By Dr. Kingsley Chin

Scientific Paper

Auerbach JD1, Weidner Z, Pill SG, Mehta S, Chin KR.

Interested medical professionals can read the full paper, as published in Spine, here.

Study Design

Retrospective radiographic review.

Objective

To determine the utility of the mandibular angle as a landmark for identification of cervical spinal level.

Summary of Background Data

Improper localization of the skin incision during anterior cervical spine surgery may lead to increased technical difficulty of the surgery. Although the use of traditional palpable anterior neck landmarks (hyoid bone, cricoid cartilage, thyroid cartilage, and carotid tubercle) help identify appropriate spinal levels, their reliability has not been validated in actual surgeries. We hypothesize that the angle of the mandible (AM) is a consistently palpable landmark, and that the mandible can be used to accurately template the distance to subaxial cervical levels using preoperative radiographs.

Methods

As a pilot study, we prospectively evaluated 30 consecutive patients who underwent anterior cervical diskectomy and fusion to assess the interobserver accuracy of palpating the mandibular angle, hyoid, carotid tubercle, and thyroid and cricoid cartilages. In a second set of 26 consecutive patients undergoing anterior cervical diskectomy and fusion, we then retrospectively reviewed standing preoperative lateral plain radiographs of the cervical spine, in addition to supine lateral cervical spine radiographs taken at the time of surgery, to assess: (1) the position of the AM relative to the corresponding cervical spinal level, and (2) whether or not the position of the AM relative to the subaxial cervical levels is different on preoperative standing films and intraoperative supine films. In these same 26 patients, we also measured the vertical distance between the AM and the location of each subaxial intervertebral disc space. These measurements were repeated for the hyoid bone as a control for each patient.

Results

The interobserver accuracy was 100% between observers for identifying the AM, hyoid bone, thyroid cartilage, and cricothyroid membrane, and 93% for carotid tubercle. The frequency with which anterior neck landmarks were palpable by the surgeon and assisting senior residents was as follows: AM (100%), hyoid bone (83%), thyroid cartilage and cricothyroid membrane (93%), and carotid tubercle (Surgeon: 63%, Resident: 57%, P = 0.79). There was 100% correlation between the position of the mandibular angle in the preoperative standing lateral radiograph and the intraoperative supine lateral radiograph, compared with 65% with the hyoid bone. The distances between the AM or hyoid to each disc space did not vary significantly between preoperative and intraoperative radiographs (P > 0.05).

Conclusion

The mandibular angle was shown to be the most consistently palpable landmark. Further, the distance from the mandible, measured on preoperative plain lateral cervical spine radiographs, is an accurate template to determine cervical spine levels during anterior cervical spine surgery.

About Author Dr. Kingsley R. Chin

Dr. Kingsley R. Chin, Founder of philosophy and practice of The LES Society and The LESS Institute

Dr. Kingsley R. Chin is a board certified Harvard-trained orthopedic spine surgeon and professor with copious business and information technology exposure. He sees a niche opportunity where medicine, business and info. tech meet – and is uniquely educated at the intersection of these three professions. He has experience as Professor of Clinical Biomedical Sciences & Admissions Committee Member at the Charles E. Schmidt College of Medicine at Florida Atlantic University, Professor of Clinical Orthopedic Surgery at the Herbert Wertheim College of Medicine at Florida International University, Assistant Professor of Orthopaedics at the University of Pennsylvania Medical School, Visiting Spine Surgeon & Professor at the University of the West Indies, Mona, and Adjunct Professor of Clinical Biomedical Studies at the University of Technology, Jamaica.

Learn more about Dr. Chin here and connect via LinkedIn.

About Less Exposure Surgery

Less Exposure Surgery (LES) is based on a new philosophy of performing surgery, leading the charge to prove through bench and clinical outcomes research that LES treatment options are the best solutions – to lowering the cost of healthcare, improving outcomes and increasing patient satisfaction. Learn more at LESSociety.org.

