**3. VR cases for further practical learning points**

#### **Case 1: Macula-off retinal detachment (RD) with multiple holes in 3–4 quadrants in a phakic patient, with posterior vitreous detachment (PVD) positive**

In this first case of RD, we take the reader through the steps in RD repair (although there may be slight variations among different surgeons). Subsequent points will just highlight learning points for that particular case, with the assumption that the reader would have been familiar with the surgical steps in VR surgery, as discussed in the introduction section.

1. Three port pars plana vitrectomy (PPV)

2. Core vitrectomy followed by the induction of PVD if not present. Otherwise, continue with core vitrectomy followed by peripheral vitreous shave.

3. Do not cross midline to avoid lenticular touch in phakic eyes.

4. Careful vitrectomy is done near to the retinal break with minimal vacuum and vitrector cut rate to relieve traction while minimising iatrogenic breaks or widening the existing break. This can be done by increasing the cut rate and reducing the aspiration rate when vitrectomising near the break.

5. After the vitrectomy is performed, assess if the retinal break causing the RD is vital. By touching the retina break area, the surgeon can then assess for vitreous traction.

6. Steps 5 and 6 can be repeated until all traction is relieved.

7. Then indent the sclera (e.g., by using a squint hook) to check for other breaks all round, after the irrigation pressure is reduced (e.g., 10 mmHg).

8. Cryotherapy of the break/s can be done in either saline (as long as detached retina layer can be indented by the cryoprobe to be in opposition with the choroid layer) or air (with or without diathermy marking). Diathermy around the area of break/s especially small breaks will make it easier for the surgeon to identify break/s for cryoretinopexy. Care needs to be taken so that the area of lesion will not be over treated with cryotherapy. This can lead to thinning of sclera, sclera necrosis, and scleritis. In our practice, a definite whitening of the area being cryoed is considered as adequate cryoreaction.

9. Backflush (flute) is used to drain subretinal fluid (SRF) from near the break in an accessible area. The flute cannula should be placed in a position hovering above the break so that the SRF can be drained, and at the same time not catching on the retina, being a passive aspiration instrument.

methodical manner to capture the bulk of vitreous body before it is pulled tangentially away to the midperiphery of the retina, avoiding the macula and major arcades. Once reaching midperiphery, then the surgeon can switch to cut to release the tip of the vitrector from vitreous. The process is repeated until a definite PVD is obtained. Once PVD is induced, then

Now that we have reviewed the basic steps of vitrectomy, we are now going to discuss more techniques and methods tried and tested for a more effective and safer VR surgery through a

**Case 1: Macula-off retinal detachment (RD) with multiple holes in 3–4 quadrants in a phakic**

In this first case of RD, we take the reader through the steps in RD repair (although there may be slight variations among different surgeons). Subsequent points will just highlight learning points for that particular case, with the assumption that the reader would have been familiar

2. Core vitrectomy followed by the induction of PVD if not present. Otherwise, continue with

4. Careful vitrectomy is done near to the retinal break with minimal vacuum and vitrector cut rate to relieve traction while minimising iatrogenic breaks or widening the existing break. This can be done by increasing the cut rate and reducing the aspiration rate when vitrectomising

5. After the vitrectomy is performed, assess if the retinal break causing the RD is vital. By

7. Then indent the sclera (e.g., by using a squint hook) to check for other breaks all round, after

8. Cryotherapy of the break/s can be done in either saline (as long as detached retina layer can be indented by the cryoprobe to be in opposition with the choroid layer) or air (with or without diathermy marking). Diathermy around the area of break/s especially small breaks will make it easier for the surgeon to identify break/s for cryoretinopexy. Care needs to be taken so that the area of lesion will not be over treated with cryotherapy. This can lead to thinning of sclera, sclera necrosis, and scleritis. In our practice, a definite whitening of the area being cryoed is

touching the retina break area, the surgeon can then assess for vitreous traction.

with the surgical steps in VR surgery, as discussed in the introduction section.

the surgeon can continue with the peripheral shave as described above.

**3. VR cases for further practical learning points**

**patient, with posterior vitreous detachment (PVD) positive**

1. Three port pars plana vitrectomy (PPV)

near the break.

core vitrectomy followed by peripheral vitreous shave.

3. Do not cross midline to avoid lenticular touch in phakic eyes.

6. Steps 5 and 6 can be repeated until all traction is relieved.

the irrigation pressure is reduced (e.g., 10 mmHg).

considered as adequate cryoreaction.

case based discussion format.

142 Advances in Eye Surgery

10. Heavy liquid (HL) (e.g., perfluorodecalin) is used to flatten retina. The advantages of this are multifold. First, it helps stabilise the retina for better vitreous shave. Second, it can be used indirectly to ascertain if the retina can be fully flatten, failure of which may suggest proliferative vitreoretinopathy (PVR), which then guide the surgeon with on the table surgical decision making. It can also serve as an indirect method to assess if the PVR membrane peel is adequate, as an inadequate membrane peel may still result in an unflattened retina under HL. Third, in rare cases, it can also be used as a temporising measure of retinal tamponade in complex VR cases requiring multiple VR surgery to complete the process.

11. In view of multiple breaks involving many quadrants, 360° very peripheral endolaser (with segmentation to prophylactically contain any imminent RD) is a sensible approach to reduce risk of a second operation for redetachment.

12. Then HL is aspirated through fluid–air exchange (FAX) at 40–60 mmHg initially (the higher the pressure, the faster it will drain). As the HL bubble gets smaller, the infusion pressure (of air) is reduced (to around 20 mmHg) to facilitate smoother HL bubble removal with the flute. The reason here is because as the bubble of HL gets smaller, the higher pressure will press on it and make the bubble flatter, and this will make removal of HL with the flute more chal‐ lenging. The lesser pressure will result in a more spherical bubble of HL for easier removal with the flute. The usual pressure for air infusion is accepted at 20–30 mmHg, in preparation for air–gas exchange.

13. For this case, C3F8 14% gas was used for longer lasting tamponade. It is important to bear in mind the major gases used in VR surgery, including their vital characteristics. The table below will give some useful gas characteristics:


**Table 1.** Adapted from www.arcadophta.com/prod-gases\_EN.html [9].

14. The intraocular pressure (IOP) should be checked as it is desirable to leave the high with a reasonable IOP (e.g., 20–25 mmHg).

15. The three-port sclerostomy sites are closed with 8 'O' vicryl sutures. The first two port sclerotomies are closed up with the 8 'O' vicryl suture first.

16. The third port (with the infusion line) is used to inject in the C3F8 14% gas. A 27G needle is used to release the air as C3F8 gas is being injected into the globe. It is important to contin‐ uously assess the IOP of the eye as the gas is being injected, to avoid an over-inflated eye.

