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BRIEF COMMUNICATION
Year : 2008  |  Volume : 56  |  Issue : 4  |  Page : 331-334

Illuminated curved 25-gauge vitrectomy probe for removal of subsclerotomy vitreous in vitreoretinal surgery


Department of Ophthalmology, University of Florida College of Medicine, Jacksonville, FL 32209, USA

Date of Submission04-May-2007
Date of Acceptance12-Nov-2007
Date of Web Publication19-Jun-2008

Correspondence Address:
Kakarla V Chalam
580 West, 8th Street, Tower 2, 3rd floor
USA
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/0301-4738.41420

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  Abstract 

Incarceration of vitreous in sclerotomy sites during pars plana vitrectomy can lead to wound-related complications similar to vitreous incarceration in cataract surgery. We describe an illuminated curved 25-gauge vitrectomy probe for removing vitreous from sclerotomy sites. Polyester tubing is used to secure a fiber optic endoilluminator (0.5 mm) with the curved 25-gauge vitrector (0.5 mm). The resultant illuminated curved vitrector (20 G) has a diameter of 1.0 mm. It facilitates complete removal of vitreous around the internal sclerotomies under direct visualization in both phakic and pseudophakic eyes. The same was confirmed with ultrasound biomicroscopy of the sclerotomy sites. Curved vitrector reduces postoperative complications related to incarcerated vitreous in phakic and pseudophakic eyes and other sclerotomy-related wound complications.

Keywords: Illuminated 25-gauge vitrectomy probe, pars plana vitrectomy, phakic, sclerotomy site


How to cite this article:
Chalam KV, Shah GY, Agarwal S, Gupta SK. Illuminated curved 25-gauge vitrectomy probe for removal of subsclerotomy vitreous in vitreoretinal surgery. Indian J Ophthalmol 2008;56:331-4

How to cite this URL:
Chalam KV, Shah GY, Agarwal S, Gupta SK. Illuminated curved 25-gauge vitrectomy probe for removal of subsclerotomy vitreous in vitreoretinal surgery. Indian J Ophthalmol [serial online] 2008 [cited 2019 Jul 16];56:331-4. Available from: http://www.ijo.in/text.asp?2008/56/4/331/41420

Pars plana vitrectomy (PPV) can be complicated by development of peripheral retinal tears and subsequent retinal detachment. Following scleral penetration in PPV, vitreous incarceration is seen in all cases histopathologically. Often this is related to high flow rate of infusion fluid and associated increase in intraocular pressure. [1]

Various degrees of fibrous or fibrovascular ingrowth occurs at the sclerotomy site during wound healing. Degree and strength of fibrous ingrowth is a function of size of the sclerotomy, intraocular pressure at the time of sclerotomy closure, depth of incarceration of vitreous within the sclerotomy, age of the patient, hemorrhage in vitreous cavity, vascularization of the sclerotomy, race (blacks predisposed more than whites), and presence of posterior vitreous detachment.

Approximately 7% of vitrectomy cases develop peripheral retinal breaks postoperatively. [2] Vitreous incarceration in the sclerotomy can lead to fibrovascular proliferation and anterior hyaloid proliferation in diabetic patients leading to recurrent vitreous hemorrhage. [3] Complete shaving of the vitreous from the internal sclerotomy site significantly reduces vitreous incarceration. [4] Existing instrumentation does not allow shaving of the vitreous around the internal sclerotomy in phakic patients.

We report a new technique that allows complete removal of incarcerated vitreous from sclerotomy sites in both phakic and pseudophakic eyes with an illuminated curved 25-gauge (25-G) vitrectomy probe through conventional sclerotomy for 20-gauge (20-G) instruments.

