Heads-up surgery with three-dimensional display devices for cataract surgeries

Barbosa, José de Paula; Ribeiro, João Crispim; Machado, André Jucá

doi:10.5935/0004-2749.20210059

Ophthalmologists widely use binocular microscopes (BM) for cataract surgeries. However, these devices have certain limitations in terms of educational approach and ergonomics⁽¹1 Berquet F, Henry A, Barbe C, Cheny T, Afriat M, Benyelles AK, et al. Comparing heads-up versus binocular microscope visualization systems in anterior and posterior segment surgeries: a retrospective study. Ophthalmologica. 2020;243(5):347-54.^,²2 Qian Z, Wang H, Fan H, Lin D, Li W. Three-dimensional digital visualization of phacoemulsification and intraocular lens implantation. Indian J Ophthalmol. 2019;67(3):341-3.⁾.

This study aims to review the “heads-up” cataract surgery and compare it with the traditional surgery using BM.

We utilized the Medline database to retrieve articles published between 2016 and 2020 and perform a review of the literature. The descriptors included “Cataract” AND “Heads-Up” OR “3D”.

The evaluated outcomes were categorized as follows: “Ergonomics and comfort”, “Surgical duration”, “Complications”, “Educational function”, and “Miscellaneous”.

A total of 196 anterior and posterior segment surgeries were performed, including three studies. The number of surgeries in the other two studies was not specified. Cataract surgeries were performed in 165 (84.2%) of the 196 eyes; the heads-up was used in 107 surgeries and BM in 58 surgeries (Table 1).

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Table 1
Frequency of patients admitted for cataract surgeries and the main topics discussed in each study

Ergonomics and comfort

One study evaluated the fluency of the surgery, presence of low back pain, and visual comfort during the surgeries⁽¹1 Berquet F, Henry A, Barbe C, Cheny T, Afriat M, Benyelles AK, et al. Comparing heads-up versus binocular microscope visualization systems in anterior and posterior segment surgeries: a retrospective study. Ophthalmologica. 2020;243(5):347-54.⁾. A questionnaire was applied after the procedures, and the perception of the physicians suggested that the fluency of the three-dimensional (3D) surgery was slightly better than that of the BM surgery, but without statistical significance (p=0.09). The participants had received a prior 4-week training for the heads-up system, during which some professionals had expressed discomfort with the 3D-glasses during the initial surgeries due to “3D-asthenopia”⁽¹1 Berquet F, Henry A, Barbe C, Cheny T, Afriat M, Benyelles AK, et al. Comparing heads-up versus binocular microscope visualization systems in anterior and posterior segment surgeries: a retrospective study. Ophthalmologica. 2020;243(5):347-54.⁾.

This work also compared back pain complaints between surgeons utilizing the BM and the 3D-device; however, both showed similar results, with back pain symptoms being present in 12%-17% of all surgeries⁽¹1 Berquet F, Henry A, Barbe C, Cheny T, Afriat M, Benyelles AK, et al. Comparing heads-up versus binocular microscope visualization systems in anterior and posterior segment surgeries: a retrospective study. Ophthalmologica. 2020;243(5):347-54.⁾.

Surgical duration

One article reported 25% lower duration for the heads-up surgeries (16.44 min) when compared with BM surgeries (21.44 min)⁽¹1 Berquet F, Henry A, Barbe C, Cheny T, Afriat M, Benyelles AK, et al. Comparing heads-up versus binocular microscope visualization systems in anterior and posterior segment surgeries: a retrospective study. Ophthalmologica. 2020;243(5):347-54.⁾. However, a selection bias was present as surgeons preferred to operate complicated patients with the BM. The isolated factors leading to a longer surgical duration were “status of the surgeon” and “intraoperative complications”, which probably occurred because of the selection bias⁽¹1 Berquet F, Henry A, Barbe C, Cheny T, Afriat M, Benyelles AK, et al. Comparing heads-up versus binocular microscope visualization systems in anterior and posterior segment surgeries: a retrospective study. Ophthalmologica. 2020;243(5):347-54.⁾ (Table 2).

