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Orthopaedic Proceedings
Vol. 101-B, Issue SUPP_8 | Pages 69 - 69
1 May 2019
Rosenberg A
Full Access

Papers to be discussed during this session include: Surgical approach and THA results - does it matter?; Minimizing infection in TJA - doing all you can….; I&D or Revision, 1 vs. 2 stage for infected TKA - now or later?; Barbed sutures - friend or foe?; Constraint in TKA - promises and pitfalls!; Tendonitis after THA - minimizing the pain; MRI after THA - when and why…….; Pain, opioids, and outcomes - sorting fact from fictions!; Outpatient TKA - home free?; TKA in general - does home matter?; Drainage after TKA - mopping up the mess!; Head size in THA - does it matter, help or hurt?; Hip bone connected to the spine bone - so what!; Tourniquet in TKA - does it make a difference?; Standardise or personalise? - that is the question!; Trusting the robot - really?; The TKA - rotation, rotation, rotation.


Orthopaedic Proceedings
Vol. 101-B, Issue SUPP_8 | Pages 54 - 54
1 May 2019
Rosenberg A
Full Access

General Principles

All repairs should be repaired in full extension. Repairs should be immobilised in full extension for 6–12 weeks. Gradual resumption of motion in a hinged brace over an additional 6–8 weeks almost always yields flexion to at least 90 degrees. Marlex mesh has been shown to be an excellent replacement as well as an augment for deficient soft tissue.

Acute tibial tuberosity avulsion

Open repair is best accomplished with a non-absorbable heavy Krackow suture, secured distally around a screw and washer followed by 6 to 8 weeks of immobilization. Augmentation with a semitendinosus graft or Marlex mesh can provide additional support.


Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_10 | Pages 31 - 31
1 Jun 2018
Rosenberg A
Full Access

Down syndrome (DS), is a genetic disorder caused by a third copy of the 21st chromosome (Trisomy 21), featuring typical facial characteristics, growth delays and varying degrees of intellectual disability. Some degree of immune deficiency is variably present. Multiple orthopaedic conditions are associated, including stunted growth (90%), ligamentous laxity (90%), low muscle tone (80%), hand and foot deformities (60%), hip instability (30%), and spinal abnormalities including atlanto-axial instability (20%) and scoliosis.

Hip disease severity varies and follows a variable time course. Rarely a child presents with DDH, but during the first 2 years the hips are characteristically stable but hypermobile with well-formed acetabulae. Spontaneous subluxation or dislocation after 2 presents with painless clicking, limping or giving way. Acute dislocation is associated with moderate pain, increased limp and reduced activity following minor trauma. Hips are reducible under anesthesia, but recurrence is common. Eventually concentric reduction becomes rarer and radiographic dysplasia develops. Pathology includes: a thin, weak fibrous capsule, moderate to severe femoral neck anteversion and a posterior superior acetabular rim deficiency. A number of femoral and acetabular osteotomies have been reported to treat the dysplasia, with acetabular redirection appearing to be most successful. However, surgery can be associated with a relatively high infection rate (20%). Additionally, symptomatic femoral head avascular necrosis can occur as a result of slipped capital femoral epiphysis.

Untreated dysplasia patients can walk with a limp and little pain into the early twenties even with fixed dislocation. Pain and decreasing hip function is commonly seen as the patient enters adult life. Occasionally the hip instability begins after skeletal maturity. Total hip arthroplasty (THA) is the standard treatment when sufficient symptoms have developed. The clinical outcomes of 42 THAs in patients with Down syndrome were all successfully treated with standard components. The use of constrained liners to treat intra-operative instability occurred in eight hips and survival rates were noted between 81% and 100% at a mean follow-up of 105 months (6 – 292 months).

A more recent study of 241 patients with Down syndrome and a matched 723-patient cohort from the Nationwide Inpatient Sample compared the incidence of peri-operative medical and surgical complications in those who underwent THA. Compared to matched controls, Down syndrome patients had an increased risk of complications: peri-operative (OR, 4.33; P<.001), medical (UTI & Pneumonia OR, 4.59; P<.001) and surgical (bleeding OR, 3.51; P<.001), Mean LOS was 26% longer (P<.001).

