...Background: Historically, the pathophysiology of Hiatal Hernias (HH) has not been fully understood. As a result, the surgical therapy of HH has focused primarily on gastrointestinal symptoms and Gastroesophageal Reflux (GERD). This treatment strategy has been associated with poor relief of symptoms and poor long-term outcomes. In fact, until recently, most patients with HH have been watched and referred for surgery as a last resort. Recent experience has shown that a large (giant) Hiatal Hernia (GHH) is a common problem known to impact adjacent organs such as the hearts and lungs. Those referred for surgical repair often complain of dyspnea, which is erroneously attributed to pulmonary compression or aspiration, but has been shown to be from tamponade caused from compression of the heart by herniated abdominal contents. This article reviews the present understanding of GHH, the cardiac complications which result from GHH, and the most advanced robotic minimally invasive surgical approach to the anatomic and physiologic repair of GHH. Methods: In a prospective cohort study, we evaluated patients undergoing RRHH with at least a 2-year follow-up. All patients undergoing elective (RRHH) were identified preoperatively and enrolled prospectively in this study. Preoperative characteristics, medical comorbidities, and clinical information were all recorded prospectively and recorded into a secure surgical outcomes database. All patients received the previously validated Gastroesophageal Reflux Disease-Health-Related Quality of Life (GERD-HRQL) questionnaire preoperatively and at postoperative time points of 1 month, 1 year, and 2 years. Patients routinely had a barium swallow postoperatively before discharge but did not undergo a barium swallow, an endoscopy, or a CT scan study at the 1-month time point unless indicated by symptoms. At 6 months, 1 year, and yearly intervals thereafter, all patients received an endoscopy study to ascertain the presence of a recurrence, regardless of symptoms. Recurrence was defined as over 2 cm or 10% of the stomach above the diaphragm detected by CT, esophagogram or endoscopy. In addition, an extensive search was conducted using Pub Med in order to extract references to the cardiovascular complications of HH. Results: 423 patients underwent RRHH. With a long-term follow-up, there was a significant decrease in the Median Symptom Severity Score from 42.0 preoperatively, to 3.0 postoperatively. Recurrence was seen in 5 patients (5/423) for a recurrence rate of 1.1%. Conclusion: This experience has been the basis of two important realizations: 1) all patients with GHH have at least some degrees of clinically relevant compression of the inferior vena cava and the left atrium which causes tamponade and cardiogenic dyspnea which completely resolves after successful surgical repair;and 2) primary care providers and gastroenterologists who usually treat patients for GHH repair rarely recognize cardiac compression and tamponade as the cause of the shortness of breath and gradual increase in dyspnea on exertion and progressive fatigability in these patients. This article reviews the present understanding of GHH, the cardiac complications which result from GHH and the most advanced robotic minimally invasive surgical approach to the anatomic and physiologic repair of GHH.展开更多
Background: The mediastinum is a complex anatomical region which contains many vital structures. Many aspects of mediastinal surgery, like that for other anatomic regions, have evolved from a maximally invasive approa...Background: The mediastinum is a complex anatomical region which contains many vital structures. Many aspects of mediastinal surgery, like that for other anatomic regions, have evolved from a maximally invasive approach involving a median sternotomy, anterior mediastinotomy, mediastinoscopy or thoracotomy, to a minimally invasive video-assisted approach. Robotic surgery is presently the most advanced form of minimally invasive surgery. Methods: We reviewed our experience with a robotic approach to mediastinal pathology. In addition, an extensive search was conducted using PubMed, in order to extract references for the application of robotics to surgical conditions of the mediastinum. Results: The first robotic procedure by our group was a mediastinal procedure in 2003. In the past eighteen years, 203 patients have undergone robotic surgery for mediastinal pathology. There were 119 procedures for the Anterior Mediastinum, 33 procedures for the Middle Mediastinum, and 51 procedures for the Posterior Mediastinum. 