Reaming Technique Research Articles

Commercially Available Guides Overestimate Socket Length During Anterior and Posterior Cruciate Ligament Socket Retrograde Drilling

To objectively assess the accuracy of socket measurements taken during cruciate ligament reconstruction using a retrograde reaming technique. Six complete knee sawbone specimens were used to ream anterior and posterior cruciate ligament sockets in the femur and tibia in a retrograde fashion using a standard retrograde reaming device. The longest and shortest sides of the sockets were measured using a ruler. One-sided Wilcoxon signed-rank sum tests were used to evaluate whether the actual measured socket length matched the estimated length set on the drill guide. One fellowship-trained surgeon reamed 24 total sockets in sawbone specimens using guides. Statistical analysis revealed a significant difference between the estimated measurement and the actual shortest tunnel length in each of the sockets. The median short side socket lengths were shorter than their respective intended depths by 4 mm for the femoral anterior cruciate ligament socket, 6 mm for the femoral posterior cruciate ligament socket, 6 mm for the tibial anterior cruciate ligament socket, and 4.5 mm for the tibial posterior cruciate ligament socket. All differences were significant at α= 0.05. The estimated cruciate socket lengths reamed during ligament reconstruction using a retrograde reamer and standard intra-articular measuring instrumentation were greater than the actual measured socket lengths. Successful cruciate ligament reconstruction relies on accurate socket measurements. This study examined the accuracy of commercially available cruciate ligament socket drill guides and the implications for clinical practice, to include graft-tunnel mismatch and surface area available for healing. Surgeons may consider reaming slightly longer than estimated sockets when performing all-inside cruciate ligament reconstructions to ensure appropriate socket depth for graft fixation.

Promising short-term outcomes of free-hand burring technique to implant second-generation metaphyseal cone in Asian knees – a case series

BackgroundThe second-generation metaphyseal cone was useful in managing bone defects in revision knee arthroplasty. However, due to the anatomical constraints in Asian osteometry, the authors utilized a novel free-hand burring technique instead of cannulated reaming for bone preparation. We reported the short-term outcomes of our surgical techniques specific to Asian osteometry.MethodsWe conducted a case series by consecutively recruiting 13 female and 12 male patients (involving 25 knees), with a mean age of 71 years (range, 54–88 years). The patients underwent revision total knee arthroplasty during the period from April 2017 to June 2022. Twenty-three tibial cones and 4 femoral cones using free-hand burring technique were implanted. The mean follow-up duration was 51 months (range 18–80 months). Due to the relatively small bone size and meta-diaphyseal center mismatch in the Asian knees, the free-hand burring technique instead of the cannulated reaming technique was adopted in preparing for cone implantation. The clinical outcomes were knee ranges of motion, the Knee Society Knee scores (KSS), end-of-stem pain, infection, and the need for revision surgery. The radiological outcomes included osteointegration, fracture, and loosening.ResultsMean knee range of motion improved from 83 degrees (range 0°–120°) preoperatively to 106 degrees (range 60°–125°) postoperatively (P < 0.001). Mean KSS improved significantly from 29 (range 0–70) to 69 (range 5–100) (P < 0.001). All cones were osteointegrated. One case had transient end-of-stem pain, two developed intraoperative minor femoral fractures and one suffered from recurrent infection that did not require cone revision. Cone revision-free survivorship was 100%. There was no aseptic loosening.ConclusionsThe second-generation cone implanted with free-hand burring bone preparation yielded promising short-term outcomes in Asian knees.

