da Vinci Surgical System (IS5000)

{0} FDA U.S. FOOD &amp; DRUG ADMINISTRATION January 16, 2026 Intuitive Surgical, Inc. Emily Hovick Sr. Regulatory Affairs Specialist 1266 Kifer Road Sunnyvale, California 94086 Re: K251739 Trade/Device Name: da Vinci Surgical System (IS5000) Regulation Number: 21 CFR 876.1500 Regulation Name: Endoscope And Accessories Regulatory Class: Class II Product Code: NAY Dated: December 18, 2025 Received: December 19, 2025 Dear Emily Hovick: We have reviewed your section 510(k) premarket notification of intent to market the device referenced above and have determined the device is substantially equivalent (for the indications for use stated in the enclosure) to legally marketed predicate devices marketed in interstate commerce prior to May 28, 1976, the enactment date of the Medical Device Amendments, or to devices that have been reclassified in accordance with the provisions of the Federal Food, Drug, and Cosmetic Act (the Act) that do not require approval of a premarket approval application (PMA). You may, therefore, market the device, subject to the general controls provisions of the Act. Although this letter refers to your product as a device, please be aware that some cleared products may instead be combination products. The 510(k) Premarket Notification Database available at https://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfpmn/pmn.cfm identifies combination product submissions. The general controls provisions of the Act include requirements for annual registration, listing of devices, good manufacturing practice, labeling, and prohibitions against misbranding and adulteration. Please note: CDRH does not evaluate information related to contract liability warranties. We remind you, however, that device labeling must be truthful and not misleading. If your device is classified (see above) into either class II (Special Controls) or class III (PMA), it may be subject to additional controls. Existing major regulations affecting your device can be found in the Code of Federal Regulations, Title 21, Parts 800 to 898. In addition, FDA may publish further announcements concerning your device in the Federal Register. U.S. Food &amp; Drug Administration 10903 New Hampshire Avenue Silver Spring, MD 20993 www.fda.gov {1} K251739 - Emily Hovick Page 2 Additional information about changes that may require a new premarket notification are provided in the FDA guidance documents entitled "Deciding When to Submit a 510(k) for a Change to an Existing Device" (https://www.fda.gov/media/99812/download) and "Deciding When to Submit a 510(k) for a Software Change to an Existing Device" (https://www.fda.gov/media/99785/download). Your device is also subject to, among other requirements, the Quality System (QS) regulation (21 CFR Part 820), which includes, but is not limited to, 21 CFR 820.30, Design controls; 21 CFR 820.90, Nonconforming product; and 21 CFR 820.100, Corrective and preventive action. Please note that regardless of whether a change requires premarket review, the QS regulation requires device manufacturers to review and approve changes to device design and production (21 CFR 820.30 and 21 CFR 820.70) and document changes and approvals in the device master record (21 CFR 820.181). Please be advised that FDA's issuance of a substantial equivalence determination does not mean that FDA has made a determination that your device complies with other requirements of the Act or any Federal statutes and regulations administered by other Federal agencies. You must comply with all the Act's requirements, including, but not limited to: registration and listing (21 CFR Part 807); labeling (21 CFR Part 801); medical device reporting (reporting of medical device-related adverse events) (21 CFR Part 803) for devices or postmarketing safety reporting (21 CFR Part 4, Subpart B) for combination products (see https://www.fda.gov/combination-products/guidance-regulatory-information/postmarketing-safety-reporting-combination-products); good manufacturing practice requirements as set forth in the quality systems (QS) regulation (21 CFR Part 820) for devices or current good manufacturing practices (21 CFR Part 4, Subpart A) for combination products; and, if applicable, the electronic product radiation control provisions (Sections 531-542 of the Act); 21 CFR Parts 1000-1050. All medical devices, including Class I and unclassified devices and combination product device constituent parts are required to be in compliance with the final Unique Device Identification System rule ("UDI Rule"). The UDI Rule requires, among other things, that a device bear a unique device identifier (UDI) on its label and package (21 CFR 801.20(a)) unless an exception or alternative applies (21 CFR 801.20(b)) and that the dates on the device label be formatted in accordance with 21 CFR 801.18. The UDI Rule (21 CFR 830.300(a) and 830.320(b)) also requires that certain information be submitted to the Global Unique Device Identification Database (GUDID) (21 CFR Part 830 Subpart E). For additional information on these requirements, please see the UDI System webpage at https://www.fda.gov/medical-devices/device-advice-comprehensive-regulatory-assistance/unique-device-identification-system-udi-system. Also, please note the regulation entitled, "Misbranding by reference to premarket notification" (21 CFR 807.97). For questions regarding the reporting of adverse events under the MDR regulation (21 CFR Part 803), please go to https://www.fda.gov/medical-devices/medical-device-safety/medical-device-reporting-mdr-how-report-medical-device-problems. For comprehensive regulatory information about medical devices and radiation-emitting products, including information about labeling regulations, please see Device Advice (https://www.fda.gov/medical-devices/device-advice-comprehensive-regulatory-assistance) and CDRH Learn (https://www.fda.gov/training-and-continuing-education/cdrh-learn). Additionally, you may contact the Division of Industry and Consumer Education (DICE) to ask a question about a specific regulatory topic. See the DICE website (https://www.fda.gov/medical-devices/device-advice-comprehensive-regulatory- {2} K251739 - Emily Hovick Page 3 assistance/contact-us-division-industry-and-consumer-education-dice) for more information or contact DICE by email (DICE@fda.hhs.gov) or phone (1-800-638-2041 or 301-796-7100). Sincerely, Mark Trumbore-S Digitally signed by Mark Trumbore-S Date: 2026.01.16 11:21:00 -05'00' Mark Trumbore Ph.D. Assistant Director DHT4A: Division of General Surgery Devices OHT4: Office of Surgical and Infection Control Devices Office of Product Evaluation and Quality Center for Devices and Radiological Health Enclosure {3} FORM FDA 3881 (6/20) Page 1 of 1 PSC Publishing Services (301) 443-6740 EF | DEPARTMENT OF HEALTH AND HUMAN SERVICES Food and Drug Administration Indications for Use | Form Approved: OMB No. 0910-0120 Expiration Date: 06/30/2023 See PRA Statement below. | | --- | --- | | 510(k) Number (if known) K251739 | | | Device Name da Vinci Surgical System (IS5000) | | | Indications for Use (Describe) The Intuitive Surgical Endoscopic Instrument Control System (da Vinci Surgical System, Model IS5000) shall assist in the accurate control of Intuitive Surgical Endoscopic Instruments including rigid endoscopes, blunt and sharp endoscopic dissectors, scissors, scalpels, forceps/pick-ups, needle holders, endoscopic retractors, electrocautery and accessories for endoscopic manipulation of tissue, including grasping, cutting, blunt and sharp dissection, approximation, ligation, electrocautery, suturing, and delivery and placement of microwave and cryogenic ablation probes and accessories, during urologic surgical procedures, general laparoscopic surgical procedures, gynecologic laparoscopic surgical procedures, and general thoracoscopic surgical procedures. The system is also indicated for selected thoracoscopically-assisted cardiac surgical procedures using the non-force feedback instruments. The system is indicated for adult use. It is intended to be used by trained physicians in an operating room environment in accordance with the representative specific procedures set forth in the Professional Instructions for Use. Contraindication: Use of the force feedback needle driver is contraindicated in hysterectomy and myomectomy due to the risk of vaginal bleeding requiring hospital readmission and/or the need for additional procedures. The use of non-force feedback needle drivers is recommended for suturing in these procedures. | | | Type of Use (Select one or both, as applicable) ☑ Prescription Use (Part 21 CFR 801 Subpart D) ☐ Over-The-Counter Use (21 CFR 801 Subpart C) | | | CONTINUE ON A SEPARATE PAGE IF NEEDED. | | | This section applies only to requirements of the Paperwork Reduction Act of 1995. *DO NOT SEND YOUR COMPLETED FORM TO THE PRA STAFF EMAIL ADDRESS BELOW.