17. Here, it is important to check the gas concentration and composition with the scrub nurse. Furthermore, as the retinal gas used is of a heavy molecule compared to air, it behaves like an 'invisible liquid', and as such, when connecting the gas containing syringe to the infusion cannula (through the three-way tap), it has to be done with the syringe orifice faced up. If the syringe orifice is tilted downwards as it is connected with the infusion cannula, this may result in some lost of the gas, making the gas diluted and rendering it less effective for the job it is intended to do in the globe.

18. Further gas top up intravitreally may be required after closing all three sclerostomy sites.

19. In our opinion, we prefer all three sclerostomy sites to be firmly secured with the sutures discussed above, to minimise any gas leak, which may make the surgical result less optimum.

20. Subconjunctival cefuroxime is our preferred choice of immediate post-operative antibiotics.

Further learning points:

1. Both C3F8 and silicone oil are shown to reduce rate of PVR.

2. It is important to note that retina must always be left flat after RD repair vitrectomy surgery in inferior break RD (as inferior detachment is a risk factor for redetachment and PVR), PVR, giant retinal tears (GRTs), and silicone oil cases.

3. Trocars nearer to 3 and 9 o'clock position will enable the surgeon to can get better access to 6 o'clock position especially in a big eye.

#### **Case 2: Macula-on slowly progressing inferior RD with two small inferior retinal holes in the absence of PVD**

This case was treated with indirect cryotherapy and sclera buckle.

1. Good clinical examination and drawing of the exact RD map utilising retinal vessel land‐ marks is necessary for a successful sclera buckle, which is preferably done under general anaesthesia (GA).

2. A 270° peritomy was performed, and the medial rectus (MR), lateral rectus (LR), and inferior rectus (IR) muscles were exposed and slung. The slinging of the recti muscles can be done by using 4 'O' silk. This is important for the manoeuvring of the globe in various positions to facilitate the indirect cryotherapy (cryo) and sclera buckling.

3. Although the RD may have been meticulously mapped out at the planning stage of the sclera buckle, it is always prudent to check for other breaks on the operating table, using the indirect ophthalmoscopy.

4. Indentation is then performed to see if the detached retina can be opposed on pressure for cryoreaction. If this is possible, then there is no need to drain the SRF using external approach. If this is not possible, then draining of the SRF may be considered. Cryo will inadvertently soften the eye.

5. It has been reported that retinal pigment epithelium (RPE) can still work in chronic detached retina.

6. A 5 'O' Ethibond-spatulated needle was used as anchor sutures for the buckle.

15. The three-port sclerostomy sites are closed with 8 'O' vicryl sutures. The first two port

16. The third port (with the infusion line) is used to inject in the C3F8 14% gas. A 27G needle is used to release the air as C3F8 gas is being injected into the globe. It is important to contin‐ uously assess the IOP of the eye as the gas is being injected, to avoid an over-inflated eye.

17. Here, it is important to check the gas concentration and composition with the scrub nurse. Furthermore, as the retinal gas used is of a heavy molecule compared to air, it behaves like an 'invisible liquid', and as such, when connecting the gas containing syringe to the infusion cannula (through the three-way tap), it has to be done with the syringe orifice faced up. If the syringe orifice is tilted downwards as it is connected with the infusion cannula, this may result in some lost of the gas, making the gas diluted and rendering it less effective for the job it is

18. Further gas top up intravitreally may be required after closing all three sclerostomy sites.

19. In our opinion, we prefer all three sclerostomy sites to be firmly secured with the sutures discussed above, to minimise any gas leak, which may make the surgical result less optimum.

20. Subconjunctival cefuroxime is our preferred choice of immediate post-operative antibiotics.

2. It is important to note that retina must always be left flat after RD repair vitrectomy surgery in inferior break RD (as inferior detachment is a risk factor for redetachment and PVR), PVR,

3. Trocars nearer to 3 and 9 o'clock position will enable the surgeon to can get better access to

**Case 2: Macula-on slowly progressing inferior RD with two small inferior retinal holes in**

1. Good clinical examination and drawing of the exact RD map utilising retinal vessel land‐ marks is necessary for a successful sclera buckle, which is preferably done under general

2. A 270° peritomy was performed, and the medial rectus (MR), lateral rectus (LR), and inferior rectus (IR) muscles were exposed and slung. The slinging of the recti muscles can be done by using 4 'O' silk. This is important for the manoeuvring of the globe in various positions to

3. Although the RD may have been meticulously mapped out at the planning stage of the sclera buckle, it is always prudent to check for other breaks on the operating table, using the indirect

sclerotomies are closed up with the 8 'O' vicryl suture first.

1. Both C3F8 and silicone oil are shown to reduce rate of PVR.

This case was treated with indirect cryotherapy and sclera buckle.

facilitate the indirect cryotherapy (cryo) and sclera buckling.

giant retinal tears (GRTs), and silicone oil cases.

6 o'clock position especially in a big eye.

intended to do in the globe.

144 Advances in Eye Surgery

Further learning points:

**the absence of PVD**

anaesthesia (GA).

ophthalmoscopy.

7. Buckle 277 is a broad buckle commonly used. It is 7 mm wide. Sutures are placed to anchor the buckle and are preplaced 9 mm wide allowing for tightening later and securing of the buckle.

8. It is important to check central retina artery (CRA) perfusion after the buckle has been secured. If the CRA is pulsating significantly, then paracentesis of the anterior chamber (AC) should be considered to lower the IOP.

#### **Case 3: Superotemporal macula-off RD with superotemporal (S-T) breaks in the presence of PVD**

1. This case was managed by three-port pars plana vitrecomy; the basic steps and considera‐ tions were discussed as above.

2. One of the aims of vitrectomy here is to release the tension of vitreous traction on the retina tear, especially the anterior lips of the retinal break. The approach to this is to do vitrectomy from the periphery moving slowly towards the anterior lips of the break, clearing the vitreous and thereby releasing the traction, from one end to the other end of the anterior lips of the break. The vitrector probe (once made inactive) can also be used to access if the break is cleared of all vitreous traction by touching on the borders of the break. If it is freely mobile without resistance, this suggests that there is no traction.

3. The vitrector can also be used to drain SRF through the retinal break as the vitrectomy surgery progresses.

4. After performing step 2, the retina may be flattened at this stage with HL.

5. HL (e.g., perfluorodecalin) can be used to fill up to the posterior aspect of the break to flatten and splint the retina for easier vitrectomy work near the retina and to achieve a thinner, more complete shave.

6. A 360° indentation is then performed to check for other breaks.

7. Then cryo of all the breaks are then done under saline (or under air which is the other option). Some surgeons prefer to use endodiathermy to highlight/mark the area of breaks for conven‐ ient identification for cryo.