Full-endoscopic transforaminal decompression with modified reaming technique on lateral recess stenosis: Outcomes of 155 cases and five years’ experience. A case series study

Full-endoscopic transforaminal decompression with modified reaming technique on lateral recess stenosis: Outcomes of 155 cases and five years’ experience. A case series study

Enhancing acetabular reaming accuracy: optimal techniques and a novel reamer design

IntroductionSuccessful press-fit implantation relies on an accurately reamed bone cavity. Inaccurate reaming can lead to a suboptimal press-fit risking fracture and cup deformation or excessive micromotion and loosening. Several factors may impact reaming accuracy including the reamer design, the surgeon’s technique and the bone quality. The aim of this study is to investigate the accuracy of reaming techniques and the accuracy of a novel reamer design.MethodsEighty composite bone models, half high density and half low density, were reamed with either a conventional or an additively manufactured reamer with a novel design employing either a straight or ‘whirlwind’ reaming technique. Reamed cavities were scanned using a 3D laser scanner and the median difference between achieved and expected diameters compared.ResultsThe novel reamer design was more accurate than the unused conventional reamer, using both whirlwind (0.1 mm (IQR 0–0.2) vs. 0.3 mm (IQR 0.3–0.4); p < 0.001) and straight techniques (0.3 mm (IQR 0.1–1.0) vs. 1.2 mm (IQR 1–1.6); p = 0.001). Whirlwind reaming was more accurate than straight reaming using both conventional (0.3 mm (IQR 0.3–0.4) vs. 1.2 mm (IQR 1–1.6); p < 0.0001) and single use reamers (0.1 mm (IQR 0–0.2) vs. 0.3 mm (IQR 0.1–1.0); p = 0.007). Reaming errors were higher in low-density bone compared to high-density bone, for both reamer types and reaming techniques tested (0.6 mm (IQR 0.3–1.5) vs. 0.3 mm (IQR 0.1–0.8); p = 0.005).ConclusionWe present a novel reamer design that demonstrates superior accuracy to conventional reamers in achieving the desired reaming diameter. Improved reaming accuracy was also demonstrated using both devices and in both bone models, using a ‘whirlwind’ technique. We recommend the use of this novel reamer design employing a ‘whirlwind’ technique to optimize reaming accuracy. Particular attention should be paid toward patients with lower bone quality which may be more susceptible to higher inaccuracies.

“Single-use peripheral” vs “conventional” reaming in total hip arthroplasty: how to respect native centre of rotation and acetabular offset? A CT study

PurposeThe respect of native hip offset represents a mainstay for satisfying results in total hip arthroplasty (THA). Historically, a great interest has been focused on restoration of femoral offset, while only in recent years, acetabular offset (AO) has been considered. The purpose of the current study was to compare the “single-use peripheral” reaming technique with the “conventional” one for the maintenance of the native COR of the hip and AO in patients undergoing to primary THA.MethodsEighty patients affected from primary hip osteoarthritis were prospectively enrolled in the study and were divided in two groups (Group A “single-use peripheral” and Group B “conventional” reaming technique). Pre- and post-operatively, AO, acetabular floor distance (AFd) and acetabular version (AV) were assessed through a CT scan. A comparison between groups for the radiological parameters, surgical time and complications was performed.ResultsThe demographic data were similar in both groups. The complications rate and the AV did not differ statistically between groups. Group A presented a statistically significant shorter surgical time and lower variation between pre- and post-operative AO and AFd. Statistical significance was defined as p < 0.05.ConclusionsThe “single-use peripheral” reaming technique demonstrated to be more reliable in reproducing the native COR and AO of patients undergoing to primary THA than the “conventional” one. The operative time was significantly reduced, and it may lead to a reduction in the infection risk even though it was not observed in the current study. Further research could be useful to validate such findings and to assess clinical impact and long-term survival of the implant.

Alignment and Fixation in Revision Total Knee Arthroplasty With Press-Fit, Offset, Diaphyseal-Engaging Stem Extensions, and Eccentric Reaming Technique

