The anterolateral MIS-THA approach can be divided into the Modified Watson-Jones approach (MWJ) performed in the lateral position and the Anterolateral Supine method (ALS) performed in the supine position. Femoral preparation is flexible in stem selection in the MWJ method. On the other hand, the ALS method is more stable for placement on the acetabular implant. Now we introduce novel anterolateral MIS approach named AL60, it makes use of the merits of both MWJ and ALS methods. The patient is fixed at 30 degrees on the dorsal side from lateral position. That is 60 degrees on the half side from the horizontal plane, and the platform of the operating table is removed just as in the MWJ method. During surgery, the pelvis is fixed by the posterior support, and the stability of the pelvis is very good. Also, if the inclination is accurate at 30 degrees, by holding the holder parallel to the operating table when inserting the cup, the cup is theoretically inserted at Anatomical anteversion 30 degrees. The intraoperative field of view is also visible to the assistant due to the semi-lateral position. Femoral preparation is easier than the MWJ method because the affected limbs have fallen to the dorsal side already. Since March 2017 to the end of August 2018, the AL60 method was used for 207 primary THA. There were no dislocations or fractures and any other complications. Full weight bearing was possible from the next day. The AL60 method has stability of the ALS method for acetabular preparation and the operability of the MWJ method for femoral preparation. Therefore, it can be said that new AL60 approach method makes use of the merits of both MWJ and ALS methods.Technique
Discussion
Simultaneous bilateral total hip arthroplasty is now widely accepted for their economically and functionally advantages than staged total hip arthroplasty. But there is concerning higher demands of blood transfusion than unilateral procedure. Multiple studies suggest that tranexiamic acid (TXA) reduces perioperative blood loss. However there is no report for simultaneous bilateral total hip arthroplasty in these studies. Hypothesis TXA reduces significant blood loss after bilateral total hip arthroplasty. We retrospectively reviewed the records of 12 patients who did not use TXA, and 12 patients who had used TXA. There were no significant differences between the groups in terms of demographics and preoperative Hb. 1g of TXA was administered just before first skin incision and 1g was administered 6 hours after surgery. Intra operative blood loss, the amount of drainage for the first operative day and perioperative Hb changes were recorded.Introduction
Patients and methods
Conversion of immovable hip to a total hip arthroplasty provides a solution, improving function, reducing back and knee pain, and slowing degeneration of neighboring joints associated with hip dysfunction while the mobilization by total hip arthroplasty is rather uncommon and challenging surgery. Since 1998 we have performed 28 uncemented total hip arthroplasties for arthrodesed or ankylotic Hip. Among them 25 hips in 24 patients (four males and 20 females) with minimum of six months follow-up were evaluated. Thirteen hips were arthrodesed and twelve hips were ankylotic. One patient had arthrodesed hip in one side and ankylotic one in the other side. The mean age at the surgery was 63 (42 to 80). Two patients were Jehovah's witnesses. All 13 arthrodeses had been performed at other hospitals due to developmental dysplasia (11 hips), tuberculous coxitis (one hip), and infection after osteotomy (one hip). The underlying disease for the ankylosis was tuberculous coxitis for one hip and dysplastic osteoarthritis for 12 hips. Spongiosa Metal Cup (GHE, ESKA Orthodynamics AG, Lübeck, Germany) was used for 21 hips (screw fixation was added for two hips), Alloclassic Cup (Zimmer GmbH, Winterthur, Switherland) for one hip, Bicon Plus Cup (Smith & Nephew AG, Rotkreuz, Switherland) for one hip, and Müller's Reinforcement Ring (Zimmer GmbH, Winterthur, Switherland) for two hips. The bearing couple was ceramic on ceramic (Biolox forte, Ceramtec AG, Prochingen, Germany) for 14 hips, ceramic on polyethylene for eight hips, and metal on metal for three hips. Spongiosa Metal Stem (GHE, ESKA Orthodynamics AG, Lübeck, Germany) was used for 15 hips, SL Plus Stems (Smith & Nephew AG, Rotkreuz, Switherland) for nine hips, and Alloclassic Stem (Zimmer GmbH, Winterthur, Switherland) for one hip. All surgeries were carried out through an anterolateral approach. Twelve hips required the adductor tenotomy against the stiffness. The average follow-up period was 3.7 (0.5 to 10.6) years.Introduction
Materials and methods
Pore size was between 800 and 1500 microns with an overall porosity of 60%. The pore depth of the interconnecting surface structure reached up to 3000 microns. The purpose of this retrospective study is to report the long term results of Spongiosa Metal I cement less total hip prosthesis in Japan.
