Article Type : Short commentary
Authors : Mohan Iyer K
Numerous new Approaches to the Hip Joint are
described since the 1990’s and they are mostly based on older approaches which
have been modified to a specific purpose or for a specific reason. The approach
is based on the access needed, the potential for complications, and the purpose
for which it is needed along with the experience of the Surgeon. The basic need
is the requirement to maintain the primary blood supply to the femoral head
from the medial femoral circumflex artery and its ascending branches. In Total
Hip Arthroplasty, disruption of the ascending branches is of no consequence,
while in Hip Resurfacing or Osteotomy, the anterior, anterolateral, lateral or
medial approaches are more preferred in order to prevent osteonecrosis of the
femoral head. The lateral approaches, which require osteotomy which have a
significant non-union rate should also be taken into account. Overall the
Surgical approaches to the hip may be broadly classified as: anterior;
anterolateral; lateral; posterior; medial; lateral sub trochanteric and
proximal femoral shaft Posterior Approach is normally preferred when the
viability of the femoral head is not required, such as Resection Arthroplasty
or insertion of a proximal femoral prostheses. However when the viability of
the femoral head is necessary as in Hip Resurfacing Arthroplasty or fracture
repair, the medial circumflex artery and its ascending branches must be
protected.
Numerous new Approaches
to the Hip Joint are described since the 1990’s and they are mostly based on
older approaches which have been modified to a specific purpose or for a
specific reason. The approach is based on the access needed, the potential for
complications, and the purpose for which it is needed along with the experience
of the Surgeon. The basic need is the requirement to maintain the primary blood
supply to the femoral head from the medial femoral circumflex artery and its
ascending branches. In Total Hip Arthroplasty, disruption of the ascending
branches is of no consequence, while in Hip Resurfacing or Osteotomy, the
anterior, anterolateral, lateral or medial approaches are more preferred in
order to prevent osteonecrosis of the femoral head. The lateral approaches,
which require osteotomy which have a significant non-union rate should also be
taken into account. Overall the Surgical approaches to the hip may be broadly classified
as: anterior; anterolateral; lateral; posterior; medial; lateral sub
trochanteric and proximal femoral shaft Posterior Approach is normally
preferred when the viability of the femoral head is not required, such as
Resection Arthroplasty or insertion of a proximal femoral prostheses. However
when the viability of the femoral head is necessary as in Hip Resurfacing
Arthroplasty or fracture repair, the medial circumflex artery and its ascending
branches must be protected. The piriformis, Obturator internus and the gamelli
must be separated well away from the posterior aspect of the greater trochanter
and the attachments of the Obturator externus and quadratus femoris must be
preserved. Gibson was mainly responsible for the description of the posterolateral
approach, which was first described and recommended by Kocker and Langenbeck,
since detaching the gluteal muscles from the ilium resulting in interference
with function of the Iliotibial tract is unnecessary, and hence post- operative
recovery is rapid. Another modification of the Gibson Approach where the Hip
Joint is dislocated by internal rotation, thus preserving the anterior part of
the joint capsule and preventing the dislocation of the Hip joint post-
operatively anteriorly was described by Marcy and Fletcher, for insertion of
prostheses. The conventionally known `Southern Approach’ was developed by
Austin Moore in 1957, and was called so partly because it utilized the lower
part of the Kocker procedure and partly because of its origination by him in
the Southern States of America. It is essentially similar to the Kocker and
Gibson Approaches, with the important differences that the Gluteus Medius and
Minimus being not detached from the greater trochanter and that the Hip is
dislocated by medial rotation rather than by lateral rotation. A number of
approaches are classified as posterior. They range from the extensive Henry
approach which releases the gluteus Maximus from the iliac crest, the
iliotibial band and the femoral shaft to essentially expose all of the
posterior structures to the limited muscle splitting approach of Ober for
drainage of the hip joint. All the Posterior Approaches have in common the
posterior retraction of the gluteus maximus to enter the posterior aspect of
the hip and the release or section of the short external rotator muscles to
enter the hip joint. The posterior approach to the hip joint has enjoyed
varying degrees of popularity among orthopedic surgeons over the past 125
years. There is general agreement that the posterior approach offers the
advantages of reduced blood loss, early post-operative recovery and a reduced
hospital stay. The main arguments against the use of posterior approach are an
increased risk of dislocation following hip replacement surgery. In spite of
well-fixed, well-aligned components, bearing exchange has a high risk of
chronic instability, which may be attributed to the resection of stabilizing
soft tissue structures to gain exposure. This creates a difficult situation for
the surgeon and an inexplicable one for the patient with a previously
well-functioning implant. The senior author modified a technique previously
described by Shaw that included an osteotomy of the posterior one third of the
greater trochanter and preservation of posterior soft tissues. Thirty-five
patients underwent 47 revision procedures utilizing this approach, including 16
modular component and 31 more extensive procedures. There were no dislocations
or significant complications and no loss of reduction or non-union. The approach
offers excellent exposure while preserving stabilizing soft tissues.