While these patients can be challenging to treat, excellent surgical technique and selective use of acetabular constraint can reliably provide patients with excellent pain-relief and improved function. Pre-operative education of all clinical decision makers should also reinforce the increased risk of medical and surgical complications (wound hemorrhage), and lengths of stay compared to the general population.


Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_10 | Pages 69 - 69
1 Jun 2018
Rosenberg A
Full Access

Nutritional Status and Short-Term Outcomes Following THA; Initial Metal Ion Levels Predict Risk in MoM THA; THA Bearing Surface Trends in the US ‘07- ’14; Dislocation Following Two-Stage Revision THA; Timing of Primary THA Prior to or After Lumbar Spine Fusion; Failure Rate of Failed Constrained Liner Revision; ESR and CRP vs. Reinfection Risk in Two-Stage Revision?; Mechanical Complications of THA Based on Approach; Impaction Force and Taper-Trunnion Stability in THA; TKA in Patients Less Than 50 Years of Age; Post-operative Mechanical Axis and 20-year TKA Survival and Function; Return to Moderate to High-intensity Sports after UKA; “Running Two Rooms” and Patient Safety in TJA; Varus and Implant Migration and Contact Kinematics after TKA; Quadriceps Snips in 321 Revision TKAs; Tubercle Proximalization for Patella Infera in Revision TKA; Anterior Condylar Height and Flexion in TKA; Compression Bandage Following Primary TKA; Unsupervised Exercise vs. Traditional PT After Primary TKA and UKA.


Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_10 | Pages 103 - 103
1 Jun 2018
Rosenberg A
Full Access

Total Knee Arthroplasty (TKA) necessitates disruption of well vascularised tissue during exposure and soft tissue release as well as from the cutting of bone, and thus bleeding into the joint space routinely occurs to some degree following TKA. Defining a complication from bleeding is not necessarily straightforward, but includes 3 different conditions: hemarthrosis, hematoma, and bloody wound drainage. All of these conditions can be seen in the normal post-operative setting, and when mild may be simply observed. However, persistent swelling resulting in clinical symptoms should be appropriately treated.

A hemarthrosis is defined as blood being contained in the knee capsule. Although some bleeding is expected, “excessive” hemarthrosis results in increased pain limiting or difficulty regaining motion. If high levels of fluid pressure are present, rupture of the arthrotomy may occur. A hematoma occurs when intra-articular blood escapes the arthrotomy and drains into the overlying soft tissues. This may occur following performance of a large lateral release or an insufficient arthrotomy closure or simply secondary to a large hemarthrosis under tension. Symptoms include ecchymosis, soft tissue swelling, and potential skin complications. Increased pain and limited range of motion frequently accompany these symptoms. Wound drainage may present as a knee that continues to have bloody or serous drainage that continues long after the first or second dressing change. It is this continued wound drainage that is most worrisome with increased wound infection rates when prolonged drainage is allowed to persist.

The incidence of post-operative hemarthrosis as a clinical problem is not well studied, but the need for surgical treatment is uncommon. Recurrent hemarthrosis is also relatively rare after total knee arthroplasty and has been reported at rates between 0.3% and 1.6%. The etiology of this complication can be systemic or local, and initial work-up should include coagulation studies to rule out any underling systemic coagulopathy. Conservative therapy including rest, cooling, and elevation is the preferred treatment for mild cases. If conservative treatment is not successful, or the acute hemarthrosis is clinically tense, interfering with recovery, or threatening wound healing, drainage may be the preferable option. This can be done by opening the arthrotomy in the operating room or through a large bore arthroscopy cannulae. Careful attention to debridement of clotted blood must be followed by a meticulous search for potential sources of bleeding which should be managed appropriately.

Recurrent hemarthrosis may occur at any time after surgery. Repeated bleeding episodes may lead to an inflammatory cascade that propagates bleeding events more readily. If coagulation studies are normal, the most common source is the impingement of proliferative synovium or other retained soft tissue between the articulating components of the knee prosthesis. Other causes include damage to the geniculate or popliteal vessels with pseudo aneurysm formation. Mild to moderate clinical knee instability may be associated with bloody synovial effusions but limited clinical complaint specific to instability. Other causes may be multifactorial and synergistic but are not well understood, making diagnosis and treatment more difficult. If symptoms persist, and the resulting disability is sufficient, classical treatment has consisted of open or arthroscopic synovectomy. Over the past decade angiography and angiographic embolization of the source of bleeding has been shown to be successful. Radio-active synovectomy has also been successful.


