Search

Your search keyword '"Safe zone"' showing total 284 results
Start Over Descriptor "Safe zone"
284 results on '"Safe zone"'

255. Surgical Anatomy of the Medial Cuneiform (Cotton) Osteotomy.

Author

Wei B, Lau BC, and Amendola A

Abstract

Background: The Cotton osteotomy, or dorsal-opening wedge osteotomy of the medial cuneiform (MC), is used to address medial column alignment to restore the static-triangle of support. There are many described techniques regarding the incision and osteotomy. Successful completion of the osteotomy requires knowledge of the anatomy, particularly the location of the medial dorsal cutaneous nerve (MDCN). This study describes the relationship between MDCN, tibialis anterior, extensor-hallucis-longus tendon, and ligamentous attachments to the MC. A technique to determine a safe location for the osteotomy is also described., Methods: Twelve fresh-frozen adult foot specimens were used for this study (7 male and 5 female). The MDCN and its branches were dissected and its relationship with the MC was documented. Osteotomy tilt angle and relationship to structures around the MC were measured., Results: MDCN traveled medially and distally over the dorsum of the MC, and a small branch to the MC was observed. The tilt angle was 80.1 ±1.4 degrees. There was no significant difference between the distance from the distal-articular surface to the midline of the cuneiform and to the interosseous ligament ( P = .69), or between the distance from the distal-articular surface to the second tarsometatarsal joint and to the origin of the Lisfranc ligament ( P = .12)., Conclusions: The dorsal-medial-oblique incision effectively protected MDCN and the MC. We believe the osteotomy should be performed in the safe zone to maintain the stability of the opening wedge., Clinical Relevance: The dorsal-medial-oblique incision could reduce the risk of injury to the MDCN and the tibialis-anterior tendon., Competing Interests: Declaration of Conflicting Interests: The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article. ICMJE forms for all authors are available online., (© The Author(s) 2019.)

Published
2019
Full Text
View/download PDF

256. Surgicoanatomical aspect in vascular variations of the V3 segment of vertebral artery as a risk factor for C1 instrumentation.

Author

Arslan D, Ozer MA, Govsa F, and Kitis O

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Bone Screws, Computed Tomography Angiography, Female, Humans, Male, Middle Aged, Risk Factors, Young Adult, Cervical Vertebrae surgery, Orthopedic Procedures, Vertebral Artery abnormalities
Abstract

Object: Awareness of vascular anomalies in V3 segment of vertebral artery (VA) is crucial to avoid iatrogenic injuries during surgical procedure. This study aimed to analyze the incidence of V3 segment vascular variations and demonstrate the importance of deciding the surgical strategy for C1 screw placement., Methods: Prevalence of vascular variations and morphometric measurements of the VA in the region of the craniocervical junction in 200 cases based on three-dimensional computed tomographic angiography (3D-CTA) scans were studied., Results: The VA has a variable course through C2 before it passes above its groove on the posterior arch of C1. Following the vascular variations of V3 segments of VA were persistent including first intersegmental artery (FIA), fenestration (FEN) of the VA, high-riding (HRVA and the posterior inferior cerebellar artery (PICA) branch originating from the C1/2 part of VA. HRVA was observed in 10.1% of patients, FIA in 1.8%, FEN in 1.3%, and PICA in 1.3%. One hundred and twenty-three (24.1%) patients were identified to have HRVA, 6% present on both sides., Conclusion: The VA with FIA and FEN were rare in this study as many as a 10% the VA present over the starting point for C1 lateral screw. With respect to the vascular anatomy of V3 and more frequent left-sided VA dominancy, standard screw insertion should be started from the right side. Routine preoperative 3D-CTA evaluation is mandatory to prevent the VA injury when C1-C2 instrumentation is planned., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
Full Text
View/download PDF

257. Variations in sagittal and coronal stem tilt and their impact on prosthetic impingement in total hip arthroplasty.

Author

Tanaka T, Takao M, Sakai T, Hamada H, Tanaka S, and Sugano N

Subjects
Adult, Aged, Aged, 80 and over, Female, Femur diagnostic imaging, Femur surgery, Hip Joint diagnostic imaging, Hip Joint surgery, Hip Prosthesis, Humans, Male, Middle Aged, Range of Motion, Articular, Young Adult, Arthroplasty, Replacement, Hip methods
Abstract

Optimization of the combined anteversion of cup and stem has been emphasized to avoid prosthetic impingement in total hip arthroplasty (THA). However, no study has focused on the impact of variations in sagittal and coronal stem tilt against the whole femur on prosthetic range of motion. The purposes of the present study were a) to quantify the anatomical variation of sagittal and coronal tilt of the proximal canal axis against the femoral retrocondylar coordinate system, that is variation of sagittal and coronal stem tilt and b) to determine their impact on the zone of impingement-free cup position using computer simulation. Preoperative computed tomography images of 477 femurs from 409 consecutive patients who underwent THA using computed tomography-based computer navigation were stored. Virtual implantation of an anatomical stem was performed on the navigation workstation. The safe zone of the cup position with regard to prosthetic impingement was determined by motion simulation in the range of sagittal and coronal stem tilt of the subjects. The sagittal and coronal stem tilt varied by 10°, which was smaller than the stem anteversion variation. However, there was about 3 times the difference in the impingement-free zone of cup position in the ranges of sagittal and coronal stem tilt. The safe zone was significantly decreased by posterior tilt and valgus tilt of the stem. Range of motion simulation revealed that the variations in sagittal or coronal stem tilt significantly influenced the safe zone of the cup. In conclusion, although the variations in sagittal and coronal stem tilt against the femoral retrocondylar coordinate system were small, their impact on prosthetic impingement was significant., (© 2018 International Center for Artificial Organs and Transplantation and Wiley Periodicals, Inc.)