8. FAX is then performed, with the backflush being held just above the break to drain the SRF so that the retina will flatten as the FAX is completed.

9. Removal of heavy liquid using the backflush or vitrector is then performed.

10. If there is a water tide/mark crease on the macula, this needs to be flattened or ironed out to avoid metamorphopsia. One option is to reintroduce heavy liquid from one side to the other to iron the retina flat, if this was discovered after FAX. The second option is for longer acting gas (e.g., C3F8 14%) and do face down posture for a day.

11. The pitfall here is to be able to distinguish pseudowater tide/mark crease from true crease. A water tide/mark could be actually the junction between oedematous detached retina, which had just been reattached and healthy retina (pseudocrease), and not a real crease as such. Therefore, this sign needs to be assessed carefully to decide if it is a true crease.

12. Gas injection and close up is standard procedure as described in Case 1.

Further learning points:

1. In cases where the RD is not bullous (i.e., shallow), HL may not be required, as macula folds is less likely, and any residual SRF can be absorbed by the RPE. Face down posture with gasfilled eye may be beneficial in such cases.

2. It can take 20 minutes for crystalline lens to get cloudy (depending on the degree of cataract present prior to surgery) with FAX air in vitreous cavity.

3. Longer acting gas means less PVR rate especially in Inferior RD cases.

#### **Case 4: A 5-day history of inferior RD macula-off with a horse shoe tear of moderate size at 7 o'clock position with PVD present**

1. This case required vitrectomy (basic steps and considerations as discussed previously).

2. In inferior RD, inferior vitreous needs to be very closely shaved to minimise tangential and sideway traction, which can lead to future redetachment and PVR.

3. With a horse shoe tear (anterior) flap, it is best to retinectomise the flap to make easier access of the break during SRF drainage by backflush. Furthermore, it may serve as a more effective and convenient way to relieve traction (since the flap can be considered as the anterior lip which is subjected to vitreous traction which caused the tear in the first place).

4. The break on this occasion is quite near the ora serrata. If backflush is blocked, then try to squeeze on the nozzle to try release any blockages. Reasons for a blocked backflush include thick vitreous catching on the probe (requiring further shaving) and the probe catching on the edge of the break when draining the SRF (requiring the probe to be placed higher and aim central to the break).

5. When draining SRF with backflush during FAX, the probe needs to be very steadily placed centrally in relation to the break as visualisation of the fundus is poor. If not observed, this may lead to an ineffective FAX, resulting in persistent SRF with the break still open.

6. Occasionally, it may not be possible to flatten retina due to extensive bullous RD. Then options include the following:

a. Use long-acting C3F8 14% gas with utilising the steam roller technique of posturing to milk out the SRF. An example is that if in the left eye, after RD repair, before closing up, there were still some SRF temporal to the macula, with a break temporal (2 o'clock position), the steam roller technique will require the patient to lie on the left cheek to pillow (so that the gas bubble will be exerting nasally) for half an hour, after which the patient will lie face down for another half hour (this will move the maximal exertion of the gas bubble from nasal to middle (macula) area of the retina. Then finally, the patient will lie with right cheek to pillow. This will result in the gas bubble having maximal exertion in the temporal region. In effect, this entire manoeuvre will slowly move the bubble maximal exertion point from nasal to middle to temporal, resulting in the milking effect of the SRF to expel through the temporal side opening). This effect is akin to a steam roller concept and hence the name of this manoeuvre.

b. Use HL (under air or saline) and redrain the SRF before introducing C3F8 14% gas.

c. Make a retinotomy at the most superior point (highest point) accessible for draining the SRF and then cryo to the retinotomy site.

These options are not exhaustive and merely highlight the versatility of VR surgery, whereby decision making on the table is crucial, and is dictated on a case by case basis.

Further learning points:

10. If there is a water tide/mark crease on the macula, this needs to be flattened or ironed out to avoid metamorphopsia. One option is to reintroduce heavy liquid from one side to the other to iron the retina flat, if this was discovered after FAX. The second option is for longer acting

11. The pitfall here is to be able to distinguish pseudowater tide/mark crease from true crease. A water tide/mark could be actually the junction between oedematous detached retina, which had just been reattached and healthy retina (pseudocrease), and not a real crease as such.

1. In cases where the RD is not bullous (i.e., shallow), HL may not be required, as macula folds is less likely, and any residual SRF can be absorbed by the RPE. Face down posture with gas-

2. It can take 20 minutes for crystalline lens to get cloudy (depending on the degree of cataract

**Case 4: A 5-day history of inferior RD macula-off with a horse shoe tear of moderate size at**

2. In inferior RD, inferior vitreous needs to be very closely shaved to minimise tangential and

3. With a horse shoe tear (anterior) flap, it is best to retinectomise the flap to make easier access of the break during SRF drainage by backflush. Furthermore, it may serve as a more effective and convenient way to relieve traction (since the flap can be considered as the anterior lip

4. The break on this occasion is quite near the ora serrata. If backflush is blocked, then try to squeeze on the nozzle to try release any blockages. Reasons for a blocked backflush include thick vitreous catching on the probe (requiring further shaving) and the probe catching on the edge of the break when draining the SRF (requiring the probe to be placed higher and aim

5. When draining SRF with backflush during FAX, the probe needs to be very steadily placed centrally in relation to the break as visualisation of the fundus is poor. If not observed, this

6. Occasionally, it may not be possible to flatten retina due to extensive bullous RD. Then

a. Use long-acting C3F8 14% gas with utilising the steam roller technique of posturing to milk out the SRF. An example is that if in the left eye, after RD repair, before closing up, there were

may lead to an ineffective FAX, resulting in persistent SRF with the break still open.

1. This case required vitrectomy (basic steps and considerations as discussed previously).

Therefore, this sign needs to be assessed carefully to decide if it is a true crease.

12. Gas injection and close up is standard procedure as described in Case 1.

3. Longer acting gas means less PVR rate especially in Inferior RD cases.

sideway traction, which can lead to future redetachment and PVR.

which is subjected to vitreous traction which caused the tear in the first place).

gas (e.g., C3F8 14%) and do face down posture for a day.

present prior to surgery) with FAX air in vitreous cavity.

Further learning points:

146 Advances in Eye Surgery

central to the break).

options include the following:

filled eye may be beneficial in such cases.