Based on the results of their study, there
appears to be statistical difference between the two groups that is bipolar
being better in functional aspects. The results of our study showed that the
incidence of complications were lower after bipolar hemiarthroplasty. Posterior
surgical approaches leave the abductors undisturbed but have been associated
classically with a higher rate of postoperative instability. Over the last
decade, there has been a growing interest in modifying the posterior approach
in order to decrease instability rates. Although some authors have suggested
that the higher instability rate associated with the posterior approach is
related to poor positioning of the acetabular component, several cadaveric and
clinical studies suggest that the integrity of the posterior soft-tissue
structures is the critical factor for early stability after arthroplasty
through a posterior approach. The posterior approach is the most common and
practical of those used to expose the hip joint. Popularized by Moore, it is
often called the southern approach. All posterior approaches allow easy, safe,
and quick access to the joint and can be performed with only one assistant.
Because they do not interfere with the abductor mechanism of the hip, they
avoid the loss of abductor power in the immediate postoperative period.
Posterior approaches allow excellent visualization of the femoral shaft, thus
are popular for revision joint replacement surgery in cases in which the
femoral component needs to be replaced. Because access to the joint involves
division of the posterior capsule, if dislocation of any prosthesis occurs, it
will result from flexion and internal rotation of the hip. Thus, there may be a
higher dislocation rate than that from anterior approaches if the posterior
approach is used in fractured neck of femur surgery in elderly bedridden
patients who often lie in bed with their hips in a flexed and adducted
position. The author’s original paper written nearly 40 years ago presented an
original technique devised to confer greater stability to the hip joint
posteriorly to minimize the greater incidence of dislocation which has been
reported extensively in literature [1].
The purpose of the
study with cadavers was mainly to compare, with respect to stability of the hip
joint, this approach with that after the Southern Approach as described. The
strength of fixation of the reattached trochanter was assessed by applying the
standard dislocation manoeuvre. Three cadavers were obtained within 18 hours of
death and in each both the hips were exposed. On one side the Southern approach
was used and on the other side this posterior approach. A soft top uncemented
Monk’s prosthesis was inserted into each hip (6 in all) and closure was carried
out as far as the fascial layer, which was left open to expose the reattached
lateral rotators. The pelvis was fixed to a device which measured the ranges of
flexion and extension, adduction and abduction and internal and external
rotation of the hip being tested. Torque was applied in internal rotation when
the hip was held at a fixed angle of flexion and adduction. The corresponding
angle of internal rotation obtained with the torque applied was recorded when
the sutures broke or the hip dislocated (Figure 1-3).
