DEFINITION

 

 

Hip arthroscopy is a minimally invasive technique to address a variety of painful hip conditions in the athletic and prearthritic population.

 

 

A surge in technologic development since the mid-1990s has allowed surgeons to effectively and reliably treat a variety of painful hip conditions arthroscopically.

 

 

The outcomes of hip arthroscopic techniques are equivocal to traditional, more invasive open techniques.2

 

 

There is a tremendous learning curve when compared to knee and shoulder arthroscopy.

 

ANATOMY

 

 

The hip is a constrained ball-and-socket joint, with the femoral head (ball) articulating with the acetabulum (socket) of the pelvis (FIG 1).

 

 

 

 

 

The labrum is a pad of fibrocartilage attached to the acetabulum that deepens the acetabulum and provides stability to the hip as well as a “suction-seal” effect around the femoral head, providing a secure environment for the articular cartilage and synovial fluid6 (FIG 2).

 

 

 

 

 

The alignment and shape of the hip is critical when determining the etiology of hip pain and thus proper treatment.

 

 

Femoroacetabular impingement (FAI) refers to a bony over-constraint of the joint either from the femur (cam) or acetabulum (pincer) or both (combined)11 (FIGS 3 and 4)

 

 

 

 

 

 

 

 

Dysplasia refers to a shallow acetabulum, undercoverage of the femoral head, or both12 (FIG 5).

 

 

 

 

PATHOGENESIS

 

 

 

 

Hip and groin pain in athletic and prearthritic population has a wide variety of etiologies: Labral tear

 

 

FAI

 

 

 

 

Loose bodies Osteoarthritis

 

 

Core muscle injury (also known as sports hernia)

 

 

 

 

Labral tear is the most common cause of hip pain and dysfunction in this population. Labral tears are usually secondary to FAI or dysplasia or both.

 

 

If left unchecked, FAI may lead to early development of degenerative joint disease.7

NATURAL HISTORY

 

 

Labral tear

 

 

If left untreated, labral tears can lead to continued pain and dysfunction as well as damage to the adjacent articular cartilage.

 

 

FAI

 

 

If left untreated, many believe that FAI is a precursor to arthritis.

 

 

If treated at the appropriate time before irreversible articular cartilage damage occurs, the hip may be preserved.

 

 

Loose bodies

 

 

If left untreated, loose bodies will lead to articular cartilage damage and continued pain and dysfunction.9

 

 

Snapping hip

 

 

In general, snapping hip will cause no damage to the hip joint proper; but if left untreated, it can lead to continued pain and dysfunction.

 

 

Internal snapping hip can impinge on the anterior labrum, leading to tears in this area.

 

PATIENT HISTORY AND PHYSICAL FINDINGS

 

 

A thorough and focused physical examination is essential.

 

 

Observe gait, manual motor testing, palpation of bony prominences and tendons, range of motion (ROM), and provocative maneuvers for reproducing pain and symptoms.

 

 

Perform the examination on the asymptomatic hip first to assess the ROM and stability of the normal hip when possible.

IMAGING AND OTHER DIAGNOSTIC STUDIES

 

 

Weight-bearing x-rays (anteroposterior [AP] pelvis, frog lateral, false profile, and Dunn 45-degree views)10

 

 

High resolution magnetic resonance imaging (MRI). Direct MRI arthrogram allows injection of

lidocaine to determine if pain is generated from hip.

 

 

Computed tomography (CT) scan allows the best detailed determination of FAI and alignment (dysplasia or version) and allows for detailed preoperative planning for decompression of FAI.10

DIFFERENTIAL DIAGNOSIS

 

 

 

 

Labral tear FAI

 

 

 

 

 

 

Loose bodies Synovitis Snapping hip

 

 

 

 

Articular cartilage disease Arthritis

NONOPERATIVE MANAGEMENT

 

 

Nonoperative management is always the first step in the treatment of painful hip conditions in the athletic and prearthritic population.

 

 

Activity modification; physical therapy aimed at restoring strength, motion, and balance; and nonsteroidal anti-inflammatory drugs or other medications are the mainstays of nonoperative treatment.11

 

 

The success of treatment depends on the etiology of the hip pain and the patient’s activity level (college or professional athlete or “weekend warrior”) and age.

SURGICAL MANAGEMENT

 

 

 

 

The vast majority of patients treated with hip arthroscopy have a combination of labral tear and FAI. The goal of surgical treatment is to repair the labrum, treat any articular cartilage injury, and restore the normal biomechanics of the hip joint (ie, decompressing the FAI).

Preoperative Planning

 

 

Weight-bearing x-rays (AP pelvis, frog lateral, false profile, and Dunn 45-degree views)

 

 

Be sure to determine that the pain generates from the hip joint and is not referred (lumbar spine or sacroiliac joint) or from muscular pathology (core muscle injury or sports hernia).