**7 o'clock position with PVD present**

1. After 1 week of inferior RD usually PVR will start.

2. The prognosis of macula-off RD of less than 1 week will have a better prognosis than after 1 week RD.

3. In general, studies had shown that the major risk factors for increased risk of retinal redetachment include inferior break RD and PVR. Therefore, the decision on the appropriate approach to manage inferior RD needs to take into consideration multiple factors, as the surgeon and patient will have to live with the decision made. The factors taken into consid‐ eration will depend on the visual potential, macula-on or macula-off RD, presence or absence of PVR, and position of RD. If, for example, the case is an inferior RD with break at 6 o'clock position, with macula-off and PVR that could not be flatten with HL despite removal of some PVR membranes, then we can consider retinectomy, peripheral endolaser, and silicone oil and cryo at each end of the retinectomy site. For the retinectomy to work, this should be performed for 180° with retinectomy relieving incisions at each end. The relieving incisions at each end will reduce the risk of further PVR progression as it limits the expansion of PVR membranes. If there is more visual potential with macula-on inferior RD, then we will consider cryo, gas, and buckle. The buckle here will serve as an enhanced indentation site against which the retinal break can be firmly opposed while allowing for the cryoreaction to take place in 5–7 days. In fresh inferior breaks, buckle may not be necessary. The reason to avoid silicone oil in an inferior RD with good visual potential is that it can actually cause issues like IOP and macula toxicity leading to reduced vision.

4. If there are multiple inferior breaks RD, depending on severity, there are several manage‐ ment options, although the list below is not exhaustive and aim at stimulating the decisionmaking process of the new VR surgeons.

5. Possible options depending on severity are as follows (increasing severity of inferior RD):

#### a. Vitrectomy, cryo gas

b. Vitrectomy, cryo, gas, buckle (e.g., 277 buckle), e.g., two breaks and difficulty trimming the vitreous gel at the edge of the breaks.

c. Vitrectomy, cryo, oil—e.g., PVR grades B/C

d. Vitrectomy, cryo, oil, and buckle—e.g., macula reasonable prognosis

e. Vitrectomy, cryo/retinectomy and oil—e.g., PVR grades B/C with peeling of star membrane. This is appropriate for cases of poor prognosis of visual acuity less than 6/36 Snellen.

Note: SRF drainage through an accessible break can be with or without heavy liquid, in saline or in air.

#### **Case 5: A patient with PVD positive and an almost total RD with inferior breaks ×2**

No PVR was found.

After the basic vitrectomy, the technique used here is by filling HL up to the two inferior breaks (which is very periphery) to fill the entire vitreous cavity, thus pushing most of the SRF away. Now the retina will be flat, and the breaks can then be treated with cryo or laser retinopexy. Then FAX is switched on. This means that at this point, the vitreous cavity has three interface systems, namely, air, fluid, and HL. During the FAX, the backflush or aspirating vitrector is placed at the fluid level (which is in between the air and the HL layer), to drain all the fluid making it a two interface system (Air and HL). Then the infusion cannula is removed from the trocar to drain out infusion fluid and HL, which may be contained in the infusion line through the FAX mode. If this step is not done, there is a theoretical risk that some fluid and HL may be present, and continuing with the FAX may result in some fluid and/or HL being reinserted into the vitreous cavity. This in turn may get through the retinal break causing an SRF accumulation, which is not ideal. Then the infusion cannula is reinserted into the trocar. Next, with FAX mode, HL–air exchange is done. As there is no fluid on top of the heavy liquid, it was not mandatory to put backflush near the break to drain. After FAX, air–gas exchange is performed, prior to closing up.

#### **Case 6: A young man with traumatic macula hole and chronic macula-off almost total RD**

It is postulated that PVR was not present despite chronicity due to non-PVD and the firm vitreous is keeping pigments away.

After the standard vitrectomy, the following steps were taken:

1. Inducing PVD in a young patient can be challenging. One method is to activate continuous suction with circular motion outwardly for two rounds before lifting up the vitreous body. The light pipe can be used to shine on the shadow of the vitreous body to confirm PVD induction. This method can be repeated until PVD obtained. Membrane blue and triamcino‐ lone can be used to highlight vitreous body. Central PVD in this case does not necessarily mean peripheral PVD in the young, which need to be carefully induced, to avoid retina capture on vitrector orifice, which should be pointed 180° away from the retina surface.

2. Internal limiting membrane (ILM) in traumatic cases and in the young can be VERY challenging as it is very sticky and difficult to peel. For macula work, the surgeon must ensure appropriate readjustment of depth perception for the higher magnified macula lens, to avoid retinal touch.

To peel in this case, the force of the forceps should be concentrated sideways along the surface of the retina before lifting up to ensure a significant amount of membrane can be peeled off at any one time, which can be another challenge in view of the mobile retina.

3. If macula hole is too small, consider superior accessible retinotomy site (above the equator) for drainage of SRF.

4. Since this case had no PVR, and the retina can be flattened, long-acting gas (C3F8 14% is used prior to closing up.

#### **Case 7: Inferior RD with early PVR, and with a history of previous RD repair surgery and removal of silicone oil procedure**

1. In this case, the approach is inferior retinectomy 180° with relaxing retinectomy. The role of radial relaxing retinectomy (which can be made in several locations as the condition dictates) is to help flatten PVR retina and reduce risk of future PVR formation.

2. After retinectomy, heavy liquid can be used to flatten retina before application of peripheral laser retinopexy. Then FAX followed by silicone oil insertion. When silicone oil is filled, there may be some residual fluid trapped between the silicone oil and the iris lens diaphragm. This can be aspirated with backflush after removal of the infusion line, which may contain more fluid/heavy liquid. If the infusion line is not removed prior to aspiration of residual fluid, this may result in reintroduction of residual fluid into the vitreous cavity when the infusion line is finally removed.

Further learning points:

a. Vitrectomy, cryo gas

148 Advances in Eye Surgery

or in air.

No PVR was found.

performed, prior to closing up.

vitreous is keeping pigments away.

After the standard vitrectomy, the following steps were taken:

vitrector orifice, which should be pointed 180° away from the retina surface.

vitreous gel at the edge of the breaks.

c. Vitrectomy, cryo, oil—e.g., PVR grades B/C

b. Vitrectomy, cryo, gas, buckle (e.g., 277 buckle), e.g., two breaks and difficulty trimming the

e. Vitrectomy, cryo/retinectomy and oil—e.g., PVR grades B/C with peeling of star membrane.