The all evaluated prosthesis combined 28mm ceramic head and polyethylene inlay.
2 cups and 1 stem were revised by aseptic loosening. 2 stem breakage and 7 ceramic head fracture were seen while following up. 85% of the patients had retained the original prostheses (cup, stem, ceramic head, and inlay). Survival rate was investigated by Kaplan-Meier method. Survival rate for the cup component was 95%, and for the stem component was 93%.
We thought that beating with the hammer when we install the ceramic head to the taper was one problem. On the other hand, few aseptic loosening was seen while following up. These results suggest that spongiosa metal system can bear for long term of use.
Main reason for the revision surgery is ceramic head fracture. We are convinced with this spongiosa metal surface can bear long term of use.
Expecting the low wear property and the longevity, since October 1998, we have been using the alumina on alumina bearing for the hip arthroplasty. Until July 2008, for dysplastic 1078 hips we have implanted the bearing couple. Among them, we evaluated 86 hips in 79 patients (male 3, female 76) with the primary arthroplasty, Spongiosa Metal II Total Hip System (GHE: ESKA implants, Lübeck, Germany/Biolox Forte®: Ceramtec AG, Plochingen, Germany), osteoarthritis secondary to developmental dysplasia, age 60 or below, and a minimum of five years follow-up. The preoperative diagnosis included the failed pelvic and/or femoral osteotomy, avascular necrosis after DDH, dislocation, and subdislocation. The average age at the surgery was 53 (27 to 60). The average of follow-up period was 6.3 (4.6 to 9.1) years. The implants have a macro-porous structure on the surface. To set the metal shell in the intended position, the sclerotic lesion was adequately resected by the chisels and then we used the acetabulum reamers. Otherwise the sclerotic lesion would prevent the reamer to go into the suitable direction. We reamed the acetabulum until the lamina interna to use the maximum size of the metal shell (i.e. to use the liner as thick as possible) and at the same time for the medialization of the hip center. To avoid impingement, the osteophyte was resected without hesitating. We added the adductor tenotomy for 19 hips, the extensive release of the flexor tendons (including the quadriceps origin, the sartroius origin, and the gluteus maximus insertion) for three hips, and the release of the extensor insertion (the gluteus maximus) for two hips, and the release of the flexor insertion (the iliopsoas) for two hips. The hip score was improved in all patients. The average amount of the hip score was 59 before the surgery and was 90 at the final follow-up. A positive Trendelenburg sign was observed in 53 hips (62%) before the surgery and 12 hips (14%) at the final follow-up. We had no revision, no bearing failure (alumina fracture or excessive wear), no dislocation, and no squeaking in these patients. The average inclination angle of the cup was 41 (29 to 49) degrees. The average anteversion angle of the cup was 19 (13 to 27) degrees. No patient required the revision surgery. At the final follow-up, all implants were stable. In the acetabulum, the radio-lucent line was observed in two hips (2%) (zone I). In the femur the line was observed in 13 hips (15%). All lines existed in the proximal femur. There was no cystic osteolytic lesion. The prevalence of these periprosthetic reactions was less than those in the same type implant with the polyethylene on alumina bearing. Some authors alerted that the alumina on alumina articulation should only be applied in when the optimized implant orientation is obtained so as to prevent the impingement and dislocation. Fortunately the alignment in this study was within the safe zone. However, we must always be very careful of the joint alignment, range of motion, and the muscle tension during the surgery to avoid the bearing failure, as setting an adequate alignment and obtaining a firm uncemented fixation of the cup is relatively difficult in dysplastic hips. From this view point, Spongiosa Metal II cup suits the use of the alumina on alumina bearing especially for dysplastic hips.
