Introduction

At a minimum 12 years follow-up the Authors performed a matched paired study between 2 groups: Bi-Unicompartimental (femoro-tibial) versus Total Knee Replacements, both navigated, they hypothesised that Bi-UKR guarantees a clinical score and patient satisfaction at least similar to TKR without differences in survivorship.

Purpose

The purpose of this study is to investigate whether traditional morphometric parameters of the femur trochlear surface are dependable to classify the severity of the trochlear dysplasia.

Introduction

Aim of this study is to assess any differences in digital templanting accuracy of a modular short femoral stems implanted with 2 different appoaches (direct anterior and posterolateral).

Purpose

Aim of the study was to assess difficulties and adverse effects in more than 400 CAS hip replacements using a short modular femoral stem to assess their incidence and to determine if this surgical procedure has to be considered as an high demanding surgical technique.

Objectives

The purpose of this study was to compare the results and complications of tibial lengthening over an intramedullary nail with treatment using the traditional Ilizarov method.

INTRODUCTION:

Despite clear clinical advantages Unicompartimetal Knee Replacement still remain an high demanding and less forgiving surgical procedure. Different Authors in literature pointed out how malalignment increases the rate of aseptic failure even more than in TKR. Computer-assisted surgery has been proposed to improve implant positioning in joint replacement surgery with no need of intramedullary guide despite no still proven clinical advantages. Likewise more recently Patient Specific Instrumentation (PSI) has been suggested, even in partial knee reconstruction, as a new technology capable of new advantages such as shorter surgical times and lower blood losses maintaining at least the same accuracy. Aim of the study is to present a prospective study comparing 2 groups of UKR s using either a computer assisted technique or a CT-based Patient Specific Instrumentation.

INTRODUCTION

Despite clear clinical advantages Unicompartimetal Knee Replacement (UKR) still remain a high demanding and less forgiving surgical procedure. Different Authors in literature pointed out how in coronal tibial malalignment beyond 3° as well as tibial slope beyond 7° increase the rate of aseptic failure. Likewise, overcorrection in the coronal plain is a well recognised cause of failure because of an overweighting on the controlateral compartment. Furthermore it has been shown how in UKR surgery even using short narrow intramedullary guide this can cause errors in both coronal planes. Computer assisted surgery has been proposed to improve implant positioning in joint replacement surgery with no need of intramedullary guide. Likewise more recently Patient Specific Instrumentation (PSI) has been suggested as a new technology capable of new advantages such as shorter surgical times and lower blood losses maintaining at least the same accuracy. Aim of this prospective study is to present comparing 2 groups of UKRs using either a computer assisted technique or a CT based PSI.

INTRODUCTION

A preoperative planning for accurately predicting the size and alignment of the prosthetic components may allow to perform a precise, efficient and reproducible total knee replacement. The planning can be carried out using as a support digital radiographic images or CT images with three-dimensional reconstruction. Aim of this prospective study is to evaluate and compare the accuracy of two different types of pre-operative planning, in determining the size of the femoral and tibial component in total knee arthroplasty performed with Patient Specific Instrument (PSI). The two compared techniques were: digital radiography and “CT-Based”.

Introduction

The authors performed a short term prospective study of unicompartmental knee replacement (UKR) associated to patella-femoral arthroplasty (PFA) for the treatment of bicompartmental symptomatic knee arthritis. At the latest follow-up all the implants were matched to a similar computer assisted Total Knee Replacements (CAS-TKR) group implanted for the same indications. Hypothesis of the study was that this bicompartimental implants could achieve comparable outcomes to TKR with a more conservative surgery and a higher joint function.

Introduction

Post traumatic arthritis of the knee can be a conseguence of distal femur fracture and retained hardware can complicate any further surgical option including arthroplasty. Both staged surgical procedures to remove before the hardware or simultaneous procedure of arthroplasty and removal of hardware have been indicated with an increased risk of complications. Aim of this study is to present a consecutive series of TKA following distal femur fracture using a computer assisted technique without the removal of retained hardware assessing both the efficacy of navigation in managing these complex cases as “routinary” primary arthroplasties.

The Authors performed a matched paired study between 2 groups UKR or CA-TKR implanted with a mini-incision (MICA group) in the treatment of isolated medial compartment knee arthritis. The Authors hypothesized that UKR offers a real less invasive surgery with lower economical costs despite a worse limb/implant alignment. Furthermore at a minimum 40 months follow-up they hypothesized that this small implant guarantees still both better clinical score and patient satisfaction than in the MICA group.

