OBJECTIVE: To compare the clinical efficacy between Wei's triple nine needling combined with esculin and digitalis glycosides eye drops and esculin and digitalis glycosides eye drops alone for presbyopia complicated with visual fatigue of liver depression and spleen deficiency. METHODS: Forty-six cases (92 eyes) with presbyopia complicated with visual fatigue of liver depression and spleen deficiency were randomly divided into an observation group (23 cases) and a control group (23 cases, 2 cases dropped off). The cases in the observation group were treated with Wei's triple nine needling and esculin and digitalis glycosides eye drops. The acupoints included Shangming (Extra), Chengqi (ST 1), Cuanzhu (BL 2) to Jingming (BL 1), Sizhukong (TE 23) to Taiyang (EX-HN 5), etc; the needling was given once every other day, three times a week, and the eye drops were given one drop each time, three times a day. The cases in the control group were only treated with the eye drops. Both groups were treated for 7 days as one course of treatment, and 2 courses of treatment were given. The visual fatigue core symptoms score, adjustment amplitude, adjustment lag and best average corrected visual acuity were observed in the two groups before treatment, 1 week and 2 weeks into treatment, respectively. RESULTS: Compared before treatment, the visual fatigue core symptoms scores in the two groups were decreased after 1-week and 2-week treatment (P<0.05); in the observation group, the adjustment amplitude was increased after 2-week treatment (P<0.05), while in the control group, the adjustment amplitude was increased after 1-week and 2-week treatment (P<0.05); in the observation group, the adjustment lag was decreased after 1-week and 2-week treatment (P<0.05). After 2-week treatment, the visual fatigue core symptoms score in the observation group was lower than that in the control group, and the adjustment amplitude was higher than that in the control group (P<0.05). There were no significant differences in adjustment lag and best average corrected visual acuity between the two groups after 1-week and 2-week treatment (P>0.05). CONCLUSION Wei's triple nine needling combined with esculin and digitalis glycosides eye drops could improve the visual fatigue and eye regulation ability in patients with presbyopia complicated with visual fatigue of liver depression and spleen deficiency, and the effect is better than esculin and digitalis glycosides eye drops alone.
Acupuncture Points ; Acupuncture Therapy ; Asthenopia ; Depression ; Digitalis Glycosides ; Esculin ; Humans ; Liver ; Ophthalmic Solutions ; Presbyopia ; Spleen ; Treatment Outcome

This review gives an overview of the current multifocal intraocular lenses (IOLs) landscape, in terms of the technology, benefits, and limitations of different premium IOLs, as well as significant clinical outcomes. Cataract is the most common cause of visual impairment in older adults. From 1980, the number of blind and visually impaired people have decreased due to cataract surgery. As the number of surgical procedures increases every year, patient demands have also changed with many patients expecting excellent visual acuity without glasses. Multifocal IOLs can provide spectacle-independence for near, intermediate, and distant vision tasks. Multifocal IOLs can be classified into bifocal, trifocal, and extended depth of focus multifocal IOLs. The ultimate goal of multifocal lenses includes reduced incidence of photic phenomena, and improved uncorrected near, intermediate, and far visual acuities for those working with computers and smartphones, as well as no contrast sensitivity loss. Although some patients have issues with halos and glare, overall patient satisfaction and quality of life are generally high after multifocal IOL implantation. Careful patient selection should be made to satisfy different individual needs.
Adult ; Cataract ; Contrast Sensitivity ; Eyeglasses ; Glare ; Glass ; Humans ; Incidence ; Lenses, Intraocular ; Patient Satisfaction ; Patient Selection ; Presbyopia ; Quality of Life ; Smartphone ; Vision Disorders ; Visual Acuity

Presbyopia is an age-related condition that progressively decreases the ability to focus on near objects. Minimally invasive surgical techniques have been developed to improve near vision, including laser in situ keratomileuses (LASIK) and corneal inlay. Most have similar approaches using monovision or increasing the depth of focus. Monovision laser refractive surgery is a combination of conventional LASIK, LASIK which creates a multifocal cornea (central near or peripheral near) and aspheric micro-monovision LASIK with a special ablation profile, which develops spherical aberration. Conductive keratoplasty is a method that uses radiofrequency energy to shrink the mid-peripheral corneal stromal tissue. However, it is not used because of regression. A corneal inlay is a small device that is implanted in the corneal flap or pocket made by a femtosecond laser. It is inserted into the non-dominant eye. There are various inlays such as the Flexivue Microlens (refractive), Raindrop (corneal shape-changing), and KAMRA (small-aperture) inlays. However, the safety and effectiveness of these inlays have not been proven over a long follow-up period, so care is required when performing inlay implantation. All presbyopia treatments can improve near vision but also have limitations and side effects such as reduced far vision, contrast sensitivity, or increased glare. Therefore, it is essential to select patients carefully. Mechanisms associated with presbyopia are not fully understood, and presbyopia remains challenging for ophthalmologists.
Contrast Sensitivity ; Cornea ; Corneal Transplantation ; Follow-Up Studies ; Glare ; Humans ; Inlays ; Keratomileusis, Laser In Situ ; Methods ; Presbyopia ; Refractive Surgical Procedures ; Vision, Monocular