BackgroundA revision total knee arthroplasty must control limb alignment, often to address the cause of failure. Press-fit stems that engage the diaphysis with cement restricted to the metaphysis constitute one fixation technique. These long stems restrict coronal alignment of the prosthesis and as a result reduce the likelihood of extreme malposition. For the same reasons, long stems can make it difficult to manipulate alignment and achieve a specific coronal alignment angle. Nevertheless, femoral stems with a tight diaphyseal fit may still occupy a small range of varus-valgus positions due to the conical distal femoral metaphysis. Pulling the reamer toward the lateral endosteum increases femoral component coronal alignment toward a valgus direction and pushing the reamer medially increases alignment in a more varus direction. A straight stem, in combination with a medially directed reaming, would result in a femoral component that overhangs medially, but an offset stem can recenter the femoral component and maintain the desired alignment. We hypothesized that diaphyseal fit plus this reaming technique can control limb coronal alignment and provide fixation. MethodsThis was a retrospective clinical and long-leg radiographic study of consecutive revision total knee arthroplasties with minimum 2-year follow-up. Outcomes were correlated with New Zealand Joint Registry data to identify rerevisions of 111 consecutive revision knee arthroplasties, 92 after exclusions, at a minimum 2-year (range, 2 to 10) follow-up. ResultsMean femoral and tibial canal fill exceeded 91% on antero-posterior and lateral radiographs. The mean hip-knee-ankle angle was 179.6o (174.9-184.0) with 80% within ± 3o of neutral. The hip-ankle axis crossed the central Kennedy zone in 76.5% of cases and the other 24.6% crossed the inner medial and inner lateral zones. Tibial components: 99.0% ± 3o. Femoral components: 89.5% within ± 3o. There were 5 knees that failed due to infection, 3 from femoral loosening, and 1 due to recurvatum instability from polio. ConclusionsThis study describes a surgical plan and technique for achieving target coronal alignment with press-fit diaphyseal fixation. It is the only series of revision knee arthroplasties with diaphyseal press-fit stems to report canal fill in 2 planes and coronal alignment on full-length radiographs.

Lateral Extra-Articular Tenodesis Staple Risks Penetration of Anterior Cruciate Ligament Reconstruction Tunnel

To identify the risk of anterior cruciate ligament (ACL) femoral tunnel penetration with the use of a staple for lateral extra-articular tenodesis (LET) graft fixation and to determine whether this varied between 2 different techniques for ACL femoral tunnel drilling. Twenty paired, fresh-frozen, cadaver knees underwent ACL reconstruction with a LET. Left and right knees were randomized to ACL reconstruction with femoral tunnel creation by use of either a rigid guide pin and reamer through the accessory anteromedial portal or by the use of a flexible guide pin and reamer through the anteromedial portal. Immediately after tunnel creation, the LET was performed and fixated with a small Richard's staple. Fluoroscopy was used to obtain a lateral view of the knee to determine staple position, and visualization of the ACL femoral tunnel was performed with the arthroscope to investigate penetration of the staple into the femoral tunnel. The Fisher exact test was conducted to determine whether there was any difference in tunnel penetration between tunnel creation techniques. The staple was noted to penetrate the ACL femoral tunnel in 8 of 20 (40%) extremities. When stratified by tunnel creation technique, the Richards staple violated 5 of 10 (50%) of the tunnels made via the rigid reaming technique compared with 3 of 10 (30%) of those created with a flexible guide pin and reamer (P= .65). A high incidence of femoral tunnel violation is seen with lateral extra-articular tenodesis staple fixation. Level IV, controlled laboratory study. The risk of penetrating the ACL femoral tunnel with a staple for LET graft fixation is not well understood. Yet, the integrity of the femoral tunnel is important for the success of ACL reconstruction. Surgeons can use the information in this study to consider adjustments to operative technique, sequence, or fixation devices used when performing ACL reconstruction with concomitant LET to avoid the potential for disruption of ACL graft fixation.

Cup placement in primary total hip arthroplasty: how to get it right without navigation or robotics.

Acetabular component orientation and position are important factors in the short- and long-term outcomes of total hip arthroplasty.Different definitions of inclination and anteversion are used in the orthopaedic literature and surgeons should be aware of these differences and understand their relationships.There is no universal safe zone.Preoperative planning should be used to determine the optimum position and orientation of the cup and assess spinopelvic characteristics to adjust cup orientation accordingly.A peripheral reaming technique leads to a more accurate restoration of the centre of rotation with less variability compared with a standard reaming technique.Several intraoperative landmarks can be used to control the version of the cup, the most commonly used and studied is the transverse acetabular ligament.The use of an inclinometer reduces the variability associated with the use of freehand or mechanical alignment guides.