Thirty two patients with isolated medial compartment knee arthritis who underwent to a medial UKR from February 2001 to September 2002 were included in the study (UKR group). In all 32 knees the arthritic change was graded according to the classification of Älback ¹. Arthritic change did not exceed grade IV in the medial compartment and grade II in the patello-femoral compartment. All patients had an asymptomatic patello-femoral joint. All patients had a varus deformity lower than 8° and a body mass index lower than 30. No patient had any clinical evidence of ACL laxity or flexion deformity and all had a preoperative range of motion of a least 110°. At a minimum follow-up of 48 months, every single patients in group A was matched with a patient who had undergone a computer assisted TKR performed with a less invasive approach (shorter than 12 cm) for an isolated medial compartment knee arthritis between August 1999 and September 2002 (MICA group) in our hospital. At latest follow-up the clinical outcome was evaluated using both the Knee Society Score and a dedicated UKR score developed by the Italian Orthopaedic UKR Users Group (GIUM). The HKA angle and the Frontal Tibial Component angle (FTC) were measured at latest follow up on long leg standing anterior-posterior radiographs and the mean values between the 2 surgeons assessments were used as final values. Furthermore during the hospital staying we registered in both the groups when each patient was standing comfortably in full weight-bearing according to a self- answered questionnaire and the data were compared. Statistical analysis of the results was performed using parametric test (Student’s t-test). A statistical comparison of the percentage of results for the GIUM score was performed using the Chi-square test. A statistically significant result was given a p≤ 0.05.

Both hospital stay and operative time were statistically longer obviously in MICA group. In the UKR group the mean surgical time was 51.5 minutes (range: 36–75) (p< 0.001) while in the MICA group was 108.8 minutes (range: 80–132) (p< 0.001). In the UKR group the patients remained in the hospital for a mean of 5.1 days (range: 3–7) and in the MICA group 8.2 days (range: 4–16). At the latest follow-up the mean Knee Society Score was 80.5 (range: 70–100) and 78.4 (range: 70–87) for group A and B respectively. No statistically significant difference was seen for the Knee Society score between the 2 groups (p=0.08). The mean Functional score was 83.5 (range: 73–100) for group A and 78.8 (range: 59–90) for group B. A statistically significant difference was seen for the Functional score with superior results for group A (p=0.02). A statistically significant difference was seen for the GIUM score with better results for group A (p=0.01). The mean GIUM score was 76 (range: 67–90) and 73.02 (mean: 65–85) for group A and B respectively. At latest follow up the mean HKA angle was 176.8° for group A (range: 174°–182°) and 179.3° for group B (range 177–182) (p< 0.001). The mean FTC angle was 86.9° (range: 84°–90°) and 89.4° (range: 87°–92°) for group A and B respectively (p< 0.001). All TKR implants were positioned within 4 degrees of a HKA angle of 180° and FTC angle of 90°.

At the latest follow-up (minimum 48 months) no statistically significant difference was seen in the postoperative Knee Society score for either group. However, significant differences were seen between the 2 groups in the functional results and in the GIUM score with better results in the UKR group. All the patients achieved a range of motion greater than 120° and could walk for longer distances. During the hospital staying in this group the patients reported a statistically significant earlier full weight-bearing. This was despite a significant less accurate limb alignment. In addition to inferior results for the computer assisted mini-invasive TKR group the costs of the procedure were obviously greater because of the expensive implants and technology along with statistically significant longer surgical times and hospital stay

Introduction: No comparison between minimally invasive TKR using traditional alignment guides and computer navigation systems has been documented in the literature. The aim of this prospective randomised trial is compare the radiological results of 2 different groups of TKRs performed with a less invasive surgical approach (mini-parapatellar) using either a traditional hand guided technique (MIS) or the assistance of a computer assisted alignment system (MICA).

Materials and Methods: Since 2004 seventy-four patients undergoing TKR with the same implant have been enrolled in the study. Inclusion criteria included a body-mass index less than 30, no major ligamentous laxity, no flexion deformity and no previous open knee surgery.

Patients were randomly assigned to either the traditional or computer-assisted alignment group opening a closed envelope just prior to the skin incision. In the MIS group (37 knees) a minimally invasive approach was performed using an intramedullary femoral guide and an extramedullary tibial guide. In the MICA group (37 knees) the implant was positioned using a CT-free computer assisted alignment system (Vector Vision, version 1.52, BrianLAB, Munich, Germany) using the same minimally invasive surgical approach (mini-parapatellar). The duration of surgery was documented in all cases.

