Spinal Instrumentation: Surgical Techniques

Kim, Daniel H.; Vaccaro, Alexander R.; Fessler, Richard G.; Abram, Leon; Akbarnia, Behrooz A.; Albert, Todd J.; Alexander, J. Trent; Allaoui, Mohammed; Amundson, Glenn; An, Howard S.; Apfelbaum, Ronald I.; Arlet, Vincent; Asher, Marc A.; Assaker, R.; Bagheri, Ramin; Bagley, Carlos A.; Barbier, D; Barua, Manali; Becker, Bryan N.; Bednar, Drew A.; Beisse, R.; Benzel, Edward C.; Bertagnoli, Rudolf; Betz, Randy; Beutler, William; Bianco, S.; Birch, Barry D.; Boakye, Maxwell; Bolger, Ciarán; Bose, Bikash; Branch, Charles L.; Brantigan, John W.; Brayda-Bruno, Marco; Bridwell, Keith H.; Brodke, Darrell S.; Brooks, Nathaniel P.; Brown, David; Bruner, Harlan J.; Burkus, Kenneth; Burton, Douglas C.; Byrd, Abbott; Campbell, Mitchell; Chapman, Jens R.; Chopin, D.; Clements, David H.; Couture, Dan; Crawford, Alvin H.; Dailey, Andrew T.; Darden, Bruce V.; Davis, Reginald J.; Day, Thomas; Denaro, E.; Deutsch, Harel; Martino, Alberto; Dick, Jeffrey C.; Dickman, Curtis A.; Dimar, John R.; Dolenc, Vinco V.; Drake, John S.; Dryer, Randall F.; Eichenbaum, Matthew D.; Errico, Thomas J.; Fassett, Daniel R.; Fayyazi, Amir H.; Fehlings, Michael G.; Fichten, A.; Finkenberg, John; Fisicaro, Marc; Fox, A. M.; Fredrickson, Bruce E.; Garcia-Bengochea, Javier; Geisler, Fred H.; Gerszten, Peter C.; Giuffre, James M.; Glassman, Steven D.; Glazer, Paul A.; Gokaslan, Ziya L.; Govender, Preneshlin V.; Grauer, Jonathan N.; Gravori, Tooraj; Griffith, Steven L.; Griss, P.; Gundanna, Mukund; Haid, Regis W.; Harms, Jürgen; Härtl, Roger; Hauptman, Jason S.; Heary, Robert F.; Heim, Stephen E.; Henderson, Fraser; Hilibrand, Alan S.; Hunt, L A; Hurlbert, John; Husted, Daniel F.; Jackson, Roger P.; Jankowitz, Brian T.; Janssen, Michael; Jenkins, Arthur L.; Jenny, Philippe; Johnson, Patrick A.; Johnson, John R.; Jolley, Jay E.; Kalfas, Iain H.; Kalluri, Prakasam; Kaneda, Kiyoshi; Katsos, Mara; Khoo, Larry T.; Kim, Kee D.; Kim, Paul; Klimo, Paul; Kralick, Francis; Krishnaney, Ajit A.; Kuntz, Charles; Lam, Chi N.; Lauryssen, Carl; Le, Hoang V.; Huec, Jean-Charles Le; Lebwohl, Nathan H.; Lee, Max C.; Legnani, Federico; Lenke, Lawrence G.; Lesutis-Fitzhenry, Mary; Linville, Douglas A.; Liu, James K.; Lowery, Gary L.; McCormick, Paul C.; McEvoy, Linda K.; McGuire, Robert A.; McManus, Anne; Maher, Colby; Mantha, Ajay; Marcotte, Paul J.; Mathews, Hallett H.; Medow, Joshua E.; Mehbod, Amir A.; Melcher, Robert P.; Menezes, Arnold H.; Michelson, Gary Karlin; Mikles, Mark R.; Miller, Jared H.; Miller, Scot D.; Miraliakbar, Hamid; Misra, Sanjay N.; Mohit, Alex; Morgan, Chad J.; Mummaneni, Praveen V.; Murrey, Daniel B.; Neidre, Arvo; Nenadovich, Nikola; Newton, Peter O.; Nottmeier, Eric W.; Nunley, Pierce D.; O’Brien, Michael F.; O’Toole, John E.; Ohaegbulam, Chima; Ondra, Stephen L.; Onibokun, Adebukola; Ozgur, Burak M.; Pahl, Michael A.; Pan, Jeff Z.; Papadopoulos, Stephen M.; Park, Jon; Patel, Naresh P.; (TCP), Tushar C. Patel; Peppelman, Walter; Perlewitz, Thomas J.; Picetti, George D.; Pimenta, Luiz; Pitzen, Tobias; Ponnappan, Ravi K.; Price, Scott; Puno, Rolando M.; Puschak, Thomas J.; Ray, Charles D.; Reindl, Rudolf; Reyns, Nicolas; Rhodes, Diane K.; Riew, Daniel K.; Rodts, Gerald E.; Rogozinski, Abraham; Rogozinski, Chaim; Rosen, David S.; Roussouly, Pierre; Ruf, Michael; Ryu, Stephen I.; Samadani, Uzma; Sandhu, Faheem A.; Sasso, Rick C.; Saxena, Arjun; Schmidt, Meic H.; Shaffrey, Christopher I.; Shah, Suken A.; Shono, Yasuhiro; Shufflebarger, Harry L.; Silber, Jeff S.; Silva, Fernando E.; Silverthorn, James; Simeone, Frederick A.; Simmons, Edward D.; Singh, Kern; Smith, Harvey E.; Snyder, Virginia L.; Songer, Matthew N.; Spoonamore, Mark J.; Steinmetz, Michael P.; Steudel, W. I.; Stokes, John K.; Sturm, C.; Takemitsu, Masakazu; Tassin, Jean-Louis; Taylor, Brett; Taylor, William R.; Thalgott, John S.; Theofilos, Charles; Thongtrangan, Issada; Tobler, William D.; Toohey, John S.; Transfeldt, Ensor E.; Traynelis, Vincent C.; Tredway, Trent L.; Trost, Gregory R.; Truumees, Eeric; Vives, Michael J.; Voyadzis, Jean-Marc; Wang, Jeffrey C.; Webb, Scott; Weinstein, Philip; Welch, William C.; Wieser, Eric S.; Wong, Douglas Cabot; Woodard, Eric J.; Wright, Michael; Yuan, Philip S.; Yue, James J.; Zdeblick, Thomas A.; Zeiller, Steven C.; Zhang, Ho-Yeol; Zheng, Yinggang; Zigler, Jack E.

