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| Name | Class |
|---|---|
| targomedGmbH | INDUSTRY |
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Single center, prospective, randomised, controlled, double-blind post-market clinical follow-up (PMCF) study to compare the clinical outcomes of a premium monofocal intraocular lens (PhysIOL ISOPURE 1.2.3.) with clinical data obtained in a control group implanted with an EDOF IOL (Alcon Acrysof IQ Vivity).
This is a single center, prospective, randomised, controlled, double-blind post-market clinical follow-up (PMCF) study whereby patients undergoing routine cataract surgery will have bilateral implantation of premium monofocal intraocular lenses (PhysIOL ISOPURE 1.2.3.) or EDOF lenses (Alcon Acrysof IQ Vivity). The patients will be randomized in a 1:1 ratio to receive the study or control lenses. Both IOLs, investigational device and control device, are CE approved and commercially available in the countries this clinical investigation is being carried out. The investigational device and all study products, including the devices used for the study examinations, will be used within the intended use specifications from the manufacturer. In addition, no invasive or other burdening examinations will occur for the patient.
The device under investigation (ISOPURE 1.2.3.) is a hydrophobic, glistening-free, acrylic premium monofocal intraocular lens (IOL) manufactured by the sponsor of this study, PhysIOL sa/nv. The control lens (Alcon Acrysof IQ Vivity) is a non-diffractive Extended Vision Posterior Chamber IOL.
The IOLs will be implanted as part of the routine cataract surgery on patients suffering from cataract development.
Subjects participating in the trial will attend a total of 6 study visits (1 preoperative, 1 operative and 4 postoperative) over a period of 6 months. Subjects would have the option for unscheduled visits if required medically.
Primary and secondary endpoint data will be collected at the 120-180 days follow up visit.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| IOL implantation experimental | Experimental | Experimental arm: Premium monofocal intraocular lens. |
|
| IOL implantation active comparator | Active Comparator | Comparator arm: EDOF intraocular lens. |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| IOL implantation experimental (ISOPURE 1.2.3.) | Device | Implantation of premium monofocal IOL ISOPURE 1.2.3. |
|
| Measure | Description | Time Frame |
|---|---|---|
| monocular Best Corrected Distance Visual Acuity (CDVA) under photopic light conditions on the first implanted eye. | Non inferiority of ISOPURE 1.2.3. outcomes compared to the Acrysof IQ Vivity outcomes in terms of monocular Best Corrected Distance Visual Acuity (CDVA) by means of statistical significance. A significance level of 0.05 or lower (p < 0.05) will be considered statistically significant. CDVA is measured with ETDRS charts placed in 4m distance with best aided corrective glasses according to ISO 11979-7:2018. | 6 months (120-180 days) postoperative |
| Measure | Description | Time Frame |
|---|---|---|
| Safety (Rates of Adverse Events) | The objective is to compare the SPE (Safety and Performance Endpoints) rates of the investigational product to the results of historical data of EN ISO 11979-7:2018, Annex E (Table E.2) | 1 day (1-2 days) postoperative, 1 week (7-14 days) postoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Measure | Description | Time Frame |
|---|---|---|
| Intraocular pressure (IOP) measurement | The IOP will be measured with non-contact tonometer as part of the routine follow up examinations. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. | Preoperative, 1 day (1-2 days) postoperative, 1 week (7-14 days) postoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
Inclusion Criteria:
Exclusion Criteria:
In addition to above mentioned in- and exclusion criteria, subjects shall be discontinued when certain conditions are present at the time of surgery, including:
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| Name | Affiliation | Role |
|---|---|---|
| Kristof Vandekerkchove, MD | Eye center Vista Alpina | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Eye center Vista Alpina | Visp | 3930 | Switzerland |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 20505205 | Background | McAlinden C, Pesudovs K, Moore JE. The development of an instrument to measure quality of vision: the Quality of Vision (QoV) questionnaire. Invest Ophthalmol Vis Sci. 2010 Nov;51(11):5537-45. doi: 10.1167/iovs.10-5341. Epub 2010 May 26. | |
| 28341605 | Background | Morlock R, Wirth RJ, Tally SR, Garufis C, Heichel CWD. Patient-Reported Spectacle Independence Questionnaire (PRSIQ): Development and Validation. Am J Ophthalmol. 2017 Jun;178:101-114. doi: 10.1016/j.ajo.2017.03.018. Epub 2017 Mar 22. |
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| ID | Term |
|---|---|
| D002386 | Cataract |
| ID | Term |
|---|---|
| D007905 | Lens Diseases |
| D005128 | Eye Diseases |
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Double-blind masking; Patient will not be informed which IOL model was implanted until end of the study. Outcomes assessors will not be informed which IOL model was implanted until end of the study.