Published
2019
Full Text
View/download PDF

258. Danger zone of radial nerve in Indian population - A cadaveric study.

Author

Jain RK, Champawat VS, and Mandlecha P

Abstract

Background: Identification of the radial nerve is necessary during surgery of the humerus fracture to avoid injury to it. Iatrogenic nerve injury during humerus fracture surgery is a well-known complication. Prevention of this type of injuries would be of great value. Aim of this study is to reduce the chance of iatrogenic nerve injury by defining of a danger zone in the distal upper arm regarding the radial nerve in indian population., Methods: Thirty six upper limbs of eighteen adult human formalin preserved cadavers (14 males & 4 females) were used in this study. The posterior aspect of the arm was dissected to expose the radial nerve from the triangular space to the point where the radial nerve pierced the lateral intermuscular septum. Systematic identification of radial nerve and multiple measurements were done for each specimen., Results: The mean humeral length was 30.96 + 1.23 cm. Mean Distance of medial epicondyle to entry of radial nerve into spiral groove was 18.5 + 0.79 cm. Mean Distance of lateral epicondyle to exit of radial nerve into spiral groove was 11.34 + 0.41 cm. The mean length of radial nerve groove/spiral groove was 4.3 + 0.75 cm., Conclusions: Our study has identified the point of intersection of radial nerve to humerus in Indian population. Understanding the safe zones and the zone of danger of the humerus provides more safety during the surgical interference of the humerus. To do this, the radial nerve must be identified and protected. Wide incision and blunt dissection is still recommended to minimize the risk of radial nerve damage.

Published
2019
Full Text
View/download PDF

259. Surgical anatomy of the dorsal cutaneous branch of the ulnar nerve and its clinical significance in surgery at the ulnar side of the wrist.

Author

Uerpairojkit C, Kittithamvongs P, Puthiwara D, Anantaworaskul N, Malungpaishorpe K, and Leechavengvongs S

Subjects
Aged, Aged, 80 and over, Cadaver, Female, Humans, Intraoperative Complications prevention & control, Male, Middle Aged, Peripheral Nerve Injuries prevention & control, Ulna, Ulnar Nerve anatomy & histology, Wrist Joint surgery
Abstract

The dorsal cutaneous branch of the ulnar nerve can be easily injured during surgery at the ulnar side of the wrist. We sought to identify the surgical anatomy, the pathway around the ulnar styloid process and the safe zone of the dorsal cutaneous branch of the ulnar nerve. In 44 forearm dissections, we found that the dorsal cutaneous branch of the ulnar nerve originated at a median distance of 6.8 cm proximal to the tip of the ulnar styloid. We classified the crossing pattern of the dorsal cutaneous branch of the ulnar nerve at a vertical axis into three types. The most common type featured the dorsal cutaneous branch of the ulnar nerve crossing the vertical axis at a median distance of 10.0 mm distal to the tip of the ulnar styloid. In 14% of specimens, the dorsal cutaneous branch of the ulnar nerve crossed the vertical axis at the level of the tip of the ulnar styloid. By mapping the course of the nerve using a Cartesian coordinate system, it was found that the areas located proximal and palmar to the tip of the ulnar styloid had a very high density of dorsal cutaneous branches of the ulnar nerve. We were unable to establish a safe zone. We recommend identifying the dorsal cutaneous branch of the ulnar nerve in every patient undergoing surgery at the ulnar side of the wrist.

Published
2019
Full Text
View/download PDF

260. Calcaneal Osteotomy Safe Zone to Prevent Neurological Damage: Fact or Fiction?

Author

Wills B, Lee SR, Hudson PW, SahraNavard B, de Cesar Netto C, Naranje S, and Shah A

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Ankle innervation, Female, Heel innervation, Humans, Iatrogenic Disease prevention & control, Male, Middle Aged, Peripheral Nerve Injuries epidemiology, Postoperative Complications epidemiology, Retrospective Studies, Young Adult, Bone Malalignment surgery, Calcaneus surgery, Margins of Excision, Osteotomy methods, Peripheral Nerve Injuries prevention & control, Postoperative Complications prevention & control
Abstract

Background: Calcaneal osteotomy is a commonly used surgical option for the correction of hindfoot malalignment. A previous cadaveric study described a neurological "safe zone" for calcaneal osteotomy. We performed a retrospective chart review to evaluate the presence of neurological injuries following calcaneal osteotomies and the location of the osteotomy in relation to the reported safe zone., Methods: In this retrospective study, we reviewed charts of patients who underwent calcaneal osteotomy at our institution from 2011 to 2015. All immediate postoperative radiographs were examined and the shortest distance between the calcaneal osteotomy line and a reference line connecting the posterior superior apex of the calcaneal tuberosity to the origin of the plantar fascia was measured. If the osteotomy line was positioned within an area 11.2 mm anterior to the reference line, it was considered to be inside the neurological safe zone. We correlated the positioning of the osteotomy with the presence of postoperative neurological complications., Results: We identified 179 calcaneal osteotomy cases. Of the 174 (97.2%) nerve injury-free cases, 62.6% (109/174) were performed inside the defined "safe zone" while 37.4% (65/174) outside. A total of 5 (2.8%) nerve complications were identified: 3 (60%) were inside the safe zone and 2 (40%) outside the safe zone. Osteotomies outside the safe zone had a 1.114 relative risk of nerve injury with a 95% CI of 0.191 to 6.500 and showed no statistically significant difference ( P = .9042)., Conclusion: Our findings suggest that the clinical "safe zone" in calcaneal osteotomies may not actually exist, likely because of wide anatomical variation of the implicated nerves, as described in prior studies. Patients should be properly counseled preoperatively on the low, but seemingly fixed, risk of nerve injury before undergoing calcaneal osteotomy., Levels of Evidence: Level III: Retrospective comparative study.