The LES Society philosophy: “Tailor treatment to the individual aiding in the quickest recovery and return to a pain-free lifestyle, using LES® techniques that lessen exposure, preserve unoffending anatomy and utilize new technologies which are safe, easy to adopt and reproducible. These LES®techniques lessen blood loss, surgical time and exposure to radiation and can be safely performed in an outpatient center. Less is more.” – Kingsley R. Chin, MD

About The LESS Institute

The LESS Institute is the world leader center of excellence in Less Exposure Surgery. Our safe, effective outpatient treatments help patients recover quickly, avoid expensive hospital stays and return home to their family the same day. Watch our patient stories, follow us on Facebook and visit TheLESSInstitute.com to learn more.

About SpineFrontier

The above study utilized LES Technology from SpineFrontier – leading provider of LES Technologies and instruments – offering surgeons and patients superior technology and services.

Scientific Paper Author & Citation Details

Authors

Auerbach JD1, Weidner Z, Pill SG, Mehta S, Chin KR..

Author information

1. Department of Orthopaedic Surgery, Washington University School of Medicine, St. Louis, MO 63110, USA. auerspine@gmail.com

By Dr. Kingsley Chin

Scientific Paper

Chin KR1, Eiszner JR, Huang JL, Huang JI, Roh JS, Bohlman HH.

Interested medical professionals can read the full paper, as published in Clinical Spine Surgery, here.

Study Design

Retrospective chart review of documented adverse events in 637 consecutive patients after computed tomogram myelography and follow-up interview of the most recent 100 of these patients.

Objective

This study assessed documented prevalence of adverse events after diagnostic myelography in cervical spondylotic patients and compared with perceived adverse events and satisfaction in a subset of the same cohort of patients.

Summary of Background Data

There are some data that suggest complimentary benefits of myelography to magnetic resonance imaging. However, given the invasive nature of myelography, there are little data documenting the adverse events and patient experience with myelography to guide informed consent and physician choice of this study.

Methods

We analyzed the records of 637 consecutive patients (364 males and 273 females) after myelography. Five hundred forty-four patients (group 1) had a cervical approach and 93 (group 2) had a lumbar approach. The last 100 consecutive patients (85 in group 1 and 15 in group 2) were asked questions that addressed patient perceived adverse reactions, pain levels, and satisfaction.

Results

There was a 4.4% (28/637) prevalence of documented abnormal reactions. Group 1 had a 4.9% (25/506) prevalence of adverse reactions compared with 3.4% (3/89) in group 2. Overall 6.6% (42/637) had to have their myelographic procedures converted. Group 1 had 7% (38/544) converted to the lumbar approach group 2 had 4.3% (4/93) converted to the cervical approach. Thirty percent of the 100 patients interviewed felt they had an unexpected reaction (28 group 1 and 2 group 2). When interviewed, 14% of patients had maximum pain scores of 10 during the procedure and 8% (all group 1) felt worse pain after the procedure was completed. Six group 1 and 2 group 2 patients would not have the procedure again even when recommended by the surgeon. There was no statistically significant difference between complication rates, conversion rates, or patient perceived unexpected reactions between the 2 groups (beta=0.90).

Conclusion

This paper demonstrated the discrepancy between documented adverse events with computed tomogram myelography and patient reported tolerance as recorded by telephone follow-up. The cervical approach had a greater degree of patient perceived discomfort and a trend toward higher documented and patient reported adverse events and rate of approach conversion to a lumbar approach (P>0.5). When choosing myelography to evaluate patients with cervical spondylosis, the surgeon should consider the low patient tolerance and frequent adverse reactions that often go undocumented.

