Dr Hsu and Dr Singh of NSW Spine Specialists utilise the latest technological advances in spinal surgery and back pain management.

Dual-Surgeon Spinal Deformity Surgery

Deformity surgery is one of the more challenging procedures in spinal surgery and can account for long operative times and blood losses. To date, many strategies have been in use to attempt to reduce perioperative complications in adult deformity surgery.

Even among Fellowship-trained Deformity Surgeons, many studies show intraoperative adverse events and related postoperative complications rate of 10 to 15%. Significant blood loss in posterior spinal fusion (PSF) surgery for paediatric and adult scoliosis can cause haemodynamic complications and increases the incidence of allogeneic blood transfusion. The increased risk of intra-operative bleeding is related to the long incision, extensive soft tissue dissection, multi-level decompression surgery, decortication of bony surfaces and prolonged operative time.

Allogenic blood transfusion and increased operative times have been associated with increased infection rate (Shen et al). Surgical site infections (SSI) in spinal deformity surgery carry a very high morbidity to the patient, the family, and a high cost to society. Operative time greater than 5 hours has been associated with higher rates of infection.

Table 1: Typical Surgical stages in spine deformity surgery

Stage 1

Exposure

Time taken for skin incision, dissection of subcutaneous tissue and paravertebral muscles to expose the posterior surface of the vertebrae

Stage 2

Screws insertion

Time taken to insert all the pedicle screws planned from the upper to the lowest instrumented vertebra

Stage 3

Release and decompression

Time taken for all facetectomies and osteotomies and decompression of neural elements

Stage 4

Correction

Time taken for insertion of the rods, correction of the deformity

Stage 5

Corticotomies and bone grafting

Time taken for corticotomies of the posterior vertebral laminae and transverse processes and laying morcelized local bone grafts

Stage 6

Closure

Time taken to close the fascia, subcutaneous tissue and skin

Before DSDS Surgery

Before Dual Surgeon Deformity Surgery

After DSDS Surgery

After Dual Surgeon Deformity Surgery

Operative Time and Multivariate Odds Ratio for Inpatient Complications

To date, many strategies have been in use to attempt to reduce perioperative complications in adult deformity surgery. These include better preoperative planning strategies, intraoperative neuromonitoring, having a blood transfusion/cell saver strategy and staging surgeries.

The utility and efficacy of 2 consultant surgeons working simultaneously has been described in the literature for procedures such as bilateral anterior cruciate ligament reconstruction, laparoscopic nephrectomy, breast surgery and esophagectomy.

Similar results were found in complex spine surgery studies. Halanski et al, Ames et al, Chan et al. reported that the involvement of two surgeons in corrective surgery for scoliosis was associated with reduced operative time, blood loss and the need for allogenic blood transfusion.

The Seattle spine team found that other complication rates were significantly lower as well when two consultant-level surgeons operated simultaneously on cases involving long fusions (16% vs. 52%). There were significantly lower return rates to the operating room during the perioperative 90-day period (0.8% vs. 12.5%), lower rates of wound infection requiring debridement (1.6% vs. 7.5%), lower rates of deep vein thrombosis/pulmonary embolism (3.2% vs. 10%), and lower rates of postoperative neurological complications (0.5% vs. 2.5%). The use of 2 surgeons experienced in spine deformity also helped achieve a decreased rate in major complications, decreased rate in premature case termination, and decreased rate of returns to the operating room within 30 days.

Single vs Dual Surgeon - Operation Duration, Blood Loss and Blood Loss per Level Fused

The mean operating time reported in literature for adult spinal deformity surgery involving 5 or more levels is around 300 to 360 minutes. Reducing operating time while maintaining strict adherence to good surgical technique and avoidance of intraoperative complications is key to good outcome for patients.

Since 2008, two of the authors have been performing Dual-Surgeon Deformity Surgery (DSDS) at North Shore Private Hospital. Over the last 10 years, with the additional of our third author in 2014, we have performed over 500 Dual-Surgeon procedures at North Shore Private Hospital. There has been no deep infections that required return to theatre in the DSDS group. The average surgical time is less than 4 hours and 25 minutes.

Pre-operative planning plays a major role in reducing surgical time and achieving maximum efficiency in the operating theatre. The surgical team is comprised of regular members of nursing and anaesthetic staff who are experience in all the different aspects of DSDS and are able to coordinate multiple tasks efficiently.

Surgery is performed in both a simultaneous and tandem manner. Each patient’s procedure is tailored to their anatomy and their needs, and different steps of the operation (such as decompression, osteotomies, correction and screw placement) are simultaneously carried out in concert. The surgical team needs to be able to cater to two surgeons performing different steps of the operation at the same time.