Published
2019
Full Text
View/download PDF

261. Calculation of impingement-free combined cup and stem alignments based on the patient-specific pelvic tilt.

Author

Hsu J, de la Fuente M, and Radermacher K

Subjects
Acetabulum physiology, Femur physiology, Humans, Pelvis surgery, Posture, Range of Motion, Articular, Acetabulum surgery, Arthroplasty, Replacement, Hip methods, Femur surgery, Pelvis anatomy & histology
Abstract

Proper cup alignment is crucial in total hip arthroplasty for reducing impingement risks, dislocations and wear. The Lewinnek "safe zone" is often used in clinical routine. This safe zone does not consider functional aspects and dislocation can occur even when the cup is oriented within the safe zone. Functional safe zones based on the hip range of motion (ROM) were introduced but are not commonly used in clinical routine. The reason might be that these methods are time-consuming due to complex simulations. A relatively fast method based on analytical mathematical formulas was proposed, but it is difficult to consider arbitrary motion. This work introduces an efficient algorithm for calculating a patient-specific target zone based on the target ROM which can consider any set of motions. The method is based on matrix transformations and trigonometric formulas. The resulting target zone which contains all impingement-free cup orientations is dependent on the patient-specific pelvic tilt, the 3D angular neck and stem orientation within the femur, and the technical prosthesis ROM. This method could be integrated into computer-assisted preoperative planning and intra-operative navigation tools. As pelvic tilt and stem orientation influence the optimal cup orientation they need to be acquired from the patient to derive a patient-specific ROM-based target zone., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2019
Full Text
View/download PDF

265. The Safe Zone for External Fixator Pins in the Femur

Author

ARMY INST OF SURGICAL RESEARCH FORT SAM HOUSTON TX, Beltran, Michael J, Collinge, Cory A, Patzkowski, Jeanne C, Masini, Brendan D, Blease, Robert E, Hsu, Joseph R, ARMY INST OF SURGICAL RESEARCH FORT SAM HOUSTON TX, Beltran, Michael J, Collinge, Cory A, Patzkowski, Jeanne C, Masini, Brendan D, Blease, Robert E, and Hsu, Joseph R

Abstract

Objective: To define the anatomic safe zone for placement of external fixator half pins into the anterior and lateral femur. Methods: In 20 fresh frozen hemipelvis specimens, the femoral nerve and all branches crossing the femur were dissected out to their final muscular locations. The location where the nerves crossed the anterior femur was measured from the anterior superior iliac spine and inferior margin of the lesser trochanter. The knee joint was then opened, and the distance from the superior reflection of the suprapatellar pouch to the last branch of the femoral nerve crossing the anterior femur was measured, defining the safe zone for anterior pin placement. Results: The last branch of the femoral nerve crossed at an average distance from the anterior superior iliac spine of 174 43 mm (range, 95 248 mm) and from the lesser trochanter at a distance of 58 36 mm (range, 0 136 mm). The average distance from the proximal pole of the patella to the superior reflection of the supra patellar pouch was 46.3 13.1 mm (range, 20 74 mm). Using the linear distance between the last crossing femoral nerve branch and the superior reflection of the pouch, the average safe zone measured 199 39.8 mm (range, 124 268 mm). The safe zone correlated with thigh length (r 0.48, P 0.03). All nerve branches terminated at their muscular origins without crossing lateral to a line from the anterior greater trochanter to the anterior aspect of the lateral femoral condyle. Conclusions: The safe zone for anterior external fixator half pin placement into the femur is on average 20 cm in length and can be as narrow as 12 cm. Anterior pins should begin 7.5 cm above the superior pole of the patella to avoid inadvertent knee joint penetration., Published in the Journal of Orthopaedic Trauma, v26 n11 p643-647, Nov 2012. Prepared in collaboration with the Department of Orthopaedics and Rehabilitation, San Antonio Military Medical Center, San Antonio, TX, and the United States Army Trauma Training Center/Ryder Trauma Center, Miami, FL.

Published
2012

267. A new method to locate the radial head "safe zone" on computed tomography axial views.

Author

Zhan Y, Luo CF, and Chen YJ

Subjects
Cadaver, Epiphyses diagnostic imaging, Humans, Pronation, Radius anatomy & histology, Radius Fractures surgery, Rotation, Supination, Anatomic Landmarks diagnostic imaging, Image Processing, Computer-Assisted, Radius diagnostic imaging, Tomography, X-Ray Computed
Abstract

Purpose: Direct location of the "safe zone" on a CT axial view is impossible because the radial head is circular in shape. Previous "safe zone" location methods are not appropriate if the physician is unable to visualize the actual radial head. This study aims to introduce a new method to locate the "safe zone" on CT., Methods: CT scans were performed on 20 intact cadaveric upper limbs from 20 different corpses in full pronation and supination. The DICOM-format raw data were then re-sliced and analyzed in Mimics 17.0 (Materialise, Belgium). The radial interosseous border (IB) is shaped like a droplet on the axial view; its axis was selected as our reference line (RL). A parallel line in the radial head axial slice was created, and its position relative to the "safe zone" was studied. Deviation in RL direction was evaluated., Results: Safe-zone scope was 114.41°±11.99. The rotation angle from the RL to the safe-zone's anterior and posterior border was 215.03°±5.99 and 100.62°±8.12, respectively. Rotation direction (clockwise or anti-clockwise) depended on relative radius-ulna position. The safe zone was located by determining these two borders. The reference line's direction was stable in the upper half of the IB; its distance to the radial head fovea was 77.33° mm±6.24., Conclusions: The radial head "safe zone" can be located on CT axial view based on the upper half of the IB using this new method. The method is clinically applicable to determine whether postoperative elbow malrotation results from plate impingement., (Copyright © 2017 Elsevier Masson SAS. All rights reserved.)