 

 

Be wary of other pathology such as dysplasia, connective tissue disorders, or myofascial pain syndrome.

 

 

Make sure all appropriate equipment and personnel (eg, radiology technician) are available.

 

Positioning

 

 

Distraction is required for hip arthroscopy as well as fluoroscopic visualization of the joint in all planes.

 

 

Place the patient in the supine or lateral position on either a fracture table or commercially available distraction table to allow appropriate distraction of the hip (FIG 6).

 

 

 

 

 

A well-padded perineal post, preferably with a lateralized post, should be used to allow distraction in the plane of the femoral neck.

Approach

 

 

 

 

 

 

 

 

Standard portals (FIG 7) Anterolateral Anterior Midanterior

 

 

Posterolateral

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Accessory portals Modified anterior Proximal midanterior Distal lateral portal Proximal lateral portal

 

 

 

Positioning

 

 

 

 

Allow free access around the hip with fluoroscopic access as well (see FIG 6). Use fluoroscopy to confirm appropriate distraction (TECH FIG 1).

 

 

 

 

 

If appropriate distraction cannot be easily obtained, place a needle in the hip under sterile conditions to release the negative intra-articular pressure of the joint and allow distraction.3

 

 

Portals

 

 

Anterolateral (see FIG 7)

 

 

Initial portal established under fluoroscopic guidance

 

 

Start needle 1 to 2 cm proximal and 1 to 2 cm anterior to the tip of greater trochanter at a sufficient angle to enter the hip joint without damaging the cartilage.3,5

• Removing the obturator from the needle releases the negative intra-articular pressure of

  the joint and allows increased distraction with the same amount of traction.

• Some surgeons inject the hip with 20 to 40 mL of sterile saline prior to placing the guidewire through the needle.

   

   

   

   

  After placing needle in hip, flexible guidewire is placed for creation of the portal. Place cannula with gentle steady pressure and be careful not to bend or break the pin.

   

   

• Use fluoroscopy as you are creating this portal. Anterior

   

   

  Consists of the intersection of sagittal line from anterior superior iliac spine distal and line from tip of greater trochanter3,5

   

   

  Placed after triangulation when viewing from the anterolateral portal

   

   

   

   

  Most use a modified anterior portal, which is 2 cm more lateral than a standard anterior portal. After establishing the anterior portal and performing appropriate capsulotomies (see next step),

  view initial anterolateral portal from anterior portal and complete capsulotomy.

   

   

  Capsulotomies

   

   

  After entering the joint, perform capsulotomy with a banana blade or beaver blade under arthroscopic visualization (TECH FIG 2; Video 1).

   

   

   

   

   

  Capsulotomies are required to allow sufficient movement of instruments in the hip.

   

   

  Horizontal capsulotomy connecting the anterolateral and midanterior or modified anterior portal is generally required.

• Try to keep a proximal flap of cartilage in case you want to close the horizontal capsulotomy at the end of the case.

   

   

  “T capsulotomy” can be used for access to peripheral compartment for large cam lesions.

   

   

• Must be repaired at the end of the case. Midanterior

   

   

   

   

  Approximately 45-degree angle between anterolateral and anterior portals and starting distal1,3 Used for anchor placement or for access to peripheral compartment

   

   

   

   

  Used for T capsulotomy when performed Accessory

   

   

  See description of portal creation discussed earlier.

   

   

  The steps are same for establishment of accessory portals.

   

   

   

  Diagnostic Arthroscopy

   

   

  Perform a complete diagnostic arthroscopy of the hip in the same order as a routine arthroscopy (the order of structures inspected does not matter, but it is important to be consistent in your method).

   

   

  Perform diagnostic arthroscopy of the central compartment and complete repairs before removing traction and going on to the peripheral compartment.

   

   

  Inspect all structures in the central compartment with traction and peripheral compartment after traction released (list is not complete or comprehensive):

   

   

  Central compartment (TECH FIG 3A)

• Labrum, articular cartilage acetabulum, ligamentum teres, articular cartilage femoral head, and loose bodies

   

   

   

   

   

   

   

   

  Peripheral compartment (TECH FIG 3B)

• Medial synovial fold, medial head-neck, middle head-neck, lateral head-neck, labrum, lateral synovial fold, lateral gutter, and medial gutter

   

   

   

   

  Other areas are listed below but not covered in detail in this : Peritrochanteric space

   

   

  Subgluteal space

   

   

  Iliopsoas tendon

   

   

   

  Labral Repair or Débridement (Video 2)

   

   

  We prefer to repair the labrum to reestablish the suction-seal effect (TECH FIG 4A).

   

   

   

   

   

  If débridement is required, use a combination of shaver and radiofrequency device to remove pathologic tissue while preserving as much healthy and stable tissue as possible.