DSDS technique has been successful in safely minimizing overall operative time while achieving the surgical goal with a reduced infection rate.

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References:

  • Ames CP, Barry JJ, Keshavarzi S, Dede O, Weber MH, Deviren V (2013) Perioperative outcomes and complications of pedicle subtraction osteotomy in cases with single versus two attending surgeons. Spine Deform 1(1):51–58.
  • Single vs two attending senior surgeons: assessment of intra- operative blood loss at different surgical stages of posterior spinal fusion surgery in Lenke 1 and 2 adolescent idiopathic scoliosis Mun Keong Kwan • Chee Kidd Chiu • Chris Yin Wei Chan Eur Spine J (2017) 26:155–161
  • Halanski MA, Elfman CM, Cassidy JA, Hassan NE, Sund SA, Noonan KJ (2013) Comparing results of posterior spine fusion in patients with AIS: are two surgeons better than one? J Orthop 10:54–58
  • Chan CY, Kwan MK (2015) Peri-operative outcome in posterior spinal fusion for adolescent idiopathic scoliosis: a prospective study comparing single versus two attending surgeons strategy. Spine (Phila Pa 1976)
  • The Seattle Spine Team Approach to Adult Deformity Surgery: A Systems-Based Approach to Perioperative Care and Subsequent Reduction in Perioperative Complication Rates. Spine Deformity, Volume 2, Issue 2, March 2014, Pages 95-103
  • Rampersaud Y.R., Moro E.R., Neary M.A., et al: Intraoperative adverse events and related postoperative complications in spine surgery: implications for enhancing patient safety founded on evidence-based protocols. Spine (Phila Pa 1976) 2006; 31: pp. 1503-1510
  • Shen J, et al. Risk factors for delayed infections after spinal fusion and instrumentation in patients with scoliosis. J Neurosurg Spine 2014 Oct;21(4):648-52. doi: 10.3171/2014.6.SPINE13636. Epub 2014 Jul 4

AlterG Anti-Gravity Treadmill

The innovative AlterG® Anti-Gravity Treadmill is a game changer in physical therapy rehabilitation. Developed using NASA technology, the AlterG uses air pressure to gently lift the user making it less stressful on joints & injuries thereby aiding faster recovery.

The AlterG® calibrates the users’ body weight and then inflates an airtight chamber to allow the patient to exercise at a specific percentage of their body weight.

By decreasing the weight and ground reaction force, patients can rehabilitate while reducing the risk of further injury, which facilitates faster healing.

Who can use it?


Patients of all ages and fitness levels can benefit from this unique & innovative treadmill.

It is suitable for recovery after a wide variety of spinal and lower limb surgical procedures. It gives patients the confidence and ability to run or walk longer and heal faster with less pain.

Also ideal for patients not suitable for hydrotherapy.

Now available at our Norwest rooms, please contact us to discuss if the AlterG is right for you.

Mazor Robot

Utilising Mazor Robotics Renaissance® Guidance System in a spine program can improve the execution and outcomes in a wide variety of procedures, including: minimally-invasive and percutaneous degenerative repair, pedicle screw fixation for complex spinal deformity, and vertebral augmentation.

Renaissance® provides increased safety and precision in corrective surgery. It allows surgeons to plan ahead before entering the operating room; Mazor Robotics advanced 3D planning software is used before surgery to create the ideal procedure for each patient’s condition. During the operation, the physician does the actual work; Renaissance® guides the surgeon’s tools according to the predetermined blueprint to place the implants safely and with the highest level of accuracy in the exact planned locations.

Promotes Faster Recovery
Patients who have surgery performed with the Renaissance® Guidance System can experience faster recovery time, allowing them to return to their normal daily activities in less time than those who received surgeries via traditional methods.

Reduced Post-operative Pain

Clinical studies have shown patients may experience less pain following spine procedures performed with the assistance of the Renaissance® Guidance System.

Lowered Complication Rates
Clinical studies based on surgeries performed with the Mazor Robotics Renaissance® Guidance System have shown increased favourable patient outcomes, including lowered surgery complication rates.

Please discuss with Dr Hsu or Dr Singh if the Mazor Robot can be used for your surgery.

For appointments and enquiries please phone  1300 975 800

  info@nswspinespecialists.com.au
Fax: (02) 9136 7396

PLEASE NOTE UPDATED NUMBER

8:00 am - 5:30 pm
Monday to Friday

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