Published
2018
Full Text
View/download PDF

268. SURGICAL SIGNIFICANCE OF URETERIC ORIFICES LOCATIONS IN VESICO-VAGINAL FISTULAS (VVFS): A NEW THOUGHT WITH CLASSIFICATION.

Author

Singh, R. B., Nanda, S., Dalal, S., and Singh, K.

Subjects
*VESICOVAGINAL fistula, *URETERIC obstruction, *OPERATIVE surgery, *VESICO-ureteral reflux, *HUMAN dissection, *PREVENTION
Abstract

The article presents a case study of three females aged 30, 38 and 45 years who were diagnosed with vesico-vaginal fistulas (VVFs). It discusses the surgical significance of ureteric orifices in VVFs. Also mentioned are the ureteric re-implantation, technique of circum-incising and circum-dissecting the fistulas, and anti-reflux mechanisms.

Published
2012

269. Total Hip Arthroplasty Functional Outcomes Are Independent of Acetabular Component Orientation When a Polyethylene Liner Is Used.

Author

Bobman, Jacob T., Danoff, Jonathan R., Babatunde, Oladapo M., Zhu, Kaicen, Peyser, Katie, Geller, Jeffrey A., Gorroochurn, Prakash, and Macaulay, William

Abstract

Background: This study evaluated patient-reported outcomes in patients undergoing primary total hip arthroplasty with a polyethylene liner to determine the influence of cup orientation and other variables on patient-reported outcomes.Methods: A total of 477 cases were prospectively monitored through average 4.7 years follow-up. Cup position was measured on pelvis radiographs. Patients completed the Western Ontario and McMaster Universities Osteoarthritis Index and Short Form 12 Health Survey questionnaires.Results: Average cup abduction was 43.1° ± 7.5° and anteversion was 13.3° ± 7.5°. Three hundred cups were within the target zone. All outcomes' improvement from baseline and cup position was not an independent risk factor for the Western Ontario and McMaster Universities Osteoarthritis Index or Short Form 12 Health Survey improvement.Conclusion: Accurate cup orientation may not be critical to maximizing patient-perceived outcomes if the combined anteversion is within a normal range, the hip joint is properly balanced, and a polyethylene liner is coupled with a metal or ceramic femoral head. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

270. Can a target zone safer than Lewinnek's safe zone be defined to prevent instability of total hip arthroplasties? Case-control study of 56 dislocated THA and 93 matched controls.

Author

Reina N, Putman S, Desmarchelier R, Sari Ali E, Chiron P, Ollivier M, Jenny JY, Waast D, Mabit C, de Thomasson E, Schwartz C, Oger P, Gayet LE, Migaud H, Ramdane N, and Fessy MH

Subjects
Adult, Aged, Aged, 80 and over, Case-Control Studies, Female, Femur diagnostic imaging, Hip Dislocation etiology, Hip Prosthesis, Humans, Joint Instability etiology, Male, Middle Aged, Odds Ratio, Risk Factors, Tomography, X-Ray Computed, Acetabulum diagnostic imaging, Arthroplasty, Replacement, Hip adverse effects, Arthroplasty, Replacement, Hip methods, Hip Dislocation diagnostic imaging, Joint Instability diagnostic imaging
Abstract

Background: Various factors contribute to instability of total hip arthroplasty (THA), with implant orientation being a major contributor. We performed a case-control study with computed tomography (CT) data to determine whether: 1) orientation contributes to THA instability and 2) a safer target zone for stability than Lewinnek's classic safe zone can be defined., Material and Methods: We included prospectively 363 cases of THA dislocation that occurred during the calendar 2013 year in 24 participating hospitals. Of the 128 dislocations that occurred in patients who underwent THA at these centers, 56 (24 anterior, 32 posterior) had CT scans, thus were included in the analysis. The control group was matched 4:1 based on implant type, year of implantation, age, sex, bearing types and THA indication. Of the 428 matched control THA cases, 93 had CT scans. In all, the CT scans from 149 cases (56 unstable, 93 stable) were analyzed to determine the acetabular cup's inclination and anteversion, and the femoral stem's anteversion., Results: In the unstable THA group, cup inclination was 46.9°±7.4°, cup anteversion was 20.4°±10.8° and stem anteversion was 14.2°±9.9°. In the stable THA group, cup inclination was 44.9°±5.3° (P=0.057), cup anteversion was 22.1°±5.1° (P=0.009) and stem anteversion was 13.4°±4.4° (P=0.362). The optimal total anteversion (cup+stem) of 40-60° was achieved in 16.5% of unstable THA cases and 13.9% of stable THA cases, thus this parameter does not predict stability (odds ratio [OR] of 0.40, P=0.144). The cup was positioned in Lewinnek's safe zone in 44.6% of patients in the unstable group and 68.2% of those in the stable group (OR 3.74, P=0.003). A target zone defined as 40-50° inclination and 15-30° anteversion was better able to distinguish between unstable cases (23.2%) and stable cases (71.6%) resulting in an OR of 13.91 (P<0.001)., Discussion: Implant positioning was the only risk factor for instability found in this study. Moreover, our findings reinforce the theory put forward by other authors that Lewinnek's safe zone is not specific enough to differentiate between stable and unstable THA implantations. The target zone for acetabular cups proposed here (40-50° inclination and 15°-30° anteversion) is related to a lower risk of instability. This orientation can be used as a guide, but must be combined with other technical elements to optimize stability. By balancing stability and biomechanics, the 40-50° inclination and 15°-30° anteversion target zone redefines the optimal positioning window., Level of Evidence: III case-control study., (Copyright © 2017 Elsevier Masson SAS. All rights reserved.)