This study aimed to describe the basic optical properties for presbyopia correction, including eyeglasses and contact lenses. Conventional eyeglasses are the most established technology for presbyopia correction, and contact lenses have been recognized to have a huge potential in presbyopia correction. However, successful treatment using contact lenses is dependent on age-related factors, such as upper and lower eyelid movements, palpebral aperture, and decreased lacrimal secretion and tear stability. Monovision and multifocality are optical properties of the lens that form the basis of presbyopia correction. The monovision method is based on the principle of neuro-adaptation, wherein one eye automatically selects a clear image and suppresses an unclear image for processing in the brain when there is a difference in the clarity of the images obtained from both the eyes because of anisopia, which is characterized by unequal visual power between the two eyes. Simultaneous views of near and far objects cannot be achieved using eyeglasses, but these can be realized using contact lenses or intraocular lenses. Alternative views of near and far objects can be achieved using a variety of bifocal contact lenses, which function similar to bifocal eyeglasses. Traditional strategies for presbyopia correction, including the use of monovision, bi/tri/multifocal, and progressive eyeglasses and the use of contact lenses, are being challenged by novel strategies involving pharmacotherapy and electrostimulation. Although the immediate prospect of any newly developed innovation remains slim, improved lens profiles would lead to a better match between the lens and the needs of individuals with presbyopia.
Brain ; Contact Lenses ; Drug Therapy ; Eyeglasses ; Eyelids ; Lenses, Intraocular ; Methods ; Presbyopia ; Tears

Presbyopia is an aging eye. All parts of our body may lose their function with aging. The representative aging diseases in the field of ophthalmology are cataract and macular degeneration. Presbyopia is also a natural aging phenomenon that people has difficulty in focusing on near subject. There is a structure called lens in our eye and the function of lens is a refraction of lignt. Lens helps us focusing an object that we want to see with changing its thickness. When we try to focus on near subjects, ciliary muscle contracts to release the lens zonule and the lens becomes thicker. When we try to see far subjects, ciliary muscle relaxes and lens becomes thinner. These changes of lens thickness occurs very fast in young people, but with aging, the speed of changing the thickness of lens becomes slow. Finally, aged people can't change the lens thickness and can't focus on near subject without the help of near glasses and so on. In this case, we call it presbyopia.
Aging ; Cataract ; Eyeglasses ; Glass ; Macular Degeneration ; Ophthalmology ; Presbyopia

This study investigates the characteristics and clinical outcomes of different types of extended depth-of-focus and multifocal intraocular lenses (IOLs) to determine which IOL can increase patient satisfaction. Modern cataract surgery has undergone tremendous evolution in terms of IOL quality. Recently, different types of presbyopia-correcting IOLs have become commercially available. Among them, multifocal IOLs are the most frequently used. Multifocal IOLs are different from conventional monofocal IOLs because these have multiple focus, which enable patients to see both distant and near objects at the same time. Multifocal IOLs can be classified as either refractive or diffractive IOLs. Diffractive multifocal IOLs include traditional bifocal lenses and relatively new trifocal lenses, and are the most widely used multifocal IOLs owing to their good clinical performance. Trifocal IOLs have an advantage over bifocal IOLs in terms of intermediate visual acuity, but can cause decreased contrast sensitivity and night vision disturbances. Recently developed extended depth-of-focus IOLs are different from traditional multifocal IOLs in that these extend the focus, resulting in smooth continuous focus. It also has the benefit of better contrast sensitivity and improved visual quality over multifocal IOLs; however, is relatively weak in terms of near visual acuity.
Cataract ; Contrast Sensitivity ; Humans ; Lenses, Intraocular ; Night Vision ; Patient Satisfaction ; Presbyopia ; Visual Acuity