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_15 | Pages 44 - 44
1 Aug 2017
Rosenberg A
Full Access

Controversy remains regarding the optimal treatment for iatrogenic injury to the medial collateral ligament (MCL) during primary total knee arthroplasty (TKA). Some authors have recommended converting to a prosthesis that provides varus/valgus constraint while others have recommended primary repair. In this study we report the results of a 45 patients who sustained intra-operative MCL injuries during primary TKA that were treated with primary repair.

Of 3922 consecutive primary TKA there were 48 (1.2%) intra-operative MCL lacerations or avulsions. One patient was lost and one died before 24-month follow-up. All but one patient underwent primary repair with placement of components without varus/valgus constraint. This left 45 knees with a mean follow up of 89 months (range, 24 – 214 months). The mean HSS knee scores increased from 47 to 85 points (p<0.001). No patients had subjective complaints of instability. No patients had excessive varus/valgus laxity when tested in full extension and 30 degrees of flexion. The range of motion at the time of final follow-up averaged 110 degrees (range, 85 – 130 degrees). Five knees required treatment for stiffness with 4 knees undergoing manipulation under anesthesia and 1 knee undergoing open lysis of adhesions with polyethylene articular surface exchange. Two knees underwent revision for aseptic loosening of the tibial component. In the three knees that underwent open revision, the MCL was noted to be in continuity and without laxity.

Primary repair with 6 weeks of post-operative hinged bracing after iatrogenic injury to the MCL during primary TKA was successful at preventing instability although stiffness was seen in approximately 10% of patients. The increased morbidity associated with implantation of a semi-constrained or constrained implant may be unwarranted in this situation.


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_15 | Pages 69 - 69
1 Aug 2017
Rosenberg A
Full Access

THA: Approaches and Recovery; THA: Instability and Spinal Deformity; Revision for THA Instability: Dual Mobility Cups; Removal of Infected THA: Risk Factors for Complications; Tribocorrosion: Incidence in the Symptomatic THA; THA: Outcomes and Education Levels; THA: Satisfaction levels and Residual Symptoms; THA: Expectations and LOS; TKA: Kneeling and Recreation Expectations; TKA: Alignment and Long Term Survival; Patello-Femoral Arthroplasty vs TKA; Unicompartmental Knee Arthroplasty and Age; Wound Treatments and Sepsis in TJA; TKA: Managing Sepsis With I & D; Chronic Salvage in TKA: When is Enough Enough?; Revision TKA: Single Component Revision


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_15 | Pages 54 - 54
1 Aug 2017
Rosenberg A
Full Access

General Principles - All repairs should be repaired in full extension. Repairs should be immobilised in full extension for 6–12 weeks. Gradual resumption of motion in a hinged brace over an additional 6–8 weeks almost always yields flexion to at least 90 degrees. Marlex Mesh has been shown to be an excellent replacement as well as an augment for deficient soft tissue.

Acute Tibial Tuberosity Avulsion - Open repair is best accomplished with a non-absorbable heavy Krackow suture, secured distally around a screw and washer followed by 6 to 8 weeks of immobilisation. Augmentation with a semitendinosus graft or Marlex can provide additional support.

Acute Patella Tendon Rupture - End-to-end repair is standard, but re-rupture is not uncommon, so supplemental semitendinosus reconstruction is recommended. The tendon is harvested proximally, left attached distally and passed through a transverse hole in the inferior patella. The gracilis tendon can be harvested and sutured to semitendinosus for additional length, if needed.

Acute Quadriceps Tendon Rupture - These can be repaired end to end with a non-absorbable heavy Krackow suture. A superficial quadriceps fascial turndown or mesh may be a useful adjunct.

Patella Fracture - Treatment depends on the status of the patellar component and the loss of active extension. If the component remains well fixed and the patient has less than a 20-degree lag. A loose component and/or >20-degree extensor lag requires ORIF +/− component revision.

Chronic Disruptions - While standard repair techniques are possible, tissue retraction usually prevent a “tension-free” repair. If the patella remains viable and has not retracted proximally an Achilles tendon graft is appropriate while in any patellar tendon defect, mesh repair has been shown to be effective. In most chronic disruptions with loss of the patella allograft extensor mechanism reconstruction may be considered.