Published
2017
Full Text
View/download PDF

271. What do we get from navigation in primary THA?

Author

Renner L, Janz V, Perka C, and Wassilew GI

Abstract

Navigation in primary total hip arthroplasty has a history of over 20 years. During this process, imageless computer navigation can be particularly helpful in optimally restoring the hip's biomechanics. This involves the accurate placement of the acetabular component with the determination of the anteversion and abduction, whereby the navigated femur-first technique also allows for a calculation of the combined anteversion. Additional critical parameters such as the reconstruction of the rotation centre, as well as the femoral and acetabular offset, can also be optimally adjusted. Last but not least, an intra-operative evaluation and equalisation of the leg length is possible.Nonetheless, the disadvantages of this surgical technique in terms of the high costs in the acquisition and preservation of the necessary devices, as well as the longer operation time, must be taken into account. However, economic aspects are not the only thing preventing widespread use of the navigation technique. Determining the plane of reference (APP) for the optimal orientation of the implants is based on palpation of the bony landmarks - and this is influenced by the thickness of the soft tissue layer. Furthermore, the experience of the surgeon constitutes a variable that influences the accuracy of navigation.In summary, hip navigation certainly offers an interesting technique for the optimisation of total hip arthroplasty with reconstruction of proper biomechanics. At the same time, there is currently a lack of high-quality randomised controlled long-term trials that evaluate the clinical advantage for the patients, together with cost utility and survival rates. Cite this article: Renner L, Janz V, Perka C, Wassilew GI. What do we get from navigation in primary THA? EFORT Open Rev 2016;1:205-210. 10.1302/2058-5241.1.000034., Competing Interests: Conflict of Interest: None declared.

Published
2017
Full Text
View/download PDF

272. Safe zone for transacetabular screw fixation using a Kerboull cross-plate: A CT-scan templating prospective study.

Author

Ohmori T, Kabata T, Kajino Y, Hasegawa K, Inoue D, and Tsuchiya H

Subjects
Acetabulum diagnostic imaging, Acetabulum surgery, Adult, Aged, Arthroplasty, Replacement, Hip adverse effects, Bone Plates, Computer Simulation, Female, Fracture Fixation, Internal, Humans, Iliac Artery diagnostic imaging, Iliac Artery injuries, Iliac Vein diagnostic imaging, Iliac Vein injuries, Ilium diagnostic imaging, Imaging, Three-Dimensional, Male, Middle Aged, Muscle, Skeletal diagnostic imaging, Prospective Studies, Sacroiliac Joint injuries, Anatomic Landmarks diagnostic imaging, Arthroplasty, Replacement, Hip methods, Bone Screws adverse effects, Prosthesis Implantation methods, Tomography, X-Ray Computed
Abstract

Background: Implantation of Kerboull acetabular reinforcement cross-plates (Kerboull plate) carries a risk for injury to vascular structures and pelvic organs. To our knowledge, there is no study assessing anatomical assessment related to this risk with this specific design. Therefore, we performed a prospective study to answer the following four questions: 1) What is the minimum distance and angle between the plate and iliac vessels? 2) What is the distance between the plate and the inner cortex of the ilium? 3) What is the ratio of views with muscle tissue present on the inner surface of the ilium? 4) What are the boundaries of the safe zone for transacetabular screw fixation for a Kerboull plate?, Hypothesis: A safe zone for fixation screws would be defined by a narrow range of insertion angles., Materials and Methods: This is a CT-based 3D templating prospective study. Simulations were performed for 18 patients fitted with a Kerboull plate. An original Kerboull plate (Stryker, Mahwah, NJ, USA) was placed at a 45° abduction angle relative to the X-axis (alignment A) and the palette was placed vertically to the X-axis (alignment B). We measured the distance from the centre of the plate to the inner surface of the cortex of the ilium, the shortest distance to vessels and the angle of existing vessels, and the ratio of muscles on the inner surface of the ilium., Results: The shortest distance to the vascular structures increased with increasing angle of insertion of the fixation screws, 85.8±12.1mm for A and 111.4±12.0mm for B at 45°. The distance to the inner cortex was further increased for screws inserted in posterior direction. At insertion angles ≥40°, the screws passed through muscle before invading the pelvis in most cases. However, at anterior-posterior angle (AP angles) ≤-10°, the risk of direct insertion of screws into the sacroiliac joint increased., Discussion: The safe zone for transacetabular screws would be insertion at an angle≥40°, with an AP angle between 0° and -10° (slight posterior direction)., Level of Evidence: Level IV prospective diagnostic study., (Copyright © 2016. Published by Elsevier Masson SAS.)