   

   

   

   

  Remove loose bodies, chondroplasty, and microfracture as indicated. Repair

   

   

  Suture anchors or knotless device (according to surgeon preference)

   

   

  The goal is to repair labrum to the edge of the articular margin of the acetabulum to restore the anatomy and the suction-seal effect of the labrum (TECH FIG 4A).

   

   

  Vertical mattress or base stitch should be used when possible (tissue quality and size) because it gives the best restoration of the labral anatomy8 (TECH FIG 4B).

   

   

  Elevate and mobilize labrum off acetabulum and try to preserve the labrocartilaginous junction.

   

   

  Perform acetabuloplasty/rim trimming when indicated or decorticate acetabular rim to provide a healing surface for labral repair.8

   

   

  Place anchors through the midanterior portal at a 30- to 45-degree angle relative to the edge of the

  acetabulum (TECH FIG 4C).

   

   

  Place anchors from anterior (medial) to anterolateral while viewing from anterolateral portal.

   

   

  Pass a single arm of suture under labrum at labro-cartilagenous junction and retrieve the same suture through the labrum to create a vertical mattress stitch.

   

   

• You may do a single pass around labrum in a “wrap around” fashion as well. Pass-retrieve-tie, move to next anchor, and repeat.

 

 

Keep knots off articular surface (TECH FIG 4B; Video 3).

 

 

 

Acetabuloplasty/Rim Trimming

 

 

 

 

Typically done as noted earlier during labral repair while under traction May also perform acetabuloplasty without labral detachment or repair

 

 

 

 

Follow preoperative plan regarding location and amount of acetabulum to trim. Round burr (side cutting) or flat-top burr (end and side cutting) (TECH FIG 5)

 

 

Use combination of arthroscopic elevators, rasps, shaver, and a radiofrequency device to clear acetabular rim of periosteal coverage.

 

 

Use fluoroscopy to help guide resection (it is critical to obtain true AP of hip to allow appropriate resection).

 

 

 

 

 

 

 

Can take down to edge of articular cartilage damage in small defects Preserve the labrum while performing acetabuloplasty.

 

 

Exercise caution with resection to prevent overresection and subsequent iatrogenic instability.

 

 

 

Femoroplasty

 

 

Careful preoperative planning for location and amount of femoral resection for femoroplasty (Video 4)

 

 

Allows access to peripheral compartment after completion of work in the central compartment and removal of traction

 

 

Initially assess peripheral compartment through the capsulotomies.

 

 

Flex hip to approximately 45 degrees and slight abduction to relax the capsule and allow access to peripheral compartment and head–neck junction.4

 

 

Can access further lateral with internal rotation of the leg

 

 

Begin with assessment and localizing the cam lesion and confirming access arthroscopically (TECH FIG 6A).

 

 

 

 

 

Begin resection proximally with round burr slightly into the articular margin (usually in line with physeal scar but not always) (TECH FIG 6B).

 

 

Work from anterior to anterolateral to lateral and proximal to distal, setting a proximal template and contouring distally in a gentle progression to the femoral neck.4

 

 

Switch between anterolateral, midanterior, and anterior portals for viewing and working,

depending on the area to be resected.

 

 

Perform a dynamic examination at the end of femoroplasty, putting the hip in the impingement position to confirm resolution of the bony conflict.

 

 

 

 

May need to perform a T capsulotomy to access large lesions or distal and lateral Close the “T” with side-to-side sutures at end of femoroplasty (Video 5).

 

 

Loose Bodies

 

 

Loose bodies that form in the hip can be located in the central and peripheral compartments.

 

 

Removal of all loose bodies from central compartment typically requires use of the posterolateral portal.9

 

 

Thorough examination of peripheral compartment is needed to remove all loose bodies.

 

 

 

Microfracture

 

 

Typically used for acetabular cartilaginous defects

 

 

Use curettes and a shaver to stabilize the edges of cartilage and remove calcified layers of cartilage in area of microfracture.

 

 

Various angle picks are available.

 

 

However, you must be careful with the angle to avoid cutting off the acetabulum.

 

 

 

Iliopsoas Snapping (Internal Coxa Saltans)

 

 

The iliopsoas tendon may snap or pop over the femoral head or iliopectineal line, causing pain.

 

 

Tendon release can be done transcapsular at the level of the joint in the central compartment or extracapsular at the lesser trochanter.

 

 

A radiofrequency device or beaver blade is used for release.

 

 

PEARLS AND PITFALLS

 

Confirm appropriate joint distraction prior to prep and drape and then release; replace traction after prep and drape. This will allow you to minimize traction time.

After placing initial needle into hip for anterolateral portal, remove under fluoroscopy and replace to ensure that it does not penetrate the labrum.

Use fluoroscopy judiciously as needed, especially early in the learning curve, until you are comfortable with portal and instrument placement.