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_15 | Pages 36 - 36
1 Aug 2017
Rosenberg A
Full Access

Extra-articular deformity may be present in patients requiring TKA. Underlying causes include trauma, metabolic bone disease, congenital deformity, or prior osteotomy. Patients with intra-articular deformity have a combination of intra-articular bone loss and concomitant ligament contraction which can be managed in the standard fashion. In these cases establishing appropriate limb alignment and management of bone loss coincide well with the standard ligament balancing employed to provide a stable knee.

However, if extra-articular deformity is not corrected extra-articularly, it must be corrected by a compensatory distal femoral or proximal tibial resection to reproduce appropriate limb alignment. Complex instabilities may result from this type of wedge resection because it occurs between the proximal and distal attachments of the collateral ligaments and so produces asymmetrical ligament length alterations.

Femoral compensatory wedge resection for extra-articular deformity produces extension instability without affecting the flexion gap and so femoral deformities are POTENTIALLY more difficult to correct than tibial deformities where the compensatory tibial cut influences flexion AND extension equally. Lack of access to the intramedullary canal (as well as increased complexity of producing appropriately placed bone cuts) may be managed with computer guidance or patient specific instruments.

The closer a deformity is to the knee, the greater its importance and the effect on the surgical correction. This is a directly proportional relationship, so that as the apex of the deformity moves from juxta-articular to more distant, the amount of corrective wedge needed to re-align the limb decreases proportionally.

Rotatory deformities most commonly effect extensor mechanism tracking. The effect is similar to any other deformity in that proximity to the knee and increases the likelihood that it will have a significant local effect. In general, these deformities may be clinically, and radiographically more subtle and so must be searched for. They should be managed by restoring normal rotational parameters of the bone or by appropriate compensation of component rotation relative to the bone.

As the need for prosthetic constraint increases due to ligament imbalance or deficiency, intramedullary stems may be required. Their use may be compromised by the presence of the deformity. The younger the patient and the more severe the deformity the more likely I am to treat the deformity by correction at the site of the deformity rather than compensating with abnormal bone resections. The older the patient and the milder the deformity (or the amount of correction required) the more intra-articular correction +/− increased TKA constraint is feasible.


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_7 | Pages 20 - 20
1 Apr 2017
Rosenberg A
Full Access

As the incidence of total hip arthroplasty (THA) rises, an increasing prevalence of peri-prosthetic femur fractures has been reported. This is likely due to the growing population with arthroplasties, increasing patient survival and a more active life-style following arthroplasty. It is the 3rd most common reason for THA reoperation (9.5%) and 5th most common reason for revision (5% with fracture risk after primary THA reported at 0.4%-1.1% and after revision at 2.1%-4%).

High quality radiographs are usually sufficient to classify the fracture and plan treatment. Important issues in treatment include stem fixation status and fracture location relative to the stem. Additional comorbidities will also influence treatment choices, of which the most critical is the presence of infection and the quality of bone stock.

The most commonly studied, and reported classification system is the Vancouver. Type A are peri-trochanteric fractures with AL at the lesser and AG at the greater trochanter. B fractures are those around the stem with B1 fractures having a well-fixed stem, B2 a loose stem with adequate bone stock, and B3 representing loose stem and inadequate bone stock. C fractures are distal to the stem.

Type A) Trochanteric Fractures: These are usually associated with lysis. Displaced fractures can be managed adequately with cerclage fixation and cancellous allograft to fill osteolytic defects. Undisplaced fractures usually heal well with symptomatic treatment.

Type B) Fractures Around the Stem: The B1 type has a well-fixed component and is usually treated with extramedullary fixation plus graft. Contemporary plates have been designed specifically for these fractures. Strut allograft may be used to provide a more rigid construct. Spiral and long oblique fractures can be cerclaged while short oblique or transverse fractures require fixation anterior and lateral with cable plates and cortical strut grafts. Screws can be used distal to the implant, and cables used proximally. The B2 type has a loose prosthesis but otherwise good bone stock. In this setting, the fracture line may be extended on the lateral cortex of the femur as an extended osteotomy to provide easy access for cement removal. These fractures can be managed with an extensively coated stem if rotational stability can be obtained in the distal segment. If rotational stability over a 4 cm scratch interference fit of the stem isn't possible, then a fluted tapered modular stem should be used. Strut allografts improve initial stability. The B3 type has both a loose prosthesis and poor bone stock and in the younger patient restoration of bone stock should be a priority. Bulk femoral grafts may be needed. The elderly or low functional demand patient may be treated with a proximal femoral replacement. Because of soft-tissue deficiencies, a constrained acetabular liner may be needed to prevent instability.