PURPOSE: The purpose of this study was to evaluate whether eye dominance changes after conventional pseudophakic monovision, and to identify factors that affect changes in eye dominance. METHODS: This retrospective study included 70 patients who underwent bilateral conventional monovision cataract surgery. Patients were divided into two groups based on whether they experienced a change in the dominant eye. We compared patients' uncorrected distance visual acuity (UCDVA), uncorrected near visual acuity (UCNVA), best-corrected visual acuity (BCVA), spherical equivalent, stereopsis, and time interval between cataract surgeries. RESULTS: The mean age was 71.26 ± 10.84 (range, 25–90) years, mean interval between surgery in each eye was 118.46 ± 183.50 (range, 17–1,018) days, and mean postoperative diopter difference was 1.16 ± 0.53 (range, 0.00–2.75) diopters. After bilateral cataract surgery, 22 patients (31.43%) experienced a change in eye dominance, whereas 48 patients (68.57%) experienced no change. There were no differences in the time interval between cataract surgeries, preoperative UCDVA and UCNVA, pre- and postoperative BCVA, or stereopsis in either group. Patients who experienced a change in eye dominance showed smaller differences between preoperative and postoperative spherical equivalent, compared with patients who experienced no change in eye dominance (t-test, p < 0.05). CONCLUSIONS: Twenty-two (31.43%) patients whose nondominant eyes were targeted for near vision showed altered eye dominance after conventional monovision cataract surgery. Eye dominance shows greater plasticity in patients with smaller differences between preoperative and postoperative spherical equivalent.
Cataract ; Clinical Study ; Depth Perception ; Dominance, Ocular ; Humans ; Plastics ; Presbyopia ; Retrospective Studies ; Visual Acuity

PURPOSE: To compare the effects of bifocal versus trifocal diffractive intraocular lens (IOL) implantation on visual quality after phacoemulsification in patients with cataracts. METHODS: Eighty-eight eyes from 63 patients were analyzed. Trifocal (AT LISA tri 839MP), bifocal (AcrySof IQ ReSTOR) and bifocal (Tecnis MF ZLB00) IOLs were implanted into 53, 18, and 17 eyes, respectively. Uncorrected distance, intermediate and near visual acuity, refractive errors, contrast sensitivity, and patient satisfaction were measured at 1 week and 1 month after surgery. Refractive error was converted to a spherical equivalent and compared to predicted refraction calculated by IOL calculation formulas. RESULTS: Uncorrected distance, intermediate, and near visual acuity did not differ significantly between groups. One month after surgery, the mean refractive errors were −0.07 diopters (D) in the AT LISA tri 839MP group, +0.18 D in the AcrySof IQ ReSTOR group, and +0.31 D in the Tecnis MF ZLB00 group (p < 0.001). The predictive accuracy of IOL calculation formulas did not differ between groups. Contrast sensitivity, satisfaction, and spectacle independence in the trifocal group were comparable with those of the two bifocal groups. CONCLUSIONS: Trifocal IOL and two different types of bifocal IOL implantation were all effective for improving visual quality, although refractive error in patients with trifocal IOL shows myopic tendencies.
Cataract ; Contrast Sensitivity ; Humans ; Lens Implantation, Intraocular ; Lenses, Intraocular ; Patient Satisfaction ; Phacoemulsification ; Presbyopia ; Refractive Errors ; Visual Acuity

PURPOSE: To evaluate changes in clinical practice in the field of refractive surgery in Korea over the past 10 years. METHODS: A survey consisting of 59 multiple-choice questions regarding the preferred types of refractive surgery, excimer laser machine, and presbyopia surgery was mailed to 742 members of the Korean Society of Cataract and Refractive Surgery in January 2016, and 50 members responded to the survey. These data were compared with the 2005 or 2007 survey results.
Cataract ; Keratectomy, Subepithelial, Laser-Assisted ; Keratomileusis, Laser In Situ ; Korea ; Lasers, Excimer ; Myopia ; Phakic Intraocular Lenses ; Postal Service ; Presbyopia ; Refractive Surgical Procedures ; Surveys and Questionnaires

Orthokeratology is the way to correct the myopia or astigmatism by flattening or the central cornea with specialty lenses. The range of correction is from − 2.50 to − 4.00 diopters after 10 days of fitting. The designs is constructed with flat base curve radius, steep reverse curve, flat alignment curve, and peripheral curve. This multi-cuve design enabled the orthokeratology lenses to stay on the cornea stably and effectively. Recently, the application of orthokeratology is extending to hyperopia and presbyopia. In the future, the amount of correction and the application of orthokeratology will increase more and more.
Astigmatism ; Cornea ; Hyperopia ; Myopia ; Presbyopia ; Prescriptions* ; Radius