Design

The 25-gauge curved vitrectomy probe was a prototype manufactured by Bausch and Lomb (Rochester, NY). The radius of curvature at the shaft is 19.4 mm. The length of the probe is 25 mm with a uniform 25-G diameter (0.5 mm). Construction of the illuminated vitrectomy probe is similar to that described previously with a 20-G vitrectomy probe. [5] A seamless strong polyester (polyethylene terephthalate) heat shrunk tubing (Advanced Polymers, Inc. Salem, NH) is used to secure a fiberoptic endoilluminator with a curved 25-G vitrector ([Figure 1A],[Figure 1B], and [Figure 2A]: Vitrector and EM). [6] The tubing has an internal diameter of 0.05 inches and thickness of 0.0005 inches. The resultant illuminated vitrector has a diameter of 1.0 mm (0.5 mm fiberoptic light source + 0.5 mm 25-G vitrector) [Figure 2B]. The assembly is sterilized with gamma radiation, ethylene oxide or cold gas sterilization.

Technique

Standard surgical technique with microvitreoretinal blade is used to create the sclerotomies. [7] The posterior PPV is completed using a 20-G vitrector. At the end of the procedure the 20-G cutter is replaced with the 25-G illuminated curved vitrector [Figure 3]. The illumination of the probe facilitates visualization of the vitreous on the opposite vitreous base (180 away), while the curved design of the probe avoids crystalline lens touch [Figure 4],[Figure 5]. This allows the surgeon to use the other hand to depress the opposite sclera, which enables viewing of the internal sclerotomy with its surrounding vitreous through the wide-angle lens system [Figure 4]. Position of the endoilluminator tip from the vitrector port can be varied by a gentle sliding maneuver during the surgery to optimize the illumination of the incarcerated vitreous. The vitreous incarcerated in the internal sclerotomy opening is shaved completely under direct visualization. No leakage around the sclerotomy sites was noted with the assembly. Vitreous was removed completely from the sclerotomy sites uneventfully.


  Discussion Top


Excision of the peripheral vitreous in a phakic eye with a clear lens is one of the most challenging tasks in vitreoretinal surgery. With the advent of the wide-angle viewing systems, visualization of the peripheral vitreous base has improved significantly. The potential of iatrogenic trauma to the posterior lens surface by the straight vitrectomy probe restricts access to the peripheral vitreous near the sclerotomy site. [8] A curved instrument allows access to the internal sclerotomy site without damaging the posterior lens surface [Figure 5]. [9] ,[10]

While using the curved or conventional vitrector, the surgeon holds the endoilluminator while the assistant depresses the sclera for view of the anterior vitreous. This makes the surgery assistant-dependent, time-consuming, and limits the dynamic viewing of the vitreous base with the endoilluminator.

The 20-G curved illuminated vitrector addresses the problems of illumination of the peripheral vitreous and safety of the crystalline lens. [11] However, it requires a larger sclerotomy (18-G) than conventionally used, thereby increasing the risk of sclerotomy-related leakage and vitreous incarceration. Due to the smaller diameter of the shaft, the 25-G curved illuminated vitrector allows removal of the vitreous from the internal sclerotomy site through a conventional sclerotomy (20-G) while preserving the safety of the posterior lens surface. Clinical examination as well as ultrasonographic examination confirmed this in both pseudophakic and phakic patients [Figure 6A],[Figure 6B].

An illuminated sleeve (Synergetics, Inc. St. Charles, MO) that wraps around a straight 25-G vitrector provides the benefit of illuminated 25-G vitrector in a pseudophakic eye. However, the illuminated sleeve does not conform to the curved 25-G vitrector and cannot be used in phakic eyes without risk of lens touch.

Effective and complete removal of vitreous from the internal sclerotomy prevents postoperative complications associated with wound healing. Sabti et al. , studied 22 eyes with ultrasound biomicroscopy (UBM) of which 11 underwent PPV with complete shaving of the vitreous from the internal sclerotomy site by indentation with a straight conventional vitrector, while 11 eyes in the control group underwent conventional PPV only. Complete vitreous shaving around the sclerotomy site significantly reduced vitreous incarceration. [4] Removal of vitreous from the internal sclerotomy assumes added importance during implantation of intra-vitreal drug delivery systems where large sclerotomies are necessary to accommodate the size of the implant (2 to 4 mm).