* | | | The burden time for this collection of information is estimated to average 79 hours per response, including the time to review instructions, search existing data sources, gather and maintain the data needed and complete and review the collection of information. Send comments regarding this burden estimate or any other aspect of this information collection, including suggestions for reducing this burden, to: Department of Health and Human Services Food and Drug Administration Office of Chief Information Officer Paperwork Reduction Act (PRA) Staff PRAStaff@fda.hhs.gov "An agency may not conduct or sponsor, and a person is not required to respond to, a collection of information unless it displays a currently valid OMB number." | | {4} da Vinci Surgical System (IS5000) 510(k) Summary Page 1 of 28 # 510(k) Summary (21 CFR § 807.92(c)) ## I. Submitter Information 510(k) Owner: Intuitive Surgical 1266 Kifer Road Sunnyvale, CA 94085 Contact Person: Emily Hovick Senior Regulatory Affairs Specialist Phone: 314-359-8534 Email: Emily.hovick@intusurg.com Date Summary Prepared: January 16, 2026 ## II. Subject Device Information Trade Name: da Vinci Surgical System (IS5000) Common Name: System, surgical, computer-controlled instrument Classification: Class II Regulation: 21 CFR § 876.1500, Endoscope and Accessories Product Code: NAY ## III. Predicate Device Information Predicate Device: da Vinci Surgical System (IS5000), K232610 Reference Device: da Vinci Xi Surgical System (IS4000), K131861 ## IV. Device Description The da Vinci Surgical System (IS5000) is a software-controlled, electromechanical system designed for surgeons to perform minimally invasive surgery. It consists of a Surgeon Side Console (Console), a Patient Side Cart (Robot), and a Vision System Cart (Tower) and is used with an Endoscope, EndoWrist Instruments, and Accessories. ## V. Indications for Use The Intuitive Surgical Endoscopic Instrument Control System (da Vinci Surgical System, Model IS5000) shall assist in the accurate control of Intuitive Surgical Endoscopic Instruments including rigid endoscopes, blunt and sharp endoscopic dissectors, scissors, scalpels, forceps/pick-ups, needle holders, endoscopic retractors, electrocautery and accessories for endoscopic manipulation of tissue, including grasping, cutting, blunt and sharp dissection, approximation, ligation, electrocautery, suturing, and delivery and placement of microwave and cryogenic ablation probes and accessories, during urologic surgical procedures, general laparoscopic surgical procedures, gynecologic laparoscopic surgical procedures, and general thoracoscopic surgical procedures. The system is also indicated for selected thoracoscopically-assisted cardiac surgical procedures using the non-force feedback instruments. The system is indicated for adult use. It is intended to be used by trained physicians in an operating room environment in accordance with the representative specific procedures set forth in the Professional Instructions for Use. INTUITIVE {5} da Vinci Surgical System (IS5000) 510(k) Summary Page 2 of 28 Contraindication: Use of the force feedback needle driver is contraindicated in hysterectomy and myomectomy due to the risk of vaginal bleeding requiring hospital readmission and/or the need for additional procedures. The use of non-force feedback needle drivers is recommended for suturing in these procedures. ## VI. Technological Characteristics The da Vinci Surgical System (IS5000) is technologically equivalent to the predicate device, with no changes to its operational principles. This 510(k) pertains exclusively to software and labeling modifications which include the following: - Instrument compatibility: - Atrial Retractor Short Right (PN 470246) - Cardiac Probe Grasper (PN 470215) - Revised indications for use to include: "The system is also indicated for selected thoracoscopically-assisted cardiac surgical procedures using the non-force feedback instruments." - Addition of specific, representative uses: - Mitral valve repair - IMA mobilization for cardiac revascularization - Patent foramen ovale closure - Atrial septal defect repair - Left atrial appendage closure/occlusion - Atrial myxoma excision - Mitral valve replacement - Tricuspid valve repair - Epicardial pacing lead placement ## VII. Performance Data ### Software Testing Software verification and validation have been conducted at the unit, integration, and system level to confirm that the subject device continues to meet design requirements and user needs. Software documentation has been provided in accordance with FDA Guidance, "Content of Premarket Submissions for Device Software Functions," issued on June 14, 2023. ### Cadaver and Animal Non-Clinical Testing Equivalence studies were conducted to compare the surgical performance and safety of the da Vinci Surgical System (IS5000) to the reference da Vinci Xi Surgical System (IS4000) during mitral valve repair and IMA mobilization for cardiac revascularization procedures. The studies involved testing in both cadaveric and live canine models. ### Systematic Literature Reviews Systematic literature reviews were conducted to evaluate clinical outcomes of robotic-assisted procedures performed with a da Vinci Surgical System, including mitral valve repair, coronary artery bypass grafting (CABG), atrial septal defect repair, left atrial appendage closure/occlusion, patent foramen ovale closure, atrial myxoma excision, mitral valve replacement, and tricuspid valve repair. ## INTUITIVE {6} da Vinci Surgical System (IS5000) 510(k) Summary Page 3 of 28 Findings from these systematic literature reviews demonstrate that the clinical outcomes of robotic-assisted procedures performed with the da Vinci Surgical System are comparable to those of traditional non-robotic approaches, supporting their efficacy and safety across a range of cardiac interventions. Summary data are presented in Table 1 through Table 10. ## Real World Data from the Premier Health Database A retrospective cohort study using the Premier Healthcare Database compared clinical outcomes of robotic and non-robotic mitral valve repair and CABG performed in the United States between 2016 and 2023. The propensity score matched analysis included 1,507 robotic mitral valve repair procedures and 1,507 non-robotic mitral valve repair procedures and 3,893 robotic CABG procedures and 3,893 non-robotic CABG procedures. Results indicate that robotic mitral valve repair and CABG are substantially equivalent to non-robotic procedures. Primary and secondary surgical outcomes are presented in Table 11 through Table 16. ## VIII. Conclusion The subject da Vinci Surgical System (IS5000) has the same intended use as the predicate device, with the addition of more specific indications for use, which includes selected thoracoscopically-assisted cardiac surgical procedures, with new specific, representative uses defined in the Professional Instructions for Use. Additionally, the IS5000 system has the same technological characteristics other than a minor software update to enable compatibility with two existing 510(k)-cleared cardiac instruments. Performance data confirmed that these software and labeling modifications do not raise new or different questions of safety or effectiveness. Therefore, the subject da Vinci Surgical System (IS5000) is substantially equivalent to the cleared predicate device. INTUITIVE {7} da Vinci Surgical System (IS5000) Traditional 510(k) Table 1: da Vinci vs. Mini-thoracotomy or Sternotomy MVr Procedure Main Clinical Outcomes | Author / Year | Study Arms | Study Size (N) | Operating time (minutes) | Conversion to sternotomy (%) | Blood transfusion (%) | Number of transfused units (N) | ICU LOS (hours) | Readmission to ICU (%) | LOS (days) | Postop. complications 30-d (%) | Mortality 30-day (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | 1. Albano (2024) | Robotic | 98 | Median: 259 | NR | 21 | NR | Median: 41 | NR | Median: 10 | ISI calc. 49 | In-hospital: 0 | NR | 3 | NR | | | Mini-Thoracotomy | 98 | Median: 235 | | 15 | | Median: 45 | | Median: 11 | ISI calc. 47 | In-hospital: 0 | | 2 | | | 2. Baccanelli (2024) | Robotic | 111 | NR | In-hospital: 0 | NR | | | | | | | | | | | | Mini-Thoracotomy | 205 | | | | | | | | | In-hospital: 0 | | | | | 3. Barac (2021) | Robotic | 128 | NR | 1.6 | NR | 5 | NR | 0 | NR | 3 | NR | | | | | | Mini-Thoracotomy | 249 | | 1.2 | | | | | | 5 | | 0.4 | 1 | | | 4. Chemtob (2022) | Robotic | 605 | NR | 0 | 10 | NR | Median: 25 | NR | 5.2 ± 2.9 | NR | In-hospital: 0 | NR | 1.3 | Val. Dysf.: 0.66 | | | Sternotomy | 395 | | NA | 17 | | Median: 27 | | 5.9 ± 2.3 | | In-hospital: 0 | | 0.51 | Val. Dysf.: 0.25 | | 5. Coyan (2018) | Robotic | 91 | NR | Median: 27.5 | 3.3 | Median: 5 | 49.5 | Operative: 0 | 8.8 | 3.3 | Val. Dysf.: 0 | | | | | | Sternotomy | 91 | | | | | Median: 34.0 | 5.5 | Median: 7 | 53.8 | Operative: 2.2 | 15.4 | 1.1 | Val. Dysf.: 1.1 | | 6. Fujita (2021) | Robotic | 169 | *MVR (N=118): 201 ± 66 | 1.2 | NR | 1.8d ± 0.9 | NR | 8.1 ± 3.2 | NR | 0 | NR | 1.2 | | | | | Mini-Thoracotomy | 166 | *MVR (N=142): 228 ± 49 | 0.6 | | | | 1.6d ± 0.8 | | 7.5 ± 1.7 | | | 0 | 0.6 | | 7. Giroletti (2024) | Robotic | 80 | Median: 255 | NR | 21 | NR | Median: 32 | NR | Median: 10 | NR | In-hospital: 0 | NR | 4 | NR | | | Mini-Thoracotomy | 80 | Median: 235 | | 15 | | Median: 45 | | Median: 11 | | In-hospital: 0 | | 1 | | | 8. Hawkins (2018) | Robotic | 295 | Median: 222 | 0 | 15.3 | NR | Median: 26 | NR | Median: 4 | Major: 7.8 | Operative: 0.7 | 10.3 | 2.7 | 5 | | | Mini-Thoracotomy | 295 | Median: 180 | 0 | 4.8 | | Median: 24 | | Median: 4 | Major: 5.8 | Operative: 0.7 | 6.5 | 1.4 | 2 | | | Robotic | 314 | Median: 224 | 0 | 15.3 | | Median: 26 | | Median: 4 | Major: 8.6 | Operative: 0.6 | 10.9 | 2.6 | 5 | | | Sternotomy | 314 | Median: 168 | NA | 17.8 | | Median: 31 | | Median: 5 | Major: 8.9 | Operative: 2.2 | 8.9 | 1.9 | 4 | | 9. Iyigun (2017) | Robotic | 33 | NR | 5.7 | NR | 1.41 ± 1.93 | 1.15d ± 0.62 | NR | 7.03 ± 2.09 | NR | | | | | | | Sternotomy | 29 | | NA | | 2.24 ± 1.75 | 1.31d ± 0.6 | | 9.03 ± 2.91 | | | | | | | 10. Kam (2010) | Robotic | 107 | 238.63 | NR | | | 36.66 | NR | 6.47 | Bleeding: 1.8 | Operative: 0 | NR | | 2 | # INTUITIVE {8} da Vinci Surgical System (IS5000) Traditional 510(k) Page 5 of 28 | Author / Year | Study Arms | Study Size (N) | Operating time (minutes) | Conversion to sternotomy (%) | Blood transfusion (%) | Number of transfused units (N) | ICU LOS (hours) | Readmission to ICU (%) | LOS (days) | Postop. complications 30-d (%) | Mortality 30-day (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | Sternotomy | 40 | 201.76 | | | | 45.46 | | 8.76 | Bleeding: 0 | Operative: 0 | | | 0 | | 11. Kesavuori (2018) | Robotic w/ learning curve | 142 | Median: 254 | 9.2 | NR | ≥2 units: 28.9 | Median: 1d | NR | Median: 7 | NR | 0.7 | NR | 7.7 | ISI calc.: 12.7 | | Sternotomy | 142 | Median: 217 | NA | ≥2 units: 26.8 | Median: 1d | Median: 7 | 0 | 5.6 | ISI calc.: 7 | | Robotic w/o learning curve | 112 | Median: 250 | NR | NR | Median: 1d | Median: 7 | NR | NR | NR | | 12. Mihaljevic (2011) | Robotic | 106 | Median: 387 | NR | 0: 92 1: 2.8 2: 1.9 >3: 2.8 | NR | ISI calc. Median: 4.2 | 8.5 | 0 | NR | 3.8 | NR | | | | Sternotomy | 106 | ISI calc. Median: 278 | 0: 85 1: 8.5 2: 5.7 >3: 0.94 | ISI calc. Median: 5.2 | 9.4 | 0 | 3.8 | | | | Robotic | 223 | Median: 387 | 0: 89 1: 4.5 2: 3.1 >3: 3.1 | ISI calc. Median: 4.2 | 11 | 0 | 4.5 | | | | Partial Sternotomy | 223 | ISI calc. Median: 277 | 0: 91 1: 4.9 2: 4.0 >3: 0.45 | ISI calc. Median: 5.8 | 9.9 | 0 | 4.9 | | | | Robotic | 113 | Median: 387 | 0: 89 1: 4.4 2: 1.8 >3: 4.4 | ISI calc. Median: 4.2 | 12 | 0 | 6.2 | | | | Mini-Thoracotomy | 113 | ISI calc. Median: 327 | 0: 95 1: 2.7 2: 0.88 >3: 1.8 | ISI calc. Median: 5.1 | 2.7 | 0 | 18 | | | | 13. Mori (2024) | Robotic | 5540 | 375 ± 101 | NR | Intraop: 13 Postop: 15 | NR | 48 ± 62 | 1.6 | 5.00 ± 3.59 | In-hospital: 31 | Operative: 0.8 | 6.6 | NR | 3.1 | | Mini-Thoracotomy | 5540 | 332 ± 88 | Intraop: 12 Postop: 13 | 51 ± 87 | 1.5 | 5.57 ± 3.54 | In-hospital: 34 | Operative: 0.8 | 7.1 | 2.6 | | Robotic | 6962 | 374 ± 96 | Intraop: 13 Postop: 15 | 46 ± 59 | 1.6 | 4.95 ± 3.47 | NR | Operative: 0.7 | 6.1 | 2.9 | | Sternotomy | 6962 | 305 ± 81 | Intraop: 17 Postop: 17 | 53 ± 65 | 2 | 6.21 ± 4.07 | Operative: 0.6 | 6.8 | 2.7 | | 14. Orde (2020) | Robotic | 115 | 3.4 ± 1 | NR | 4.1 ± 2 | NR | | Sternotomy | 43 | 3.2 ± 1 | 4.4 ± 2 | | 15. Paul (2015) | Robotic | 631 | NR | Median: 4 | 37.4 | In-hospital: <10 | NR | # INTUITIVE {9} da Vinci Surgical System (IS5000) Traditional 510(k) Page 6 of 28 | Author / Year | Study Arms | Study Size (N) | Operating time (minutes) | Conversion to sternotomy (%) | Blood transfusion (%) | Number of transfused units (N) | ICU LOS (hours) | Readmission to ICU (%) | LOS (days) | Postop. complications 30-d (%) | Mortality 30-day (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | Sternotomy + Mini-thoracotomy | 631 | | | | | | | Median: 6 | 34.4 | In-hospital: <10 | | | | | 16. Rao (2022) | Robotic | 62 | NR | 0 | NR | 6.3 ± 0.5 | NR | 0 | ISI calc.: 3.2 | | | | | | | | Mini-Thoracotomy | 62 | | 0 | | | | | | 6.0 ± 0.3 | 0 | ISI calc.: 4.8 | | | | 17. Rufa (2023) | Robotic | 52 | NR | 1.9 | NR | Median: 20.5 | NR | Median: 8 | NR | 0 | NR | 1.9 | 3-yr: 0 | | | | Mini-Thoracotomy | 52 | | 1.9 | | | | Median: 22 | | Median: 9 | | 0 | 5.8 | 3-yr: 1 | | 18. Seo (2019) | Robotic | 175 | 349 ± 13 | 2.20 | Intraop: 35 Postop: 15 | NR | 84 ± 63 | NR | 6.5 ± 3.2 | 30 | 0.6 | 5 | 2 | Other than for bleeding: 0.6 | | | Sternotomy | 259 | 312 ± 121 | NA | Intraop: 50 Postop: 27 | | 144 ± 126 | | 9.9 ± 7.2 | 46 | 3 | 14 | 1 | Other than for bleeding: 2 | | 19. Stevens (2012) | Robotic | 447 | NR | Postop: 18 | NR | MVR* Median: 4 | NR | 1.1 | 12 | 3 | NR | | | | | | Mini-Thoracotomy | 481 | | | | | | Postop: 43 | MVR* Median: 5 | 2.1 | | 11 | 4 | | | | Sternotomy | 377 | | | | | | Postop: 63 | MVR* Median: 5 | 3.8 | | 11 | 5 | | | 20. Suri (2011) | Robotic | 95 | NR | 0 | ISI calc. Postop: 12.6 | ≥2: 10.53 | 31.29 ± 107.61 | NR | 4.46 ± 6.38 | Any: 6.31 Major: 4.21 | 0 | NR | 1.05 | Failed repair: 0 | | | Sternotomy | 95 | | NA | ISI calc. Postop: 18.9 | ≥2: 18.95 | 25.92 ± 20.20 | | 5.34 ± 1.67 | Any: 6.31 Major: 5.26 | 0 | | 2.1 | Failed repair: 1.05 | | 21. Suri (2013) All | Robotic | 185 | NR | ≥2 RBC: 7 | NR | STS: 3.8 | NR | 0 | Val. Dysf.: 0.5 | | | | | | | | Sternotomy | 185 | | | | | | | ≥2 RBC: 16.2 | STS: 3.2 | 1.6 | Val. Dysf.: 0.5 | | | | Pre-July 2009 Post-July 2009 | Robotic | 66 | NR | 24.7 | NR | 4 | NR | Early: 0 | NR | | | | | | | | Sternotomy | 111 | | | | | | 26.7 | | | | 5.6 | Early: 0 | | | | Robotic | 119 | | | | | | 13.7 | | | | 3.7 | Early: 0 | | | | Sternotomy | 74 | | | | | | 27.8 | | | | 5.7 | Early: 0 | | | 22. Wang (2018) | Robotic | 503 | NR | Intraop: 20.48 | Intraop: 1.84 ± 2.09 Postop: 2.23 ± 2.69 | 41.96 ± 46.91 | NR | 5.26 ± 2.88 | NR | Operative: 0.6 In-hospital: 0.2 30-d: 0.6 | NR | 2.98 | Val. Dysf.: 0 | | | | Sternotomy | 503 | | | Intraop: 35.19 | Intraop: 1.49 ± 1.43 Postop: 1.86 ± 1.56 | | 61.81 ± 61.40 | | 6.92 ± 3.54 | | Operative: 1.19 In-hospital: 1.19 30-d: 1.4 | 1.99 | Val. Dysf.: 0.4 | INTUITIVE {10} da Vinci Surgical System (IS5000) Traditional 510(k) Page 7 of 28 | Author / Year | Study Arms | Study Size (N) | Operating time (minutes) | Conversion to sternotomy (%) | Blood transfusion (%) | Number of transfused units (N) | ICU LOS (hours) | Readmission to ICU (%) | LOS (days) | Postop. complications 30-d (%) | Mortality 30-day (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | 23. Watanabe (2024) | Robotic | 577 | Median: 192 | 0.2 | 32.1 | NR | Median: 2d | NR | Median: 8 | NR | 0.2 | NR | 1.2 | NR | | | Mini-Thoracotomy | 577 | Median: 232 | NR | 44.2 | | Median: 2d | | Median: 9 | | 0 | | 0.9 | | | 24. Wei (2020) | Robotic | 121 | NR | 0.8 | 64.5 | NR | 3.6d ± 2.7 | NR | 0.8 | NR | 0 | Early failure: 2.5 | | | | | Mini-Thoracotomy | 113 | | 0 | 52.2 | | 2.8d ± 2.3 | | | | 0.9 | 0.9 | Early failure: 0.9 | | | 25. Zheng (2022) | Robotic | 69 | NR | 1.4 | 1.4 | NR | Median: 4 | NR | Operative: 0 | 13 | 0 | Val. Dysf.: 0 | | | | | Mini-Thoracotomy | 69 | | 1.4 | 2.9 | | | | Median: 4 | Operative: 0 | 11.6 | 1.4 | Val. Dysf.: 2.9 | | * Study reports data for overall cohort and mitral valve repair separately. Table 2: da Vinci vs. Mini-thoracotomy or Sternotomy MVr Procedure Secondary Clinical Outcomes | Author | Study Arms | Study Size (N) | CPB time (minutes) | XC time (minutes) | Ventilation time (hours) | Prolonged mechanical ventilation (%) | Pulmonary complications (%) | Atrial fibrillation (%) | MI 30-day (%) | Cardiac arrest 30-day (%) | Stroke 30-day (%) | Renal failure 30-day (%) | Discharge to nursing facility / rehab (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | 1. Albano (2024) | Robotic | 98 | Median: 165 | Median: 91 | Median: 3 | 9 | NR | 22 | NR | Dialysis: 0 | 10 | | | | | Mini-Thoracotomy | 98 | Median: 137 | Median: 99 | Median: 6 | 21 | | 12 | | | | Dialysis: 0 | 41 | | 2. Baccanelli (2024) | Robotic | 111 | NR | | | | | | | | | | | | | Mini-Thoracotomy | 205 | | | | | | | | | | | | | 3. Barac (2021) | Robotic | 128 | 275 ± 56 | 152 ± 38 | NR | 21 | NR | 0 | NR | | | | | | | Mini-Thoracotomy | 249 | 195 ± 56 | 119 ± 36 | | | | | | | 24 | 0 | | | 4. Chemtob (2022) | Robotic | 605 | 123 ± 33 | 73 ± 20 | NR | New-onset: 25 | NR | 0.5 | 0 | NR | | | | | | Sternotomy | 395 | 74 ± 25 | 55 ± 19 | | | | | New-onset: 34 | | 1 | 0 | | | 5. Coyan (2018) | Robotic | 91 | Median: 162 | Median: 108 | Initial Median: 3.9 Total postop Median: 0 | NR | Pulmonary thromboembolism: 0 Pneumonia: 1 | 36.3 | NR | 0 | Permanent: 0 | 0 | NR | | | Sternotomy | 91 | Median: 124 | Median: 98 | Initial Median: 3.4 Total postopMedian: 3 | | Pulmonary thromboembolism: 0 Pneumonia: 0 | 38.5 | | 2.2 | Permanent: 0 | 1 | | | 6. Fujita (2021) | Robotic | 169 | MVR* (N=118): 119 ± 51 | MVR* (N=118): 81 ± 35 | NR | 0.6 | NR | 0 | 0.6 | NR | | | | | | Mini-Thoracotomy | 166 | MVR* (N=142): 121 ± 34 | MVR* (N=142): 84 ± 22 | | | | | 0 | | 0 | 1.2 | | | | Robotic | 80 | Median: 