Type C) Fractures Distal to the Stem: These usually accompany a stable stem and many fixation devices are available. Locking plates have become most popular and should be secured with cerclage wires proximally around the component with screws distally. Retrograde nails may be employed if there is adequate bone distal to the stem tip and above the fracture.


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_7 | Pages 62 - 62
1 Apr 2017
Rosenberg A
Full Access

Effectiveness of Liposomal Bupivacaine for Post-Operative Pain Control in Total Knee Arthroplasty: A Prospective, Randomised, Double Blind, Controlled Study

Pericapsular Injection with Free Ropivacaine Provides Equivalent Post-Operative Analgesia as Liposomal Bupivacaine following Unicompartmental Knee Arthroplasty

Total Knee Arthroplasty in the 21st Century: Why Do They Fail? A Fifteen-Year Analysis of 11,135 Knees

Cryoneurolysis for Temporary Relief of Pain in Knee Osteoarthritis: A Multi-Center, Prospective, Double-Blind, Randomised, Controlled Trial

Pre-Operative Freezing of Sensory Nerves for Post-TKA Pain: Preliminary Results from a Prospective, Randomised, Double-Blind Controlled Trial

Proximalization of the Tibial Tubercle Osteotomy: A Solution for Patella Infera during Revision Total Knee Arthroplasty

Treatment of Periprosthetic Joint Infection Based on Species of Infecting Organism: A Decision Analysis

Alpha-Defensin Test for Diagnosis of PJI in the Setting of Failed Metal-on-Metal Bearings or Corrosion

Risk of Reinfection after Irrigation and Debridement for Treatment of Acute Periprosthetic Joint Infection following TKA

Serum Metal Levels for the Diagnosis of Adverse Local Tissue Reaction Secondary to Corrosion in Metal-on-Polyethylene Bearing Total Hip Arthroplasty

Intra-Articular Injection for Painful Hip OA - A Randomised, Double-Blinded Study

Six-Year Follow-up of Hip Decompression with Concentrated Bone Marrow Aspirate to Treat Femoral Head Osteonecrosis

No Benefit of Computer-Assisted TKA: 10-Year Results of a Prospective Randomised Study


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_4 | Pages 125 - 125
1 Feb 2017
Liu J Frisch N Barden R Rosenberg A Silverton C
Full Access

Background

Heterotopic ossification (HO) is a known complication following total hip arthroplasty, with increased incidence in certain patient populations. Current prophylaxis options include oral non-steroidal anti-inflammatory drugs (NSAIDs) and radiation therapy, but an optimal radiation protocol has yet to be clearly defined. We performed a randomized, double-blinded clinical trial in high-risk total hip arthroplasty patients to determine the efficacy of 400 cGy versus 700 cGy doses of radiation.

Methods

147 patients at high risk for HO undergoing total hip arthroplasty (THA) at Rush-St. Luke's- Presbyterian medical center were randomized to either a single 400 cGy or 700 cGy dose of radiation. High risk was defined as diagnosis of diffuse idiopathic skeletal hyperostosis (DISH), hypertrophic osteoarthritis, ankylosing spondylitis, or history of previous heterotopic ossification. Radiation was administered over a 14 × 6 cm area of soft tissue and given on the first or second post-operative day. A blinded reviewer graded anterior-posterior (AP) and lateral radiographs taken immediately post-operatively and at a minimum of 6 months post-operatively. Progression was defined as an increase in Brooker classification from the immediate post-operative to the long-term post-operative radiograph. Operative data including surgical approach, use of cemented implants, revision surgery, and post-operative range of motion data were also collected.


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_22 | Pages 96 - 96
1 Dec 2016
Rosenberg A
Full Access

General Principles

All repairs should be repaired in full extension. Repairs should be immobilised in full extension for 6–12 weeks. Gradual resumption of motion in a hinged brace over an additional 6–8 weeks almost always yields flexion to at least 90 degrees. Marlex Mesh has been shown to be an excellent replacement as well as an augment for deficient soft tissue.

