Background: Control of acute postoperative pain remains a serious problem. Postoperative pain is associated with an increase in thrombotic or respiratory complications. In the other hand the association between surgery, acute postoperative pain and ongoing chronic pain is well defined.

Target: To evaluate the incidence of severe pain after surgery for degenerative lumbar pain, with two analgesic techniques; intravenous analgesia (i.v.) (group 1) and patient controlled analgesia (PCA) (group 2).

Study design: Retrospective study with dates obtains prospectively.

Patient sample: We studied 206 patients operated between january 04 and june 05. Group 1 (intravenous) 80 patients and 126 in group 2 (PCA).

Outcomes mesasures: Percentage of patients with severe pain, number of rescues and complications.

Materials and methods: The type of postoperative analgesia administrated was decided by the anaesthesiologist. To measure pain intensity the VAS was assessed every 6 hours and worst score was used, excluding recovery room. Type of rescue analgesia was the same in all patients and these was recommended in VAS > 3. We evaluate sex, age and comorbidity by ASA. We have defining analgesic ‘failure’ by the overall incidence of pain intensity in two categories: the percentage of patients who experienced moderate-severe pain (VAS > 3) and severe pain (VAS> or = 7). As the pain scores were not normally distributed we not used mean and SD of VAS. The number of rescues and complications were also evaluated.

Results: There was not differences in median age (group 1 50’85 sd 15’4; group 2 52’44 sd 15’4 p=0’47), ASA (group 1 1’89 sd 0’75; group 2 1’90 sd 0’57 p=0’88) or diagnosis between two groups. There were differences in percentages of sexes, group 1 with 40% of women and 62’69% in group 2 (p=0’013). There were not differences in incidence of patients with moderate-severe pain (group 1 15/80; group 2 30/126. p=0’392) neither in incidence of patients with severe pain (group 1 33/80; group 2 51/126. p=0’912). There were not differences in number of rescues (p=0’912) neither in number of complications between groups. Global incidence of VAS > 3 were 40’8 but the incidence of rescues were 25’2%

Conclusions: Our findings suggest that both techniques have similar effectiveness, although the global incidence of severe pain was not optimal (21’8%). It is important to remark the different between incidence of patients with VAS > 3 and number of rescues administrated.

Introduction: Concern remains in loosening of glenoid component reversed prostheses. This study is to analyze glenoid location of stem and 4 screws of glenoid component.

Material and method: 34 reversed prostheses included. Mean age 74,10, 33 females/1 male. Preoperative CT study : glenoid version; measure of anterior-posterior osteophytes. Postoperative CT study: central stem location and superior, inferior, anterior, posterior screws location. Study of influence of glenoid version and presence of osteophytes in location of glenoid implant.

Results: 27 retroverted glenoids (mean 6,5°); 7 ante-verted (mean 5,3°). 17 cases with anterior osteophyte and 12 of posterior. In 52% the central stem was centered inside glenoid, 33% anterior end was outside glenoid and 14% the posterior end. When central stem was anteriorly outside 85% presented retroverted glenoid (mean 8,33°). When the central stem was posteriorly outside 66% presented anteverted glenoid (mean 9,5°). Inferior screw was fully in place in 38%, ¾ part inside in 19%, 2/4 part in 23%, ¼ part in 19%. Superior screw was fully in place in 47%, ¾ part inside in 23%, 2/4 part in 19%, ¼ part in 9%. Anterior screw was fully in place in 66%, ¾ part in 23% and 2/4 part in 9%. Posterior screw was fully in place in 38%, ¾ part in 42%, 2/4 part in 14%, ¼ part in 4%. The correct positioning of superior screw correlates with less coverture of inferior screw. Anterior and posterior osteophytes did not correlated with stem nor screw positioning.

Conclusions: Positoning of central stem correlates with glenoid version. Anteriorly extruded stems correlate with higher retroverted glenoids and posteriorly extruded stems correlate with higher anteversion.

Positioning the inferior screw fully inside the lateral border of the scapula correlates with lower bony coverture of superior screw.

Introduction: Reversed prostheses implantation requires screwing of the glenoid component with prefixed angles. This study is to determine anatomical angles of scapula that take part in reversed prostheses implantation.