Eight months after surgery each patient had long-leg standing anterior-posterior radiographs and lateral radiographs of the knee. All the radiographs were always taken with a standardized protocol with the same magnification.

The radiographs were assessed by an independent radiologist blinded to the original procedure to determine the frontal femoral component angle (FFC), the frontal tibial component angle (FTC), the hip-knee-ankle angle (HKA) and the sagittal orientation (slope) of both femoral and tibial components. The number and percentage of outliners for each parameter was determined. In addition the percentage of patients from each group with all 5 parameters within the desired range was calculated.

Results: The mean surgical time was 89.4 minutes (range: 75–112) in the MICA group and 75.84 minutes (range: 48–106) in the MIS group. This difference was statistically significant (p< 0.001).

The alignment of the femoral component as determined by the slope was significantly better in the MICA group (p< 0.001). Comparison of the FTC angle showed a statistically better alignment in the MICA group (p< 0.029). There were no statistical significant differences in HKA, FFC angles and in the slope of the tibial component between the 2 groups. All the implants in the MICA group achieved HKA and FTC angles aligned within this range while only 31 implants (83.8%) in the MIS group achieved similar accuracy. These differences in HKA and FTC angles were statistically significant (p=0.025). Thirty-six (97.3%) implants in the MICA group achieved a femoral slope aligned within 3 degrees of the desired position compared with 31 (83.8%) implants in the MIS group. In the MICA group 36 implants (97.3%) achieved a tibial slope aligned within this range while in the MIS group 33 implant (86.5%) achieved a similar result. A FFC angle aligned within 3 degrees of the desired position was achieved in 35 (94.6%) and 32 (86.5%) of the implants in the MICA and MIS groups respectively. These differences in femoral and tibial slope and FFC angle were not statistically significant.

A statistically significant difference (p< 0.001) in the total number of outliners was seen with 158 and 181 in the MICA and MIS groups respectively. The number of implants with all 5 radiological parameters aligned within the desired range was statistically higher in the MICA group (p=0.001). Thirty-three implants (89.2%) in the MICA group and 20 (54.1%) in the MIS group were correctly aligned in all measured parameters.

Discussion: Minimally invasive joint replacement has become increasingly popular driven both by the orthopaedic community and patient expectations. However, malalignment has been identified as a potential problem when performing joint replacement surgery through small incisions. Minimally invasive techniques can make implant positioning more difficult by limiting visualisation of anatomical landmarks. As the matter of fact many theory has been proposed for knew more conservative surgical approaches to the soft tissue such as the mid-vastus or sub-vastus even without any consideration about what already centuries ago biologist had established. At the beginning of the last century Bizozzero already compared muscle to nerve as perpetual tissues which can recover after an injury only with scared.

However recently, after initial enthusiasm, authors have recommended caution when using mini-invasive techniques for total joint replacement.

Computer-assisted surgery has the potential to address the difficulties of correct component positioning and alignment in minimally invasive knee replacement. Recently a prospective randomised study comparing computer navigation assisted minimally invasive TKR to conventional TKR reported a lower incidence of radiological outliners and better pain score in the computer navigation group.

In this prospective randomized the comparison of the radiological results showed statistically significant differences between the 2 groups for component positioning both in the coronal plane and sagittal plane. The desired femoral slope and FTC angle were achieved in significantly more patients in the MICA group than the MIS group. Furthermore the results supported previous studies showing a statistically significant reduction in the number of outliners in the computer-assisted technique. In addition, the number of implants with all parameters aligned within desired values was statistically higher in the MICA group. No complications were seen in either group however the surgical time was statistically longer in the MICA group.

Longer follow-up will be needed to demonstrate any correlation between the lower numbers of outliners and superior clinical outcome and implant survivorship in the computer navigation group.

Nowadays unicompartimental knee replacement (UKR) is a valuable solution for the treatment of knee osteoarthritis. Likewise in selected cases bicompartimental arthritis of the knee in patient younger than sixty still remains a challenge for the orthopaedic surgeon. In this selected cases, the Authors present their experience in performing a mini-invasive bi-unicompartimental knee replacement assisted by a computer navigation system trying to obtain both a correct alignment and a soft tissue balancing.