Fat embolism syndrome in patients with bilateral femur fractures: a systematic review and case comparison.

Objectives:Fat embolism and fat embolism syndrome (FES) remain common complications following long bone fractures. Incidence is highest after bilateral femur fractures. We performed a systematic review of FES after bilateral femur fractures and present two cases.Data sources:Systematic literature search of the Cochrane, EMBASE, MEDLINE, Scopus, and, Web of Science Library databases was performed in August 2021. Terms used including plural and alternate spellings: “fat embolism,”“fat embolism syndrome,”“fat embolus,” and “bilateral femur fracture.” Articles in German and English were considered. No time frame was applied.Study selection:Original studies, case series and case reports on fat embolism after bilateral femur fracture were included. Insufficient documentation or patients with relevant previous heath conditions were excluded.Data extraction:s were organized using EndNote X9 by Carivate. Three authors independently screened the abstracts; cross check of the extracted data was performed by the senior author.Data synthesis:Scarcity of articles only allowed for a qualitative synthesis. Data was compared with our cases and situated within the scientific background.Results:Ten articles were included for qualitative synthesis (n = 144 patients). The symptoms were inhomogeneous with neurological deficits being most prominent. Degree of displacement was high, when reported. Although the modes and timing of surgery varied, this appeared unrelated with outcome.Conclusions:FES remains a relevant complication after bilateral femur fractures, despite damage control strategies and improved reaming techniques. Fracture displacement and reduction maneuvers might play a more substantial role in the formation than previously accredited.Level of evidence:4

Cellular activation status in femoral shaft fracture hematoma following different reaming techniques - A large animal model.

The local inflammatory impact of different reaming protocols in intramedullary nailing has been sparsely investigated. We examined the effect of different reaming protocols on fracture hematoma (FH) immunological characteristics in pigs. To do so, a standardized midshaft femur fracture was induced in adult male pigs. Fractures were treated with conventional reamed femoral nailing (group RFN, n = 6); unreamed femoral nailing (group UFN, n = 6); reaming with a Reamer Irrigator Aspirator device (group RIA, n = 12). Animals were observed for 6 h and FH was collected. FH-cell apoptosis and neutrophil receptor expression (Mac-1/CD11b and FcγRIII/CD16) were studied by flow cytometry and local temperature changes were analyzed. The study demonstrates that apoptosis-rates of FH-immune cells were significantly lower in group RIA (3.50 ± 0.53%) when compared with non-RIA groups: (group UFN 12.50 ± 5.22%, p = 0.028 UFN vs. RIA), (group RFN 13.30 ± 3.18%, p < 0.001, RFN vs. RIA). Further, RIA-FH showed lower neutrophil CD11b/CD16 expression when compared with RFN (mean difference of 43.0% median fluorescence intensity (MFI), p = 0.02; and mean difference of 35.3% MFI, p = 0.04, respectively). Finally, RIA induced a transient local hypothermia and hypothermia negatively correlated with both FH-immune cell apoptosis and neutrophil activation. In conclusion, immunologic changes observed in FH appear to be modified by certain reaming techniques. Irrigation during reaming was associated with transient local hypothermia, decreased apoptosis, and reduced neutrophil activation. Further study is warranted to examine whether the rinsing effect of RIA, specific tissue removal by reaming, or thermal effects predominantly determine local inflammatory changes during reaming.

Effects of the depth of the acetabular component during simulated acetabulum reaming in total hip arthroplasty