Note: SRF drainage through an accessible break can be with or without heavy liquid, in saline

After the basic vitrectomy, the technique used here is by filling HL up to the two inferior breaks (which is very periphery) to fill the entire vitreous cavity, thus pushing most of the SRF away. Now the retina will be flat, and the breaks can then be treated with cryo or laser retinopexy. Then FAX is switched on. This means that at this point, the vitreous cavity has three interface systems, namely, air, fluid, and HL. During the FAX, the backflush or aspirating vitrector is placed at the fluid level (which is in between the air and the HL layer), to drain all the fluid making it a two interface system (Air and HL). Then the infusion cannula is removed from the trocar to drain out infusion fluid and HL, which may be contained in the infusion line through the FAX mode. If this step is not done, there is a theoretical risk that some fluid and HL may be present, and continuing with the FAX may result in some fluid and/or HL being reinserted into the vitreous cavity. This in turn may get through the retinal break causing an SRF accumulation, which is not ideal. Then the infusion cannula is reinserted into the trocar. Next, with FAX mode, HL–air exchange is done. As there is no fluid on top of the heavy liquid, it was not mandatory to put backflush near the break to drain. After FAX, air–gas exchange is

**Case 6: A young man with traumatic macula hole and chronic macula-off almost total RD**

It is postulated that PVR was not present despite chronicity due to non-PVD and the firm

1. Inducing PVD in a young patient can be challenging. One method is to activate continuous suction with circular motion outwardly for two rounds before lifting up the vitreous body. The light pipe can be used to shine on the shadow of the vitreous body to confirm PVD induction. This method can be repeated until PVD obtained. Membrane blue and triamcino‐ lone can be used to highlight vitreous body. Central PVD in this case does not necessarily mean peripheral PVD in the young, which need to be carefully induced, to avoid retina capture on

This is appropriate for cases of poor prognosis of visual acuity less than 6/36 Snellen.

**Case 5: A patient with PVD positive and an almost total RD with inferior breaks ×2**

d. Vitrectomy, cryo, oil, and buckle—e.g., macula reasonable prognosis

1. Retinectomy can cause haemorrhage if retinal or choroid vessels are involved. As the choroid is the most vascularised tissue in the body, the haemorrhage with the involvement of choroidal vessels can be very significant.

2. When performing retinectomy with the vitrector, it is prudent to ensure that the cutter is held just on the layer of the retina being retinectomised as any deeper will invariably shear the choroidal vessels leading to significant haemorrhage. Bottle height can go up to 80 mmHg to tamponade the haemorrhage, if this was to happen.

3. A small strand of retina connecting the anterior and posterior aspect of the retinectomy site left behind in retinectomy for PVR can cause further PVR and retinal detachment. As such, there is a need to make sure that all retina in the path of retinectomy be completely removed.

#### **Case 8: Proliferative diabetic retinopathy (PDR) with vitreous haemorrhage with previous pan-retinal photocoagulation (PRP)**

1. PVD induction in such cases can be very challenging. The following approach can be used based on the level of difficulty in inducing PVD (in ascending order of difficulty) as follows:






The listed approaches above can be used repeatedly and in combination in very difficult cases until PVD is achieved.

If vitreous gel is left behind in the posterior pole/macula region, then rhegmatogenous RD and/ or TRD will eventually ensue.

2. Organised haemorrhage near the retina can technically be removed using backflush, again pulling away from the macula. If one end of the organised haemorrhage is not budging, then the surgeon can try removing the complex from another end.

3. Haemorrhage can be tamponade by increasing bottle height or increasing infusion pressure. If source of bleeding can be found, the surgeon can consider endocautery.

4. Macula lens can be used to increase magnification for close work around the macula or in difficult to induced PVD.

Further points to consider:

1. Do not pull to induce PVD at the retinal blood vessels arcades.

2. If peripheral shave is done but PVD is not yet induced at the posterior pole, this will lead to rhegmatogenous RD if left alone. If PVD is induced at this stage (after peripheral vitreous shave is done), it will spring up to the ora serrata, and the whole process of peripheral shave needs to be started again. Therefore, it is crucial to induce PVD in such cases at the posterior pole for a subsequent complete core and peripheral vitrectomy in a time efficient manner.

3. Ala-Sil (Altomed) can be used in place of balanced salt solution (BSS) in vitrectomy/ delamination cases, which have significant active vitreous haemorrhage, as this infusion material will not mix with blood and let the blood stay in a loculated place as the surgeon continues with vitrectomy work without making the view hazy from the haemorrhage.

4. Bucket-handle technique: In cases where parts of the posterior pole are affected by TRD, core vitrectomy should be followed by relieving traction at the TRD site (with delamination as required) and then followed by the PVD induction in the posterior pole. If core vitrectomy and peripheral vitrectomy shave are performed without posterior pole PVD, this may result in fibrovascular TRD flattening, as the anteroposterior tractional force had been relieved from the core and peripheral shave vitrectomy. This will lead to insufficient vitreous body left for engaging with the vitrector to continue with the process of vitrectomy/delamination work. Furthermore, it will be more difficult to perform delamination of the fibrovascular attachments in a flattened TRD complex. This principle is known as the bucket-handle technique as the 'handle' represents the fibrovascular traction bands.

#### **Case 9: Temporal GRT with PVD positive and macula-off**

Learning points:





The listed approaches above can be used repeatedly and in combination in very difficult cases

If vitreous gel is left behind in the posterior pole/macula region, then rhegmatogenous RD and/

2. Organised haemorrhage near the retina can technically be removed using backflush, again pulling away from the macula. If one end of the organised haemorrhage is not budging, then

3. Haemorrhage can be tamponade by increasing bottle height or increasing infusion pressure.

4. Macula lens can be used to increase magnification for close work around the macula or in

2. If peripheral shave is done but PVD is not yet induced at the posterior pole, this will lead to rhegmatogenous RD if left alone. If PVD is induced at this stage (after peripheral vitreous shave is done), it will spring up to the ora serrata, and the whole process of peripheral shave needs to be started again. Therefore, it is crucial to induce PVD in such cases at the posterior pole for a subsequent complete core and peripheral vitrectomy in a time efficient manner. 3. Ala-Sil (Altomed) can be used in place of balanced salt solution (BSS) in vitrectomy/ delamination cases, which have significant active vitreous haemorrhage, as this infusion

haemorrhage.

150 Advances in Eye Surgery

hyaloids face.

until PVD is achieved.

or TRD will eventually ensue.

difficult to induced PVD. Further points to consider:

retina both centrally and in the midperiphery.

ILM forceps, scissors (20G) which can be right angle or curved.

the surgeon can try removing the complex from another end.

1. Do not pull to induce PVD at the retinal blood vessels arcades.

If source of bleeding can be found, the surgeon can consider endocautery.





For this particular case, when FAX was done to remove heavy liquid, the retina ballooned out, and retina slippage occurred. In this case, FAX was stopped, and heavy liquid was reintro‐ duced. This flattened the retina. Backflush was used to aspirate the remaining SRF, the position of the backflush being as near to the posterior lip (near where the endolaser marks were). This action can also facilitate the retina to reposition from the slippage position to its original position but should not be done forcefully.

Variation of techniques to inject silicone oil: One option is for heavy liquid–air–oil exchange (with hand 1 holding the light pipe and hand 2 holding the backflush). This technique can pose a higher risk of retinal slippage. Another option is using chandelier light in the fourth (30G) port, with hand 1 holding the backflush and hand 2 holding the silicon oil infusion cannula and the three-way tap on the main infusion line connected to one of the three trocars is switched off at the same time.