From January to December 2003, the Authors treated 5 patients (5 knees) with bicompartimental arthritis of the knee. The mean age was 66 and in all the cases there was a arthritis deformity with intact both ACL and PCL without any pain at the femur-patella joint. All the patients had previously undergone to multiple surgical procedures. Orhophilot (4.0 version) navigation system (Aesculap, Tuttlingen, Germany) was used during the surgery to assist prosthesis placement. In all the cases a minimal surgical approach was used (7 to 9 cm skin cut). The patients were assessed using a UKR dedicated outcome score, Italian UKR User’s Group (G.I.U.M.) score, pre-operatively and at the latest follow-up. Pre-operatively the mean GIUM score was 49.1 (range 26–63) At the lastest follow-up the mean GIUM score was 80.2 (range :75–94). The average femoral-tibial angle was 179° (range 177° −181°). All the patients had a good ligament balancing with computer assisted spreader device. All the patients were satisfied and had returned to their previous occupation soon.

According to their previous experience performing bi-unicompartimental prosthesis, the Authors underline how the computer navigation system support ligaments balancing and a correct prostheses alignment. They emphasize this real mini-invasive surgical approach to the cure of the knee arthritis, above all in young patients with post traumatic deformities.

Drainage of the surgical wound following major surgical procedures is advocated to avoid haematoma formation. Recently the need for of wound drainage in joint arthroplasty has been questioned. The aim of this prospective randomised study is to determine the benefits of a postoperative closed-suction drain after UKR.

In a prospective randomised trial we evaluated the use of a postoperative closed-suction drain in unicompartmental knee replacement. Seventy-eight patients were divided into two groups: one without a postoperative closed-suction drain (Group A) and one with a drain (Group B). Both groups were matched for age, sex, and pre-operative haemoglobin.

In group A we observed a lower day one post-operative analgesic requirement, smaller knee circumference 3 days postoperatively and less local wound complications. No deep infections occurred in either group during the follow-up period. Drain usage in UKR resulted in no significant advantage in postoperative pain, range of motion, and hospital stay. Post-operative drainage does however increase the cost of the procedure both in labour and equipment expenditure.

We conclude that avoiding postoperative closed-suction drainage in UKR does not influence the final outcome.

We report the case of a 74-year-old woman who sustained an intertrochanteric fracture of the femoral neck in a previously arthrodesed hip. The hip arthrodesis had been performed 53 years earlier to treat septic arthritis. The fracture was treated successfully using a double-plating technique with 4.5 mm titanium reconstruction plates.

Introduction: Drainage of the surgical wound following major surgical procedures is advocated to avoid haematoma formation. Recently the need for of wound drainage in joint arthroplasty has been questioned. The aim of this prospective randomised study is to determine the benefits of a postoperative closed-suction drain after UKR.

Material and Methods: In a prospective randomised trial we evaluated the use of a postoperative closed-suction drain in unicompartmental knee replacement. Seventy-eight patients were divided into two groups: one without a postoperative closed-suction drain (Group A) and one with a drain (Group B). Both groups were matched for age, sex, and pre-operative haemoglobin.

Results: In group A we observed a lower day one postoperative analgesic requirement, smaller knee circumference 3 days postoperatively and less local wound complications. No deep infections occurred in either group during the follow-up period. Drain usage in UKR resulted in no significant advantage in postoperative pain, range of motion, and hospital stay. Post-operative drainage does however increase the cost of the procedure both in labour and equipment expenditure.

Conclusions: We conclude that avoiding postoperative closed-suction drainage in UKR does not influence the final outcome.

As total knee arthroplasties (TKA) have become the gold standard procedure for severe gonarthrosis, greater interest in postperative tibiofemoral instability has developed.

Emphasizing the correlation between evaluation of symptoms and findings, offers an opportunity to elucidate the specifics of the instability.

Mandatory is the joint gap measurement during surgery to assess the effect of specific cuts or releases of the anatomic portion of the joint gap.

By performing navigation-assisted total knee arthroplasties, we are capable of measuring the joint gap in a highly reliable way.

During the ligament balancing in navigation-assisted TKA, we performed a data collection of the joint gap in 0–30 and 90 of flexion in 100 patients.

The measurements were repeated after 10 and 20 minutes in extension.

The result offers us an opportunity to assess the interesting effect of ligament-stress relaxation in TKA and to gain more insights in the further release-necessity and choice of insert during the TKA procedure.