In 2
cadavers the hips exposed by this approach withstood the maximal torque
applied(68 Newton metres, Nm) without any dislocation or disruption of the
trochanteric fixation while in the hips replaced by the Southern approach
disruption of the sutures in the lateral rotators occurred between 40 to 50 Nm,
with dislocation of the prosthesis. In one cadaver the hip exposed by the
Southern approach disrupted at 30 Nm with breakage of all sutures in the
lateral rotators together with dislocation of the prosthesis, while the other
hip exposed by this approach withstood a torque of 50 Nm after which it
dislocated, leaving the trochanteric fixation and the sutures in the gluteus
medius intact. Thus it was found that in all 3 cadavers the forces required to
dislocate the hip and disrupt the reattachment of the lateral rotators were
considerably more using this new approach than with the Southern approach,
thereby confirming the greater posterior stability of the recommended
modification.
The patient is placed
on the sound side. The skin incision extends from just distal and lateral to
the posterior superior iliac spine towards the lateral edge of the greater
trochanter, with a curve in the direction of the fibres of gluteus Maximus, and
extends down the shaft of the femur for about 10 cm. The gluteal fascia and the
ilio-tibial tract are exposed; the deep fascia incised vertically in the lower
part of the incision and the incision is curved upwards through the middle of
the fibres of gluteus Maximus. The muscles now seen converging on the greater
trochanter from above downwards are gluteus medius; piriformis; obturator
internus, flanked by the superior and inferior gaemelli; quatratus femoris, and
the upper edge of the adductor magnus. All these muscles lie edge to edge, with
the sciatic nerve well away from the insertion of the short lateral rotators
(Figure 4).
The posterior border of the gluteus medius in the upper part and the quadrate tubercle with the lower border of the quadrate femoris in the lower part are then identified. The greater trochanter is cut through so that the detached part includes the insertion of the following structures. From below upwards these are quatratus femoris, obturator internus with the inferior and superior gaemelli, piriformis and the posterior third of the fibres of the gluteus medius. The osteotomy extends from the junction of the posterior third and anterior two-thirds of the lateral border of the greater trochanter obliquely downwards and posteriorly to the shaft of the femur just distal to the quadrate tubercle (Figure 5-20).
Figure 1: Device used to test stability of the hip joint showing pelvis fixed and protractors to measure the angle of flexion/extension, adduction/abduction and internal/external rotations (Courtesy: Photograph reproduced with the kind permission of Injury/Elsevier).
Figure 2: Device used to test stability of the hip joint showing pelvis fixed and protractors to measure the angle of flexion/extension, adduction/abduction and internal/external rotations (Courtesy: Photograph reproduced with the kind permission of Injury/Elsevier).
Figure 3: Internal rotation torque being applied when the hip joint was standardized to a fixed angle of flexion and adduction (Courtesy: Photograph reproduced with the kind permission of Injury/Elsevier).
Figure 4: Line Diagram showing the osteotomy of the posterior overhanging part of the greater trochanter: (Courtesy:Line Diagram reproduced with the kind permission of Injury/Elsevier): A-Gluteusmaximus; B-Gluteus medius; C-piriformis; D-triradiatetendon; E-quadratus femoris; F-sciatic nerve; G-greater trochanter; H-osteotome.
Figure 5: Line Diagram showing the osteotomy completed and the flap retracted. (Courtesy: Line Diagram reproduced with the kind permission of Injury/Elsevier); A-Gluteus maximus; B-gluteus medius; C-piriformis; D-triradiate tendon; E-Quadratus femoris; G-Greater trochanter.
Figure 6: Line Diagram to show that the Osteotomy is completed and the flap retracted, after incising the capsule to expose the Hip Joint,(Courtesy: reproduced with the kind permission of Injury/Elsevier).
Figure 7: Skin Incision from the distal and lateral part of the trochanter to the posterior superior iliac spine with a gentle curve in the direction of the fibers of the gluteus maximus.
Figure 8: Incision through the gluteal fascia.
Figure 9: Incision vertically through the fibers of the gluteus maximus.
Figure 10: Exposure of the short
lateral rotators.
Figure 11: Posterior Tochanteric Osteotomy taking the insertion of the short lateral rotators with the sciatic nerve well away.