78 patients underwent robotic thymectomy using a left-sided approach. 43/78 (55%) patients underwent radical thymectomy for Myasthenia Gravis. Thymoma was histologically identified in 32% of patients with Myasthenia Gravis. In patients with thymoma, there was no tumor recurrence. In patients with Myasthenia Gravis, the overall improvement rate after robotic radical complete thymectomy was 91% (39/43). Following robotic surgery for the mediastinal disease, the median hospitalization was 3 days, major complications occurred in 0.9% of patients and there was no mortality. Conclusion: With the advent of robotic surgery, many of the current surgical approaches to diseases of the mediastinum will likely be replaced over time by robotic surgery. When applied to the mediastinum, robotics has a number of benefits when compared to conventional Video-Assisted Thoracic Surgery (VATS) including three-dimensional visualization, magnification of the operative field, precise instrument movement, and improved dexterity. Much of the mediastinal disease encountered in an adult is benign, making it especially suited to a minimally invasive approach. With the use of the robot, a complete anatomical and oncological procedure can be performed through a number of small incisions or ports, while at the same time providing the patient with minimally invasive benefits including shorter hospitalizations, quicker returns to preoperative activity, less pain, less inflammatory response and better cosmesis. The excellent range of motion of the robotic instruments makes them particularly suitable to maneuver around the vital structures and the rigid axial skeleton encountered in various compartments of the mediastinum, and for reaching those “distant” areas of the mediastinum that are difficult to explore and dissect with conventional Video-Assisted Thoracic Surgery (VATS).展开更多
文摘Purpose: Neurogenic Thoracic Outlet Syndrome accounts for over 95% of patients with TOS. We report a single institution experience with robotic first rib resection in patients with Neurogenic TOS. Methods: The diagnosis of NTOS was made in patients in whom all specific localizing and diagnostic orthopedic and neurologic conditions were ruled out. Preoperative diagnostic tests included a comprehensive history and physical exam, Chest X-ray, Chest CT, MRI if the cervical spine, Nerve conduction studies, and Magnetic Resonance angiography of the Thoracic outlet with arm maneuvers (MRA). Patients with NTOS who underwent robotic first rib resection with disarticulation of the costosternal joint and scalenectomy. Results: There were 137 patients (47 men and 90 women). Mean age was 34 ± 9.5 years. Operative time was 93 minutes ± 10.3 minutes. There were no intraoperative complications. There was no injury to the subclavian vessels during the dissection. There were no neurovascular complications. There was no 30 or 90 day mortality. Quick DASH Scores (Mean ± SEM) decreased from 60.3+/2.1 preoperatively to 5 ± 2.3 in the immediate postoperative period, and 3.5+/1.1 at 6 months. (P < 0.01) Immediate relief of symptoms was seen in all patients (100%). Complete relief of symptoms was seen in 133/137 (97%) of patients. Conclusions: Robotic resection of the medial aspect of the first rib with disarticulation of the costo-sternal joint is associated with excellent relief of neurologic symptoms in patients with Neurogenic Thoracic Outlet Syndrome.