Introduction: Nowadays bicompartimental arthritis of the knee in patients younger than sixty still remains a challenge for the orthopaedic surgeon. In these selected cases, the authors present their experience in performing a mini-invasive bi-unicompartimental knee replacement assisted by computer navigation.

Materials and Methods: From January to December 2003, the authors treated 7 patients (7 knees) with bicompartimental arthritis of the knee. The mean age was 66 and in all the cases there was a arthritis deformity with no ligament deficiency and a pain-free femoro-patellar joint. The Orhopilot (4.0 version) navigation system was used during the surgery to assist prosthesis placement. In all the cases a minimal surgical approach was used (7 to 9 cm skin cut). The patients were assessed using a UKR dedicated outcome score (G.I.U.M. Score), pre-operatively and at the latest follow-up. Pre-operatively the mean GIUM score was 49.1 (range 26–63)

Results: At the lastest follow-up the mean GIUM score was 80.2 (range:75–94). The average femorotibial angle was 179° (range 177° −181°). A good ligament balance was achieved In all cases using a computer assisted spreader device. All the patients were satisfied and had returned to their previous occupation soon.

Conclusions: The authors underline how the computer navigation system supports ligament balancing and a correct prosthesis alignment. They registred no fracture of the tibial intercondylar eminence cause of wrong balancing and cuts. They emphasize this real mini-invasive surgical approach to the cure of the knee arthritis, above all in young patients with post traumatic deformities.

Malalignment in total knee replacement (TKR) is frequently associated with early failure and poor functional results. It has been suggested that errors in tibial and femoral alignment of > 3° occurs in at least 10% of TKR. Since 1999 we have been using a computer-based alignment system (Orthopilot;Aesculap,Tuttlingen,Germany) for TKR in more than 300 implants. The aim of this retrospective study is to present our experience in comparison with traditional alignment systems for TKR.

Patients receiving TKR with different alignment systems were enrolled in the study and assigned to three different groups. In group A (38 cases) TKR was performed using a computer-assisted alignment system, in group B (40 cases) TKR was performed using a totally intramedullary alignment system and in group C (37 cases) TKR was performed using a totally extramedullary alignment system. The criteria for inclusion were a diagnosis of primary osteoarthritis, a pre-operative mechanical frontal axis (MFA) ranging from 165° to 195°, and a pre-operative knee flexion deformity not exceeding 10° calculated according to pre-operative radiographs. The radiographs were assessed for the alignment of the femoral and tibial component and the lower limb alignment, considering the lateral femoral component angle (FCA), the medial tibial component angle (TCA), respectively.

The surgical time was statistically longer in the computer-assisted group. The results did not show statistically significant differences in FCA, TCA and MFA among the three groups. However, in the extramedullary aligned group there was a statistically higher percentage of TKRs with both an abnormal FCA and MFA compared to the computer-based alignment group. Furthermore, in the computer-based alignment group all the implants were aligned within 4° of an ideal MFA.

Our results demonstrate the significant improvement in the accuracy of implant alignment using a computer-assisted system compared to an extramedullary one. Furthermore, we underline how stressing the knee during all the phases of the registration process for the navigated implant can demonstrate how much of the deformity can be corrected and thus guide the soft-tissue release.

Unicompartmental knee arthroplasty (UKA) surgery has had a troubled history. In the late 1970s high failure rates and the success of bicondylar knee replacement made UKA less popular. Failures were mainly caused by improper implant design, incorrect patient selection and inadequate instrumentation. In the last few years the advent of guiding systems for more accurate alignment, new implant design and better patient selection have improved results and renewed interest in UKA.

We present a retrospective study of two consecutive series of 60 cases of UC-PLUS SOLUTION UKA and 60 cases of SEARCH AESCULAP computer-assisted total knee arthroplasty (TKA) using ORTHOPILOT software navigation, performed between September 1999 and September 2001. The patients, 45 men and 75 women, had a mean age of 69.5 years (47–85) and the two groups were comparable in terms of age, sex, size, weight (60–85 kg), aetiology, pre-operative range of motion (mean flexion: 100°; range: 90°–140°), pre-operative IKS score, mechanical axis and Alhlback radiographic degrees. The mean femoral-tibial angle was 175° (range:167°–195°). All the operations were performed by the same surgeon. Aim of the surgical procedure was to obtain an ideal femoral-tibial angle of 180°, relieve the pain and restore a better range of motion.

The results showed an excellent alignment of the limbs with the computer-assisted system, but a better IKS score in the UKA group as regards range of motion, pain and walking.