Acute tibial tuberosity avulsion

Open repair is best accomplished with a non-absorbable heavy Krackow suture, secured distally around a screw and washer followed by 6–8 weeks of immobilization. Augmentation with a semitendinosus graft or Marlex can provide additional support.


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_22 | Pages 18 - 18
1 Dec 2016
Rosenberg A
Full Access

Acetabular fracture treatment outcomes have improved over the past two decades due to the more accurate identification of common fracture patterns, the development of more adequate surgical approaches, and the creation of improved methods for reduction and repair. However, certain cases have a distinctly lower likelihood of a favorable outcome, and in this setting primary arthroplasty as part of the open reduction and internal fixation (ORIF) may provide the best solution. Acute primary total hip arthroplasty (THA) provides primary stability and immediate pain relief, permits graded weight-bearing and early pain-free mobilization, and may also treat pre-existing hip arthritis. Removal of the femoral head improves exposure making fracture reduction and fixation easier without the need for more extensile approaches. Open reduction and internal fixation to obtain stability of the anterior and posterior columns is followed by placement of a multi-holed acetabular shell which serves as a supplementary internal fixation device. The femoral head can be used as bulk bone graft to replace and reinforce the reconstruction. These complex procedures are best undertaken by a surgical team with substantial experience with both acetabular trauma and hip arthroplasty.

Despite improvements in outcomes with ORIF, THA is commonly required following failed treatment. Scarring, heterotopic ossification, bone defects, residual deformity, devitalised bone fragments and previous implants can make the procedure challenging. If the patient has undergone previous ORIF it is important to rule out low grade sepsis with appropriate blood tests (ESR + CRP) and further work-up as warranted. Surgical exposure must be carefully planned so as to be able to access all aspects of the acetabulum, including removal of hardware which may interfere with acetabular component placement.

Bone stock loss, malunion and/or non-union must be evaluated with appropriate radiographs or CT scans may be required. Acetabular replacement in the face of deformity from previous trauma encompasses three main problems; bony defects, the presence of bone in places where it is not normally encountered, such as surrounding and incarcerating the femoral head, or substantially anterior or lateral to the center of the acetabulum, and movement of the acetabulum from its normal relationship to the remainder of the pelvis to a new location, such as a higher or more medialised hip center. Intraoperative landmarks may be obscured and therefore placement of reamers and the component may be confusing. THA after acetabular fracture is technically demanding and generally is accompanied by results more typical of revision than primary arthroplasty for degenerative disease.


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_22 | Pages 61 - 61
1 Dec 2016
Rosenberg A
Full Access

The following papers will be discussed during this session: 1) Staph Screening and Treatment Prior to Elective TJA; 2) Unfulfilled Expectations Following TJA Procedures; 3) Thigh Pain in Short Stem Cementless Components in THR; 4) Is the Direct Anterior Approach a Risk Factor for Early Failure?; 5) THA Infection - Results of a 2nd 2-Stage Re-implantation - Clinical Trial of Articulating and Static Spacers; 6) THA Revision - Modular vs. Non Modular Fluted Tapered Stems-Total Femoral Replacement for Femoral Bone Loss - Cage + TM Augment vs. Cup Cage for Acetabular Bone Loss; 7) Do Injections Increase the Risk of Infection Prior to TKA?; 8) Long-Acting Opioid Use Predicts Perioperative Complication in TJA; 9) UKA vs. HTO in Patients Under 55 at 5–7 years; 10) Stemming Tibial Component in TKA Patients with a BMI > 30; 11) The Effect of Bariatric Surgery Prior to Total Knee Arthroplasty; 12) Oral Antibiotics and Reinfection Following Two-Stage Exchange; 13) Two-Stage Debridement with Prosthetic Retention for Acute TKA Infections; 14) Patient-Reported Outcomes Predict Meaningful Improvement after TKA; 15) Contemporary Rotating Hinge TKA; 16) Liposomal Bupivacaine in TKA; and 17) Noise Generation in Modern TKA: Incidence and Significance.


