Analysis of the Functional and Radiological Outcomes of Lumbar Decompression without Fusion in Patients with Degenerative Lumbar Scoliosis

Akshay Dharamchand Gadiya,Mandar Deepak Borde,Nishant Kumar,Priyank Mangaldas Patel,Premik Bhupendra Nagad,Shekhar Yeshwant Bhojraj 대한척추외과학회 2020 Asian Spine Journal Vol.14 No.1

Study Design: Retrospective study. Purpose: This study aimed to analyze the functional and radiological outcomes of lumbar decompression in patients with degenerative lumbar scoliosis (DLS). Overview of Literature: Patients with DLS have symptoms related to lumbar canal stenosis (LCS) and those due to compensated spinal imbalance. Whether the deformity is the cause of pain or is an adaptive change for the ongoing LCS remains debatable. The extensive surgery for deformity correction along with spinal fusion is reported to have high perioperative morbidity and complication rate. Methods: This retrospective analysis involved 51 patients who underwent lumbar decompression for LCS associated with DLS from October 2006 to October 2016. The magnitude of the curve was determined using Cobb’s angle and lumbar lordosis (D12–S1) on the preoperative and final follow-up, respectively. The Visual Analog Scale (VAS) and modified Oswestry Disability Index (mODI) scores at the preoperative and final follow-up indicated the functional outcome. Statistical analyses were performed using Student t -test. Results: All 51 patients were included in the statistical analyses. The mean patient age at presentation was 63.88±7.21 years. The average follow-up duration was 48±18.10 months. The average change in the Cobb’s angle at the final follow-up was statistically insignificant (1°±1.5°, p =0.924; 20.8°±5.1° vs. 21.9°±5.72°). The mean change in lumbar lordosis at the final follow-up was statistically insignificant (3.29°±1.56°, p =0.328; 30.2°±7.9° vs. 27.5°±7.1°). There was statistically insignificant worsening in the back VAS scores at the final follow-up (4.9±1.9 vs. 6.0±1.2, p =0.07). There was statistically significant improvement in the leg pain component of the VAS score at the final follow-up (5.8±1.05 vs. 2.6±1.2, p <0.001). There was statistically significant improvement in the mODI scores at the final follow-up (p <0.001). Conclusions: Lumbar decompression in DLS is associated with good functional outcome, especially when the symptoms are related to LCS. Curve progression following lumbar decompression is very less at mid-term and is similar to that in the natural course of the disease.

Coronavirus Disease 2019 Transmission: Blood Viremia and Aerosol Generation from Spinal Surgery. Is There an Increased Risk to the Surgical Team?

Shah Siddharth,Gadiya Akshay,Patel Mohammed Shakil,Shafafy Masood 대한척추외과학회 2020 Asian Spine Journal Vol.14 No.5

As a respiratory pathogen, the novel coronavirus is commonly associated with aerosol-generating procedures. However, it is currently unclear whether spinal surgical procedures pose an additional risk of viral transmission to the surgical team. We reviewed the available evidence to ascertain the presence of coronavirus disease 2019 (COVID-19) blood viremia and the virus’ blood transmissibility, as well as evidence of blood-aerosol generation and operating room contamination from spinal surgical procedures. There is established evidence of COVID-19 blood viremia, a viral pathogenic cycle via angiotensin-converting enzyme 2 (ACE-2) receptors and similar blood transmission risk data from the SARS (severe acute respiratory syndrome)/MERS (Middle East respiratory syndrome) era. Spinal surgical practices demonstrate significant blood-aerosol generation from the operative wound due to the use of common surgical instruments, such as electrocautery, as well as high-speed and high-impact devices. Based on the evidence, there is an established additional risk of viral transmission faced by surgical teams from blood-aerosols generated from the operative wound of COVID-19- infected patients via the inhalation of virus-laden aerosols and the subsequent initiation of the viral pathogenic cycle through binding with pulmonary ACE-2 receptors. Recognizing this additional risk amidst the ongoing pandemic serves as a caution to front-line surgical personnel to strictly adhere to personal protective equipment usage in operating rooms, to modify surgical techniques to reduce the hazard of surgical aerosol generation and COVID-19 viral exposure, and to consider it as an integral aspect of planning and adapting to the “new normal” operating practices.