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Table 2
Comparison of the surgical durations among the filtered studies

Complications

In one study, no major intraoperative complications were identified for either type of surgery⁽²2 Qian Z, Wang H, Fan H, Lin D, Li W. Three-dimensional digital visualization of phacoemulsification and intraocular lens implantation. Indian J Ophthalmol. 2019;67(3):341-3.⁾. Nonetheless, another article reported that during the heads-up procedures, only one chemosis associated with a superficial traumatic corneal ulcer occurred, while the microscope group presented four complications (two chemosis, one zonular dialysis, and one posterior capsule rupture with sulcus implantation). However, this finding could be explained by the selection bias which disposed the higher risk patients in the BM group⁽¹1 Berquet F, Henry A, Barbe C, Cheny T, Afriat M, Benyelles AK, et al. Comparing heads-up versus binocular microscope visualization systems in anterior and posterior segment surgeries: a retrospective study. Ophthalmologica. 2020;243(5):347-54.⁾.

The improvement in the corrected visual acuity and the decrease in the endothelial cellular density one month after the surgery were similar for both methods⁽²2 Qian Z, Wang H, Fan H, Lin D, Li W. Three-dimensional digital visualization of phacoemulsification and intraocular lens implantation. Indian J Ophthalmol. 2019;67(3):341-3.⁾.

Educational function

A research group employed a smartphone to help a resident student during the operation; both the senior doctor and the resident were using 3D displays. Hence, the professor who was distantly located from the patient was able to precisely visualize the resident’s movements with the smartphone’s microphone and give him orientations through a Bluetooth earphone. As heads-up displays permit professors to be away from the observer microscope, this technique minimizes the dilemma of when to advise the students about improving the surgical maneuvers without giving the patient the sensation of being in a training environment⁽³3 Eckardt C, Ahdab K, Eckert T. Use of mobile phones during heads-up surgery-a new way of teaching cataract and vitreoretinal surgery. Retina. 2019;39:S191-3.⁾.

Miscellaneous

Microscopes offer higher quality images when compared with the HD cameras utilized in heads-up surgeries. One study used an 8K camera for simulating cataract, anterior segment, and posterior segment surgeries, which provided a resolution comparable to that of microscopic visualization. Nevertheless, higher the resolution, the harder it is to adjust the focus; this raises the lighting necessary during the surgery to produce images with a high signal/noise ratio⁽⁴4 Yamashita H, Tanioka K, Miyake G, Ota I, Noda T, Miyake K, et al. 8K ultra-high-definition microscopic camera for ophthalmic surgery. Clin Ophthalmol. 2018 12:1823-8.⁾.

It is also possible to amplify the lighting in the image by 23 times while utilizing the heads-up equipment, which consequently demands lower levels of light and avoids uncomfortable or harmful situations⁽⁵5 Matsumoto CS, Shibuya M, Makita J, Shoji T, Ohno H, Shinoda K, et al. Heads-Up 3D surgery under low light intensity conditions: new high-sensitivity hd camera for ophthalmological microscopes. J Ophthalmol. 2019;2019:5013463.⁾.

Furthermore, a lag in the monitor was reported during the 3D surgery, mainly in the anterior segment maneuvers. However, it was irrelevant and did not prolong the procedure⁽²2 Qian Z, Wang H, Fan H, Lin D, Li W. Three-dimensional digital visualization of phacoemulsification and intraocular lens implantation. Indian J Ophthalmol. 2019;67(3):341-3.⁾.

Thus, the 3D surgeries did not show relevant disadvantages in terms of complications, surgical time, or musculoskeletal symptoms. Furthermore, 3D technologies enable significant educational improvements not only for the surgeons, residents, and students but also for the workers in the operation room as they permit enhanced comprehension of the surgical steps.

Funding: This study received no specific financial support.