Published
2016
Full Text
View/download PDF

273. A radiographic simulation study of fixed superior pubic ramus fractures with retrograde screw insertion.

Author

Quan Q, Hong L, Chang B, Liu RX, Zhang YQ, Zhao Q, and Lu SB

Abstract

Objectives: The study's aim is to calculate the parameters for retrograde insertion points for fixed superior pubic ramus fractures., Methods: From the pubic symphysis, diameter and length of the screw were measured, as well as the angle between the screw axis and the 3 planes., Results: When the diameter was fixed at 4.5 mm, the maximum lengths were 125 mm and 119 mm., Conclusions: When the fracture occurs in Zone I, the penetration point could be selected in the pubic symphysis pubis angle to ensure that medial fracture fragments have sufficient screw channel length.

Published
2016
Full Text
View/download PDF

275. Anatomic Considerations for Plating of the Distal Ulna.

Author

Hazel A, Nemeth N, and Bindra R

Abstract

Purpose The purpose of our study was to examine the anatomy of the distal ulna and identify an interval that would be amenable to plating and would not cause impingement during wrist rotation nor irritation to the extensor carpi ulnaris (ECU) tendon. Methods Six cadaveric forearms were dissected and the arc of the articular surface of the distal ulna was measured. The distal ulna was divided up as a clock face, with the ulnar styloid being assigned the 12 o'clock position, and the location of the ECU was identified accordingly. The distance from the ulnar styloid to where the dorsal sensory ulnar nerve crosses from volar to dorsal was also measured. Based on these measurements a safe zone was defined. Results A safe zone was identified between the 12 and 2 o'clock position on the right wrist, and between the 10 and 12 o'clock on the left wrist. The dorsal sensory branch of the ulnar nerve crossed from volar to dorsal position at a variable location near the ulnar styloid. Two commercially available plates were utilized and could be placed in our designated interval and did not cause impingement when the forearm was rotated fully. Conclusion Our study demonstrates a location for plating of the distal ulna that avoids impingement during forearm rotation and that is outside of the footprint of the ECU subsheath. Clinical Relevance Plating of the distal ulna may be necessary with distal ulna fracture, and although plate placement may be dictated by the fracture pattern, it is important to understand the implications of plate placement. Although the ideal plate may not be possible because of comminution, the patient can be educated in regards to potential for tendon irritation, loss of motion, or need for hardware removal.

Published
2015
Full Text
View/download PDF

276. Cup position alone does not predict risk of dislocation after hip arthroplasty.

Author

Esposito CI, Gladnick BP, Lee YY, Lyman S, Wright TM, Mayman DJ, and Padgett DE

Subjects
Acetabulum diagnostic imaging, Aged, Aged, 80 and over, Arthroplasty, Replacement, Hip methods, Female, Hip Dislocation etiology, Humans, Male, Middle Aged, Prospective Studies, Radiography, Registries, Acetabulum surgery, Arthroplasty, Replacement, Hip adverse effects, Hip Dislocation prevention & control, Hip Prosthesis
Abstract

We used a large prospective institutional registry to determine if there is a 'safe zone' that exists for acetabular component position within which the risk of hip dislocation is low and if other patient and implant factors affect the risk of hip dislocation. Patients who reported a dislocation event within six months after hip arthroplasty surgery were identified, and acetabular component position was measured with anteroposterior radiographs. The frequency of dislocation was 2.1% (147 of 7040 patients). No significant difference was found in the number of dislocated hips among the radiographic zones (±5°,±10°,±15° boundaries). Dislocators <50 years old were less active preoperatively than nondislocators (P=0.006). Acetabular component position alone is not protective against instability., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published
2015
Full Text
View/download PDF

277. Is there a safe zone to avoid superficial radial nerve injury with Kirschner wire fixation in the treatment of distal radius? A cadaveric study.

Author

Ali AM, El-Alfy B, and Attia H

Abstract

Aim of the Study: To determine the relation of the superficial radial nerve to bony land-marks and to identify a safe zone for K-wire pinning in the distal radius., Method: The superficial radial nerve was dissected in sixteen upper extremities of preserved cadavers., Results: We found that the superficial radial nerve emerged from under brachioradialis at a mean distance of 8.45 (±1.22) cm proximal to the radial styloid. The mean distance from the first major branching point of the superficial radial nerve to the radial styloid were 4.8 ± 0.4 cm. All branches of the superficial radial nerve were found to lie in the radial half of an isosceles triangle formed by the radial styloid, Lister's tubercle and the exit point of the superficial radial nerve. There is an elliptical area just proximal to the Lister's tubercle. This area is not crossed by any tendons or nerve. It is bounded by the extensor carpiradialis brevis, extensor pollicis longus., Conclusion: Pinning through the radial styloid is unsafe as the branches of the superficial radial nerve passé close to it. The ulnar half of the isosceles triangle is safe regarding the nerve. The elliptical zone just proximal to the Lister's tubercle is safe regarding the tendons and nerve.

Published
2014
Full Text
View/download PDF

279. An anatomic consideration of C2 vertebrae artery groove variation for individual screw implantation in axis

Author

Hong Xia, Qing-shui Ying, Xiangyang Ma, Fzhi Ai, Yang Lu, Janhua Wang, and Zenghui Wu

Subjects
Adult, Male, musculoskeletal diseases, Adolescent, Vertebral artery, medicine.medical_treatment, Bone Screws, Individual screw placement, Facet joint, Safe zone, C2 pedicle screw, Young Adult, medicine.artery, medicine, Humans, Orthopedics and Sports Medicine, Spinal cord injury, Vertebral Artery, Retrospective Studies, business.industry, Anatomy, Middle Aged, musculoskeletal system, medicine.disease, Cervical surgery, Spinal Fusion, medicine.anatomical_structure, Surgery, Computer-Assisted, Spinal fusion, Cervical Vertebrae, Original Article, Female, Surgery, C2 translaminar screw, Tomography, X-Ray Computed, business, Groove (joinery), C2 vertebral artery groove (VAG), Artery, Cervical vertebrae
Abstract