One method of minimising catching on the retinal edge of break while aspirating using backflush is to close the aspirating hole of the backflush until it is aligned out of the way of the retina break edges, before reopening to aspirate further.

Therefore, it is important to pay close attention to the retina position in such cases to observe for any retina slippage during FAX. With experience, one can tell the difference between oedematous retina and crinkling of retina.

Furthermore, in such cases, it is prudent to consider a direct silicone oil–heavy liquid direct exchange. Since the normal infusion tube (which connects from the three-way tap to the trocar) is not strong enough to withstand the pressure from the silicone oil injector (which can be as high as 30lbs/sq inch, equivalent to 1500 mmHg), a special silicone oil tubing is used to substitute the original infusion tube. This will allow for both hands of the surgeon to work on the retina.

NB: Decision making during surgery is crucial and one has to think of few steps ahead.

#### **Case 10: Total RD with PVD positive in a phakic patient**

In this case, it was a chronic RD. However, only two small peripheral holes were seen, one at 1 o'clock and another at 8 o'clock. The detached retina was still mobile. Since the holes were small, it was postulated that the pigment cells would be difficult to make their way to the vitreous cavity, which explained why there were no PVR.




#### **Case 11: Right macula-off temporal bullous RD with multiple small peripheral breaks**

In bullous RD cases, the aim is as follows:










a. Refill vitreous cavity with BSS and perform an accessible retinotomy, and perform FAX and drained through the new retinotomy site. Then contiguous cryo on the multiple small breaks under air performed (may consider diathermy to mark, or draw map of breaks) (applicable to loculated SRF collection and/or treated small breaks, pertaining to this case).

b. HL to flatten retina and 360° laser retinopexy. (This can be an option in situation with RD but no breaks found.)

Further learning points to consider:

Furthermore, in such cases, it is prudent to consider a direct silicone oil–heavy liquid direct exchange. Since the normal infusion tube (which connects from the three-way tap to the trocar) is not strong enough to withstand the pressure from the silicone oil injector (which can be as high as 30lbs/sq inch, equivalent to 1500 mmHg), a special silicone oil tubing is used to substitute the original infusion tube. This will allow for both hands of the surgeon to work on

NB: Decision making during surgery is crucial and one has to think of few steps ahead.

In this case, it was a chronic RD. However, only two small peripheral holes were seen, one at 1 o'clock and another at 8 o'clock. The detached retina was still mobile. Since the holes were small, it was postulated that the pigment cells would be difficult to make their way to the




**Case 11: Right macula-off temporal bullous RD with multiple small peripheral breaks**




**Case 10: Total RD with PVD positive in a phakic patient**

vitreous cavity, which explained why there were no PVR.

HL to splint the retina for a more stable vitrectomy shave.

In bullous RD cases, the aim is as follows:



iatrogenic retinal breaks.

in such cases.

alternative is to endocautery mark the breaks and cryo under air.

the retina.

152 Advances in Eye Surgery

found.

There are many cryotherapy machines for VR work. Occasionally, the cryo probe is not responsive. Therefore, the surgeon needs to be aware of basic troubleshooting. This includes the following: (a) check to see if the probe itself is working by testing first, (b) check for leaking probe, and (c) check to see if the cylinder is empty.

#### **Case 12: Inferior break developing during ROSO requiring cryo and refill with silicone oil**

The decision on how to proceed in such case depends upon the presence or absence of PVR and the assessment of individual patient's circumstances, e.g., requiring more ops, etc. Possible options include the following:





#### **Case 13: Inferior macula-off RD with previous RD repair vitrectomy surgery over 5 years ago**

#### Learning points:







#### **Case 14: Inferior RD with macula involvement, but multiple holes in all quadrants in a 38 year-old man**




#### **Case 15: Redo inferior retinal detachment in a 40-year-old man**

In this case, the issue was that of an inadequately treated (cryo) break. This break was cryoed, and since there was no PVR, long-acting gas was put in place. The learning point here is to ensure that adequate cryo is applied to the break in the primary surgery through meticulous observation.

#### **Case 16: Redo inferior RD in a 70-year-old lady**

**Case 13: Inferior macula-off RD with previous RD repair vitrectomy surgery over 5 years**





**Case 14: Inferior RD with macula involvement, but multiple holes in all quadrants in a 38-**




In this case, the issue was that of an inadequately treated (cryo) break. This break was cryoed, and since there was no PVR, long-acting gas was put in place. The learning point here is to ensure that adequate cryo is applied to the break in the primary surgery through meticulous

before pulling up the vitreous body to induce a complete PVD.

**Case 15: Redo inferior retinal detachment in a 40-year-old man**


**ago**

Learning points:

154 Advances in Eye Surgery

made in this case.

**year-old man**

observation.

omy and enolaser and silicone oil.

was used (instead of silicone oil).


peripheral PVD leading to new retinal breaks.

In this case, there were signs of PVR grade B. There were no collagenous membranes to peel.

Even in Grade B PVR, there can be radial shortening of the retina, in that after retinectomy was done, the shortening can be very significant. In this case, the retina contracted centrally with its new retinectomised border settled near to the major retinal vessel arcades.

In this case, silicone oil was used, after air/heavy liquid exchange. The silicone oil was injected separately from hand 2 with hand 1 holding the light pipe (this procedure was previously discussed above).

#### **Case 17: Diabetic retinopathy fibrovascular traction requiring delamination**

Bucket-handle technique utilised here. This means no full vitrectomy in this case, with only enough vitrectomy to get at the posterior hyaloid face (PHF), as full vitrectomy will release traction and hence flatten the traction area, making it difficult to release and remove more membranes.

The approach to delamination can be performed by using the 20G curve scissors (although a curved 23G scissors can also be used) and go underneath the PHF and with the scissors opened, lift up the PHF and cut, so as to minimise the chances of cutting the retina creating a tear. This will create a surgical plane for lifting the membrane complex en bloc. When the scissors are closed, they can be used as a pick to tease up the PHF.

Sometimes despite the best efforts, retina break/hole cannot be avoided. Usually, this happens in the areas just near the arcades and sometimes near the temporal macula region. This is best treated with laser retinopexy. The closer it is to the macula, the lighter the laser should be applied. In the unlikely anatomy position of papillomacular bundle tear/break, this is best left alone. In any case, expansile gas is used and face down posture adopted for 1–2 days.

The objective in TRD is to relieve the traction at the strongest adhesion point/s via delamina‐ tion. Thereafter, once complete PVD is induced, then we can continue straight to complete the vitrectomy.

Pirouetting and moving the fundal view in opposite directions of vector of rotating the eye will increase periphery view. Cutting as close to the edge of view is recommended for a thin vitreous shave. In areas of vitreous base haemorrhage which cannot be removed, in the area of entry site, one can consider external cryo behind the site to reduce risk of entry site break.