REFERENCES

¹
Berquet F, Henry A, Barbe C, Cheny T, Afriat M, Benyelles AK, et al. Comparing heads-up versus binocular microscope visualization systems in anterior and posterior segment surgeries: a retrospective study. Ophthalmologica. 2020;243(5):347-54.
²
Qian Z, Wang H, Fan H, Lin D, Li W. Three-dimensional digital visualization of phacoemulsification and intraocular lens implantation. Indian J Ophthalmol. 2019;67(3):341-3.
³
Eckardt C, Ahdab K, Eckert T. Use of mobile phones during heads-up surgery-a new way of teaching cataract and vitreoretinal surgery. Retina. 2019;39:S191-3.
⁴
Yamashita H, Tanioka K, Miyake G, Ota I, Noda T, Miyake K, et al. 8K ultra-high-definition microscopic camera for ophthalmic surgery. Clin Ophthalmol. 2018 12:1823-8.
⁵
Matsumoto CS, Shibuya M, Makita J, Shoji T, Ohno H, Shinoda K, et al. Heads-Up 3D surgery under low light intensity conditions: new high-sensitivity hd camera for ophthalmological microscopes. J Ophthalmol. 2019;2019:5013463.

Publication Dates

Publication in this collection
26 Mar 2021
Date of issue
Mar-Apr 2021

History

Received
11 Nov 2020
Accepted
23 Nov 2020

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Funding: This study received no specific financial support.

Reference	Total N of eyes	N of cataract surgeries	N of cataract HUS	N of cataract BMS	Main topics discussed
2019 Qian²2 Qian Z, Wang H, Fan H, Lin D, Li W. Three-dimensional digital visualization of phacoemulsification and intraocular lens implantation. Indian J Ophthalmol. 2019;67(3):341-3.	20	20	10	10	Surgical duration;
					Complications;
					Educational function;
					Miscellaneous
2019 Eckardt³3 Eckardt C, Ahdab K, Eckert T. Use of mobile phones during heads-up surgery-a new way of teaching cataract and vitreoretinal surgery. Retina. 2019;39:S191-3.	Undefined	Undefined	Undefined	Undefined	Educational function
2019 Ohno⁴4 Yamashita H, Tanioka K, Miyake G, Ota I, Noda T, Miyake K, et al. 8K ultra-high-definition microscopic camera for ophthalmic surgery. Clin Ophthalmol. 2018 12:1823-8.	Undefined	Undefined	Undefined	Undefined	Miscellaneous
2019 Matsumoto⁵5 Matsumoto CS, Shibuya M, Makita J, Shoji T, Ohno H, Shinoda K, et al. Heads-Up 3D surgery under low light intensity conditions: new high-sensitivity hd camera for ophthalmological microscopes. J Ophthalmol. 2019;2019:5013463.	74	72	72	0	Miscellaneous
2020 Berquet¹1 Berquet F, Henry A, Barbe C, Cheny T, Afriat M, Benyelles AK, et al. Comparing heads-up versus binocular microscope visualization systems in anterior and posterior segment surgeries: a retrospective study. Ophthalmologica. 2020;243(5):347-54.	102	73	25	48	Ergonomics and comfort;
					Surgical duration;
					Complications;
					Miscellaneous
Total^* * the total was calculated based only in the articles which specified how many patients were operated.	196	165	107	58

Surgical duration	HUS	BMS	p-value
2019 Qian²2 Qian Z, Wang H, Fan H, Lin D, Li W. Three-dimensional digital visualization of phacoemulsification and intraocular lens implantation. Indian J Ophthalmol. 2019;67(3):341-3.	8.30 ± 1.73 min	9.03 ± 1.47 min	>0.05
2020 Berquet¹1 Berquet F, Henry A, Barbe C, Cheny T, Afriat M, Benyelles AK, et al. Comparing heads-up versus binocular microscope visualization systems in anterior and posterior segment surgeries: a retrospective study. Ophthalmologica. 2020;243(5):347-54.	16.44 ± 4.36 min	21.44 ± 7.50 min	0.007

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