When placing anchors, get close to the edge of acetabulum without penetrating subchondral bone to prevent medialization of the labrum.

Keep angle of drill guide at 30–45 degrees, relative to the acetabulum.

After completion of work in the central compartment, remove traction and check status of labral repair viewing through the capsulotomy.

 

 

 

 

View the peripheral compartment through the capsulotomy after flexion and slight abduction of the hip and confirm full access to cam lesion for femoroplasty.

 

 

If it is difficult to access the full cam lesion, then perform a T capsulotomy through the midanterior portal. This must be repaired with side-to-side stitches at the end of the procedure.

 

 

 

 

Put hip through dynamic examination while viewing arthroscopically via anterolateral and anterior portals at the end of femoroplasty to confirm resection of the cam and resolution of the bony conflict.

 

Expose rim fully to allow appropriate anchor placement on edge of rim.

Place all anchors through the midanterior portal and then pass sutures in vertical mattress fashion through labrum.

 

POSTOPERATIVE CARE

 

 

Outpatient procedure and discharge with crutches and a hip brace

 

 

 

 

Continuous passive motion is to be performed at home during the first week to 10 days. For labral débridement with or without FAI, crutches for 1 to 2 weeks.

 

 

 

 

For labral repair, crutches and protected weight bearing for 2 to 4 weeks. Begin physical therapy 1 week after surgery.

 

 

Advance to formal physical therapy and home programs throughout the recovery period.

 

OUTCOMES

 

 

Multiple studies have reported good to excellent outcomes for hip arthroscopy used to treat FAI.

 

 

A systematic review showed that 10 of 12 studies reported good to excellent outcomes in 75% or more of patients treated with hip arthroscopy.

 

 

One of the keys to successful outcome is the stage of arthritis at the index surgery.

 

COMPLICATIONS

 

 

 

 

Complication rates reported in the literature are low. Iatrogenic

 

 

Cartilage damage from cannulas or instrumentation

 

 

Damage from misplacement of anchors

 

 

 

 

Iatrogenic instability (overresection of acetabulum or capsular insufficiency or both) Neurologic

 

 

 

 

Positioning: perineal numbness/pudendal nerve Traction: sciatic nerve

 

 

 

 

Portals: lateral femoral cutaneous nerve Regional pain syndrome

 

 

Procedure

 

 

 

 

Iatrogenic injury Failure of fixation

 

 

 

 

Medialization of labrum with repair Postoperative

 

 

Deep vein thrombosis/blood clot

 

 

 

 

Fracture: overzealous resection of femoral neck for cam Other

 

 

 

 

Avascular necrosis Stiffness

REFERENCES

1. Alwattar BJ, Bharam S. Hip arthroscopy portals. Op Tech Sports Med 2011:19(2):74–80.

2. Botser IB, Smith TW, Naser R, et al. Open surgical dislocation vs. arthroscopy for femoroacetabular impingement: a comparison of clinical outcomes. Arthroscopy 2011;27:270–278.

3. Byrd JW. Hip arthroscopy: applications and technique. J Am Acad Orthop Surg 2006:14(7):433–444.

4. Byrd JW, Jones KS. Arthroscopic femoroplasty in the management of cam-type femoroacetabular impingement. Clin Ortho Relat Res 2009;3:739–746.

5. Byrd JW, Pappas JN, Pedley MJ. Hip arthroscopy: an anatomic study of portal placement and relationship to the extra-articular structures. Arthroscopy 1995;12:603–612.

6. Fergunson SJ, Bryant JT, Ganz R, et al. The acetabular labrum seal: a poroelastic finite element model. Clin Biomech 2000;15:463–468.

7. Ito K, Leunig M, Keller I, et al. Impingement-induced damage of the acetabular labrum: a possible initiator of hip arthrosis. Eighth Annual Meeting, European Orthopaedic Research Society, 1998:55.

8. Kelly BT, Weiland DE, Schenker ML, et al. Arthroscopic labral repair in the hip: Surgical technique and review of the literature. Arthroscopy 2005;21:1496–1504.

9. Krebs VE. The role of hip arthroscopy in the treatment of synovial disorders and loose bodies. Clin Ortho Relat Res 2003;406:48–59.

10. Nepple JJ, Prather H, Trousdale RT, et al. Diagnostic imaging of femoroacetabular impingement. J Am Acad Orthop Surg 2013;21:S16–S19.

11. Parvizi J, Leunig M, Ganz R. Femoroacetabular impingement. J Am Acad Orthop Surg 2007;15:561–570.

12. Sanchez-Sotolo J, Trousdale RT, Berry DJ, et al. Surgical treatment of developmental dysplasia of the hip in adults: I. Nonarthroplasty options. J Am Acad Orthop Surg 2002;10:321–333.