Figure 12: Exposure of the Hip Joint.
Figure 13: Dislocation of the Hip Joint.
Figure 14: Resection of the head and neck of the femur.
Figure 15: Insertion of the total hip Prosthesis.
Figure 16: Wiring of the trochanteric fragment.
Figure 17: Reconstitution of the Hip Joint.
Figure 18: Radiograph of the Total Hip Prosthesis.
Figure 19: Radiograph of a Thompson’s Prosthesis.
Figure 20: Radiograph of a bipolar Prosthesis.
There were no
dislocations nor instability noted in the follow-up of these patients. This
approach was then included in the Year book of Orthopaedics by Mark Conventry
in the year book of Orthopaedics [1]. Terry Canale of Campbell’s Operative till
finally by my respected teacher Mr.F.H.Beddow in the Rheumatoid Arthritis Surgical
Society [2,3]. Thereafter many people like James Shaw did appreciate this
approach and it in books by John J Callaghan MD, Aaron G Rosenberg MD, Harry E
Rubash in The Adult Hip and Surgery of the Hip by Raymond Tonzo and finally in
Minimally Invasive Total Joint [4-8]. Above all Thomas Stahelin8 of Zurich,
Switzerland finally acknowledged and appreciated this approach. USA did
acknowledge this approach by carrying out their studies with reporting their
results in the Acta Orthopaedica Belgica [9-11]. The main pupose of this
modification was to avoid dislocation of the Hip Joint and yet retail all the
advantages of the posterior approach. In the end, my book The Hip Joint (2nd
Edition) by Jenny Stanford Publishing (Singapore) which contains 32 important
chapters which was released in June 2021 [12]. The basic attempts at this have
been numerous Modifications to the Posterior Approach with an aim of adding
more stability by numerous soft tissue enhancement procedures to the Hip Joint
posteriorly.
The posterior approach
is the most common surgical approach used internationally for THAs as there are
more than 100 described cases in literature. There is no book written on the
title (Posterior Approach to the Hip Joint) only but are in chapters in books
on the Hip Joint or Approaches to the Hip Joint. This book will be published
eventually by CRC Press (Taylor & Francis, UK) and it has chapterwise contributions
from all over the world to include China, Japan, India, UK, USA, and Australia,
France and Germany which shows the evolution and progress this approach has
made since its start.
·
This
modification helps to increase stability of the posterior aspect of the Hip
Joint by trochanteric osteotomy of the greater trochanter as noted by its
cadaver’s tests and hence decreases the risk of dislocation of the Hip Joint.
·
There
is minimal bleeding in this approach and no neurological deficit as the sciatic
nerve is far away.
·
It
does not interfere with the abductor mechanism as it leaves the abductor
mechanism intact.
·
There
is excellent visualization of all parts of the Hip Joint by this approach and
hence useful in Heniarthroplasty, Total Hip Replacement both primary and
revision where there is good visualisation of the femur also.
·
Early
postoperative recovery due to early mobilization with reduced length of
hospital stay.
The DAA can be done on
a plain table or a fracture table according to each Surgeons wishes.