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_17 | Pages 34 - 34
1 Nov 2016
Rosenberg A
Full Access

Extra-articular deformity may be present in patients requiring TKA. Underlying causes include trauma, metabolic bone disease, congenital deformity, or prior osteotomy. Patients with intra-articular deformity can have a combination of intra-articular bone loss and concomitant ligament contraction which can be managed in the standard fashion. In these cases establishing appropriate limb alignment and management of bone loss coincide well with the standard ligament balancing employed to provide a stable knee.

However, if extra-articular deformity is not corrected extra-articularly, it must be corrected by a compensatory distal femoral or proximal tibial resection to reproduce appropriate limb alignment. Complex instabilities may result from this type of wedge resection because it occurs between the proximal and distal attachments of the collateral ligaments and so produces asymmetrical ligament length alterations.

Femoral compensatory wedge resection for extra-articular deformity produces extension instability without affecting the flexion gap and so femoral deformities are POTENTIALLY more difficult to correct than tibial deformities where the compensatory tibial cut influences flexion AND extension equally. Lack of access to the intramedullary canal (as well as increased complexity of producing appropriately placed bone cuts) may be managed with computer guidance or patient specific instruments.

The closer a deformity is to the knee, the greater its importance and the effect on the surgical correction. This is a directly proportional relationship, so that as the apex of the deformity moves from juxta-articular to more distant, the amount of corrective wedge needed to re-align the limb decreases proportionally.

Rotatory deformities are complex and most commonly effect extensor mechanism tracking. In general the effect is similar to any other deformity in that proximity to the knee increases the likelihood that it will have a significant local effect. In general, these deformities are clinically, and radiographically more subtle and so must be searched for. They should be managed by an attempt to restore normal rotational parameters of the bone itself or appropriate compensation of component rotation in relation to the bone.

As prosthetic constraint increases one may need to use intramedullary stems. Their use may be compromised by the deformity. Finally, the younger the patient and the more severe the deformity the more likely I am to treat the deformity by correction at the site of the deformity rather than compensating with abnormal bone resections. The older the patient and the milder the deformity (or the amount of wedge correction required) the more likely I am to manage the deformity with intra-articular correction and increased TKA constraint.


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_17 | Pages 69 - 69
1 Nov 2016
Rosenberg A
Full Access

Metal Ion Levels Not Useful in Failed M-O-M Hips: Systematic Review; Revision of Failed M-O-M THA at a Tertiary Center; Trunnionosis in Metal-on-Poly THA?; Do Ceramic Heads Eliminate Trunnionosis?; Iliopsoas Impingement After 10 THA; Pain in Young, Active Patients Following THA; Pre-operative Injections Increase Peri-prosthetic THA Infection; Debridement and Implant Retention in THA Infection; THA after Prior Lumbar Spinal Fusion; Lumbar Back Surgery Prior to THA Associated with Worse Outcomes; Raising the Joint Line Causes Mid-Flexion Instability in TKA; No Improvement in Outcomes with Kinematic Alignment in TKA; Botox For TKA Flexion Contracture; Intra-operative Synovitis Predicts Worse Outcomes After TKA for OA; When is it Safe for Patients to Drive After Right TKA?; Alpha-Defensin for Peri-prosthetic Joint Infection; Medial Tibia Overhang and Pain Score After TKA


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_17 | Pages 93 - 93
1 Nov 2016
Rosenberg A
Full Access

Bone is a dynamic organ with remarkable regenerative properties seen only otherwise in the liver. However, bone healing requires vascularity, stability, growth factors, a matrix for growth, and viable cells to obtain effective osteosynthesis. We rely on these principles not only to heal fractures, but also achieve healing of benign bone defects. Unfortunately, we are regularly confronted with situations where the local environment and tissue is insufficient and we must rely on our “biologic tool box.” When the process of bone repair requires additional assistance, we often look to bone grafting to provide an osteoconductive, osteoinductive, and/or osteogenic environment to promote bone healing and repair.

The primary workhorses of bone grafting include autogenous bone, cadaver allograft, and bone graft substitutes. Among the first types of bone graft used and still used in large quantities today include autogenous and cadaver allograft bone. Allografts are useful because they are present in multiple forms that conform to the desired situation. But autogenous bone graft is considered the gold standard because it possesses all the fundamental properties to heal bone. However, it has been associated with high rates of donor site morbidity and typically requires an inpatient hospitalization following the procedure only adding to the associated costs.