Study design Retrospective case series. Objectives To identify the variation of C2 vertebral artery groove (VAG) based on the thin-slice computed tomography (CT) scan and choose an individual screw placement method to decrease risk of malposition. Background C2 pedicle screws can be successful anchors for a variety of cervical disorders. However, variations of VAG may cause malposition and breach when C2 transpedicle screw was inserted. Recognizing the variations of vertebrae artery groove (VAG) in C2 and choosing an individual screw placement method (transpedicle or translaminar) may be helpful for avoiding violation and decreasing the operation risk in upper cervical surgery. Methods From January 2009 to December 2010, a total 45 patients with upper cervical disorders underwent 1–mm-thin-slice CT scans along the C2 pedicle direction to obtain the consecutive spectrum of C2 VAG were included in this study. The C2 VAG (types I, II, III, and IV) was subgrouped based on parameter e (the vertical distance from the apex of VAG to the upper facet joint surface) and parameter a (horizontal distance from the entrance of VAG to the vertebrae canal). Subsequently, individual strategy was used to avoid the VAG violation. Results The variations of C2 VAG in these 45 patients include the following: type I 53 (58.9 %), type II 16 (17.8 %) type III 13 (14.4 %), and type IV 8 (8.9 %). Transpedicle screws of C2 were used in types I, III, and IV VAGs (n = 74); translaminar screws were inserted in type II subgroup (n = 16). Postoperative CT scans showed that there were two pedicle screws violated into the artery groove, and no translaminar screw breached into the vertebrae canal. All the other screws were in right position. None of the 45 patients had severe complications such as spinal cord injury, dura tear, and infection. Conclusion Thin-slice CT scan along the C2 pedicle direction to analysis the variations of C2 VAG can help choose an individual screw placement method (transpedicle or translaminar) with minimal complication for C2 screw fixation.

Full Text
View/download PDF

281. Allies in the struggle.

Author

Draughn T, Elkins B, and Roy R

Abstract

SUMMARY Providing a community that is committed to standards, diversity, and enhancement of the academic environment is often difficult. Offering an Allies or Safe Zone program is among of the first steps an institution can take to achieve a community that embraces diversity and creates a learning environment that is accepting of lesbian, gay, bisexual and transgendered individuals. While there are many opportunities in institutional group settings to address these issues, they often go either unnoticed or untapped. How can being an ally impact the greater institutional environment? This paper will discuss the campus environment for LGBT students, examine existing Allies and Safe Zone programs, and offer a framework to assist program coordinators and participants in establishing comprehensive programs to change the campus climate and develop institutional environments that are gay affirmative.

Published
2002
Full Text
View/download PDF

282. A Safe Zone for Displaced Populations in Northern Syria: Interdisciplinary Perspectives

Author

Demir, Zeynep, Guerer, Cueneyt, Rottmann, Philipp, and Ghráinne, Bríd Ní

Subjects
syria, safe zone, war zone trauma
Abstract

A ‘safe zone’ refers to an area established in armed conflict for the purposes of protecting civilians. Safe zones can take many forms, but often consist of camps in refugee-generating states that are protected by the military power of a foreign state or by an international organization. As the numbers of displaced persons generated by the Syrian conflict rises, and the political will to accept refugees falls, it is unsurprising that the US – as well as Iraq, France, Russia, and Turkey –have all considered the possibility of establishing a safe zone in Syria. However, safe zones can be extremely dangerous. Their establishment is often motivated by policies of containment and it is often difficult to ensure they will not be attacked. In this round table, experts coming from different backgrounds will examine the concept of “safe zone” focusing on the area proposed by Turkey in Northern Syria. Although the main discussion will cover this specific area, “safe zone” as a general concept and a way of accommodating refugees will be addressed. Therefore, round table discussion will look at the subject both from a theoretical and practical point of view using the framework of various disciplines.

283. Análise comparativa da distância entre forames mentonianos e as medidas estandardizadas dos guias de orientação à osteotomia implantar

Author

Coelho, Cláudio Miguel Barbosa and RIBEIRO, CARLOS MANUEL AROSO

Subjects
Full-Arch, Parestesia, All-on-Four, A-P Spread, Tomografia Computorizada por Cone Beam, Forâmen Mentoniano, Safe Zone, Loop Anterior do Nervo Mandibular
Abstract

O nervo alveolar inferior é uma estrutura nervosa mandibular bilateral oriundo do nervo trigémeo que emerge no mento pelos forames mentonianos (FM) originando os nervos mentonianos. Os FM são um importante ponto de referência anatómico na reabilitação oral por implantes. O médico dentista deve ter atenção aos FM durante esse procedimento cirúrgico de forma a evitar uma possível lesão iatrogénica que possa originar parestesia da zona enervada pelo nervo alveolar inferior. A técnica de colocação de implantes entre FM com o apoio de um guia de orientação tipo “All on Four” (GOAF) fornece-nos medidas estandardizadas e angulações para a criação do leito implantar. Neste estudo pretendeu-se verificar a utilidade e fiabilidade do GOAF numa amostra representativa da população Portuguesa. Analisaram-se tomografias computorizadas por cone beam (CBCT) e determinou-se a distância média entre FM (47,7 mm). Essas medidas foram comparadas com as medidas standards marcadas a laser nos guias com valores de 7, 14, 21 e 28 mm. Verificou-se que devido às variações dimensionais e anatómicas do nervo mandibular, as medidas marcadas no GOAF para os implantes mais distalizados não conferem margem de segurança que evite uma possível lesão das estruturas nervosas da zona anterior da mandíbula. Conclui-se que se deve personalizar o estudo para cada paciente e que a GOAF é um instrumento útil na colocação de implantes na região interforaminal, contudo não devem ser utilizadas sem análise prévia por CBCT.