In a prospective study utilizing UBM to study the internal sclerotomy site in diabetic patients undergoing vitrectomy, Bhende et al. , noted that eyes with postoperative vitreous incarceration developed fibrovascular proliferation six months after surgery. [3]

This is a known high-risk factor for recurrent vitreous hemorrhage after PPV in diabetics.

We have successfully employed this instrument in 100 complicated vitreoretinal procedures, of which 41 were phakic eyes. No lens-related complications occurred, though novice surgeons may experience a learning curve with the new device. In summary, the 25-G curved illuminated cutter combines the advantage of a self-illuminated vitrectomy probe and custom curved design that avoids crystalline lens touch. In addition, its usage through a standard 20-G sclerotomy in facilitating complete removal of vitreous from the internal sclerotomy prevents sclerotomy-related complications.

 
  References Top

1.
Peyman GA, Alturki WA, Nelson NC Jr. Surgical management of incarcerated retina in the sclerotomy. Ophthalmic Surg 1992;23:628-9.  Back to cited text no. 1
[PUBMED]    
2.
Territo C, Gieser JP, Wilson CA, Anand R. Influence of the cannulated vitrectomy system on the occurrence of iatrogenic sclerotomy retinal tears. Retina 1997;17:430-3.  Back to cited text no. 2
[PUBMED]  [FULLTEXT]  
3.
Bhende M, Agraharam SG, Gopal L, Sumasri K, Sukumar B, George J, et al. Ultrasound biomicroscopy of sclerotomy sites after pars plana vitrectomy for diabetic vitreous hemorrhage. Ophthalmology 2000;107:1729-36.  Back to cited text no. 3
[PUBMED]  [FULLTEXT]  
4.
Sabti K, Kapusta M, Mansour M, Overbury O, Chow D. Ultrasound biomicroscopy of sclerotomy sites: The effect of vitreous shaving around sclerotomy sites during pars plana vitrectomy. Retina 2001;21:464-8.  Back to cited text no. 4
[PUBMED]  [FULLTEXT]  
5.
Fisher YL, Gross NE, Wang C. Inexpensive illuminated vitrectomy cutter. Retina 2003;23:891.  Back to cited text no. 5
[PUBMED]  [FULLTEXT]  
6.
Advanced Polymers, Inc. website. [cited on 2005 May]. Available from: http://www.advpoly.com/NewsData/PressRelease101102.asp.  Back to cited text no. 6
    
7.
Charles S. Principles and techniques of vitreoretinal surgery. In : Ryan SJ, editor. Retina. Vol. 3. St Louis: CV Mosby; 2006. p. 2150-3.  Back to cited text no. 7
    
8.
Chalam KV, Shah VA, Gupta SK, Tripathi RC. Evaluation and comparison of lens and peripheral retinal relationships with the use of endolaser probe and newly designed curved vitrectomy probe. Retina 2003;23:815-9.  Back to cited text no. 8
[PUBMED]  [FULLTEXT]  
9.
Gross JG, Freeman WR. The 30-degree curved endolaser probe. Ann Ophthalmol 1990;22:382-4.  Back to cited text no. 9
[PUBMED]    
10.
Chalam KV, Shah VA, Tripathi RC. A curved vitrectomy probe. Ophthalmic Surg Lasers Imaging 2004;35:259-60.  Back to cited text no. 10
[PUBMED]    
11.
Chalam KV, Gupta SK, Agarwal S. Illuminated curved vitrectomy probe for vitreoretinal surgery. Ophthalmic Surg Lasers Imaging 2007;38:525-6.  Back to cited text no. 11
[PUBMED]    


    Figures

  [Figure 1A], [Figure 1B], [Figure 2A], [Figure 2B], [Figure 3], [Figure 4], [Figure 5], [Figure 6A], [Figure 6B]



 

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