doi:10.1055/b-002-76305

Cited by 7 publications

References 0 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

Sublaminar bands: are they safe?

Polirsztok¹,

Gavaret

Gsell

et al. 2014

Eur Spine J

View full text Add to dashboard Cite

Background Sublaminar bands (SB) are frequently used as implants in spine deviation correction. Purpose Our purpose is to demonstrate their safety on a large series of patients. Study design This is a retrospective study. Methods Our department treated 378 spine deviations on children and adolescents via a hybrid posterior technique (lumbar screws, hook and thoracic SB). Each surgery was undertaken using anesthesiologic and a neurophysiologic monitoring using somatosensory evoked potentials (SSEP) and neurogenic mixed evoked potentials (NMEP). An alert was described as an amplitude decrease of 50 % and/or a latency increase of 10 %. Data were analyzed using Student or Wilcoxon tests.Results We used 2,223 SB in 378 operative procedures. We described ten neurophysiologic alerts during the passage of the band under the lamina. There were no significative differences between the two groups concerning the age and the severity of the deformation (p [ 0.05). These neurophysiologic alerts were associated with a dysautonomic trouble (hypertension and bradycardia). The lesional level was determined using a spinal electrode. In six cases, the responsible SB was removed. Three patients had postoperative neurologic deficiency (0.8 %) without complete recovery for one of them (localized incomplete sensitive deficiency). Within the group of 378 patients, 21 alerts were reported due to a screw or a hook, or during the correction manoeuver, without dysautonomic trouble. Conclusion SB neurologic complications rate is as high as other implants' complication rate. Simultaneous hemodynamic and neurophysiologic change is an argument for vegetative response due to SB passage. Their optimal use requires a strict learning of their insertion under the lamina to be as less traumatic as possible. SB are as safe as any other spine implants.

show abstract

Sublaminar bands: are they safe?

Polirsztok¹,

Gavaret

Gsell

et al. 2014

Eur Spine J

View full text Add to dashboard Cite

show abstract

Occipitocervical fusion: A review and current concepts

Shasti

Moshirfar

Gum

et al. 2020

Seminars in Spine Surgery

View full text Add to dashboard Cite

Mechanical Properties of Membranes of Poly(L-co-DL-lactic acid) with Poly(caprolactone triol) and StudyIn Vivo

Duarte

Motta

Duek

2014

International Journal of Polymer Science

View full text Add to dashboard Cite

There is increasing interest in aliphatic polyesters from lactones and lactides because of their biodegradability and biocompatibility. Among these compounds, poly(lactide), and poly(glycolide), poly(ε-caprolactone) and their copolymers are especially interesting because of their potential applications as biomedical materials. The aim of this study was to examine the properties of membranes of poly(L-co-D,L lactic acid) (PLDLA) with poly(caprolactone triol) (PCL-T) obtained by solvent evaporation. The blends were characterized by differential scanning calorimetry, dynamic mechanical analysis, Fourier transform infrared spectroscopy, and tensile strength tests. Based on the results ofin vitrostudies, PLDLA/PCL-T blends of 100/0 and 90/10 were implanted in subcutaneous tissue of Wistar rats for 1, 3, 7, 15, and 60 days to evaluate their biocompatibility. Histological analysis indicated that, although PCL-T-containing membranes caused a more prominent inflammatory reaction in the initial time intervals, by 60 days after implantation, the material was surrounded by dense, organized collagen with almost no inflammatory infiltrate.

show abstract

Spinal Instrumentation: Surgical Techniques

Cited by 7 publications

References 0 publications

Sublaminar bands: are they safe?

Sublaminar bands: are they safe?

Occipitocervical fusion: A review and current concepts

Mechanical Properties of Membranes of Poly(L-co-DL-lactic acid) with Poly(caprolactone triol) and StudyIn Vivo

Contact Info

Product

Resources

About