Material and method: Seventy-three 3-dimensional computed tomography of the scapula and 108 scapular dry specimens were analyzed. Mean age of the CT-3D serie was of 52.59 years old (ranging from 16 to 84). There were 46 females and 27 males. The following measures were made on each patient: length of the neck of the inferior glenoid, angle between the glenoid surface and the upper posterior column of the scapula, angle between the major craneo-caudal glenoid axis and the base of the coracoid process and angle between the major craneo-caudal glenoid axis and the upper posterior column of the scapula. Measures were performed in the AP view as well as in the posterior view of the scapula.

Results: The length of the neck of the anterior glenoid was classified into two groups named ‘short-neck’ and ‘long-neck’ for both three-dimensional computed tomography and cadaveric scapulas with statistically significant differences between both groups (p< 0,001 for the three-dimensional computed tomography scapulas and p=0,034 for the cadaveric group). The angle between the glenoid surface and the upper posterior column of the scapula was also classified into two different types: type I (52° ranging from 48° to 57°) and type II (64° ranging from 60° to 70°) with statistically significant differences between both groups (p< 0,001 for the three-dimensional computed tomography scapulas and p< 0,001 for the cadaveric group). The angle between the major craneo-caudal glenoid axis and the center of the base of the coracoid process averaged 18,25° (ranging 13° from to 27°). The angle between the major craneo-caudal glenoid axis and the upper posterior column of the scapula averaged 8° (ranging 5° from to 18°).

Conclusions:

- scapulas can be classified into two groups regarding the angle between the glenoid surface and the upper posterior column of the scapula with significant differences between them.

Introduction: Analysis of location of central peg and the fours screws of the glenoid component in inverted shoulder prostheses.

Materials and methods: 34 inverted prostheses. Mean age 74.10. 33 women, 1 man. Preoperative CT: glenoid version, presence and size of bone spurs. Postoperative CT: location of central peg and 4 screws.

Results: 27 retroverted glenoids (mean 6.5°), 7 anteverted glenoids (mean 5.3°); anterior bone spur in 17 cases, posterior in 12. In 52% of the cases the central peg was inside the glenoid; in 33% the anterior part was outside and in 14% the posterior part. If the anterior part of the central peg was outside, 85% was due to retroverted glenoids (mean 8.33°). If the posterior part was outside, 66% of these were due to anteverted glenoids (mean 9.5°). Lower inside screw in the scapula in 38% of cases, 3/4 inside in 19%, 2/4 in 23% and 1/4 in 19%. Upper screw: 47%, 23% 19% and 9%, respectively. Anterior screw: 66%, 23% and 9%, respectively. Posterior screw: 38%, 42%, 14% and 4%, respectively.

Conclusions:

- Lower screw completely within the lateral part of the scapula with less coverage by upper screw.

Pyomyositis in a temperate climate is a rare condition in children according the number of reports. Most authors postulate trauma with simultaneous bacteriemia is the most likely mechanism.

We reviewed 8 cases, 4 boys and 4 girls. Their mean age was 9,2 y. ( 5 to 16 y.). Pain, tenderness, limp and fever were the most common signs. Duration of symptoms before initial evaluation was 8,1 d. (5 to 15 d.). 6 patients had fever (> 38,5°C), all had leukocytosis and a shift to the left in the WBC, and a elevated ESR 69,3 mm/h(32 to110), as well as an increased C-protein reactive (mean=10). All cases had radiographs, US in 6, CT scan in 6 and MRI in 5. These studies demonstrated involvement of psoas muscle in 4, obturator internus and externus in 3, and gluteal and quadratus femoris in 1. We found simultaneous involvement of ischiopubic ramus in 3, one iliac osteomyelitis, one piogenic sacro-ileitis, one supurative lymphadenitis and one resection for Crohn’s disease. Incision and drainage of muscular abcess (5 cases)plus IV antibiotics(8 cases) provided uneventfully resolution. 4 cultures were positive to Staf Aureus, 1 to E. Coli and 3 negatives.

In this series we found 87% of pelvic pyomyositis with simultaneous septic factors. We consider them more causative factors than predisponing, and pyomyositis as a secondary entity. Previous reports propose pyomyo-sitis as a primary condition after a speculative bacter-aemia with a muscle strain, as the likeliest cause. MRI could be helpful to determine bone involvement or other regional problems in pelvic pyomyositis.