284. How Reliable is the Safe Zone of Hardinge Approach for Superior Gluteal Nerve?

Author

Bulbul, Murat, Ayanoglu, Semih, Ozturk, Kahraman, YUNUS IMREN, Esenyel, Cem, Yesiltepe, Ridvan, and Gurbuz, Hakan

Subjects
Hardinge yaklaşımı,safe zone,M. gluteus medius,superior gluteal sinir, Hardinge approach, safe zone, M. gluteus medius, superior gluteal nerve
Abstract

Objectives: Anterolateral Hardinge approach is one of the most common approaches used for total hip arthroplasty. Superior gluteal nerve is the main motor nerve of abductor mechanism of gluteus medius and tensor fascia lata muscles, where the injury to this nerve manifests itself as Trendelenburg's sign. In order to prevent the occurrence of this sign, a concept was developed called as “safe zone”, where no superior gluteal nerve exists. Our aim was to evaluate the reliability of the concept of safe zone as previously described by many authors in Hardinge approach. Patients and Methods: Nineteen hips of 10 fresh cadavers were evaluated in this study. We measured the distance between 1/3 anterior of greater trochanter of femur and superior gluteal nerve. Results: We detected the distance between 1/3 anterior of greater trochanter of femur and superior gluteal nerve to be 4.4 cm. The mean value of distance we observed in our study was smaller than that reported in literature by various authors. Conclusion: We have detected that in cases where total hip arthroplasty will be performed through Hardinge incision, the area defined as safe zone was shorter than that described by various authors as 5 cm. We concluded that safe zone concept of 5 cm should not be relied on in cases where Hardinge approach is used. Turkish Başlık: Hardinge Yaklaşımındaki Safe Zone Superior Gluteal Sinir İçin Ne Kadar Güvenilir? Anahtar Kelimeler: Hardinge yaklaşımı; safe zone; M. gluteus medius; superior gluteal sinir Amaç: Anterolateral Hardinge yaklaşımı kalça artroplastisinde en sık kullanılan yaklaşımlardan biridir. Superior gluteal sinir, gluteus medius ve tensor fasya lata'nın abduktor mekanizmasının esas motor siniridir. Bu sinirin hasarlanması durumunda Trendelenburg belirtisi saptanmaktadır. Trendelenburg belirtisine maruz kalınmaması için "safe zone" denen kavram geliştirilmiştir. Safe zone diye adlandırılan bölgenin içinde superior gluteal sinir yoktur. Hardinge yaklaşımında çeşitli yazarlarca tariflenen safe zone kavramının güvenilirliğini değerlendirmeyi amaçladık. Hastalar ve Yöntemler: Çalışmamızı 10 taze kadavranın 19 kalçasında yaptık. Trokanter major'un (1/3 ön tarafındaki noktadan) superior gluteal sinire olan uzaklıklarını değerlendirdik. Bulgular: Trochanter major'ün 1/3 ön bölümüyle superior gluteal sinir arasındaki mesafeyi ortalama 4.4 mm olarak tespit ettik. Çalışmamızda bulduğumuz ortalama değer, daha önce değişik yazarlarca bildirilen değerlerden daha küçük olarak bulundu. Sonuç: Hardinge insizyonu ile total kalça artroplastisi yapılacak olgularda, safe zone olarak tanımlanan alanın çeşitli yazarlarca bildirilen 5 cm'nin altında olduğunu tespit ettik. Bu yaklaşımın kullanıldığı olgularda 5 cm'lik safe zone kavramına çok fazla güvenmememiz gerektiği sonucuna vardık., Amaç: Anterolateral Hardinge yaklaşımı kalça artroplastisinde en sık kullanılan yaklaşımlardan biridir. Superior gluteal sinir, gluteus medius ve tensor fasya lata’nın abduktor mekanizmasının esas motor siniridir. Bu sinirin hasarlanması durumunda Trendelenburg belirtisi saptanmaktadır. Trendelenburg belirtisine maruz kalınmaması için "safe zone" denen kavram geliştirilmiştir. Safe zone diye adlandırılan bölgenin içinde superior gluteal sinir yoktur. Hardinge yaklaşımında çeşitli yazarlarca tariflenen safe zone kavramının güvenilirliğini değerlendirmeyi amaçladık. Hastalar ve Yöntemler: Çalışmamızı 10 taze kadavranın 19 kalçasında yaptık. Trokanter major’un (1/3 ön tarafındaki noktadan) superior gluteal sinire olan uzaklıklarını değerlendirdik. Bulgular: Trochanter major’ün 1/3 ön bölümüyle superior gluteal sinir arasındaki mesafeyi ortalama 4.4 mm olarak tespit ettik. Çalışmamızda bulduğumuz ortalama değer, daha önce değişik yazarlarca bildirilen değerlerden daha küçük olarak bulundu. Sonuç: Hardinge insizyonu ile total kalça artroplastisi yapılacak olgularda, safe zone olarak tanımlanan alanın çeşitli yazarlarca bildirilen 5 cm'nin altında olduğunu tespit ettik. Bu yaklaşımın kullanıldığı olgularda 5 cm'lik safe zone kavramına çok fazla güvenmememiz gerektiği sonucuna vardık

Catalog

Books, media, physical & digital resources
See catalog results