The emphasis should be
made on quick mobilisation rather than the word dislocation. This can be used
extensively in Fracture neck of femur for Hemiarthroplasty rather than Primary
or Revision Hip Replacement But with gradual understanding of the DAA, this appears
to be a better substitute [13-20]. Rather than these modifications. The DAA may
appear to have a very steep and difficult learning curve in the beginning, but
with practice and using this DAA, it appears as an excellent substitute for the
Posterior Approach to the Hip Joint. The features of DAA should be shared
actively with physio/occupational therapists to avoid the necessity for the use
of a low chair for sitting purposes and avoid cross the legs in bed. All HOD’s
in Orthopaedics should impart teaching on DAA to their students at all levels
in training so that they are aware of the DAA. The `word dislocation’ has been
looked as a unacceptable/inadequate/ banned as constituting a risk/ not
acceptable to mention associated with mainly Posterior Approach in Surgical
Approaches to the Hip Joint since over 5 decades which is extremely difficult
to overcome in literature even till today. I had also described a Modified
Approach to the Posterior Approach in 1981, which is well held in literature
and textbooks (https://kmohaniyer.com) of repute even till today but I feel
that we should encourage the younger generations of Orthopaedic Surgeons in the
world to embrace the DAA even for the most commonly seen Fracture neck of femur
initially instead to straight embarking on Primary or Revision Total Hip
Arthroplasty [21]. I had done a few cases in Hemiarthroplasty only [without
using a fracture table] in selective patients which is not ideal and enough to
write this chapter which has a difficult learning curve and specialised
surgical skills with special instruments including a special operation table
for this type of Surgery. Actually Total Hip Surgery can be done as a day case
as seen in my book “Hip Joint in Adults: Advances and Developments” in Chapter
no.18 by Dr Med. Manfred Krieger and Dr Med. Ilan Elias, Wiesbaden, Frankfurt,
Germany in 2018. Ideally this is best done by Dr John O'Donnell, Melbourne
Australia with whom I had several interactions saying that he is extremely
comfortable with the DAA for his Hip Replacements and that he cannot imagine
changing himself for another Surgical Approach that I developed an interest in
the DAA. He has also been instrumental in giving me a forward for a small book
written by me and published in 2018 by Lambert academic publishing, Germany.
1.
Helal
B. Coventry, the Year Book of Orthopaedics. British J Sports Med. 1982;
371-373.
2.
Canale
ST. Campbell’s Operative Orthopedics. Ninth Edition. 1992; 1: 387-466.
3.
Beddow
FH, Tulloch C. Rheumatoid arthritis surgical society-clinical experience with
the Iyer modification of the posterior approach to the hip. J Bone Joint Surg.
1990; 73: 164-165.
4.
Experience
with modified Posterior Approach to the Hip Joint a Technical note: Shaw JAJ
Arthroplasty. 1991; 6: 11-18.
5.
Rosenberg
C, Rubash. The Adult Hip (Lippincott- Raven). 1998; 1: 700-718.
6.
Tronzo
RG. Fractures of the Hip in Adults.
10.
Robert
CH. Personal Communication. 2010.
11.
Sotelo
JS, Gipple J, Berry D, Rowland C, Cofield R. Primary hip arthroplasty through a
limited posterior trochnteric osteotomy. Acta Orthop Belg. 2005; 71: 548-554
12.
The
Hip Joint (2nd Edition). Jenny Stanford Publishing. 2021.
13.
Iyer
KM. Int J Surg Trans Res. 2017; 6: 59-52.
14.
Bio
Core. Int J Surgery Transplantation Res. 2476-2504.
15.
Heutor’s
anterior approach to the hip joint. EC Orthopaedics. 2017; 9: 3-6.
16.
The direct anterior approach to the hip joint. Ortho
Res Online J. 2018.
17.
Mohan IK. Direct anterior approach to the hip joint.
Lambert academic publishing. 2018.
18.
Donnell
JO, Melbourne. Hip joint in adults: Advances and Developments: Direct Anterior
Approach to the Hip Joint.
19.
Hip
Joint in Adults: Advances and Developments: Total hip in a day, setup and early
experiences in outpatient hip surgery by Dr. med. Manfred Krieger and and Dr.
med. Ilan Elias, Wiesbaden, Frankfurt, Germany.
20.
Hip
Preservation Techniques. The anterior approach to the hip for a minimally
invasive prosthesis by Alessandro Geraci, MD, PhD; Alberto Ricciardi, MD
Orthopaedic Department, San Giacomo Apostolo Hospital, Castelfranco Veneto,
Italy.
21.
General
Principles of Orthopaedics and Truama (2nd edition by K.Mohan Iyer & Wasim
Khan), The Direct Anterior approach to the Hip by Hiran Amarasekera.