163 | Median: 89 | Median: 2 | NR | | | | | | | Home: 90 | # INTUITIVE {11} da Vinci Surgical System (IS5000) Traditional 510(k) Page 8 of 28 | Author | Study Arms | Study Size (N) | CPB time (minutes) | XC time (minutes) | Ventilation time (hours) | Prolonged mechanical ventilation (%) | Pulmonary complications (%) | Atrial fibrillation (%) | MI 30-day (%) | Cardiac arrest 30-day (%) | Stroke 30-day (%) | Renal failure 30-day (%) | Discharge to nursing facility / rehab (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | 7. Giroletti (2024) | Mini-Thoracotomy | 80 | Median: 140 | Median: 100 | Median: 6 | | | | | | | | Home: 63 | | 8. Hawkins (2018) | Robotic | 295 | Median: 139 | Median: 97 | NR | 3.1 | Pneumonia: 1 | 26.4 | NR | Cardiac arrest: 0.3 | Permanent: 1.4 | 0.3 | Facility: 5.4 | | | Mini-Thoracotomy | 295 | Median: 130 | Median: 86 | | 3.1 | Pneumonia: 0.3 | 17.6 | | Cardiac arrest: 0 | Permanent: 1 | 0 | Facility: 5.8 | | | Robotic | 314 | Median: 140 | Median: 97 | | 4.1 | Pneumonia: 1.6 | 24.8 | | Cardiac arrest: 0.3 | Permanent: 1.3 | 0.6 | Facility: 7.0 | | | Sternotomy | 314 | Median: 112 | Median: 81 | | 5.7 | Pneumonia: 1.6 | 27.7 | | Cardiac arrest: 1 | Permanent: 1 | 0.3 | Facility: 14.8 | | 9. Iyigun (2017) | Robotic | 33 | 157.92 ± 60.31 | 94.36 ± 45.63 | | | | | | | | | | | | Sternotomy | 29 | 123.85 ± 50.19 | 83.81 ± 40.82 | | | | | | | | | | | 10. Kam (2010) | Robotic | 107 | 126.39 | 94.93 | 6.17 (N=87) | | | | | | | | Inpatient rehab: 4.7 | | | Sternotomy | 40 | 93.72 | 73.14 | 6.61 (N=32) | | | | | | | | Inpatient rehab: 10 | | 11. Kesavuori (2018) | Robotic with learning curve | 142 | Median: 157 | Median: 104 | Median: 15 | NR | Pneumonia: 3.5 | NR | 0.7 | NR | 0 | Dialysis: 2.1 | NR | | | Sternotomy | 142 | Median: 112 | Median: 86 | Median: 13 | | Pneumonia: 0 | | 2.1 | | 0.7 | Dialysis: 2.1 | | | | Robotic w/o learning curve | 112 | Median: 151 | Median: 101 | Median: 14 | | NR | | NR | | NR | NR | | | 12. Mihaljevic (2011) | Robotic | 106 | Median: 116 | Median: 85 | NR | >24h: 1.9 | Pleural effusion: 0 | 26 | NR | 1.9 | NR | | | | | Sternotomy | 106 | ISI calc. Median: 74 | ISI calc. Median: 57 | | >24h: 2.8 | Pleural effusion: 8.5 | 30 | | 0.94 | | | | | | Robotic | 223 | Median: 116 | Median: 85 | | >24h: 4.9 | Pleural effusion: 1.8 | 22 | | 2.7 | | | | | | Partial Sternotomy | 223 | ISI calc. Median: 76 | ISI calc. Median: 59 | | >24h: 2.2 | Pleural effusion: 8.5 | 35 | | 3.1 | | | | | | Robotic | 113 | Median: 116 | Median: 85 | | >24h: 3.5 | Pleural effusion: 1.8 | 19 | | 1.8 | | | | | | Mini-Thoracotomy | 113 | ISI calc. Median: 106 | ISI calc. Median: 66 | | >24h: 0.88 | Pleural effusion: 1.8 | 26 | | 0 | | | | | 13. Mori (2024) | Robotic | 5540 | 145 ± 57 | 95 ± 37 | 7.7 ± 33.9 | 3.1 | Pneumonia: 0.7 | 22 | NR | Permanent: 1.2 | 0.8 | NR | | | | Mini-Thoracotomy | 5540 | 136 ± 54 | 94 ± 36 | 8.8 ± 38.8 | 3.1 | Pneumonia: 0.8 | 25 | | Permanent: 1 | 0.6 | | | | | Robotic | 6962 | 143 ± 55 | 93 ± 36 | 7.4 ± 34.6 | 2.9 | Pneumonia: 0.6 | 22 | | Permanent: 1.1 | 0.7 | | | | | Sternotomy | 6962 | 104 ± 45 | 79 ± 35 | 9.3 ± 42.6 | 3.2 | Pneumonia: 0.8 | 30 | | Permanent: 1 | 0.7 | | | | 14. Orde (2020) | Robotic | 115 | 80 ± 22 | 51 ± 17 | 5.5 ± 3 | | | | | | | | | | | Sternotomy | 43 | 49 ± 20 | 49 ± 19 | 8.5 ± 11 | | | | | | | | | | 15. Paul (2015) | Robotic | 631 | | | | | 30.6 | | | | 3.5 | NR | Non-routine: 65.1 | INTUITIVE {12} da Vinci Surgical System (IS5000) Traditional 510(k) Page 9 of 28 | Author | Study Arms | Study Size (N) | CPB time (minutes) | XC time (minutes) | Ventilation time (hours) | Prolonged mechanical ventilation (%) | Pulmonary complications (%) | Atrial fibrillation (%) | MI 30-day (%) | Cardiac arrest 30-day (%) | Stroke 30-day (%) | Renal failure 30-day (%) | Discharge to nursing facility / rehab (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | Sternotomy + Mini-thoracotomy | 631 | | | | | 27.1 | | | | 2.4 | | Non-routine: 60.2 | | 16. Rao (2022) | Robotic | 62 | 148 | 148 ± 37 | NR | 1.6 | NR | 3.2 | 0 | NR | | | | | | Mini-Thoracotomy | 62 | 133 | 133 ± 42 | | 4.8 | | | | | 4.8 | 0 | | | 17. Rufa (2023) | Robotic | 52 | Median: 181 | Median: 99 | Median: 6 | NR | Pneumonia: 5.8 Pleural effusion: puncture 9.6, drainage 7.7 | 44.2 | Postop + treated with PCI: 1.9 3-yr: 0 | NR | Postop CVA: 0 3-yr stroke: 0 | 1.9 | NR | | | Mini-Thoracotomy | 52 | Median: 166 | Median: 101 | Median: 6 | | Pneumonia: 0 Pleural effusion: puncture 7.7, drainage 3.8 | 50 | Postop + treated with PCI: 1.9 3-yr: 0 | | Postop CVA: 1.9 3-yr stroke: 0 | 0 | | | 18. Seo (2019) | Robotic | 175 | NR | 133 ± 47 | NR | Pneumonia: 1 | 13 | NR | Cardiac arrest: 1 (0.6%) | 1 (0.6%) | 1 (0.6%) | NR | | | | Sternotomy | 259 | | 115 ± 52 | | | Pneumonia: 1 | | 18 | Cardiac arrest: 8 (3%) | 3 (1%) | | 6 (2%) | | 19. Stevens (2012) | Robotic | 447 | 164 ± 40 | 125 ± 31 | NR | 28 | NR | 0.7 | NR | | | | | | | Mini-Thoracotomy | 481 | 141 ± 51 | 87 ± 42 | | | | | | | 20 | 1.2 | | | | Sternotomy | 377 | 122 ± 51 | 86 ± 34 | | | | | | | 26 | 3.4 | | | 20. Suri (2011) | Robotic | 95 | 113.32 ± 40.39 | 81.40 ± 28.33 | 14.07 ± 88.92 | >48h: 1.05 | NR | Permanent: 0 | 3.16 | NR | Permanent: 1.05 | 0 | NR | | | Sternotomy | 95 | 48.22 ± 24.55 | 35.94 ± 19.66 | 8.13 ± 6.25 | >48h: 1.05 | | Permanent: 0 | 0 | | Permanent: 0 | 1.05 | | | 21. Suri (2013) All Pre-July 2009 Post-July 2009 | Robotic | 185 | NR | >48h: 0.5 | NR | In hospital: 18.4 | 1.1 | NR | 0.50 | 0.50 | NR | | | | | Sternotomy | 185 | | | | >48h: 0 | In hospital: 30.3 | | 0 | 0 | | 0.50 | | | | Robotic | 66 | NR | | | | | | | | | | | | | Sternotomy | 111 | | | | | | | | | | | | | | Robotic | 119 | | | | | | | | | | | | | | Sternotomy | 74 | | | | | | | | | | | | | 22. Wang (2018) | Robotic | 503 | 135.62 ± 52.89 | 90.52 ± 34.53 | NR | 2.58 | Pneumonia: 0.99 Pulm. thromboembolism: 66.67 - corrected to 0.3 | 27.83 | NR | Cardiac arrest: 0.8 | Permanent: 0.99 | 0.8 | NR | | | Sternotomy | 503 | 109.97 ± 45.94 | 83.85 ± 38.24 | | 4.77 | Pneumonia: 7 (1.39%) Pulm. thromboembolism: 0 (0%) | 39.76 | | Cardiac arrest: 1.39 | Permanent: 1.79 | 1.79 | | # INTUITIVE {13} da Vinci Surgical System (IS5000) Traditional 510(k) Page 10 of 28 | Author | Study Arms | Study Size (N) | CPB.time (minutes) | XC time (minutes) | Ventilation time (hours) | Prolonged mechanical ventilation (%) | Pulmonary complications (%) | Atrial fibrillation (%) | MI 30-day (%) | Cardiac arrest 30-day (%) | Stroke 30-day (%) | Renal failure 30-day (%) | Discharge to nursing facility / rehab (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | 23. Watanabe (2024) | Robotic | 577 | Median: 130 | Median: 80 | NR | 0.7 | NR | 5.9 | 0 | NR | 1.2 | 0.2 | NR | | | Mini-Thoracotomy | 577 | Median: 150 | Median: 103 | | 0.3 | | 5.2 | 0.2 | | 0.7 | 0 | | | 24. Wei (2020) | Robotic | 121 | 123.8 ± 34.9 | 84.9 ± 24.3 | 14.6 ± 4.4 | NR | Pleural effusion w/ pleurocentesis: 1.7 | NR | | | | | | | | Mini-Thoracotomy | 113 | 153.2 ± 25.6 | 111.8 ± 23.0 | 10.5 ± 6.6 | | Pleural effusion w/ pleurocentesis: 0.9 | | | | | | | | 25. Zheng (2022) | Robotic | 69 | Median: 85 | Median: 57 | NR | 1.4 | Pleural effusion requiring drainage: 0 Pneumothorax: 0 Pneumonia: 0 | 24.6 | NR | | | | | | | Mini-Thoracotomy | 69 | Median: 88 | Median: 47 | | 0 | Pleural effusion requiring drainage: 4.3 Pneumothorax: 2.9 Pneumonia: 1.4 | 34.8 | | | | | | * Study reports data for overall cohort and mitral valve repair separately Table 3: da Vinci vs. Non Robotic-Assisted CABG Main Clinical Outcomes | Author | Study Arms | Study Size (N) | Operating Time (minutes) | Conversion to Sternotomy (%) | Blood Transfusion (%) | Number of Transfused Units (n) | ICU Stay (days) | LOS (days) | Postoperative Complications 30-d (%) | Mortality 30-d (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | Reoperation for revascularization 30-d (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | 1. Algoet (2024) | Robotic | 54 | 364.0 ± 71.0 | NR | In-hospital: 16.7 | NR | 0.78 ± 1.70 | 6.78 ± 2.4 | NR | 0 | 0 | NR | 3.7 | TVR: 1.9 | | | Open | 54 | 286.1 ± 45.8 | | In-hospital: 38.9 | | 1.91 ± 1.01 | 8.01 ± 2.5 | | 0 | 0 | | 9.3 | TVR: 1.9 | | 2. Bachinsky (2012) | Robotic | 25 | 386 ± 49.4 | NR | 12 | 0.24 ± 0.72 | 28.50h ± 13.9h | 5.10 ± 2.8 | NR | 0 | NR | 0 | | | | | Open | 27 | 261 ± 36.8 | | 67 | 1.78 ± 2 | 57.89h ± 84.7h | 8.19 ± 5.4 | | 4 | | | | 0 | | 3. Basman (2020) | Robotic | 100 | NR | 0 | NR | 5.7 ± 7.5 | NR | 0 | NR | | | | | | | | Open | 100 | | NA | | | | 7.5 ± 3.4 | | | | | 0 | | | 4. Cavallaro (2014) | Robotic | 2582 | NR | 16.4 | NR | 6.3 ± 5.6 | Cardiac: 11.6 | 0.6 | NR | | | | | | | | Open | 481546 | | | | | 31.3 | 9.0 ± 6.7 | | | | | Cardiac: 10.8 | 1.8 | | 5. Dokollari (2023) | Robotic | 267 | 5.5h ± 1.1h | NR | Intraop: 3.4 Postop: 15.4 | NR | Median: 31.2h | Median: 5 | NR | 0.4 | 9.0 | 0.8 | NR | PCI: 1.5 | | | Open | 267 | 6.2h ± 1.4h | | Intraop: 36.7 Postop: 50.2 | | Median: 65.0h | Median: 7 | | 0 | 3.4 | 0.4 | | PCI: 0.8 | | 6. Ezelsoy (2015) | Robotic | 35 | 186.93 | 0 | NR | 0.23 ± 0.55 | 1.09 ± 0.28 | 6.63 ± 1.03 | NR | 0 | NR | | | | INTUITIVE {14} da Vinci Surgical System (IS5000) Traditional 510(k) Page 11 of 28 | Author | Study Arms | Study Size (N) | Operating Time (minutes) | Conversion to Sternotomy (%) | Blood Transfusion (%) | Number of Transfused Units (n) | ICU Stay (days) | LOS (days) | Postoperative Complications > 30-d (%) | Mortality 30-d (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | Reoperation for revascularization 30-d (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | Open | 35 | NR | NA | | 0.60 ± 0.91 | 1.66 ± 0.97 | 7.80 ± 2.29 | | 0 | | | | | | 7. Ezelsoy (2016) | Robotic | 50 | NR | 1.3 | 5.62 | NR | 0 | NR | | | | | | | | | Open | 50 | | | | | 2.1 | | | | | 7.96 | 0 | | | 8. Giambruno (2018) | Robotic | 144 | NR | 5 | In-hospital: 14 | NR | 1.0 ± 0.8 | 4.5 ± 2.1 | NR | 0 | NR | 2.8 | NR | PCI or CABG: 3.5 | | | Open | 546 | | NA | In-hospital: 25 | | 1.7 ± 2.3 | 6.7 ± 4.7 | | 1.3 | | 1.7 | | PCI or CABG: 0.6 | | 9. Gianoli (2024) | Robotic | 79 | NR | 2.5 | RBC: 3.8 | NR | 0.6 ± 0.7 | 4.0 ± 2.0 | NR | 0 | To ICU: 0 | NR | Rethoracotomy: 3.8 | NR | | | Open (ON) | 158 | | NA | RBC: 4.4 | | 1.0 ± 0.4 | 4.8 ± 2.7 | | 0 | To ICU: 2.5 | | Rethoracotomy: 3.2 | | | | Robotic | 80 | | 2.5 | RBC: 3.7 | | 0.6 ± 0.7 | 4.0 ± 2.0 | | 0 | To ICU: 0 | | Rethoracotomy: 3.7 | | | | Open (OFF) | 149 | | NA | RBC: 4.0 | | 1.1 ± 0.7 | 5.3 ± 3.6 | | 0 | To ICU: 2.0 | | Rethoracotomy: 2.0 | | | 10. Gong (2016) | Robotic | 71 | 220.8 ± 23.1 | 4.2 | 15.5 | NR | 30.6h ± 8.7h | 7.8 ± 3.0 | NR | 0 | NR | 1.4 | NR | | | | MCAB | 61 | 185.5 ± 49.3 | 3.3 | 18.0 | | 35.2h ± 9.4h | 9.2 ± 3.8 | | 1.6 | | 1.6 | | | | 11. Hage (2019) | Robotic | 143 | NR | 5 | In-hospital: 15 | NR | 1.0 ± 0.8 | 4.5 ± 2.1 | NR | In-hospital: 0 | NR | 3.5 | NR | PCI or CABG: 3.4 | | | Open | 201 | | NA | In-hospital: 28 | | 1.8 ± 1.3 | 8.1 ± 5.8 | | In-hospital: 1 | | 1.5 | | PCI or CABG: 0 | | 12. Halkos (2014) | Robotic | 26 | 210 ± 54 | NR | 30.8 | 0.3 ± 0.8 | 30.4h ± 19.8h | 4.2 ± 1.3 | NR | 0 | NR | 0 | NR | | | | Open | 28 | 274 ± 79 | | 71.4 | 1.5 ± 1.4 | 35.8h ± 25.7h | 5.6 ± 1.8 | | 0 | | | | 0 | | 13. Jegaden (2011) | Robotic | 59 | 3.4h ± 0.7h | 0 | NR | 0.96 ± 0.8 | 5.5 ± 1.6 | NR | 1.7 | NR | 8.5 | 6.8 | NR | | | | Open | 48 | 3.2h ± 0.6h | NA | | | 1.7 ± 2.7 | | 7.0 ± 3.0 | | 0 | 2.0 | | 0 | | 14. Kiai (2019) | Robotic | 147 | NR | 14 | NR | 1.0 ± 0.8 | 4.5 ± 2.1 | NR | 0 | NR | 2.8 | NR | | | | | Open | 682 | | | | 25 | 1.7 ± 2.3 | | 6.7 ± 4.7 | | 1.3 | | | 1.7 | | 15. Kofler (2017) | Robotic | 134 | NR | Median RBC: 0 | 39.0h ± 77.0h | 8.4 ± 4.8 | NR | 0 | NR | 5.2 | NR | | | | | | Open | 134 | | | | Median RBC: 0 | | 40.8h ± 58.6h | | 7.8 ± 4.3 | | | 1.5 | 2.2 | | 16. Leyvi (2014) | Robotic | 150 | 3.7h ± 1.1h | 0.67 | Intraop: 6.00 Postop: 10.67 | NR | Median: 6 | 2.67 | 0 | NR | 1.33 | 0 | NR | | | | Open | 1619 | 4.8h ± 1.2h | NA | Intraop: 20.30 Postop: 21.28 | | | Median: 9 | 11.54 | | 2.04 | 2.72 | | 1.48 | | 17. Leyvi (2016) | Robotic | 141 | 3.51h ± 0.11h | 1.33 | 12.77% | NR | Median: 31h | Median: 6 | 4.26 | 0 | 8.51 | 1.42 | 0 | NR | | | Open | 141 | 4.66h ± 0.13h | NA | 34.75% | | Median: 52h | Median: 7 | 13.48 | 1.42 | 4.26 | 3.55 | 0.71 | | INTUITIVE {15} da Vinci Surgical System (IS5000) Traditional 510(k) Page 12 of 28 | Author | Study Arms | Study Size (N) | Operating Time (minutes) | Conversion to Sternotomy (%) | Blood Transfusion (%) | Number of Transfused Units (n) | ICU Stay (days) | LOS (days) | Postoperative Complications > 30-d (%) | Mortality 30-d (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | Reoperation for revascularization 30-d (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | 18. Lin (2021) | Robotic | 281 | NR | 5.4 ± 10.8 | 11.2 ± 12.7 | NR | In-hospital: 2.5 | NR | | | | | | | | | Open | 235 | | | | | 11.4 ± 14.5 | | | | | 17.4 ± 11.9 | In-hospital: 7.3 | | | 19. Patel (2018) | Robotic | 207 | NR | 0.7 | RBC: 14.0 | NR | 7.1 ± 8.0 | NR | 0.5 | NR | 4.3 | NR | 0.5 | | | | Open | 207 | | NA | RBC: 28.5 | | | | 8.4 ± 5.7 | | 0.5 | | 3.4 | 1.0 | | 20. Raad (2016) | Robotic | 142 | NR | 6.0 | NR | 5.0 ± 3.8 | NR | 16 | 0.7 | NR | | | | | | | Open | 142 | | | | | | | 23 | | | 6.7 ± 3.8 | 15 | 2.1 | | 21. Spanjersberg (2022) | Robotic | 102 | NR | 8.8 | NR | Median: 5 | NR | 0 | NR | Resternotomy 48h: 2 | | | | | | | Open | 102 | | | | | | 6.9 | | | | Median: 7 | 0 | Resternotomy 48h: 2 | | 22. Su (2018) | Robotic | 139 | NR | 0 | NR | Median: 3 | Median: 9 | NR | 1.4 | NR | | | | | | | Open | 147 | | NA | | | Median: 7 | | Median: 15 | | | | | 10.2 | | 23. Torregrossa (2022a) Robotic-asst | Robotic | 273 | Median: 6.00h | NR | Intraop: 13.2 Postop: 33.0 | NR | Median: 46.1h | Median: 5 | NR | Operative: 1.47 | 10.3 | 0.73 | NR | 0 | | | Open | 273 | Median: 5.38h | | Intraop: 32.2 Postop: 54.9 | | Median: 49.8h | Median: 6 | | Operative: 1.47 | 11.4 | 0.37 | | 0.37 | | 24. Torregrossa (2022b) Robotic hybr | Robotic | 31 | Median: 5.97h | NR | Intraop: 6.5 Postop: 25.8 | NR | Median: 28.1h | Median: 4 | NR | Operative: 3.23 | 12.90 | 0 | NR | 0 | | | Open | 31 | Median: 5.40h | | Intraop: 19.4 Postop: 54.8 | | Median: 48.9h | Median: 6 | | Operative: 0 | 6.45 | 0 | | 0 | | 25. Torregrossa (2022c) Hybrid rob | Robotic | 181 | Median: 5.80h | NR | Intraop: 10.5 Postop: 33.7 | NR | Median: 45.3h | Median: 5 | NR | Operative: 1.66 | 11.6 | 1.10 | NR | 0 | | | Open (ON) | 138 | Median: 6.73h | | Intraop: 82.6 Postop: 63.0 | | Median: 72.6h | Median: 7 | | Operative: 2.17 | 15.2 | 1.45 | | 0 | | | Open (OFF) | 412 | Median: 5.43h | | Intraop: 35.4 Postop: 60.0 | | Median: 52.2h | Median: 6 | | Operative: 0.73 | 10.4 | 0.49 | | 0.24 | | 26. Whellan (2016) | Robotic | 9862 | NR | Median: 4 | Major: 10.2 | Operative: 1.2 Discharge: 1.0 | NR | 2.3 | NR | | | | | | | | Non-Robotic | 95634 9 | | | | | | Median: 5 | | | Major: 13.5 | Operative: 1.5 Discharge: 1.2 | 2.0 | | | 27. Wu (2019) | Robotic | 22 | 12.7h ± 1.7h | NR | In-hospital PRBC: 2.1 ± 2.0 | 4.8 ± 3.5 | 21.0 ± 8.8 | In-hospital: 18.2 | 0 | NR | | | | | | | Open | 22 | 8.5h ± 1.5h | | | In-hospital PRBC: 1.4 ± 2.2 | 5.0 ± 3.3 | 24.4 ± 14.0 | In-hospital: 27.8 | | | | | 0 | | 28. Yasar (2023) | Robotic | 158 | NR | 9.5 | NR | 0 | NR | | | | | | | | | | MCAB | 116 | | 9.5 | | | | | | | 0.86 | | | | INTUITIVE {16} da Vinci Surgical System (IS5000) Traditional 510(k) Page 13 of 28 | Author | Study Arms | Study Size (N) | Operating Time (minutes) | Conversion to Sternotomy (%) | Blood Transfusion (%) | Number of Transfused Units (n) | ICU Stay (days) | LOS (days) | Postoperative Complications > 30-d (%) | Mortality 30-d (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | Reoperation for revascularization 30-d (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | 29. Yokoyama (2021) | Robotic | 7330 | NR | 11.0 | NR | 7.3 ± 6.2 | NR | In-hospital: 1.1 | NR | | | | | | | | Non-Robotic | 7330 | | | | | | 24.3 | | | | | 9.3 ± 6.6 | In-hospital: 2.1 | | 30. Yusuf (2024) | Robotic | 104 | NR | 1.92 | NR | 0.69 ± 1.29 | 2.82 ± 0.76 | 4.69 ± 0.93 | NR | Operative: 1.92 | NR | | | | | | Open | 104 | | NA | | 0.79 ± 1.13 | 3.41 ± 1.27 | 8.01 ± 1.98 | | Operative: 2.88 | | | | | | 31. Zaouter (2015) | Robotic | 38 | NR | 2.6 | 26 | Median RBC: 2 | Median: 21h | Median: 8 | NR | In-hospital: 0 | NR | 0 | NR | Graft failure: 5 | | | Open | 33 | | NA | 58 | Median RBC: 2 | Median: 45h | Median: 12 | | In-hospital: 0 | | 0 | | Graft failure: 0 | Table 4: da Vinci vs. Non Robotic-Assisted CABG Secondary Clinical Outcomes | Author | Study Arms | Study Size (N) | CPB Time (if on-pump) (min) | XC Time (min) | Ventilation Time (h) | Prolonged Ventilation Time (%) | Atrial Fibrillation (%) | MI 30-d (%) | Angina 30-d (%) | Stroke 30-d (%) | Renal Failure 30-d (%) | Ejection Fraction (%) | MACE (%) | Discharge Location (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | 1. Algoet (2024) | Robotic | 54 | NR | 31.5 | STEMI: 0 NSTEMI: 0 | NR | 0 | NR | 1.9 | NR | | | | | | | Open | 54 | | | | | 20.4 | | | | STEMI: 1.9 NSTEMI: 1.9 | 1.9 | 0 | | | 2. Bachinsky (2012) | Robotic | 25 | NR | 16 | Q-wave: 0 Non-Q-wave: 60 | NR | 0 | NR | | | | | | | | | Open | 27 | | | | | 30 | | | | | Q-wave: 0 Non-Q-wave: 92 | 0 | | | 3. Basman (2020) | Robotic | 100 | NR | 0 | NR | 0 | 0 | NR | | | | | | | | | Open | 100 | | | | | | | | | 0 | 0 | 0 | | | 4. Cavallaro (2014) | Robotic | 2582 | NR | 0.4 | 6.1 | NR | | | | | | | | | | | Open | 481546 | | | | | | | | 0.9 | 11.5 | | | | | 5. Dokollari (2023) | Robotic | 267 | NR | >24h: 1.5 | 17.6 | NR | 0.8 | Renal failure: 0.4 Dialysis: 0 | NR | | | | | | | | Open | 267 | | | | | | >24h: 5.6 | | | | 30.3 | 0.8 | Renal failure: 1.9 Dialysis: 1.1 | | 6. Ezelsoy (2015) | Robotic | 35 | NA | NA | 4.69 ± 1.20 | NR | Arrhythmia: 14 | NR | 0 | 62.657 | NR | | | | | | Open | 35 | 31.49 ± 6.32 | 15.74 ± 4.83 | 5.23 ± 0.97 | | Arrhythmia: 17 | | | | | | 6 | NR | | 7. Ezelsoy (2016) | Robotic | 50 | NR | 60.78 | NR | | | | | | | | | | | | Open | 