We aimed to evaluate whether there are differences in the rotation center, cup coverage, and biomechanical effects between conventional and anatomical technique. Computed tomography scans of 26 normal hips were used to simulate implantation of acetabular component. The hip rotation center and acetabular component coverage rate were calculated. Moreover, a finite element model of the hip joint was generated to simulate and evaluate the acetabular cup insertion. Micromotion and the peak stress distribution were used to quantify the biomechanical properties. The medial and superior shifts of the rotation center were 5.2 ± 1.8 mm and 1.6 ± 0.7 mm for the conventional reaming technique and 1.1 ± 1.5 mm and 0.8 ± 0.5 mm for anatomical technique, respectively. The acetabular component coverage rates for conventional reaming technique and anatomical technique were 86.8 ± 4% and 70.0 ± 7%, respectively. The micromotion of the cup with conventional reaming technique was greater than that with anatomical technique. The peak stress concentration was highest in the superior portion with conventional reaming technique, whereas with anatomical technique, there was no stress concentration. Paradoxically although the acetabular component coverage rate is larger with conventional reaming technique, anatomical technique provides less micromotion and stress concentration for initial cup stability. Thus, anatomical technique may be more suitable for acetabulum reaming during primary total hip arthroplasty.

The history of intramedullary nailing.

To summarize the evolution of intramedullary nailing, highlight important milestones, introduce the atmosphere of the era concerning the first uses and development of intramedullary nailing, and present the status of nailing in modern international orthopaedics and traumatology. A thorough literature search was undertaken in PubMed and Google Scholar as well as in physical books in libraries to summarize the literature on the history and evolution of intramedullary nailing. The first use of an intramedullary device was attested in ancient Egypt; however, the first use of intramedullary nailing was reported in 1524 in Mexico, and the first medical journals reported on intramedullary nailing around the mid-1800s. The evolutions of intramedullary nailing including approach, material, cross-section and shape, and reaming technique occurred in the twentieth century. During the 1960s, intramedullary nailing was abandoned in favour of plate and screws osteosynthesis; however, in the 1970s, 1980s, and 1990s, a surge of novelties including flexible reaming, interlocking, and use of image intensification and titanium nails led to the advent of the second-generation intramedullary nailing. Today, intramedullary nailing has become the standard treatment of long bone fractures with low infection rates, small scars, excellent stabilization of the fractures, and immediate mobilization of the patients. Intramedullary nailing has revolutionized the treatment of long bone fractures. However, with numerous nail designs, a lot of information on their efficacy is lacking. Considerably more work will need to be done to determine the optimal nail specifications.

Technical choices and processes of stone vessel manufacture under the reign of king Den : evidence from the Cemetery M at Abu Rawash

Stone vessels were produced on a large scale during the Early Dynastic Period. The pro-duction of stone vessels in this period is a typ-ical example of the development of attached specialists that occurred parallel to the emer-gence of the central government and admin-istration. However, we are not thoroughly familiar with the specifics of the manufac-turing techniques and system that supported this large-scale production in Early Dynastic society. This paper reconstructs the detailed manufacturing techniques and processes of the cylindrical jars and the open forms through the observation and analysis of the unpublished materials from the Cemetery M (excavated by Montet) at Abu Rawash. This research has found that travertine bowls were probably shaped by irregular and less precise polishing than mudstone. Addition-ally, the deeper bowls were found to have a intensive use of “figure-of-eight” shaped reamers. Craftsmen also selected techniques, processes, and tools according to vessel shape and size in addition to the hardness and nature of the stone. The detailed manufacturing process of the cylindrical jars is also reconstructed. These cylindrical jars can be classified into two categories : high-quality and low-quality jars. The low-quality and small-sized jars were manufactured by a more intensive use of “figure-of-eight” shaped reamer. A comparison with quantitative data from other cemeteries at Abu Rawash and other Early Dynastic sites indicates that the low-quality and the small jars were probably supplied to Abu Rawash as “commoditized products” during the 2 nd Dynasty. Finally, the article discusses the increased use of rota-tional reaming techniques with a “figure-of-eight” shaped reamer in the manufacture of both cylindrical jars and bowls during the 2 nd Dynasty.