We apply a hydrocolloid-gel sheet (C-12, Karayaheive, Alcare, Tokyo, Japan) for the hip arthroplasty. The sheet is a kind of wound dressing film made of the Hevea sap. The Hevea sap has been widely applied for the stoma or cosmetics (e.g. facial mask, UV protection moisturizer, hair lotion). We use it since October 2004. It applies the moist wound healing mechanism without preventing the self-wound-healing. The surgical exudate is kept under the sheet to apply the moist wound healing mechanism. The sheet had been improved originally as a wound dressing material. Because of its very strong adhesiveness, we use it also as an alternative to the epidermal suture. In our method, we do not use any epidermal suture or staples. We use an anterolateral approach making an arcate incision. After the subcutaneous tissue was sutured just like as in the case of using the epidermal sutures or staples, the sheet was attached to the skin. Both the sheet and the overlaying gauze were not changed until the removals on the tenth day after surgery. We have applied this wound closure method for 814 primary surgeries. Among them, we evaluated 56 hips in 49 patients (three males and 46 females) (including seven patients of the simultaneous bilateral surgery) with minimum of two years follow-up. The average age at the surgery was 61 (40 to 77). The diagnosis at the surgery was dysplastic osteoarthritis for 50 hips in 45 patients, primary osteoarthritis for five patients in three hips, and rheumatoid arthritis for one hip. The uncemented implants were used for all patients. In all patients, a good wound healing was obtained. The wound dehiscence occurred in two patients, however the wound healed later by attaching the hydrocolloid-gel sheet again. The hyperplastic scar was observed in one hip. Though Orientals have less ability of wound healing than Caucasian, a satisfactory wound healing was achieved without any epidermal suture. Comparing the conventional skin closure methods, the hydrocolloid gel sheet brought about less pain; as no removal of staples was necessary, less time and labor, less medical waste, and better wound healing. As the disadvantage, some sensitive patients might mind the smell of the exudate under the gel sheet. The wound closure method using the hydrocolloid-gel sheet was very useful for the hip arthroplasty.
“Karayahesive” is a viscoelastic film made of Karaya gum. The Karaya gum includes some polysaccarides and is exted from Karaya gum tree (Sterculia urens). It applies “Moist Wound Healing Mechanism” which has been proposed by plastic surgeons. According to this mechanism, the spontaneous wound cure can be promoted by preventing wound becoming dry, keeping a wet environment around wound, and reducing the inhibitors against wound healing. It was originally developed as a wound dressing material to use after the ordinal skin closure. We remarked its strong adhesiveness, as a modification, we use it as an alternate for epidermal suture. Since June 2006, we have been using it for 183 knees. Among them, in this study, we evaluated 158 knees in 183 (18 male, 165 female) patients with minimum of two months follow-up. The diagnosis at the surgery was osteoarthritis for 137 knees, rheumatoid arthritis for 20 knees, and aseptic necrosis of the femoral condyle for one knee. The average age at the surgery was 70.8 (40 to 84). The average of follow-up was 8.5 (two to 21) months. In all knees we used a parapatellar medial approach. Without any epidermal suture, the wound was closed by attaching Karayahesive. Before attaching Karayahesive, we made the ordinal subcutaneous suture just like as the conventional skin closure. We wipe off the blood to dry the skin. Without any epidermal suture, we attached Karayahesive to reduce the wound tension. After attaching it, we made the ordinal gauze dressing and compression bandage. No dressing change was necessary until the removal. Karayahesive was removed two weeks after the surgery, together with clot and overlaying dressings. After the removal, most patients require no additional dressing and could go into bathtub on the same day. The excellent primary wound healing was obtained in 152 knees. In six knees, the wound disrupted. However, re-attach of “Karayahesive” provided early healing of the disrupted wound successfully. Comparing the ordinal epidermal suture, the patients complained less pain at the removal and irritation after the surgery, and Karayahesive provided better wound healing. It saved time and labor as no epidermal suture and no dressing change were necessary. It saved cost of the medical waste. On the other hand, it was difficult to observe the wound; as it was concealed by clot. We had to be very careful not to miss early symptom of the infection. In conclusion, for the knee arthroplasty Karayahesive was not only very useful wound closure material but also the excellent alternate for the epidermal suture.