#### **Case 18: Superonasal bullous macula-off retinal detachment with PVD positive**

Heavy liquid is key is the splinting of such cases.

Extra macula fold can still occur after FAX if the heavy liquid is not filled up to the level of just below the posterior border of the retinal break.

Technically, as long as the three interface (air, fluid, and HL) can be changed to two interface (air and HL), and no fluid getting into the break, then we should be able to avoid retinal slip and /or retinal folds (which is caused by residual fluid in the vitreous cavity.

Retinal folds post operatively usually does not cause much visual symptoms to patients unless it is a macula fold. To reoperate, one can use a 40G needle to inject BSS subretinal to create a bullous RD to extend into the macula area where the fold is. Then use HL to flatten out the retina, ironing out the macula fold at the same time. Retinotomy may be required in the periphery to drain out the SRF and finishing off with gas fill and to close up.

**Case 19: Inferior retinal detachment with an inferior moderate size break, who opted to wait over the weekend prior to surgery, resulting in early membrane PVR, but macula-on**

This case is rare as usually PVR cases are associated with macula-off (which means different approach to management).

#### Learning points:

It has been documented that certain genetics, e.g., HLA DR4 can be associated with propensity for PVR development.

In this case, even a wait of 4–5 days (as opposed to 2 days) can already result in PVR membrane formation.

In such cases while operating, one must actively look out for early PVR and assess mobility of the detached retina. Early PVR can be stiff, although it may retain limited mobility. The other feature to look out for is retinal folds that will not change shape within a relatively mobile retinal detachment. The approach to such case is to use an MVR blade (25G to enter 23G trocar) splice the membrane to unfold the retina. Another method of assessing stiffness in equivocal case is to use HL to see if this can completely flatten the retina.

The management decision for this case is as follows:

a. Inferior PVR macula-on: try to release adhesions of retinal folds by splicing PVR membranes to unfold retina. If SRF drainage can flatten the detached retina, long-acting gas and face down posture can be utilised. If retina is not properly flattened, a buckle can be added to increase success (added indentation to counter the shortened retina).

b. If this case redetached, we may then consider laser retinopexy and buckle, after getting rid of more membranes. Silicone oil should not be used in primary RD repair case in this situation due to macula toxicity (as the case is macula-on). The buckle acts to shorten the anterior vitreous base to reduce traction, and also act as a good addition to tamponade.

c. If after the above approach (a and b) but the retina redetached, we may then consider retinectomy and silicone oil (last resort).

d. However, if the macula was off (pertaining to this case), we may consider silicone oil in the first instance.

The above approaches are dependent on the state of the eye as discussed above. It serves as a prelude to the reader to utilise lateral thinking in the decision making in VR surgery.

#### **Case 20: Inferior retinal detachment with two inferior breaks at 6 o'clock and PVR grade B, in a background of pseudoxanthoma elasticum (PXE), who had cataract surgery about 3 months ago**

This was treated with vitrectomy, cryo, 360° laser retinopexy, and inferior buckle.



The European VR Society RD Study (report 2) suggested that in cases of PVR requiring vitrectomy, a supplemental buckle may not be useful. http://www.aaojournal.org/article/ S0161-6420(13)00102-4/pdf

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http://www.eyecalcs.com/DWAN/pages/v6/v6c058.html
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Retinal folds post operatively usually does not cause much visual symptoms to patients unless it is a macula fold. To reoperate, one can use a 40G needle to inject BSS subretinal to create a bullous RD to extend into the macula area where the fold is. Then use HL to flatten out the retina, ironing out the macula fold at the same time. Retinotomy may be required in the

**Case 19: Inferior retinal detachment with an inferior moderate size break, who opted to wait over the weekend prior to surgery, resulting in early membrane PVR, but macula-on**

This case is rare as usually PVR cases are associated with macula-off (which means different

It has been documented that certain genetics, e.g., HLA DR4 can be associated with propensity

In this case, even a wait of 4–5 days (as opposed to 2 days) can already result in PVR membrane

In such cases while operating, one must actively look out for early PVR and assess mobility of the detached retina. Early PVR can be stiff, although it may retain limited mobility. The other feature to look out for is retinal folds that will not change shape within a relatively mobile retinal detachment. The approach to such case is to use an MVR blade (25G to enter 23G trocar) splice the membrane to unfold the retina. Another method of assessing stiffness in equivocal

a. Inferior PVR macula-on: try to release adhesions of retinal folds by splicing PVR membranes to unfold retina. If SRF drainage can flatten the detached retina, long-acting gas and face down posture can be utilised. If retina is not properly flattened, a buckle can be added to increase

b. If this case redetached, we may then consider laser retinopexy and buckle, after getting rid of more membranes. Silicone oil should not be used in primary RD repair case in this situation due to macula toxicity (as the case is macula-on). The buckle acts to shorten the anterior

c. If after the above approach (a and b) but the retina redetached, we may then consider

d. However, if the macula was off (pertaining to this case), we may consider silicone oil in the

The above approaches are dependent on the state of the eye as discussed above. It serves as a

prelude to the reader to utilise lateral thinking in the decision making in VR surgery.

vitreous base to reduce traction, and also act as a good addition to tamponade.

case is to use HL to see if this can completely flatten the retina.

success (added indentation to counter the shortened retina).

The management decision for this case is as follows:

retinectomy and silicone oil (last resort).

first instance.

periphery to drain out the SRF and finishing off with gas fill and to close up.

approach to management).

Learning points:

156 Advances in Eye Surgery

formation.

for PVR development.



#### **Case 21: A 67-year-old man with epiretinal membrane (ERM)**

He is pseudophakic with anterior capsular phimosis.

In this case, ERM peel using diamond duster scrapper could not induce a flap, as this ERM happened to be a double membrane and firmly attached (like chewing gum) whereby the diamond dusted scrapper will only make the tissue bunched up without inducing a flap. In this case, using an MVR blade to scrape away from the surgeon (so as to have a view of tissue control at all times) to induce a flap. Sometimes, inevitably partial thickness retina layer maybe peeled of as the flap is induced. This should not cause much visual symptoms postoperative anecdotally. If the flap is friable and not able to be extended, then attempt to create another flap adjacent to it, so that the second flap can join the first flap to create a bigger flap before peeling. In this case, restaining with dual blue multiple times for better visualisation is helpful. Staining and restaining especially in double ERM layers will make each layer more discernable.

Usually, after initial staining, always look out for natural creases of the ERM which maybe prominent on primary staining. These creases can be used to create flaps and start the peel. It is better to peel off the ILM as well, if possible, to reduce the risk of ERM recurring (as ILM is the scaffold upon which the ERM proliferates).