Protective effects of new femoral reaming techniques (Reamer irrigator aspirator, RIA I and II) on pulmonary function and posttraumatic contusion (CT morphology) – results from a standardized large animal model

IntroductionThe effects of reaming for preparation of intramedullary fixation in long bone fractures have been widely studied. We compared pulmonary and systemic effects between conventional reaming with reamer irrigator aspirator and unreamed nailing in an acute porcine trauma model with a standardized femur fracture. Materials and MethodsIn a standardized porcine model, (moderate blunt chest trauma, abdominal injury and femoral shaft fracture), the femur was submitted to intramedullary nailing after resuscitation and normalization of pulmonary function. The treatment groups included 3 reamer types (Group RFN: conventional reaming with Synream; group RIA1; reamer irrigator aspirator, version 2005; group RIA 2; reamer irrigator aspirator, version 2019) and were compared to unreamed femoral nailing (Group UFN). Pulmonary function measurements included arterial partial carbon-dioxide pressure (paCO2 [kPa]) (baseline, post reaming, 2,4,6 h) and volumetric measures of contusion in chest computer tomography (CT) (at 6 hrs.). Systemic inflammatory response was measured at baseline and every second hour until six hours after trauma. ResultsThis study included 24 male animals, mean weight 50.76 ± 4.1 kg n = 6 per group). Group RFN developed a significantly higher partial CO2 (pCO2) at one hour after reaming when compared with all other groups (7.4 ± 0.4 kPa versus 5.4 ± 0.6 RIA 1, 5.6 ± 0.4 RIA 2, and 5.5 ± 0.5 UFN, p < 0.001), along with a had lower pO2 (12.3 ± 1.3 kPa versus 17.2 ± 1.9 RIA 1, 17.4 ± 1.6 RIA 2, and 16.4 ± 0.7 UFN, p < 0.001) and the degree of pulmonary hyperdense changes in the CT analysis was higher in RFN (485.2 ± 98.5 cm3 versus 344.4 ± 74.4 cm3 RIA 1 and 335.2 ± 58.1 cm3 RIA 2, p < 0.01). The inflammatory reaction was lowest in both RIA groups when compared with group RFN or UFN (p < 0.001). ConclusionBoth RIA 1 and RIA 2 protect the lung from reaming induced dysfunction and have no systemic inflammatory effects, while the negative effects were more sustained after reamed or unreamed nailing. Both RIA 1 and RIA II appear to be of value in terms of a Safe Definitive Surgery (SDS) strategy.

An abrasive water jet assisted back reaming technique based on percussion drilling for reducing non-production time in geothermal energy development

Abrasive water jet (AWJ) technology is one of the fastest growing methods of cutting materials in recent years. Because percussion drilling can cause numerous impact cracks around the borehole, and these impact cracks can reduce the mechanical properties of the rock around the borehole. This makes it possible to improve AWJ reaming efficiency. The present paper investigates the influence of key jet parameters on AWJ reaming performance according to the specific problems encountered in the Gonghe geothermal well (GH-01). Additionally, the required time for AWJ reaming is analyzed and discussed. The results indicate that there is an existence of optimum value of jet standoff distance (s/d0 = 3) for the AWJ reaming performance. Moreover, the high jet traverse speed will lead to deterioration of reaming performance. If the jet traverse speed is controlled under 50 mm/s, the slower the speed is, the better the reaming performance is. In the context of reaming a defined depth of rock, jet pressure has no significant effect on reaming performance. The requirement of reaming can be met by using jet pressure at 35 MPa. Although the effect of the inclined jet on penetration depth is better than that of the vertical jet, the vertical jet can produce a wider penetrate width. Compared with conventional reaming, the time spent on AWJ reaming is 55 %–67 % less than that of conventional reaming when the depth of reaming is 100 m. All the above merits have provided a theoretical foundation and experimental proof for the field application of the AWJ reaming technique.

Effect of cup medialization on primary stability of press-fit acetabular cups

BackgroundAppropriate restoration of the native centre of rotation is of paramount importance in total hip arthroplasty. Reconstruction of the centre of rotation depends on reaming technique: conventional approaches require more cup medialization than anatomical preparations. To date, the influence of cup medialization on socket stability in cementless implants is still unknown. MethodsTen cadaveric hemipelvises were sequentially reamed using anatomical technique (only subchondral bone removal with restoration of the native centre of rotation) and conventional preparation (reaming to the lamina and medializing the cup). A biomechanical test was performed on the reconstructions. Implant motions were measured with digital image correlation while a cyclic load of increasing magnitude was applied. FindingsNo significant difference was measured between the two implantation techniques in terms of permanent cup migrations. The only significant difference was found for the cup inducible rotations, where the conventional technique was associated with larger rotations. InterpretationConventional reaming and cup medialization do not improve initial cup stability. Beyond the recently questioned concerns about medialization and hip biomechanics, this is another issue to bear in mind when reaming the acetabulum.