A special surgical technique and consideration is necessary in the total hip arthroplasty for dysplastic osteoarthritis after Kalamchi and MacEwen Type III or IV deformity (so called “Perthes-like-deformity”). There have been few reports concerning the total hip arthroplasty for “Perthes-like-deformity”. We evaluated the clinical and radiological outcome of 52 uncemented hip arthroplasties for the lesion. We have performed 106 hips of uncemented total hip arthroplasty for dysplastic osteoarthritis after Kalamchi and MacEwen Type III or IV deformity. Among them, 52 hips of 47 patients (11 males and 41 females) were evaluated with minimum of three years follow-up. The average age at the surgery was 52 (28 to 65). The average follow-up period was 4.8 (3 to 8.1) years. Against the developmental dysplasia or dislocation, 29 hips of 26 patients had been treated by casting or surgery in infancy. Thirteen hips of 11 patients had no previous treatment before the arthroplasty. Spongiosa metal cup (GHE: ESKA implants, Lübeck, Germany) was used for 33 hips of 28 patients and Zweymüller type cup (Allo-classic cup: Zimmer Inc., Warsaw, IN, Bicon cup: Smith &
Nephew Orthopedics AG, Rotkreuz, Switzerland) for 19 hips of 19 patients. Spongiosa Metal stem (GHE: ESKA implants) was used for 23 hips of 19 patients and Zweymüller type stem (Alloclassic stem: Zimmer Inc., SL stem: Smith &
Nephew Orthopedics AG) for 29 hips of 28 patients. The average operative time was 108 (53 to 233) minutes. The average blood loss during the surgery was 731(150 to 1749) milliliters. The adductor tendon release was added in 28 hips of 26 patients against the severe contracture. The patients were evaluated clinically (pre-surgical history, hip score, leg length discrepancy, Trendelenburg sign, and gait function) and radiologically (ATD before the surgery, alignment, and stability of implants). Average ATD before the surgery was −2.2 (−28 to 17) millimeters. The average leg length discrepancy was 1.9 (0 to 7) centimeters before the surgery and was improved to 0.1 (0 to 1) centimeters after the surgery. The average hip score was 54 (23 to 80) before the surgery and was improved to 90 (69 to 100) after the surgery. At the final follow-up, Trendelenburg sign was positive in 14 hips of 14 patients (26.9%) and the limping was not obvious in 38 hips of 33 patients (73.1%). All implants were stable at the final follow-up. “Perthes-like-deformity” often has the severe deformity. It has a shortening or an absence of the neck and an excessive antetorsion of the femur. When it has the coxa magna, the acetabulum is shallow, has the narrow anteroposterior diameter, and has the thin wall like the osteophyte. It is frequently accompanied by shortening of leg and contracture, as the lesion arises from the development disorders. Thus, the total hip arthroplasty, especially uncemented one, is complicated. However, the satisfactory result can be obtained by careful consideration and surgical procedure such as a provision against the bleeding and the soft tissue release.
Considerable numbers of authors have reported the change in periprothetic bone mineral density (BMD) after hip arthroplasty. However, there have been few reports concerning the BMD in the lumbar vertebra, especially for dysplastic hips. Since 1998, we have been measuring the BMD mineral density for 2016 patients by DXA (Dual-energy X-Ray Absorptionmetry method). Among them, we evaluated the BMD in 66 postmenopausal patients with the single side primary arthroplasty, with five years or more follow-up, and also aged 60 or more. We used a DXA densitometer (DPX-IQ, GE Healthcare, Madison, WI, USA). The diagnosis at the surgery was dysplastic osteoarthritis in all patients. The average age at the surgery was 66 (60–81). All patients were female. No patients had the systematic diseases which contributed to the secondary osteoporosis. No patients had received the pharmacotherapy for osteoporosis in the whole therapeutic process. The bed rest was seven from two days after the surgery (different by the operation date). The average follow-up was 7.0 (five to ten) years. The average BMD in the lumbar vertebra before the surgery was 0.996 (0.612 to 1.712) g/cm2. The BMD was 0.971 (0.637 to 1.402) at six month postoperatively, 0.972 (0.552 to 1.740) at one year, 1.004 (0.573 to 1.733) at two years, 1.032 (0.633 to 1.670) at three years, 1.035(0.724 to 1.688) at four years, 1.031 (0.564 to 1.679) at five years, 1.027 (0.734 to 1.647) at six years, 1.042 (0.589 to 1.389) at seven years. At the final follow-up, the BMD was 1.054 (0.589 to 1.647). In 53 patients (80%), the density at the final follow-up increased in comparison to that before the surgery. In 27 patients (41%), the density once decreased six month postoperatively. The density increased at 3 years (t=−1.919, p=0.030), four years (t=−2.523, p=0.015), five years (t=−2.381, p=0.021), seven years (t=−2.822, p=0,007), and at the final-follow-up (−4.076, p= 0.000) in comparison to that before the surgery. The activity of the patients was evaluated by the hip score. The average score was 54.5 (21 to 76) before the surgery. The average score was 88.0 (66 to 100) and increased at the final follow-up in comparison to that before the surgery (t=−13.04, p 0.000). Some authors (eg. Bergström I, 2008, Espar I, 2008, etc.) have pointed out that the appropriate activity may increase the bone density. Presumed from the literatures, the increase of activity after the arthroplasty may have increased the BMD, though the direct correlation was not obvious between the BMD and the amount of hip score (at the final follow-up: r=0.005, p=0.972) in this study.