The first bone graft substitute used was calcium sulfate in 1892, and over the past 122 years advancements have achieved improved material properties of calcium sulfate and helped usher in additional bioceramics for bone grafting. Today there are predominantly four types of bioceramics available, which include calcium sulfate, calcium phosphate, tricalcium phosphate, and coralline hydroxyapatite. They come in multiple forms ranging from pellets and solid blocks to injectable and moldable putty. In comparison to autogenous bone graft, the primary limitation of bioceramics are the lack of osteogenic and osteoinductive properties. Bioceramics work by creating an osteoconductive scaffold to promote osteosynthesis. The options of bone graft substitutes don't end with these four types of bioceramics. Composite bioceramics take advantage of the differing biomechanical properties of these four basis types of bioceramics to develop improved materials. To overcome the lack of osteoinductive and osteogenic properties growth factors or bone marrow aspirate can be added to the bioceramic. As a result, the list of combinations available in our “biologic tool box” continues to expand. More than 20 BMPs have been identified, but only BMP-2 and BMP-7 have FDA approval.

As we look forward to areas of future research and need within orthobiologics, some will likely come in the near future while others are much further in the future. We will continue to strive for the ideal bone graft substitute, which will have similar osteoinductive properties as autograft. The ultimate bone graft substitute will likely involve stem cells because it will allow an alternative to autogenous bone with the same osteogenic potential.


Orthopaedic Proceedings
Vol. 97-B, Issue SUPP_13 | Pages 111 - 111
1 Nov 2015
Rosenberg A
Full Access

When is revision surgery contraindicated in the face of a failed total hip? Surgically indicated can be interpreted as a situation where the patient will benefit from a specific intervention, with sufficient likelihood, to warrant the risks of intervention. Contraindication connotes the opposite; the risks, or likelihood of the intervention's failure to achieve the desired results outweigh the expected extent and likelihood of benefit. Contraindicated actually represents the end point of a complex decision making process which must be carried out by the practitioner in conjunction with the patient and may require the full range of the surgeons analytical, technical and communication skills. Most commonly the term means that the surgeon's thinking has led to a belief that the patient will be better off without further surgery.

Deciding to forego another revision usually means leaving the patient with a resection arthroplasty. Relative indications for resection, or even avoiding revision of a failed arthroplasty, are most commonly biological. In a healthy host, with a sterile but anatomically deficient bed with adequate soft tissue coverage, mechanical reconstruction capabilities and massive bulk allograft may allow reconstruction of almost any amount of tissue loss. Severe osteomyelitis or soft tissue infection, unmanageable for reasons, including but not limited to: chronic immune-suppression, mixed or resistant organisms or a life threatening sensitivity to antibiotics which may be required to treat the sepsis. More subjective factors, such as adequacy of soft tissue and bone stock, comorbid medical conditions or a patient's desire to avoid additional surgery as well as costs must be considered. This decision may include dozens of other considerations, some of which may be considered pre-operatively and some which may only arise intra-operatively.


Orthopaedic Proceedings
Vol. 97-B, Issue SUPP_13 | Pages 69 - 69
1 Nov 2015
Rosenberg A
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Outcomes of THA after Hip Arthroscopy

Hip Injections and Rapidly Progressing Joint Degeneration

Procedure Duration Wound Complications & LOS

Losing Weight Following TKA and its Influence on Outcome

Radiographic Severity of Arthritis & Patient Satisfaction in TKA

Intra-wound Vancomycin Powder Reduces Infections in TJA

Increased Non-stemmed Tibial Failures with BMI ≥ 35

Influence of Component Alignment on Outcome in Varus TKA

New TKA Designs - Do Patients Notice?

Bariatric Surgery Prior to TKA Associated with Fewer Complication

Metal Sensitivity Correlates with Pain in Patients with TJA

Blood Culture Bottles vs. Swabs for Microbial Detection in PJI

I&D Prior to 2 Stage Revision TKA Doesn't Increase Risk of Failure

Outpatient Total Joint Leads to Substantial Burden of Phone Calls

Wear and lysis of HXL Sockets: Effect of Head Size @ 10–14 Years

Surface Finish & Survivorship of Cemented Stems in THA

Patient Reported Outcome as a Tool for Appropriateness in THA

Neuraxial Anesthesia and Post-op Complications and Transfusions