Deeper Central Reaming May Enhance Initial Acetabular Shell Fixation.

BackgroundThe initial stability of press-fit acetabular components is partially determined by the reaming technique. Nonhemispherical (NHS) acetabular shells, which have a larger radius at the rim than the dome, often require larger reaming preparations than the same-sized hemispherical (HS) shells. Furthermore, deeper central reaming may provide a more stable press fit. Using a reproducible, in vitro protocol, we compared initial shell stability under different reaming techniques with HS and NHS acetabular components.MethodsCavities for 54-mm NHS and 56-mm HS acetabular components were premachined in 20-pcf Sawbones blocks. Acetabular cavities included diameters of 54, 55, “54+,” and “55+”. “+” indicates a cavity with a 2-mm smaller diameter that is 2-mm deeper. A 4750N statically applied force seated shells to a height that was comparable with shell height after an orthopaedic surgeon’s manual impaction. Force required to dislodge shells was assessed via a straight torque-out with a linear load.ResultsIncreased preparation depth (+) was associated with deeper shell seating in all groups. Deeper central reaming increased required lever-out force for all groups. Overall, HS and NHS implants prepared with 55 + preparation had the highest lever-out forces, although this was not significantly higher than those with 54+.ConclusionsIn 20-pcf Sawbones, representing dense bone, overreaming depth by 1-mm improved initial seating measurements. In both HS and NHS acetabular shells, seating depth and required lever-out force were higher in the “+” category. It is unclear, however, whether a decreased diameter ream increased seating stability (55+ vs 54+). Clinically, this deeper central reaming technique may help initial acetabular stability.

Management of humeral impending or pathological fractures with intramedullary nailing: reaming versus non reaming technique-a retrospective comparative study.

To compare reamed intramedullary nailing (RIM) versus un-reamed intramedullary nailing (URIM) for the treatment of impending and pathological fractures of the humeral shaft in terms of 24-h postoperative pain, blood transfusion requirements, surgical time, surgical complications, medical complications, length of stay and consolidation rates. A retrospective comparative study between January 2013 and December 2018 was conducted. Student's t test, Mann-Whitney U and Chi-square tests were used to detect differences within the two study groups. Multiple linear regression was done to adjust for possible confounders. A total of 53 patients (33 RIM vs. 20 URIM) underwent humeral nailing. Fifteen (28%) were impending fractures (7 RIM vs. 8 URIM). Multiple myeloma (49%) and metastatic carcinoma (39.6%) were the most common etiologies. Pain score (5.13 ± 0.68 RIM vs. 6.78 ± 0.62 URIM; p = 0.082) and total dose of opioids (33.125 ± 27.6 RIM vs. 33.3 ± 22.28 URIM; p = 0.462) showed similar results. Blood transfusion was more prevalent within RIM group (34.48% RIM vs. 20% URIM; p = 0.044) with a clinical tendency of higher blood loss (207.86 ± 150.83RIM vs. 127.00 ± 179.98 URIM; p = 0.092). There was a consolidation rate of 71.05% (27/38) with no statistical difference (73.08% (19/26) RIM vs. 66.67% (8/12) URIM; p = 0.685). Our study suggests possible benefit of URIM in terms of less blood transfusions with no difference in consolidation rates. Even though without significance, a tendency to less blood loss, less events of systemic complication and lower length of stay was observed with URIM. Despite its limitations, this study can be used to design future prospective ventures that quantify patient-reported outcomes and provide more clear evidence.