Does Three-Dimensional Printed Patient-Specific Templates Add Benefit in Revision Surgeries for Complex Pediatric Kyphoscoliosis Deformity with Sublaminar Wires in Situ? A Clinical Study

Shah Kunal,Gadiya Akshay,Shah Munjal,Vyas Devarsh,Patel Priyank,Bhojraj Shekhar,Nene Abhay 대한척추외과학회 2021 Asian Spine Journal Vol.15 No.1

Study Design: Case-control study.Purpose: To evaluate the accuracy of three-dimensional (3D) printed patient-specific templates (PSTs) for placement of pedicle screws (PAs) in patients undergoing revision surgeries for complex kyphoscoliosis deformity with sublaminar wires in situ.Overview of Literature: Revision kyphoscoliosis correction surgery in pediatric patients is a challenging task for the treating surgeon. In patients with sublaminar wires in situ, the native anatomical landmarks are obscured, thus making the freehand screw placement technique a highly specialized task. Hence, the concept of using PSTs for insertion of PAs in such surgeries is always intriguing and attractive.Methods: Five consecutive patients undergoing revision deformity correction with sublaminar wires in situ were included in this study. Patients were divided in two groups based on the technique of PA insertion. A total of 91 PAs were inserted using either a freehand technique (group A) or 3D printed templates (group B) (34 vs. 57). The placement of PAs was classified according to a postoperative computed tomography scan using Neo’s classification. Perforation beyond class 2 (>2 mm) was termed as a misplaced screw. The average time required for the insertion of screws was also noted.Results: Mean age, surgical time, and blood loss were recorded. The change in mean Cobb’s angle in both groups was also recorded. The difference in rates of misplaced screws was noted in group A and group B (36.21% vs. 2.56%); however, the mean number of misplaced PAs per patient in group A and group B was statistically insignificant (6.5±3.54 vs. 4.67±1.53, p =0.4641). The mean time required to insert a single PA was also statistically insignificant (120±28.28 vs. 90±30 seconds, p =0.3456).Conclusions: Although 3D printed PSTs help to avoid the misplacement of PAs in revision deformity correction surgeries with sublaminar wires in situ, the mean number of misplaced screws per patient using this technique was found to be statistically insignificant when compared with the freehand technique in this study.

Assessment of Outcomes of Spine Surgery in Indian Athletes Involved in High-End Contact Sports

Shah Kunal,Bharuka Anuj,Gadiya Akshay,Nene Abhay 대한척추외과학회 2021 Asian Spine Journal Vol.15 No.2

Study Design: This study was a retrospective analysis.Purpose: This study aimed to analyze the functional outcome following spinal surgery in elite athletes using return-to-play criteria.Overview of Literature: Spinal ailments are relatively common in athletes and are bound to increase due to the ever-growing popularity of contact sports. An elite athlete is highly motivated to make a rapid recovery and return to full participation in sports. Although the criteria for diagnosis and surgical treatment of various spinal disorders in athletes have been well defined in the literature, there is no clear definition about the factors determining the return to play in athletes.Methods: This study was a retrospective analysis of the data of 10 elite athletes who underwent spinal surgery for symptomatic degenerative disorder of the spine. Eight patients underwent lumbar spine surgery (two patients of microdiscectomy and six patients of fusion), and the remaining two patients underwent cervical spine surgery (one each anterior cervical discectomy and fusion and anterior cervical disc replacement). Outcome measures were investigated using return-to-training and return-to-sports criteria, as indicated by the length of time between surgery and return to competitive sports as parameters.Results: Of the 10 patients, eight were males and two were females. The average age of the patients at the time of surgery was 32.4 years (range, 25–41 years). All patients returned to active participation of their sports. The average time for return to training was 7.3 weeks (range, 3–12 weeks). The average time for return to sports was 45.6 weeks (range, 36–72 weeks), and the average follow-up period was 59 months (range, 27–120 months).Conclusions: Spine surgery in an elite athlete involved in contact sports is safe and effective. Currently, there is a lack of standardized guidelines for return to sports after spine injuries. An athlete needs to be symptom-free, with full range of motion and full strength before returning to sports.