The ERM membrane pegging to the retinal surface can be unpredictably anywhere (not neatly arranged) and peeling ERM will depend on the feel of least resistance. ILM peel on behaves more like an anterior capsulorrhexis during cataract phacoemulsification.

#### **Case 22: A GRT repaired with cryo and 360° laser retinopexy and silicone-filled eye over 7 months, who had an ROSO, and during the procedure, inferior RD was noted**

In this case, it should be treated like an RD. The inferior RD SRF was extensive, with the break appeared to be on the previous laser retinopexy site. FAX used to drain the SRF ended up with an inferior collection of SRF (with closure of the break). Hence, a retinotomy was performed under air. Retinotomy under air is more challenging, requiring aspiration to engage the retina before cutting to make the retinotomy. By using a backflush, SRF drainage was attempted but only able to achieve partial drainage. At this point, silicone oil was refilled. Despite silicone oil refilled, the SRF was still present. At this point, the idea was to use heavy liquid under the oil. A small proportion of oil was removed using the backflush, with the infusion line attached to one of the trocars. The HL was injected under the oil which flattened the retina. Then laser retinopexy was performed. The next step will be to remove the HL as top up silicone oil was injected. An independent silicon oil cannula was connected directly into the trocar, replacing the original infusion cannula, so that the surgeon is able to use the foot pedal to control the oil injection, while one hand holding the light pipe and the other holding the backflush to drain the HL. This is one unusual scenario when direct oil-HL exchange was performed.

#### **Case 23: A total RD with Grade B PVR, with the nasal and superior part of RD not able to be flattened by HL**

The approach in this case is as follows:



#### -Tamponade

peeled of as the flap is induced. This should not cause much visual symptoms postoperative anecdotally. If the flap is friable and not able to be extended, then attempt to create another flap adjacent to it, so that the second flap can join the first flap to create a bigger flap before peeling. In this case, restaining with dual blue multiple times for better visualisation is helpful. Staining and restaining especially in double ERM layers will make each layer more discernable. Usually, after initial staining, always look out for natural creases of the ERM which maybe prominent on primary staining. These creases can be used to create flaps and start the peel. It is better to peel off the ILM as well, if possible, to reduce the risk of ERM recurring (as ILM is

The ERM membrane pegging to the retinal surface can be unpredictably anywhere (not neatly arranged) and peeling ERM will depend on the feel of least resistance. ILM peel on behaves

**Case 22: A GRT repaired with cryo and 360° laser retinopexy and silicone-filled eye over 7**

In this case, it should be treated like an RD. The inferior RD SRF was extensive, with the break appeared to be on the previous laser retinopexy site. FAX used to drain the SRF ended up with an inferior collection of SRF (with closure of the break). Hence, a retinotomy was performed under air. Retinotomy under air is more challenging, requiring aspiration to engage the retina before cutting to make the retinotomy. By using a backflush, SRF drainage was attempted but only able to achieve partial drainage. At this point, silicone oil was refilled. Despite silicone oil refilled, the SRF was still present. At this point, the idea was to use heavy liquid under the oil. A small proportion of oil was removed using the backflush, with the infusion line attached to one of the trocars. The HL was injected under the oil which flattened the retina. Then laser retinopexy was performed. The next step will be to remove the HL as top up silicone oil was injected. An independent silicon oil cannula was connected directly into the trocar, replacing the original infusion cannula, so that the surgeon is able to use the foot pedal to control the oil injection, while one hand holding the light pipe and the other holding the backflush to drain

more like an anterior capsulorrhexis during cataract phacoemulsification.

**months, who had an ROSO, and during the procedure, inferior RD was noted**

the HL. This is one unusual scenario when direct oil-HL exchange was performed.


unusual to do retinectomy as a primary RD procedure

**Case 23: A total RD with Grade B PVR, with the nasal and superior part of RD not able to**


the scaffold upon which the ERM proliferates).

158 Advances in Eye Surgery

**be flattened by HL**



The approach in this case is as follows:



NB: In cases of PVR where close vitreous shave is required, one can consider the 'proportional reflux dissection' on a 25+ G cutter. This cutter can be a multifunction effect depending on the adjustment of certain parameters. With this, the sphere of influence is smaller and less likely to cause iatrogenic break, in PVR membrane peeling.

In this case, after membrane peel, a nasal retinectomy in an attempt to flatten the retina was attempted. However, there is extensive haemorrhage despite diathermy before retinectomy. In view of the poor view, surgery stopped and eye filled up to max, to revisit (as a two-stage procedure) in 24–48 hours (any longer will cause IOP increased and inflammation ++). This approach flattened the retina and settled the haemorrhage, for the surgery to be completed.

#### **Case 24: Vitreomacular traction (VMT) with visual distortion**

Vitreous can be very sticky in such cases, and even though there is a Weiss ring, vitreous can still be firmly attached to macula. The approach in inducing PVD in this situation is to pull vitreous around the macula and never work on the fovea directly.

Membrane blue or triamcinolone can be used to confirm that vitreous is removed.

Paediatrics VR consideration:


Even in cases of retinopathy of prematurity (ROP), releasing traction is the main aim and not to remove majority of the vitreous.

The trocar approach to paediatric VR up to 15 years old is 2.5–3 mm behind limbus.

#### **Case 25: Previous inferior retinectomy and silicone oil and ROSO presented with a rede‐ tachment**

Inferotemporal area of retinectomy is found to have PVR lifting that area creating a break for RD to develop (macula-off almost total RD).


Recognising straight (and unusual retinal detachment patterns) is important. This is caused by PVR. The source of traction/pulling effect needed to be worked out and then released, so that it will resume normal break contour, after which, laser retinopexy can be considered (either under HL or oil). In this case, it was decided to do under oil. The localised haemorrhage happened as a result of removing the fibrous adhesions.

#### **Case 26: RD repaired (temporal) with silicone oil**

ROSO was then performed and 5 months later developed this patient developed macula-off RD and PVD.

Learning points:

Retinectomy joining temporal breaks can be done in the superior peripheral arches 180°.

#### **Case 27: Diabetic TRD**

If sheets of hyaloid in posterior pole are left behind, this will invariably worsen the TRD leading to blindness and phthisical eye. Therefore, it is imperative to remove all the hyaloids sheets especially within the arcade of the macula. If outside the macula arcade, small islands can be left behind if too adherent to remove, as small islands do not have the tendency to contract to cause TRD (as it is not connected or networked with other islands of posterior pole hyaloids).

When delaminating, there is a need to quickly establish a surgical plane separating hyaloids from the fibrovascular tissue. Iatrogenic breaks can be laser pexied and drained to flat if possible (under heavy liquid)—in such cases, silicone oil needs to be considered. There may be a need to try different direction of peel for a good hyaloids peel.