High Variability of Acetabular Offset in Primary Hip Osteoarthritis Influences Acetabular Reaming—A Computed Tomography–Based Anatomic Study

BackgroundThe objectives of the present study were to (1) evaluate the accuracy and reliability of native acetabular offset (AO) measurements performed on conventional supine anterior-posterior (ap) pelvis radiographs with reference to computed tomography (CT) in patients with end-stage hip osteoarthritis (OA); (2) determine the minimum and maximum amount of medialization of the center of rotation (COR) simulating different reaming techniques; and (3) identify patients at increased risk of excessive medialization of the COR. MethodsA consecutive series of corresponding 131 CT scans and radiographs of patients with primary hip OA was evaluated using validated software for three-dimensional acetabular and femoral measurements. We simulated the implantation of a hemispherical press-fit cup comparing anatomic and conventional reaming techniques and assessed corresponding changes in AO. ResultsStandardized ap pelvis radiographs allowed for an accurate and reliable assessment of AO compared with CT. Cup placement in the most lateral position (anatomic reaming technique) resulted in a mean implant-related medialization of 5.9 ± 3.4 mm. Anatomic cup placement did not require reaming to the true floor in 64 hips (49%). With the conventional reaming technique, the total medialization of the COR (implant-related and reaming-related) was 6.8 ± 2.9, with 34% of cases having a medialization ≥8 mm. ConclusionThe present study highlights the variability of acetabular anatomy in patients with primary OA. AO can be accurately and reliably determined on conventional radiographs and appears to be independent of femoral shape and geometry. Depending on the preferred reaming technique a substantial number of patients appear at risk for excessive cup medialization.

Eccentric reaming technique in percutaneous endoscopic lumbar discectomy in the treatment of lumbar lateral recess stenosis: a five-year case series study

Objective To investigate clinical effect and safety of eccentric reamer technique foraminoplasty during percutaneous endoscopic lumbar discectomy for the treatment of lumbar lateral recess stenosis. Methods All of 45 cases diagnosed of lumbar lateral recess stenosis between Apr 2010 to Jun 2012 were analyzed in our study. Among these cases, 28 cases were male and 17 were female. The age of enrolled cases was 39-62 years old and the average age was 49.23±23.96 years old. All the cases were one-level, 25 cases in L 4,5 and 20 cases in L 5S1. All the patients underwent percutaneous endoscopic lumbar discectomy. During surgery, eccentric reamer technique was applied for foraminoplasty. Perioperative data included surgical segment, surgical duration and blood loss during surgery. Oswestry Disability Index (ODI) and Visual analogue scale (VAS) for lower back and leg pain were recorded for the evaluation of surgical effect. All the data were recorded before surgery, 1 day, 1 month after surgery and final follow-up. Recurrent lumbar disc herniation, spinal canal hematoma, intervertebral disc infection, nerve root injury and post-operative dysthesia (POD) were recorded for complications. Results All the cases finished surgery and none of the cases was changed to other surgery method and no other electronic drill were used in these patients. Surgical duration was 45-76 min and average time was 61.23±13.89 min. Blood loss during surgery was 10-25 ml and average blood loss was 15.02±4.33 ml. Post-operative hospitalization days were 1-3 days and 2.80±1.57 days. The follow-up time was 60-84 months and the average time was 73.23±8.47 months. ODI in one-day after surgery was 9.34±6.54%, significantly lower than 68.06±24.14% before surgery and no statistically change had been observed in one-month after surgery and final follow-up. The VAS for lower back was 1.54±0.97 in one-day after surgery, significantly lower than 3.57±3.12 before surgery. The VAS for leg pain was 1.14±0.79 in one-day after surgery, significantly lower than 6.24±2.35 before surgery. During follow-up, 1 case suffered from recurrent lumbar disc herniation (2.22%) and no intervertebral disc infection, spinal canal hematoma and POD was observed. Conclusion Eccentric reamer technique foraminoplasty in percutaneous endoscopic lumbar discectomy is an effective and safe surgical method for the treatment of lumbar lateral recess stenosis. Key words: Lumbar vertebrae; Spinal stenosis; Endoscopy; Surgical procedures, minimally invasive