50 | | | | | | | | | | | NR | | # INTUITIVE {17} da Vinci Surgical System (IS5000) Traditional 510(k) Page 14 of 28 | Author | Study Arms | Study Size (N) | CPB Time (if on-pump) (min) | XC Time (min) | Ventilation Time (h) | Prolonged Ventilation Time (%) | Atrial Fibrillation (%) | MI 30-d (%) | Angina 30-d (%) | Stroke 30-d (%) | Renal Failure 30-d (%) | Ejection Fraction (%) | MACE (%) | Discharge Location (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | 8. Giambruno (2018) | Robotic | 144 | NR | >24h: 0.7 | 12 | 1.4 | NR | 2.1 | Dialysis: 0 | NR | | | | | | | Open | 546 | | | | >24h: 2.0 | | 15 | 1.1 | | | | 2.4 | Dialysis: 0.4 | | 9. Gianoli (2024) | Robotic | 79 | 104.0 ± 11.6 | NA | NR | 0 | 11.4 | 0 | NR | Renal failure: 0 Dialysis: 0 | NR | 1.3 | NR | | | | Open (ON) | 158 | 74.4 ± 26.9 | 47.2 ± 18.3 | | 0.6 | 13.3 | 0.6 | | | | Renal failure: 0.6 Dialysis: 0 | | 1.3 | | | Robotic | 80 | 104.0 ± 11.6 | NA | | 0 | 11.2 | 0 | | | | Renal failure: 0 Dialysis: 0 | | 1.2 | | | Open (OFF) | 149 | NA | NA | | 3.3 | 12.1 | 1.3 | | | | Renal failure: 1.3 Dialysis: 0 | | 2.6 | | 10. Gong (2016) | Robotic | 71 | NR | >12h: 1.4 | Arrhythmia: 2.8 | 1.4 | NR | 1.4 | NR | | | | | | | | MCAB | 61 | | | | >12h: 4.9 | | | | | | Arrhythmia: 14.7 | 3.3 | 3.3 | | 11. Hage (2019) | Robotic | 143 | NR | >24h: 0.7 | In-hospital: 12 | In-hospital: 1.4 | NR | In-hospital: 2.1 | Dialysis: 0 | NR | | | | | | | Open | 201 | | | | >24h: 4.0 | | In-hospital: 19 | In-hospital: 0.5 | | | | In-hospital: 1.0 | Dialysis: 0.5 | | 12. Halkos (2014) | Robotic | 26 | NR | 4.4 ± 4.5 | >24h: 0 | NR | 0 | NR | 0 | NR | | | | | | | Open | 28 | | | 15.8 ± 17.6 | | >24h: 10.7 | | 0 | | | | | 0 | | 13. Jegaden (2011) | Robotic | 59 | NA | NA | 4.6 ± 2.4 | NR | 3.4 | NR | 0 | NR | | | | | | | Open | 48 | 52 ± 15 | 34 ± 15 | 8.0 ± 4.0 | | | | 2.0 | | | | | 2 | | 14. Kiai (2019) | Robotic | 147 | NR | 0.7 | NR | 1.4 | NR | 2.13 | Dialysis: 0 | NR | | | | | | | Open | 682 | | | | 2.0 | | 1.1 | 2.40 | | | | Dialysis: 0.4 | | | 15. Kofler (2017) | Robotic | 134 | 111.9 ± 99.6 | 68.3 ± 54.1 | 15.5 ± 58.4 | NR | 14.2 | 0 | NR | 0.7 | Dialysis: 2.2 | NR | | | | | Open | 134 | 66.8 ± 48.5 | 37.9 ± 27.3 | 16.3 ± 37.6 | | 18.5 | 2.2 | | 0 | Dialysis: 1.5 | | | | | 16. Leyvi (2014) | Robotic | 150 | NR | 0.67 | 12.67 | NR | <24h: 0.67 >24h: 0.67 | Dialysis: 0 | NR | Facility: 16.00 | | | | | | | Open | 1619 | | | | | | 4.79 | | | 17.84 | <24h: 1.17 >24h: 0.99 | Dialysis: 1.24 | Facility: 25.83 | | 17. Leyvi (2016) | Robotic | 141 | NR | Q-wave: 0 | NR | Permanent: 0 | Dialysis: 0.71 | NR | Facility: 16.31 | | | | | | | | Open | 141 | | | | | | | | Q-wave: 0 | Permanent: 1.42 | Dialysis: 0.71 | Facility: 19.15 | | | 18. Lin (2021) | Robotic | 281 | NR | | | | | | | | | | | | | | Open | 235 | | | | | | | | | | | | | | 19. Patel (2018) | Robotic | 207 | NA | NA | NR | >24h: 3.9 | NR | 0 | NR | 0.5 | 0.5 | NR | | | INTUITIVE {18} da Vinci Surgical System (IS5000) Traditional 510(k) Page 15 of 28 | Author | Study Arms | Study Size (N) | CPB Time (if on-pump) (min) | XC Time (min) | Ventilation Time (h) | Prolonged Ventilation Time (%) | Atrial Fibrillation (%) | MI 30-d (%) | Angina 30-d (%) | Stroke 30-d (%) | Renal Failure 30-d (%) | Ejection Fraction (%) | MACE (%) | Discharge Location (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | Open | 207 | 88.7 ±24.6 | 63.1 ±25.0 | | >24h: 3.4 | | 0.5 | | 1.0 | 1.9 | | | | | 20. Raad (2016) | Robotic | 142 | NR | 7.3 ± 20 | >24h: 3.5 | NR | 0 | Dialysis: 0 | NR | | | | | | | | Open | 142 | | | 10.5 ± 10 | | | | | | | >24h: 6.3 | 2.8 | Dialysis: 0.4 | | 21. Spanjersberg (2022) | Robotic | 102 | NR | 19.6 | NR | Home within 5-d: 51 | | | | | | | | | | | Open | 102 | | | | | | | | | 27.5 | Home within 5-d: 20 | | | | 22. Su (2018) | Robotic | 139 | NR | | | | | | | | | | | | | | Open | 147 | | | | | | | | | | | | | | 23. Torregrossa (2022a) Robotic-asst | Robotic | 273 | NR | >24h: 4.03 | 16.8 | NR | 1.47 | AKI: 1.83 Dialysis: 0.37 | NR | Home: 69.2 Rehab: 30.8 | | | | | | | Open | 273 | | | | | | >24h: 5.86 | | | 25.6 | 0.37 | AKI: 4.40 Dialysis: 1.83 | Home: 65.6 Rehab: 34.4 | | 24. Torregrossa (2022b) Robotic hybr | Robotic | 31 | NR | >24h: 0 | 9.68 | NR | 3.23 | AKI: 0 Dialysis: 0 | NR | Home: 77.4 Rehab: 22.6 | | | | | | | Open | 31 | | | | | | >24h: 3.23 | | | 22.6 | 0 | AKI: 0 Dialysis: 0 | Home: 74.2 Rehab: 25.8 | | 25. Torregrossa (2022c) Hybrid rob | Robotic | 181 | NR | >24h: 2.21 | 15.5 | NR | 1.10 | AKI: 0.55 Dialysis: 0 | NR | | | | | | | | Open (ON) | 138 | | | | | | >24h: 16.70 | | | | 29.0 | 1.45 | AKI: 2.17 Dialysis: 0 | | | Open (OFF) | 412 | | | | | | >24h: 5.58 | | | | 24.5 | 0.24 | AKI: 3.64 Dialysis: 1.46 | | 26. Whellan (2016) | Robotic | 9862 | Median: 88 | Median: 63 | NR | >24h: 5.6 | NR | 1.1 | NR | Permanent (>24h): 0.5 | 2.2% | NR | | | | | Non-Robotic | 956349 | Median: 90 | Median: 63 | | >24h: 8.6 | | 0.9 | | Permanent (>24h): 1.1 | 2.9% | | | | | 27. Wu (2019) | Robotic | 22 | 123.9 ± 96.2 | NR | 2.2d ± 1.8d | NR | In-hospital: 0 | NR | In-hospital: 0 | NR | | | | | | | Open | 22 | 131.4 ± 59.8 | | 2.3d ± 2.3d | | | | In-hospital: 0 | | | | | In-hospital: 0 | | 28. Yasar (2023) | Robotic | 158 | 72.1 ± 25.8 | 39.6 ± 19.7 | NR | | | | | | | | | | | | MCAB | 116 | 135.4 ± 45.2 | 64.2 ± 24.9 | | | | | | | | | | | | 29. Yokoyama (2021) | Robotic | 7330 | NR | | | | | | | 1.0 | AKI: 12.3 Dialysis: 0.8 | NR | | Routine: 45.0 Nursing | INTUITIVE {19} da Vinci Surgical System (IS5000) Traditional 510(k) Page 16 of 28 | Author | Study Arms | Study Size (N) | CPB Time (if on-pump) (min) | XC Time (min) | Ventilation Time (h) | Prolonged Ventilation Time (%) | Atrial Fibrillation (%) | MI 30-d (%) | Angina 30-d (%) | Stroke 30-d (%) | Renal Failure 30-d (%) | Ejection Fraction (%) | MACE (%) | Discharge Location (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | | | | | | facility: 13.4 Home: 40.0 | | | | | | | | | | Non-Robotic | 7330 | | | | | | | | 1.3 | AKI: 15.8 Dialysis: 0.8 | Routine: 39.7 Nursing facility: 22.4 Home: 34.5 | | | | 30. Yusuf (2024) | Robotic | 104 | NR | 9.42 ± 3.99 | NR | | | | | | | | | | | | Open | 104 | | | | | | | | | | | | 15.46 ± 10.22 | | 31. Zaouter (2015) | Robotic | 38 | NR | 18 | 0 | NR | 0 | Renal replacement therapy: 0 | NR | | | | | | | | Open | 33 | | | | | 9 | 0 | | | | 3 | Renal replacement therapy: 0 | | Table 5: da Vinci Robotic-Assisted Defect Closure Main Clinical Outcomes | Cardiac procedure | Author | Study Arms | Study Size (N) | Operating time (minutes) | Conversion to open surgery (%) | Blood transfusion (%) | Number of transfused units, n | ICU LOS (days) | LOS (days) | Postop. complications 30-d (%) | Mortality 30-d (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | Postop. ejection fraction (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | ASD | 1. Liu (2023) Comparative retro. | Robotic | 101 | 190.4 ± 12.68 | NR | 3/101 | NR | 18.2h ± 4.6h | 8 ± 1.9 | NR | 1/101 | NR | 1/100 | NR | | | | | Sternotomy | 162 | 181.4 ± 12.3 | | 10/162 | | 23.5h ± 5.6h | 10 ± 1.5 | | 0/162 | | 2/162 | | | | | | p-value R/S | | <0.05 | | <0.05 | | <0.05 | <0.05 | | NS | | NS | | | | MVr + LAA | 2. Chickwe (2023) Comparative retro. Excluding concomitant cyromaze | MVr + LAA | 431 | NR | Median 5 (IQR 4-6) | NR | 0 | 5.6 | 0.5 | Valve dysfunction: 0 | NR | | | | | | | | MVr | 333 | | | | | | Median 5 (IQR 4-6.5) | 0.9 | | 3.9 | 3 | Valve dysfunction: 1.2 | | | | | p-value MVr/MVr+LAA | | | | | | | 0.6 | 0.1 | | 0.29 | 0.008 | 0.04 | | | Isolated MVr | 13. Chemtob (2022) Comparative pro. | Robotic | 605 | NR | 0 | Postop RBC: 10 | NR | 25 (IQR 21-51) | 5.2 ± 2.9 | NR | In-hospital: 0 | NR | 1.3 | 0.66 | NR | | | | Sternotomy | 395 | | NA | Postop RBC: 17 | | 27 (IQR: 21-66) | 5.9 ± 2.3 | | In-hospital: 0 | | 0.51 | 0.25 | | | | | p-value R/S | | | NA | 0.0008 | | 0.001 | <0.0001 | | NA | | 0.2 | 0.4 | | # INTUITIVE {20} da Vinci Surgical System (IS5000) Traditional 510(k) Page 17 of 28 | Cardiac procedure | Author | Study Arms | Study Size (N) | Operating time (minutes) | Conversion to open surgery (%) | Blood transfusion (%) | Number of transfused units, n | ICU LOS (days) | LOS (days) | Postop. complications 30-d (%) | Mortality 30-d (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | Postop. ejection fraction (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | Isolated MVr | 14. Seo (2019) Comparative retro. | Robotic | 175 | 349 ± 13 | 2.2 | Intraop: 35 Postop: 15 | NR | 84 ± 63 | 6.5 ± 3.2 | 30 | 0.6 | 5 | 2 | Other than bleeding: 0.6 | 54 ± 8 | | | | Sternotomy | 259 | 312 ± 121 | NA | Intraop: 50 Postop: 27 | | 144 ± 126 | 9.9 ± 7.2 | 46 | 3 | 14 | 1 | Other than bleeding: 2 | 52 ± 12 | | | | p-value R/S | | 0.001 | NA | 0.003 0.004 | | <0.001 | <0.001 | 0.001 | 0.105 | 0.001 | 0.89 | 0.157 | 0.176 | | Isolated MVr | 15. Stevens (2012) Comparative retro. | Robotic | 447 | NR | 18 | NR | 4 (IQR 4-6) | NR | 1.1 | 12 | 3 | NR | | | | | | | Mini-Thoracotomy | 481 | | | | | | 43 | 5 (IQR 4-7) | 2.1 | | | 11 | 4 | | | | Sternotomy | 377 | | | | | | 63 | 5 (IQR 4-7) | 3.8 | | | 11 | 5 | | | | p-value R/MT/S | | | | | | | <0.001 | <0.001 0.016 | 0.042 | | | 0.711 | 0.674 | | MVR concomitant with PFO | 16. Mihaljevic (2011) Comparative retro. Matched | Robotic | 106 | Median: 387 | NR | 0: 98 (92%) 1: 3 (2.8%) 2: 2 (1.9%) >3: 3 (2.8%) | NR | ISI calc. Median 4.2 | 8.5 | 0 | NR | 3.8 | NR | | | | | | Sternotomy | 106 | ISI calc. Median: 278 | | | | 0: 90 (85%) 1: 9 (8.5%) 2: 6 (5.7%) >3: 1 (0.94%) | ISI calc. Median 5.2 | 9.4 | | 0 | | | 3.8 | | | | p-value R/S | | <0.0001 | | | | 0.1 | <0.001 | 0.8 | | NA | | | 1 | | | | Robotic | 223 | Median: 387 | | | | 0: 199 (89%) 1: 10 (4.5%) 2: 7 (3.1%) >3: 7 (3.1%) | ISI calc. Median 4.2 | 11 | | 0 | | | 4.5 | | | | Partial Sternotomy | 223 | ISI calc. Median: 277 | | | | 0: 202 (91%) 1: 11 (4.9%) 2: 9 (4.0%) >3: 1 (0.45%) | ISI calc. Median 5.8 | 9.9 | | 0 | | | 4.9 | # INTUITIVE {21} da Vinci Surgical System (IS5000) Traditional 510(k) Page 18 of 28 | Cardiac procedure | Author | Study Arms | Study Size (N) | Operating time (minutes) | Conversion to open surgery (%) | Blood transfusion (%) | Number of transfused units, n | ICU LOS (days) | LOS (days) | Postop. complications 30-d (%) | Mortality 30-d (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | Postop. ejection fraction (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | p-value R/PS | | <0.0001 | | | 0.2 | | <0.001 | 0.8 | NA | | 0.8 | | | | | | Robotic | 113 | Median: 387 | | | 0: 101 (89%) 1: 5 (4.4%) 2: 2 (1.8%) >3: 5 (4.4%) | | ISI calc. Median 4.2 | 12 | 0 | | 6.2 | | | | | | Mini-Thoracotomy | 113 | ISI calc. Median: 327 | | | 0: 107 (95%) 1: 3 (2.7%) 2: 1 (0.88%) >3: 2 (1.8%) | | ISI calc. Median 5.1 | 2.7 | 0 | | 1.8 | | | | | | p-value R/MT | | <0.0001 | | | 0.5 | | <0.001 | 0.006 | NA | | 0.09 | | | | MVR concomitant with PFO | 17. Mori (2024) Database Matched | Robotic | 5540 | 375 ± 101 | NR | Intraop: 13 Postop: 15 | NR | 48 ± 62 | 5 ± 3.59 | In-hospital: 31 | Operative: 0.8 | 6.6 | NR | 3.1 | NR | | | | Mini-Thoracotomy | 5540 | 332 ± 88 | | Intraop: 12 Postop: 13 | | 51 ± 87 | 5.57 ± 3.54 | In-hospital: 34 | Operative: 0.8 | 7.1 | | 2.6 | | | | | p-value R/MT | | <0.001 | | 0.3 <0.001 | | 0.0366 | <0.001 | 0.011 | >0.9 | <0.001 | | 0.076 | | | | | Robotic | 6962 | 374 ± 96 | | Intraop: 13 Postop: 15 | | 46 ± 59 | 4.95 ± 3.47 | NR | Operative: 0.7 | 6.1 | | 2.9 | | | | | Sternotomy | 6962 | 305 ± 81 | | Intraop: 17 Postop: 17 | | 53 ± 65 | 6.21 ± 4.07 | | Operative: 0.6 | 6.8 | | 2.7 | | | | | p-value R/S | | <0.001 | | <0.001 <0.001 | | <0.001 | <0.001 | | 0.2 | <0.001 | | 0.5 | | | MVR concomitant with PFO | 18. Suri (2011) Comparative retro. Matched | Robotic | 95 | NR | 0 | ISI calc. Postop: 12 | ≥2: 10.53 | 31.29 ± 107.61 | 4.46 ± 6.38 | Any: 6.31 Major: 4.21 | 0 | NR | 1.05 | 0 | NR | | | | Sternotomy | 95 | | NA | ISI calc. Postop: 18 | ≥2: 18.95 | 25.92 ± 20.20 | 5.34 ± 1.67 | Any: 6.31 Major: 5.26 | 0 | | 2.1 | 1.05 | | | | | p-value R/S | | | NA | ISI calc. 0.308 | 0.1 | <0.001 | <0.001 | 1.00 1.00 | NA | | 1 | 1 | | | MVR concomitant with PFO | 19. Suri (2013) Comparative retro. All Pre-July | Robotic | 185 | NR | ≥2 RBC: 7 | NR | STS: 3.8 | NR | 0 | Valve dysfunction: 0.5 | NR | | | | | | | | Sternotomy | 185 | | | | | | | ≥2 RBC: 16.2 | | STS: 3.2 | 1.6 | Valve dysfunction: 0.5 | | | | | p-value R/S | | | | | | | | 0.009 | | >0.99 | 0.25 | >0.99 | | # INTUITIVE {22} da Vinci Surgical System (IS5000) Traditional 510(k) Page 19 of 28 | Cardiac procedure | Author | Study Arms | Study Size (N) | Operating time (minutes) | Conversion to open surgery (%) | Blood transfusion (%) | Number of transfused units, n | ICU LOS (days) | LOS (days) | Postop. complications 30-d (%) | Mortality 30-d (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | Postop. ejection fraction (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | 2009 Post-July 2009 | Robotic | 66 | NR | 24.7 | 4 | NR | Early: 0 | NR | | | | | | | | | | Sternotomy | 111 | | | | | 26.7 | | | | | 5.6 | Early: 0 | | | | | p-value R/S | | | | | | 0.006 | | | | | <0.001 | NA | | | | | Robotic | 119 | | | | | 13.7 | | | | | 3.7 | Early: 0 | | | | | Sternotomy | 74 | | | | | 27.8 | | | | | 5.7 | Early: 0 | | | | | p-value R/S | | | | | | <0.001 | | | | | <0.001 | NA | | | MVR concomitant with PFO | 20. Wang (2018) Database Matched | Robotic | 503 | NR | Intraop: 20.48 | Intraop: 1.84 ± 2.09 Postop: 2.23 ± 2.69 | 41.96 ± 46.91 | 5.26 ± 2.88 | NR | Operative: 0.6 In-hospital: 0.2 30-d: 0.6 | NR | 2.98 | Valve dysfunction: 0 | NR | | | | | Sternotomy | 503 | | | Intraop: 35.19 | Intraop: 1.49 ± 1.43 Postop: 1.86 ± 1.56 | 61.81 ± 61.40 | | 6.92 ± 3.54 | | Operative: 1.19 In-hospital: 1.19 30-d: 1.4 | 1.99 | | Valve dysfunction: 0.4 | | | | p-value R/S | | | | <0.0001 | 0.20 0.72 | <0.0001 | | <0.0001 | | 0.32 0.06 NR | 0.31 | | 0.16 | | MVR concomitant with PFO | 21. Zheng (2022) Comparative retro. Matched | Robotic | 69 | NR | 1.4 | 1.4 | NR | 4 (IQR 3-4) | NR | Operative: 0 | 13 | 0 | Valve dysfunction: 0 | NR | | | | | Mini-Thoracotomy | 69 | | 1.4 | 2.9 | | | | 4 (IQR 4-6) | Operative: 0 | 11.6 | 1.4 | | Valve dysfunction: 2.9 | | | | p-value R/MT | | | >0.99 | >0.99 | | | | 0.003 | NR | 0.8 | >0.99 | | >0.99 | Table 6: da Vinci Robotic-Assisted Defect Closure Secondary Clinical Outcomes | Cardiac procedure name | Author | Study Arms | Study Size (N) | CPB time (minutes) | XC time (minutes) | Ventilation time (hours) | Prolonged mechanical ventilation (%) | Pulmonary complications (%) | Cardiac arrest (%) | Myocardial infarction (%) | New-onset atrial fibrillation (%) | Renal failure (%) | Stroke (%) | Discharge location (%) | Atrial septal leakage (%) or Postoperative residual flow (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | ASD | | Robotic | 101 | 69.3 ± 7.8 | 0 | NR | | | | | | | | | 0 | # INTUITIVE {23} da Vinci Surgical System (IS5000) Traditional 510(k) Page 20 of 28 | Cardiac procedure name | Author | Study Arms | Study Size (N) | CPB time (minutes) | XC time (minutes) | Ventilation time (hours) | Prolonged mechanical ventilation (%) | Pulmonary complications (%) | Cardiac arrest (%) | Myocardial infarction (%) | New-onset atrial fibrillation (%) | Renal failure (%) | Stroke (%) | Discharge location (%) | Atrial septal leakage (%) or Postoperative residual flow (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | 1. Liu (2023) Comparative retro. | Sternotomy | 162 | 60.3 ± 7.8 | 0 | | 0 | | | | | | | | | | | | p-value R/S | | <0.05 | NS | | | | | | | | | | NR | | MVr + LAA | 2. Chickwe (2023) Comparative retro. Excluding concomitant cyromaze | MVr + LAA | 431 | 113 (IQR 101-126) | 72 (IQR 63-83) | NR | 0.5 | NR | 31.8 | Req. dialysis: 0.2 | 0.5 | NR | 1.4 | | | | | | MVr | 333 | 131 (IQR 113-154) | 87 (IQR 72-108) | | | | 0.6 | 25.2 | Req. dialysis: 1.2 | | 2.1 | 4.2 | | | | | p-value MVr/MVr+LAA | | <0.0001 | <0.0001 | | | | 1 | 0.047 | 0.34 | | 0.046 | 0.02 | | | Isolated MVr | 13. Chemtob (2022) Comparative pro. | Robotic | 605 | 123 ± 33 | 73 ± 20 | NR | 25 | 0 | 0.5 | NR | | | | | | | | | Sternotomy | 395 | 74 ± 25 | 55 ± 19 | | | | | | | 34 | 0 | 1 | | | | | p-value R/S | | NR | NR | | | | | | | 0.003 | NA | 0.3 | | | Isolated MVr | 14. Seo (2019) Comparative retro. | Robotic | 175 | NR | 133 ± 47 | NR | 1 | 0.6 | NR | 13 | 0.6 | 0.6 | NR | | | | | | Sternotomy | 259 | | 115 ± 52 | | | 1 | | 3 | 18 | 2 | | | 1 | | | | p-value R/S | | | <0.001 | | | 0.725 | | 0.071 | 0.164 | 0.157 | | | 0.53 | | Isolated MVr | 15. Stevens (2012) Comparative retro. | Robotic | 447 | 164 ± 40 | 125 ± 31 | NR | 28 | NR | 0.7 | NR | | | | | | | | | Mini-Thoracotomy | 481 | 141 ± 51 | 87 ± 42 | | | | | | | 20 | 1.2 | | | | | | Sternotomy | 377 | 122 ± 51 | 86 ± 34 | | | | | | | 26 | 3.4 | | | | | | p-value R/MT/S | | <0.001 | <0.001 | | | | | | | 0.008 | 0.008 | | | | MVR concomitant with PFO | 16. Mihaljevic (2011) Comparative retro. Matched | Robotic | 106 | Median: 116 | Median: 85 | NR | >24h: 1.9 | Pleural effusion: 0 | NR | 26 | NR | 1.9 | NR | | | | | | Sternotomy | 106 | ISI calc. Median: 74 | ISI calc. Median: 57 | | >24h: 2.8 | Pleural effusion: 8.5 | | | | 30 | | | 0.94 | | | | p-value R/S | | 0.007 | <0.0001 | | 0.6 | 0.002 | | | | 0.5 | | | 0.6 | | | | Robotic | 223 | Median: 116 | Median: 85 | | >24h: 4.9 | Pleural effusion: 1.8 | | | | 22 | | | 2.7 | | | | Partial Sternotomy | 223 | ISI calc. Median: 76 | ISI calc. Median: 59 | | >24h: 2.2 | Pleural effusion: 8.5 | | | | 35 | | | 3.1 | | | | p-value R/PS | | 0.007 | <0.0001 | | 0.1 | 0.001 | | | | 0.002 | | | 0.8 | INTUITIVE {24} da Vinci Surgical System (IS5000) Traditional 510(k) Page 21 of 28 | Cardiac procedure name | Author | Study Arms | Study Size (N) | CPB time (minutes) | XC time (minutes) | Ventilation time (hours) | Prolonged mechanical ventilation (%) | Pulmonary complications (%) | Cardiac arrest (%) | Myocardial infarction (%) | New-onset atrial fibrillation (%) | Renal failure (%) | Stroke (%) | Discharge location (%) | Atrial septal