| IOL implantation active comparator (Acrysof Vivity) | Device | Implantation of EDOF IOL Acrysof Vivity |
|
| Keratometry | Keratometric measurements are performed to calculate the required IOL power. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. | Preoperative |
| IOL power | The IOL spherical power of the implanted IOL must be recorded. | Operative (day of surgery) |
| Target refraction | The target refraction given by the IOL calculator must be recorded. This parameter is needed to calculate the accuracy of achieving the target refraction. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. | Operative (day of surgery) |
| Fundus OCT | An OCT (optical coherence tomography) image will be taken at the preoperative visit and 1 months postoperative visit to identify AMD suspicious eyes that need to be excluded from this study. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. | Preoperative, 1 month (30-60 days) postoperative |
| Pupil Size under photopic light conditions | Photopic pupil diameters are measured with a precision of at least +/-0.5 mm. For the photopic pupil diameters, eye illumination should be identical to that used for photopic contrast sensitivity testing. It is required that pupil measurements be made with an infrared pupillometer / CCD camera. Pupil measurements should only be made after the eye has had time to fully adapt to the testing conditions (at least 10 minutes). The examination is performed and documented according to the guidelines in ISO 11979-7:2018. | preoperative |
| Pupil Size under mesopic light conditions | Mesopic pupil diameters are measured with a precision of at least +/-0.5 mm. For the mesopic pupil diameters, eye illumination should be identical to that used for mesopic contrast sensitivity testing. It is required that pupil measurements be made with an infrared pupillometer / CCD camera. Pupil measurements should only be made after the eye has had time to fully adapt to the testing conditions (at least 10 minutes). The examination is performed and documented according to the guidelines in ISO 11979-7:2018. | preoperative |
| Manifested refraction | The manifested refraction is measured by means of a phoropter. The data contains values for sphere, cylinder and axis of cylinder according to ISO 11979-7:2018. This data will also be used to calculate the manifested refractive spherical equivalent (MRSE) | Preoperative, 1 week (7-14 days) postoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Monocular Uncorrected Distance Visual Acuity (UDVA) under photopic light conditions | monocular UDVA is measured with ETDRS charts placed in 4m distance according to ISO 11979-7:2018. This assessment is done monocularly under photopic light conditions. | Preoperative, 1 day (1-2 days) postoperative, 1 week (7-14 days) postoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Binocular Uncorrected Distance Visual Acuity (UDVA) under photopic light conditions | Binocular UDVA is measured with ETDRS charts placed in 4m distance according to ISO 11979-7:2018. This assessment is done binocularly under photopic light conditions. | 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Binocular Uncorrected Distance Visual Acuity (UDVA) under mesopic light conditions | Binocular UDVA is measured with ETDRS charts placed in 4m distance according to ISO 11979-7:2018. This assessment is done binocularly under mesopic light conditions. | 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Monocular Corrected Distance Visual Acuity (CDVA) under photopic light conditions | Monocular CDVA is measured with ETDRS charts placed in 4m distance with best aided corrective glasses according to ISO 11979-7:2018. This assessment is done monocularly under photopic light conditions. | Preoperative, 1 week (7-14 days) postoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Binocular Corrected Distance Visual Acuity (CDVA) under photopic light conditions | Binocular CDVA is measured with ETDRS charts placed in 4m distance with best aided corrective glasses according to ISO 11979-7:2018. This assessment is done binocularly under photopic light conditions. | 6 months (120-180 days) postoperative |
| Monocular Distance Corrected Intermediate Visual Acuity at 66cm (DCIVA@66cm) under photopic light conditions | Monocular DCIVA@66cm is measured with ETDRS charts placed in 66cm distance with corrective glasses for far distance according to ISO 11979-7:2018. This assessment is done monocularly under photopic light conditions. | 1 week (7-14 days) postoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Binocular Uncorrected Intermediate Visual Acuity at 66cm (UIVA@66cm) under photopic light condition | Binocular UIVA@66cm is measured with ETDRS charts placed in 66cm distance. The examination is done without corrective glasses and according to ISO 11979-7:2018. This assessment is done binocularly under photopic light conditions. | 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Binocular Uncorrected Intermediate Visual Acuity at 66cm (UIVA@66cm) under mesopic light condition | Binocular UIVA@66cm is measured with ETDRS charts placed in 66cm distance. The examination is done without corrective glasses and according to ISO 11979-7:2018. This assessment is done binocularly under mesopic light conditions. | 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Monocular Distance Corrected Near Visual Acuity at 40cm (DCNVA) under photopic light conditions | Monocular DCNVA is measured with ETDRS charts placed in 40cm distance with corrective glasses for far distance according to ISO 11979-7:2018. This assessment is done monocularly under photopic light conditions. | 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Binocular Uncorrected Near Visual Acuity at 40cm (UNVA) under photopic light conditions | Monocular UNVA is measured with ETDRS charts placed in 40cm distance. The examination is done without corrective glasses and according to ISO 11979-7:2018. This assessment is done binocularly under photopic light conditions. | 1 week (7-14 days) postoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Binocular Defocus Curve | To assess the visual acuity for different distances, defocus curves under photopic light conditions are measured. This test is performed with best distance corrected refraction and spherical additions ranging from -2.5 D to +1.5 D in 0.5 D steps. This examination is performed binocularly. | 1 month (30-60 days) postoperative |
| Binocular Contrast Sensitivity under photopic light conditions | Contrast Sensitivity under photopic light conditions using the standardized contrast sensitivity device CSV-1000 (Vector Vision). This examination is performed binocularly. | 6 months (120-180 days) postoperative |
| Binocular Contrast Sensitivity under mesopic light conditions | Contrast Sensitivity under mesopic light conditions using the standardized contrast sensitivity device CSV-1000 (Vector Vision). This examination is performed binocularly. | 6 months (120-180 days) postoperative |
| Slitlamp examination - Corneal status | The slitlamp examination is one examination to analyse the integrity of eye structures and the implanted IOL. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. With the slitlamp the ophthalmologist can observe the eyes stereoscopically. A focussed slit of light, which can be width-adjusted, is projected on the eye to be examined. The investigator observes this projection on the eye through a reflected light microscope. The slitlamp is used to observe the anterior and posterior part of the eye, including cornea, lens and anterior chamber. By dilating the pupil the fundus can also be examined. Following conditions shall be examined with the slitlamp: • Corneal Status | Preoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Slitlamp examination - Signs of inflammation | The slitlamp examination is one examination to analyse the integrity of eye structures and the implanted IOL. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. With the slitlamp the ophthalmologist can observe the eyes stereoscopically. A focussed slit of light, which can be width-adjusted, is projected on the eye to be examined. The investigator observes this projection on the eye through a reflected light microscope. The slitlamp is used to observe the anterior and posterior part of the eye, including cornea, lens and anterior chamber. By dilating the pupil the fundus can also be examined. Following conditions shall be examined with the slitlamp: - Signs of inflammation | Preoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Slitlamp examination - Iris status | The slitlamp examination is one examination to analyse the integrity of eye structures and the implanted IOL. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. With the slitlamp the ophthalmologist can observe the eyes stereoscopically. A focussed slit of light, which can be width-adjusted, is projected on the eye to be examined. The investigator observes this projection on the eye through a reflected light microscope. The slitlamp is used to observe the anterior and posterior part of the eye, including cornea, lens and anterior chamber. By dilating the pupil the fundus can also be examined. Following conditions shall be examined with the slitlamp: - Iris status | Preoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Fundus examination with dilated pupil | The slitlamp examination is one examination to analyse the integrity of eye structures and the implanted IOL. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. With the slitlamp the ophthalmologist can observe the eyes stereoscopically. A focussed slit of light, which can be width-adjusted, is projected on the eye to be examined. The investigator observes this projection on the eye through a reflected light microscope. The slitlamp is used to observe the anterior and posterior part of the eye, including cornea, lens and anterior chamber. By dilating the pupil the fundus can also be examined. Following conditions shall be examined with the slitlamp: • Fundus | Preoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Slitlamp examination - Optic nerve cupping | The slitlamp examination is one examination to analyse the integrity of eye structures and the implanted IOL. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. With the slitlamp the ophthalmologist can observe the eyes stereoscopically. A focussed slit of light, which can be width-adjusted, is projected on the eye to be examined. The investigator observes this projection on the eye through a reflected light microscope. The slitlamp is used to observe the anterior and posterior part of the eye, including cornea, lens and anterior chamber. By dilating the pupil the fundus can also be examined. Following conditions shall be examined with the slitlamp: - Optic nerve cupping | Preoperative, 1 week (7-14 days) postoperative, 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative, 12 months (330-420 days) postoperative |
| Slitlamp examination - Posterior Capsular Opacification (PCO) or Posterior Capsular Fibrosis | The slitlamp examination is one examination to analyse the integrity of eye structures and the implanted IOL. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. With the slitlamp the ophthalmologist can observe the eyes stereoscopically. A focussed slit of light, which can be width-adjusted, is projected on the eye to be examined. The investigator observes this projection on the eye through a reflected light microscope. The slitlamp is used to observe the anterior and posterior part of the eye, including cornea, lens and anterior chamber. By dilating the pupil the fundus can also be examined. Following conditions shall be examined with the slitlamp: - Posterior Capsular Opacification (PCO) or Posterior Capsular Fibrosis | 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Slitlamp examination - IOL discoloration | The slitlamp examination is one examination to analyse the integrity of eye structures and the implanted IOL. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. With the slitlamp the ophthalmologist can observe the eyes stereoscopically. A focussed slit of light, which can be width-adjusted, is projected on the eye to be examined. The investigator observes this projection on the eye through a reflected light microscope. The slitlamp is used to observe the anterior and posterior part of the eye, including cornea, lens and anterior chamber. By dilating the pupil the fundus can also be examined. Following conditions shall be examined with the slitlamp: - IOL discoloration. | 6 months (120-180 days) postoperative |
| Slitlamp examination - abnormal IOL positioning | The slitlamp examination is one examination to analyse the integrity of eye structures and the implanted IOL. The examination is performed and documented according to the guidelines in ISO 11979-7:2018. With the slitlamp the ophthalmologist can observe the eyes stereoscopically. A focussed slit of light, which can be width-adjusted, is projected on the eye to be examined. The investigator observes this projection on the eye through a reflected light microscope. The slitlamp is used to observe the anterior and posterior part of the eye, including cornea, lens and anterior chamber. By dilating the pupil the fundus can also be examined. Following conditions shall be examined with the slitlamp: - abnormal IOL positioning | 1 month (30-60 days) postoperative, 6 months (120-180 days) postoperative |
| Patient reported outcomes - Quality of Vision questionnaire [McAlinden et al, 2010] | To assess the subjective perception of disturbances by photic phenomena, the validated and verified Quality of Vision (QoV) questionnaire will be used. This questionnaire is a linear-scaled 30-item instrument and is designed with 10 symptoms rated in each of three scales (frequency, severity, and bothersome). The QoV Questionnaire provides a QoV score in terms of symptom frequency, severity, and bothersome [McAlinden et al, 2010]. | 6 months (120-180 days) postoperative |
| Patient reported outcomes - Patient-Reported Spectacle Independence Questionnaire (PRSIQ) [Morlock et al, 2017] | The Patient-Reported Spectacle Independence Questionnaire (PRSIQ) is a patient-reported measure assessing spectacle independence following cataract surgery. The analyses conducted provide evidence for the use of the PRSIQ total score as a measure of spectacle independence [Morlock et al, 2017]. In the first category, subjects are asked if they need glasses for distance vision, intermediate vision and near vision with 'yes' and 'no' being the only possible answers. In the second category, patients are asked to scale their frequency of using spectacles over the last 7 days for three different distances with 5 ratings ranging from '1: All of the time' to '5: None of the time'. A higher rating means higher rate of spectacle independence. In addition, patients are asked to scale if they are able to function without spectacle aid for three different distances with 5 ratings ranging from '1: All of the time' to '5: None of the time'. A higher rating means higher rate of spectacle freedom. | 6 months (120-180 days) postoperative |