文摘Background: Historically, the pathophysiology of Hiatal Hernias (HH) has not been fully understood. As a result, the surgical therapy of HH has focused primarily on gastrointestinal symptoms and Gastroesophageal Reflux (GERD). This treatment strategy has been associated with poor relief of symptoms and poor long-term outcomes. In fact, until recently, most patients with HH have been watched and referred for surgery as a last resort. Recent experience has shown that a large (giant) Hiatal Hernia (GHH) is a common problem known to impact adjacent organs such as the hearts and lungs. Those referred for surgical repair often complain of dyspnea, which is erroneously attributed to pulmonary compression or aspiration, but has been shown to be from tamponade caused from compression of the heart by herniated abdominal contents. This article reviews the present understanding of GHH, the cardiac complications which result from GHH, and the most advanced robotic minimally invasive surgical approach to the anatomic and physiologic repair of GHH. Methods: In a prospective cohort study, we evaluated patients undergoing RRHH with at least a 2-year follow-up. All patients undergoing elective (RRHH) were identified preoperatively and enrolled prospectively in this study. Preoperative characteristics, medical comorbidities, and clinical information were all recorded prospectively and recorded into a secure surgical outcomes database. All patients received the previously validated Gastroesophageal Reflux Disease-Health-Related Quality of Life (GERD-HRQL) questionnaire preoperatively and at postoperative time points of 1 month, 1 year, and 2 years. Patients routinely had a barium swallow postoperatively before discharge but did not undergo a barium swallow, an endoscopy, or a CT scan study at the 1-month time point unless indicated by symptoms. At 6 months, 1 year, and yearly intervals thereafter, all patients received an endoscopy study to ascertain the presence of a recurrence, regardless of symptoms. Recurrence was defined as over 2 cm or 10% of the stomach above the diaphragm detected by CT, esophagogram or endoscopy. In addition, an extensive search was conducted using Pub Med in order to extract references to the cardiovascular complications of HH. Results: 423 patients underwent RRHH. With a long-term follow-up, there was a significant decrease in the Median Symptom Severity Score from 42.0 preoperatively, to 3.0 postoperatively. Recurrence was seen in 5 patients (5/423) for a recurrence rate of 1.1%. Conclusion: This experience has been the basis of two important realizations: 1) all patients with GHH have at least some degrees of clinically relevant compression of the inferior vena cava and the left atrium which causes tamponade and cardiogenic dyspnea which completely resolves after successful surgical repair;and 2) primary care providers and gastroenterologists who usually treat patients for GHH repair rarely recognize cardiac compression and tamponade as the cause of the shortness of breath and gradual increase in dyspnea on exertion and progressive fatigability in these patients. This article reviews the present understanding of GHH, the cardiac complications which result from GHH and the most advanced robotic minimally invasive surgical approach to the anatomic and physiologic repair of GHH.
文摘Background: The mediastinum is a complex anatomical region which contains many vital structures. Many aspects of mediastinal surgery, like that for other anatomic regions, have evolved from a maximally invasive approach involving a median sternotomy, anterior mediastinotomy, mediastinoscopy or thoracotomy, to a minimally invasive video-assisted approach. Robotic surgery is presently the most advanced form of minimally invasive surgery. Methods: We reviewed our experience with a robotic approach to mediastinal pathology. In addition, an extensive search was conducted using PubMed, in order to extract references for the application of robotics to surgical conditions of the mediastinum. Results: The first robotic procedure by our group was a mediastinal procedure in 2003. In the past eighteen years, 203 patients have undergone robotic surgery for mediastinal pathology. There were 119 procedures for the Anterior Mediastinum, 33 procedures for the Middle Mediastinum, and 51 procedures for the Posterior Mediastinum. 78 patients underwent robotic thymectomy using a left-sided approach. 43/78 (55%) patients underwent radical thymectomy for Myasthenia Gravis. Thymoma was histologically identified in 32% of patients with Myasthenia Gravis. In patients with thymoma, there was no tumor recurrence. In patients with Myasthenia Gravis, the overall improvement rate after robotic radical complete thymectomy was 91% (39/43). Following robotic surgery for the mediastinal disease, the median hospitalization was 3 days, major complications occurred in 0.9% of patients and there was no mortality. Conclusion: With the advent of robotic surgery, many of the current surgical approaches to diseases of the mediastinum will likely be replaced over time by robotic surgery. When applied to the mediastinum, robotics has a number of benefits when compared to conventional Video-Assisted Thoracic Surgery (VATS) including three-dimensional visualization, magnification of the operative field, precise instrument movement, and improved dexterity. Much of the mediastinal disease encountered in an adult is benign, making it especially suited to a minimally invasive approach. With the use of the robot, a complete anatomical and oncological procedure can be performed through a number of small incisions or ports, while at the same time providing the patient with minimally invasive benefits including shorter hospitalizations, quicker returns to preoperative activity, less pain, less inflammatory response and better cosmesis. The excellent range of motion of the robotic instruments makes them particularly suitable to maneuver around the vital structures and the rigid axial skeleton encountered in various compartments of the mediastinum, and for reaching those “distant” areas of the mediastinum that are difficult to explore and dissect with conventional Video-Assisted Thoracic Surgery (VATS).