leakage (%) or Postoperative residual flow (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | Robotic | 113 | Median: 116 | Median: 85 | | >24h: 3.5 | Pleural effusion: 1.8 | | | 19 | | 1.8 | | | | | | Mini-Thoracotomy | 113 | ISI calc. Median: 106 | ISI calc. Median: 66 | | >24h: 0.88% | Pleural effusion: 1.8 | | | 26 | | 0 | | | | | | p-value R/MT | | 0.007 | <0.0001 | | 0.2 | 1 | | | 0.3 | | 0.2 | | | | MVR concomitant with PFO | 17. Mori (2024) Database Matched | Robotic | 5540 | 145 ± 57 | 95 ± 37 | 7.7 ± 33.9 | 3.1 | Pneumonia: 0.7 | | | 22 | 0.8 | Permanent: 1.2 | | | | | | Mini-Thoracotomy | 5540 | 136 ± 54 | 94 ± 36 | 8.8 ± 38.8 | 3.1 | Pneumonia: 0.8 | | | 25 | 0.6 | Permanent: 1 | | | | | | p-value R/MT | | <0.001 | 0.3 | NR | >0.9 | 0.8 | | | 0.002 | 0.2 | 0.4 | | | | | | Robotic | 6962 | 143 ± 55 | 93 ± 36 | 7.4 ± 34.6 | 2.9 | Pneumonia: 0.6 | | | 22 | 0.7 | Permanent: 1.1 | | | | | | Sternotomy | 6962 | 104 ± 45 | 79 ± 35 | 9.3 ± 42.6 | 3.2 | Pneumonia: 0.8 | | | 30 | 0.7 | Permanent: 1 | | | | | | p-value R/S | | <0.001 | <0.001 | NR | 0.2 | 0.4 | | | <0.001 | >0.9 | 0.8 | | | | MVR concomitant with PFO | 18. Suri (2011) Comparative retro. Matched | Robotic | 95 | 113.32 ± 40.39 | 81.40 ± 28.33 | 14.07 ± 88.92 | >48h: 1.05 | | | 3.16 | Permanent: 0 | 0 | 1.05 | | | | | | Sternotomy | 95 | 48.22 ± 24.55 | 35.94 ± 19.66 | 8.13 ± 6.25 | >48h: 1.05 | | | 0 | Permanent: 0 | 1.05 | 0 | | | | | | p-value R/S | | <0.001 | <0.001 | <0.001 | 1 | | | 0.25 | NA | 1 | 1 | | | | MVR concomitant with PFO | 19. Suri (2013) Comparative retro. All Pre-July 2009 Post-July 2009 | Robotic | 185 | | | | >48h: 0.5 | | | 1.1 | In hospital: 18.4 | 0.5 | 0.5 | | | | | | Sternotomy | 185 | | | | >48h: 0 | | | 0 | In hospital: 30.3 | 0.5 | 0 | | | | | | p-value R/S | | | | | >0.99 | | | 0.5 | 0.01 | >0.99 | >0.99 | | | | | | Robotic | 66 | | | | | | | | | | | | | | | | Sternotomy | 111 | | | | | | | | | | | | | | | | p-value R/S | | | | | | | | | | | | | | | | | Robotic | 119 | | | | | | | | | | | | | | | | Sternotomy | 74 | | | | | | | | | | | | | | | | p-value R/S | | | | | | | | | | | | | | | MVR concomitant with PFO | 20. Wang (2018) Database Matched | Robotic | 503 | 135.62 ± 52.89 | 90.52 ± 34.53 | NR | 2.58 | Pneumonia: 0.99 Pulm. Thromboembolism: 0.3 | 0.8 | | 27.83 | 0.8 | Permanent: 0.99 | | | | | | Sternotomy | 503 | 109.97 ± 45.94 | 83.85 ± 38.24 | | 4.77 | Pneumonia: 1.39 Pulm. | 1.39 | | 39.76 | 1.79 | Permanent: 1.79 | | | INTUITIVE {25} da Vinci Surgical System (IS5000) Traditional 510(k) Page 22 of 28 | Cardiac procedure name | Author | Study Arms | Study Size (N) | CPB time (minutes) | XC time (minutes) | Ventilation time (hours) | | Prolonged mechanical ventilation (%) | Pulmonary complications (%) | Cardiac arrest (%) | Myocardial infarction (%) | New-onset atrial fibrillation (%) | Renal failure (%) | Stroke (%) | Discharge location (%) | Atrial septal leakage (%) or Postoperative residual flow (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | | | | | | | Thromboembolism: 0 | | | | | | | | | | | | p-value R/S | | <0.0001 | <0.0001 | | 0.06 | 0.56 0.11 | 0.36 | | <0.0001 | 0.16 | 0.28 | | | | | MVR concomitant with PFO | 21. Zheng (2022) Comparative retro. Matched | Robotic | 69 | 85 (IQR 73-105) | 57 (IQR 48-67) | NR | 1.4 | Pleural effusion req. drainage: 0 Pneumothorax: 0 Pneumonia: 0 | NR | 24.6 | NR | | | | | | | | | Mini-Thoracotomy | 69 | 88 (IQR 75-108) | 47 (IQR 37-58) | | 0 | Pleural effusion req. drainage: 4.3 Pneumothorax: 2.9 Pneumonia: 1.4 | | | | | | | | 34.8 | | | | p-value R/MT | | 0.27 | <0.001 | | >0.99 | 0.25 0.5 >0.99 | | | | | | | | 0.19 | Table 7: da Vinci Robotic-Assisted Extirpative Main Clinical Outcomes | Cardiac Procedure | Author | Study Arms | Study Size (N) | Operating time (minutes) | Conversion to open surgery (%) | Blood transfusion (%) | Number of transfused units, n | ICU LOS (days) | LOS (days) | Postop. complications 30-d (%) | | Mortality 30-d (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | Postop. Ejection Fraction (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | Myxoma Excision | 8. Kesavuori (2015) Comparative retro. | Robotic | 9 | 226 ± 39 | 0 | RBC: 44 | RBC: 1.67 ± NR | 1 (IQR 0) | 5.8 ± 1 | NR | 0 | NR | 56.8 ± 8.3 | | | | | | | Sternotomy | 18 | 139 ± 33 | NA | RBC: 72 | RBC: 2 ± NR | 1 (IQR 0) | 7 ± 1.6 | | 0 | | | | | 50.9 ± 6.3 | | | | p-value R/S | | <0.001 | NA | 0.219 | 0.403 | 0.495 | 0.023 | | NA | | | | | 0.235 | | Myxoma Excision | 9. Li (2017) Comparative retro. | Robotic | 53 | NR | 7/53 | NR | | | | | | | | | | | | | | Sternotomy | 84 | | | | | | | | 11/84 | | | | | | | | | Mini-thoracotomy | 10 | | | | | | | | 2/10 | | | | | | | | | p-value R/S/MT | | | | | | | | | 0.835 | | | | | | | Myxoma Excision | 10. Liu (2023) Comparative retro. | Robotic | 31 | 225.39 ± 33.83 | 0 | 64.5 | Total: 3 (IQR 0-4) | 20h (IQR 19h-41h) | 9 (IQR 8-11) | In-hospital: 0 | 0 | NR | 0 | NR | | | | | | Mini-thoracotomy | 15 | 297.13 ± 98.7 | 0 | 66.7 | Total: 3.5 (IQR 0-4.5) | 39h (IQR 38h-44h) | 9 (IQR 8-13) | In-hospital: 0 | 0 | | 0 | | | | | | | p-value R/T | | 0.015 | NA | 0.886 | 0.725 | 0.006 | 0.422 | NA | NA | | NA | | | | | Myxoma Excision | 11. Liu (2024) | Robotic | 30 | 226.4 ± 33 | 0 | NR | 3.5 (IQR 0-4) | 20h (IQR 18.8h-41h) | 9 (IQR 8-11.3) | NR | 0 | NR | 0 | NR | | | INTUITIVE {26} da Vinci Surgical System (IS5000) Traditional 510(k) Page 23 of 28 | Cardiac Procedure | Author | Study Arms | Study Size (N) | Operating time (minutes) | Conversion to open surgery (%) | Blood transfusion (%) | Number of transfused units, n | ICU LOS (days) | LOS (days) | Postop. complications 30-d (%) | | Mortality 30-d (%) | Readmission 30-d (%) | Reoperation for bleeding 30-d (%) | Reoperation for any reason 30-d (%) | Postop. Ejection Fraction (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | Comparative retro. | Sternotomy | 64 | 227.41 ± 35.88 | 0 | | 3.5 (IQR 2-4) | 21h (IQR 18h-41.5h) | 10 (IQR 8-14) | | 1.6 | | 0 | | | | | | | p-value R/S | | 0.897 | NA | | 0.39 | 0.556 | 0.04 | | 1 | | NA | | | | | Myxoma Excision | 12. Shilling (2012) Comparative retro. | Robotic | 16 | 2.7h ± 0.3h | NR | 13 | NR | 30.9h ± 18.4h | 3.6 ± 0.8 | NR | 0 | NR | 0 | 0 | NR | | | | | Sternotomy | 29 | 3.5h ± 0.9h | | 26 | | 47.7h ± 52.1h | 6.2 ± 5.1 | | 0 | | 0 | 3 | | | | | | p-value R/S | | 0.02 | | 0.3 | | 0.15 | 0.05 | | NA | | NA | 0.44 | | | Table 8: da Vinci Robotic-Assisted Extirpative Secondary Clinical Outcomes | Cardiac Procedure | Author | Study Arms | Study Size (N) | CPB time (minutes) | XC time (minutes) | Ventilation time (hours) | Prolonged mechanical ventilation (%) | Pulmonary complications (%) | Cardiac arrest (%) | Myocardial infarction (%) | New-onset atrial fibrillation (%) | Renal failure (%) | Stroke (%) | Discharge location (%) | Myxoma recurrence (%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | Myxoma Excision | 8. Kesavuori (2015) Comparative retro. | Robotic | 9 | 124 ± 30 | 67 ± 21 | 14.6 ± 5 | NR | Pneumonia: 0 | NR | 0 | NR | 0 | NR | 0 | | | | | Sternotomy | 18 | 54 ± 21 | 34 ± 15 | 9 ± 3 | | Pneumonia: 0 | | 6 | | | | 0 | 0 | | | | p-value R/S | | <0.001 | <0.001 | 0.001 | | 1 | | 1 | | | | 1 | NA | | Myxoma Excision | 9. Li (2017) Comparative retro. | Robotic | 53 | 72.9 ± 26.7 | 37.9 ± 15.1 | NR | Thoracic: 2/53 | NR | Arrhythmia: 4/53 | NR | | | | | | | | | Sternotomy | 84 | 65.1 ± 21.9 | 37.1 ± 16.2 | | | | | | | | | Thoracic: 1/84 | Arrhythmia: 5/84 | | | | Mini-thoracotomy | 10 | 87.4 ± 23.2 | 45.3 ± 17.5 | | | | | | | | | Thoracic: 0/10 | Arrhythmia: 2/10 | | | | p-value R/S/MT | | 0.008 | 0.266 | | | | | | | | | 0.645 | 0.212 | | Myxoma Excision | 10. Liu (2023) Comparative retro. | Robotic | 31 | 97.9 ± 24.48 | 55 (IQR 44-69.5) | 6 (IQR 3-15) | >24h: 0 | Pneumonia: 6.5 | NR | 19.4 | 0 | 3.2 | NR | | | | | | Mini-thoracotomy | 15 | 118.27 ± 38.82 | 70 (IQR 51-78) | 13 (IQR 5-19) | >24h: 6.7 | Pneumonia: 0 | | | 13.3 | 6.7 | | | 0 | | | | p-value R/T | | 0.035 | 0.124 | 0.035 | 0.326 | 1 | | | 0.928 | 0.326 | | | 1 | | Myxoma Excision | 11. Liu (2024) Comparative retro. | Robotic | 30 | 99.93 ± 22.3 | 57.8 ± 20.27 | 4.8 (IQR 2.8-12) | >24h: 0 | Pneumonia: 6.7 | NR | 16.7 | 0 | 3.3 | NR | 0 | | | | | Sternotomy | 64 | 76.28 ± 24.92 | 47.89 ± 18.1 | 8 (IQR 6-16) | >24h: 4.7 | Pneumonia: 6.3 | | | 18.8 | 1.6 | | 0 | 0 | | | | p-value R/S | | <0.001 | 0.019 | 0.005 | 0.549 | 1 | | | 0.807 | 1 | | 0.319 | NA | | Myxoma Excision | 12. Shilling (2012) Comparative retro. | Robotic | 16 | Perfusion: 91.3 ± 45.2 | 49.4 ± 37.6 | NR | >24h: 6 | Pneumonia: 0 Pulmonary embolism: 0 | NR | 0 | 0 | 0 | NR | | | | | | Sternotomy | 29 | Perfusion: 96.8 ± 42.1 | 52.1 ± 39.6 | | >24h: 11 | Pneumonia: 4 Pulmonary embolism: 0 | | | 17 | 10 | | | 0 | | | | p-value R/S | | 0.68 | 0.82 | | 1 | 1 | | | 0.14 | 0.54 | | | NA | Table 9: da Vinci Robotic-Assisted Valve Repair Main Clinical Outcomes INTUITIVE {27} da Vinci Surgical System (IS5000) Traditional 510(k) Page 24 of 28 | Cardiac procedure | Author | Study…