A 43-year-old male had magnetic resonance imaging (MRI) demonstrating an extruded disk herniation in the left foraminal region, compression at the left spinal nerve root, and obliteration of the left foraminal entrance of the L5-S1 distribution. In the operating room, sufficient disk material was removed using grasping forceps, and then, the Disc-FX system with a Trigger-Flex probe (Elliquence, Baldwin, NY, U.S.A.) was inserted. Modulation of the annulus was performed in bipolar hemo mode, and nucleus ablation was conducted in bipolar turbo mode within a 1.7-MHz frequency range. Among the available minimally invasive techniques, newly developed technologies may become important treatment options if they enable faster rehabilitation, lower rates of recurrence, shorter hospital stays, and reduced medical costs.
Aim
The aim of this study was to examine the effects of simultaneous epiduroscopic laser neural disc decompression (ELND) and percutaneous laser disc decompression (PLDD) applications using a holmium:yttrium‐aluminum‐garnet (Ho:YAG) laser in Michigan State University (MSU) classification 3AB herniated discs on VAS and Oswestry Disability Index (ODI) scores.
Methods
In this prospective observational study, ELND and PLDD procedures performed between January 2016 and December 2017 were examined. Preoperative, postoperative week 2, postoperative month 2, and postoperative month 6 ODI and VAS scores were obtained from patient files, and postoperative month 12 ODI and VAS scores were obtained from face‐to‐face interviews with patients and recorded.
Results
The data of 41 patients treated with simultaneous ELND and PLDD using a Ho:YAG laser were included in this study. Postoperative VAS scores of the patients were compared with preoperative values, and it was found that postoperative week 2, postoperative month 2, postoperative month 6, and postoperative month 12 VAS and ODI scores were significantly different compared to preoperative scores (P = 0.001; P < 0.01). 17.1% (n = 7) of the patients had a history of postoperative open surgery. Although dural puncture occurred in 7 patients (17%), only 1 patient had headache.
Conclusion
We believe that the new combined technique of ELND and PLDD using a Ho:YAG laser is a reliable method in patients with MSU classification 3AB herniated discs, with an acceptable success rate and a low complication rate within 12 months after treatment. We think that randomized controlled studies are required for this method to be included in treatment algorithms.
Background and Aims:
Post-dural puncture headache is seen more frequently in pregnant women due to stress, dehydration, intra-abdominal pressure, and insufficient fluid replacement after delivery. Obesity protects against post-dural puncture headache in pregnant women; increased intra-abdominal fat tissue reduced cerebrospinal fluid leakage by increasing the pressure in the epidural space. Therefore, this study investigated the influence of body mass index on post-dural puncture headache in elective cesarean section patients in whom 27G spinal needles were used.
Material and Methods:
The study included 464 women who underwent elective cesarean section under spinal anesthesia. Dural puncture performed with a 27G Quincke spinal needle at the L3-4 or L4-5 intervertebral space and given 12.5 mg hyperbaric bupivacaine intrathecally. The patients were questioned regarding headache and low back pain 6, 12, 24, and 48 h after the procedure, and by phone calls on days 3 and 7.
Results:
Post-dural puncture headache developed in 38 (8.2%) patients. Of the patients who developed post-dural puncture headache, 23 (60.5%) had a body mass index <30 and 15 (39.5%) had a body mass index ≥30. Of the patients who did not develop post-dural puncture headache, 258 (60, 6%) had a body mass index <30 and 168 (39, 4%) had a body mass index ≥30.
Conclusion:
This prospective study found the body mass index values did not affect post-dural puncture headache in the elective cesarean section performed under spinal anesthesia.
Background. Epiduroscopy, or spinal endoscopy, is the visualisation of the epidural space using a percutaneous and minimally invasive imaging fiberoptic device. Recently, as a result of some studies, it has been reported that laser therapy with epiduroscopic laser neural discectomy (ELND) was applied during multiple lesions. Methods. In this study, ELND performed between January 2012 and July 2016 at the Algology Clinic of the Department of Anesthesiology and Reanimation, Sakarya University Training and Research Hospital, was examined retrospectively. The Oswestry Disability Index (ODI) and Visual Analogue Scale (VAS) scores were recorded preoperatively, as well as after 2 weeks and 2, 6, and 12 months after the ELND. Results. According to the preoperative VAS and ODI scores, the decrease in postoperative 2nd week, 2nd, 6th, and 12th month VAS and ODI scores was significant
p
=
0.001
. Similarly, according to the postoperative 2nd week VAS and ODI scores, decrease in postoperative 6th and 12th VAS and ODI scores was significant
p
=
0.001
. Conclusions. As a result, ELND with Holmium: YAG laser, which is a new technique in patients with lumbar disc herniated low back and/or leg pain, can reduce VAS and ODI scores from 2 weeks without any complications that open surgery can bring with it. We believe that it is a useful and advanced technique in treatment of lumbar disc herniation and has low complication rates that provides maximum efficacy from the first year.
BACKGROUND: In order to clarify the camera image and open the adhesions mechanically during epiduroscopy, saline is injected continuously in the epidural area. As a result, an increase in intracranial pressure is to be expected in theory. Increased intracranial pressure can be evaluated by measuring by optic nerve sheath diameter.
OBJECTIVES: This study was designed to evaluate the relationship between optic nerve sheath diameter measurements and intracranial pressure, after injecting fluid to the epidural area during epiduroscopy procedures performed in our clinic.
STUDY DESIGN: Retrospective study.
SETTING: Sakarya University Training and Research Hospital.
METHODS: During the epiduroscopy procedure, pre and postoperative bilateral optic nerve sheath diameters were measured with an ultrasonography probe. With the patients’ eyelids closed, the probe was placed on the orbita in the sagittal plane, measuring 3 mm posterior of the papilla.
RESULTS: While there was a statistically significant difference between pre- and post-operative optic nerve sheath diameter measurements, there was no significant correlation with processing time, amount of fluid delivered, or fluid delivery rates.
LIMITATIONS: One of the limitations of this study is the retrospective collection of data. A second limitation is that repetitive measurements were not performed, instead of a single postoperative measurement.
CONCLUSION: We think more prospective randomized controlled studies are required to examine the increase in the diameter of the optic nerve sheath, which is an indirect indicator of increased intracranial pressure after epiduroscopy applications, in order to determine whether the pressure increase is associated with the rate of fluid delivery, the total fluid amount, or the processing time.
KEY WORDS: Epidural, epiduroscopic laser neural decompression, fluid volume, intracranial pressure, optic nerve sheath diameter, ultrasonography, rate
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