About Author Dr. Kingsley R. Chin

Dr. Kingsley R. Chin is a board certified Harvard-trained orthopedic spine surgeon and professor with copious business and information technology exposure. He sees a niche opportunity where medicine, business and info. tech meet – and is uniquely educated at the intersection of these three professions. He has experience as Professor of Clinical Biomedical Sciences & Admissions Committee Member at the Charles E. Schmidt College of Medicine at Florida Atlantic University, Professor of Clinical Orthopedic Surgery at the Herbert Wertheim College of Medicine at Florida International University, Assistant Professor of Orthopaedics at the University of Pennsylvania Medical School, Visiting Spine Surgeon & Professor at the University of the West Indies, Mona, and Adjunct Professor of Clinical Biomedical Studies at the University of Technology, Jamaica.

Learn more about Dr. Chin here and connect via LinkedIn.

About Less Exposure Surgery

Less Exposure Surgery (LES) is based on a new philosophy of performing surgery, leading the charge to prove through bench and clinical outcomes research that LES treatment options are the best solutions – to lowering the cost of healthcare, improving outcomes and increasing patient satisfaction. Learn more at LESSociety.org.

The LES Society philosophy: “Tailor treatment to the individual aiding in the quickest recovery and return to a pain-free lifestyle, using LES® techniques that lessen exposure, preserve unoffending anatomy and utilize new technologies which are safe, easy to adopt and reproducible. These LES®techniques lessen blood loss, surgical time and exposure to radiation and can be safely performed in an outpatient center. Less is more.” – Kingsley R. Chin, MD

About The LESS Institute

The LESS Institute is the world leader center of excellence in Less Exposure Surgery. Our safe, effective outpatient treatments help patients recover quickly, avoid expensive hospital stays and return home to their family the same day. Watch our patient stories, follow us on Facebook and visit TheLESSInstitute.com to learn more.

About SpineFrontier

The above study utilized LES Technology from SpineFrontier – leading provider of LES Technologies and instruments – offering surgeons and patients superior technology and services.

Scientific Paper Author & Citation Details

Authors

Chin KR1, Eiszner JR, Huang JL, Huang JI, Roh JS, Bohlman HH.

Author information

1. Division of Spine Surgery, Department of Orthopaedic Surgery, Hospital of the University of Pennsylvania and the University of Pennsylvania School of Medicine, PA 19104, USA. kingsleychin@hotmail.com

By Dr. Kingsley Chin

Scientific Paper

Chin KR1, Eiszner JR, Adams SB Jr. Spine (Phila Pa 1976). 2007

Interested medical professionals can read the full paper, as published in Spine, here.

Study Design

Prospective radiographic analysis with clinical correlates.

Objective

The purpose of this study was to determine whether patients with cervical plates protruding off the vertebral body more prominently than pre-existing osteophytes had higher rates of dysphagia, suggesting a mechanical role.

Summary of Background Data

Plate prominence due to mechanical causes has been implicated as a cause of dysphagia after anterior cervical fusion. This study therefore assessed the potential of plate prominence as a cause of dysphagia after anterior cervical fusion and the predictive role of preoperative osteophyte heights.

Methods

Osteophyte heights measured on the preoperative radiographs of 63 patients, 41 males and 23 females with mean age 54 years (range, 31 to 75), who underwent anterior fusion (2 mm SYNTHES CSLP plates). After surgery, the distance of the plate from the vertebral body was measured and compared with preoperative osteophyte heights. Group I contained 30 patients who had cervical plates protrude less than or equal to the height of the tallest preoperative osteophyte. Group II contained 34 patients who had plates protrude greater than the height of the tallest preoperative osteophyte.

Results

No patients had preoperative dysphagia. Five of 30 Group I patients had dysphagia (>1 month). Six of 34 group II patients had dysphagia. There was no difference between groups I and II in rate of dysphagia (beta > 0.90). Plates at C3 and shorter cervical constructs trended higher rates of dysphagia.

Conclusion

Long-term postoperative dysphagia in Group I patients and the lack of a difference in rates of dysphagia between group I and group II, made it improbable plate thickness of 2 mm or prominence between 3 and 7 mm consistently played roles in dysphagia. Preoperative osteophyte height did not predict which patients developed postoperative dysphagia. Plates at the C3 and shorter constructs trended to have higher rates of dysphagia.