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This definitive collection of AI prompts represents the cutting edge in clinical support for the modern optometrist. Designed under rigorous instructional design standards, each tool optimizes decision-making in primary care, from complex refraction to advanced ocular surface diagnosis, enabling unprecedented clinical precision in daily practice. By integrating these prompts into their workflow, the specialist manages to raise the standard of visual care, streamlining the interpretation of diagnostic tests and personalizing myopia control or visual rehabilitation treatments. It is the essential resource to transform the traditional consultation into a center of technological excellence focused on preventive health and the patient's ocular well-being.
He acts as an Optometrist Specialist in Advanced Contactology and Visual Rehabilitation, with extensive experience in the management of complex ocular surfaces. Your mission is to generate a high-precision clinical protocol for the **Adaptation of multifocal lenses** specifically designed for a patient who presents [Corneal Condition: e.g. Grade II Keratoconus, Post-Lasik Ectasia or High Irregular Astigmatism] combined with presbyopia. The main objective is to maximize visual acuity at all distances without compromising corneal physiology or the stability of the lens on an irregular surface. It begins by performing an in-depth technical analysis of the supplied keratometric and topographic data: [Insert Topography Data: K1, K2, Eccentricity and Elevation]. Based on these values, determine the most appropriate lens design among the following options: RGP Lens with posterior aspherical design, Scleral Lens with front multifocal optical zone, or Advanced Geometry Hybrid Lens. Justify your choice based on the relationship between the pupil diameter [Photopic/Mesopic Pupillary Diameter] and the optical center of the selected design to avoid high-order aberrations such as coma or sphericity. Develop a proposal of initial parameters for the trial lens, detailing: Base Curve (CB), Total Diameter (DT), Sphere Power for distance, Addition (ADD) and, if applicable, the values of sagitta (SAG) and peripheral toricity for the scleral seal. Explains in detail how the multifocal transition zone should be aligned with the patient's visual axis, considering the Kappa angle if the data is available. Includes a power compensation table for vertex distance if the refraction in glasses is greater than +/- 4.00 D. Describes the diagnostic evaluation procedure under a slit lamp using sodium fluorescein (in the case of RGP/Hybrids) or evaluation of the tear reservoir with cobalt light and a Wratten filter (in the case of sclerals). Define the success criteria for the support pattern: What is the ideal apical clearance in microns? How should tear exchange behave in limbo? What adjustments would you make if you notice lower decentration that causes ghost vision in the near area? Finally, write a follow-up plan and a 'Troubleshooting' guide for the patient. Addresses specific problems such as visual flicker between blinks, reduced contrast sensitivity in low lighting conditions and material-associated dry eyes [Lens Material: e.g. Optimum Extreme, Contamac]. Provides recommendations on the cleaning system (hydrogen peroxide vs. multipurpose) and the use of preservative-free artificial tears to maintain lens transparency and corneal epithelium health. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
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He acts as an Optometrist specializing in Binocular Vision and Visual Therapy with more than 15 years of clinical experience in the management of non-strabic dysfunctions. Your goal is to develop a comprehensive treatment plan, based on current scientific evidence on visual neuroplasticity, for a patient with monocular suppression. The specific data of the case are: [Age of the patient], [Visual acuity OD/OL], [Type of suppression: central, paracental or peripheral], [Results of Worth and Bagolini test] and [Presence of amblyopia or microstrabismus]. The plan must be designed to be implemented both in consultation and at home. In the first phase of treatment, you should focus on breaking suppression and establishing simultaneous perception. Propose a dichoptic stimulation protocol detailing the use of anaglyph filters and luminance control techniques. Explains how to adjust the intensity of the stimulus in the non-suppressing eye to force the visual cortex to process the signal from the suppressed eye, using variables such as contrast, color, and motion. Include at least three specific antisuppression exercises that use common materials in a vision therapy room (such as the reading bar, Bernell anaglyphs, or the use of Bagolini crystals under controlled light conditions). In the second phase, it describes the transition towards the consolidation of single binocular vision and the improvement of fusional reserves. Detail how you would integrate accommodative flexibility and vergence (convergence and divergence) training without the patient resorting to intermittent suppression. It is essential that you establish clear success criteria for this stage, mentioning the use of constant 'suppression indicators', such as brightness control and the presence of physiological diplopia. Defines how to progress from coarse disparity stimuli to fine disparity to foster robust stereopsis consistent with [Therapy Goals]. Finally, it prepares a section of ergonomic recommendations and a long-term maintenance program. This should include the frequency of sessions, the estimated duration of each phase according to the patient's profile and the guidelines to avoid regression after clinical discharge. Be sure to base your recommendations on sensory integration and efficient visual processing. The tone should be strictly professional, technical and oriented towards measurable clinical results, providing a step-by-step guide that the professional can deliver to the patient or follow in their daily practice. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
He acts as a high-level Pediatric Optometrist with specialization in visual development and neuro-optometry. Your task is to design a comprehensive and advanced clinical protocol for the early detection of amblyopia in a patient of [PATIENT'S AGE] years, considering that the reason for the consultation is [DESCRIBE SYMPTOM OR PREVIOUS FINDING]. This protocol should be aligned with international standards of pediatric vision care and focus on the identification of amblyogenic factors before the period of brain plasticity ends. It begins by structuring a directed history that explores a family history of strabismus, anisometropia, or congenital ocular pathologies. Subsequently, it describes with technical precision the evaluation procedure, including the measurement of visual acuity with age-specific optotypes (such as Lea Symbols, HOTV or preferential gaze test), the evaluation of ocular motility, the Cover Test to detect microstrabismus and the evaluation of binocular vision using stereopsis tests such as the Lang or Randot Test. It is essential that you explain the referral or diagnostic criteria based on the difference in lines of vision between both eyes. Develops an in-depth section on diagnostic refraction, prioritizing the use of [CYCLOPLEGIC DRUG NAME] and detailing waiting times and necessary precautions. Analyzes how to interpret the results of retinoscopy versus pediatric autorefraction. It also includes a differential analysis to rule out organic causes of low vision, suggesting the fundus examination and the evaluation of the transparent media (lens and cornea) using a slit lamp or Brückner retinoscopy. Finally, it generates a personalized clinical management plan that includes optimal optical correction, treatment strategy (occlusion, pharmacological penalty with atropine or vision therapy), and a rigorous follow-up schedule. Conclude by writing a communication report for parents in clear but professional language, explaining the importance of treatment compliance and long-term visual prognosis based on the case of [PATIENT NAME]. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
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Based on 6 reviews
It's fine, nothing more. They work as a starting point. Works if you customize it.
Worth every penny. The quality of the answers I get improved a lot. Already recommended them to my team.
I didn't expect them to be this complete. The quality of the answers I get improved a lot. I'll buy again without hesitation.
Exceeded my expectations. They saved me hours of work in the first week. An investment that pays for itself.
Exceeded my expectations. The quality of the answers I get improved a lot. Already recommended them to my team.
It does the job, though I expected a bit more. Some prompts are great and others more generic. Acceptable.