Friction was studied in 67 retrieved cemented cups with 32 mm internal diameter. Friction was measured under 1.0 KN of static load. High molecular hyaluronic acid was adapted as a lubricant. Thirty cups were combined with alumina heads and 37 were combined with metal heads. The years cups were in situ was 7.5 (3.2–13.2) for alumina-polyethylene implants and 8.9 (1.5–15.7) for metal-polyethylene implants (p>
0.05). The revision rate at 15 years follow-up was higher in metal-polyethylene (PE) implants (57%) than that of alumina-PE implants (40%) (p<
0.05). The prevalence of cup loosening was less in alumina-PE implants (12/30) than in metal-PE implants (29/37) (p<
0.01). Less wear was observed in alumina-PE implants (1.15+−0,80mm) than in metal-PE implants (1.62+−0.61mm) (p<
0.01). Less wear was observed in cups without loosening (alumina-PE implants: 1.84+−0.57mm, metal-PE implants: 1.75+−0.51mm) than in those with loosening (alumina-PE implants: 0.69+−0.56mm, metal-PE implants: 1.31+−0.73mm) in both types (alumina-PE implants: p<
0.01, metal-PE implants: p<
0.05). Less wear rate was observed in cups without loosening (alumina-PE implants: 0.11+−0.05 mm/year, metal-PE implants: 0.14+−0.05mm/year) than in those with loosening (alumina-PE implants: 0.17+−0.03 mm/year, metal-PE implants: 0.22+−0.09mm/year) in both types (alumina-PE implants: p<
0.01, metal-PE implants: p<
0.05). The coefficient of friction increased in proportion to the progress of cup wear in both types (alumina-PE implants: r2 =0.217, p<
0.01, metal-PE implants: r2 =0.183, p<
0.01). Relation between the coefficient of friction and stability of implants was not detected in both types, while alumina-PE implants had lower coefficient of friction (0.137+-0.056) than metal-PE implants (0.209+−0.098) (p<
0.01). The torque of metal-PE implants without stem loosening (0.137+−0.053) was larger than that of alumina-PE implants with stem loosening (0.274+−0.088) (p<
0.01). The results suggest that wear has greater influence on stability of implants than the friction, whereas coefficient of friction increases in worn implants.
The most considerable cause of nerve root damage are compression force and stretch force. Many researchers had reported about experimental study of the compression force, but it is difficult to find the report describing the stretch force to the nerve roots. The purpose of this study is to evaluate the physiological reaction of nerve roots of rats nuder stretch force. The nerve roots were prepared from the cauda equina of 8 Wister rats (weight: 300 – 400g). We investigated the changes in threshold and action potential of the nerve roots under stretch force and compression force. The threshold of the nerve roots increased and action potential decreased in parallel with stretch force. Also, the threshold and action potential recovered after releasing the stretch force. On the other hand, by compression force, the action potential decreased parallel with compression force, but the threshold did not change with compression force. Ten minutes after releasing compression force, the action potential did not recover as much as before, and the threshold increased rather than control. The different physiological reactions that occurred between compression force and stretch force are hard to explain by circulation insufficiency, as previously reported (hypoxemia and lack of nutrition). We considered that the etiology of the stretch force might be a change in internal pressure of nerve roots and a structural change in nerve cells. The physiological reaction of the nerve root under stretch force differed from that under compression force and recovered from the damage after release from stretch force.
We retrieved 159 femoral heads at revision surgery to determine changes in surface configuration. Macroscopic wear of the head was observed in three bipolar hip prostheses as a result of three-body wear. There was a considerable change in surface roughness in the internal articulation of bipolar hip prostheses. Roughness in alumina heads was almost the same as that in new cobalt-chromium heads. The annual linear wear rate of polyethylene cups with alumina heads was less than that of cups with cobalt-chromium alloy heads. Polyethylene wear was increased in the prostheses which had increased roughness of the head.