About Longdom Conferences
Longdom conferences hosting 200+ leading international conferences and virtual events annually. It is instrumental in bringing together experts and learners from all over the globe for mutual growth and effective research-oriented discussions. As per the present market demand and growth in the field of Ophthalmology Eye Care research, Longdom meetings is hosting its "Ophthalmology Eye Care," This will be one of the leading surgery conferences scheduled for scheduled for August 29-30,2024 |Toronto, Canada. The event will revolve around the theme, "Visualizing the Archives and Global Advances in Ophthalmology". The scope of Ophthalmology Eye Care encompasses various aspects of healthcare, including but not limited to hand hygiene, surgical site infections, eye safety, antimicrobial resistance, and operational protocols for hospitals during both routine operations and emergencies.
Why join LONGDOM conferences?
Understand the current state of research | Meet international colleagues and experts | Visit the exhibition of leading-edge technology | Engage with editors of the top journals in your field | Global networking and certification | Brand Launching and many more to explore
Why you should attend?
Engage in the instigative event format, with round tables, panels, exhibits, speed networking and multiple conference tracks.
Share gests perceptivity and strategies in interactive peer- to peer round tables.
Hear further perspectives in one place – from large medium and small organisations from pharma, biotech and academia.
Benefits of attending:
Networking Opportunities, Grow Your Professional Network
Build Your Knowledge Base
Expand Your Resources
Meet Experts & Influencers Face to Face
Learning In a New Space
Break Out of Your Comfort Zone
New Tips & Tactics
Greater Focus
The Serendipity of the Random Workshop
Preconference Workshops in all major countries
Remarkable Awards and Global Recognition to meritorious Researchers
Nominations for Best Poster Award
Group Registration benefits
Advance Research oriented presentations
Collaborations across Academia & Industry
Target Audience: Target audience are Physicians, Licensed Practical Nurse, Industry Professionals, Research Scholars, Healthcare Professionals Diagnostic laboratory professionals, Business Entrepreneurs, Directors & Ceo’s of Organizations, Hospitals, Microbiologists, Pharmaceutical Industries, Nurse Practitioners.
Sessions:
1) Ophthalmology and Vision Science
Ophthalmology is the specialized field devoted to the examination and treatment of medical disorders related to the eyes. Ophthalmologists are highly trained experts who focus on both the medical and surgical aspects of eye care. They play a crucial role in the diagnosis, prevention, and treatment of a wide range of eye conditions and visual impairments. Beyond addressing eye health and vision issues, ophthalmologists possess medical expertise that enables them to identify indications of diseases not directly associated with the eyes, allowing them to appropriately refer patients for necessary treatment.
Vision science encompasses a multidisciplinary approach to the study of visual systems and perception, including fields such as ophthalmology, optometry, molecular genetics, neurology, and physiological optics. This interdisciplinary exploration covers every facet of the visual process, delving into the anatomy, biochemistry, optics, and physiology of the eye. Vision Science serves as the foundation for a myriad of research inquiries related to human vision, its mechanisms, the causes of visual impairment, and potential interventions.
The following specialized areas contribute to the comprehensive understanding and advancement of eye care:
Optometry
Visual Science
Pharmacology and Drug Therapy in Eye Diseases
Primary and Secondary Eye Care
Ophthalmology Surgical Tips and Devices
These fields collectively contribute to the ongoing exploration of how humans perceive vision, the reasons behind vision-related challenges, and innovative solutions to address them.
2) Ophthalmogenetics and Gene Therapy
The complex process of normal eye development takes place during the initial trimester of pregnancy and involves the interaction of numerous genes. When errors, known as mutations, occur in these genes, they can lead to the development of serious eye conditions. Ophthalmic genetics is an essential and rapidly advancing field on a global scale. The prevalence of genetic disorders is exacerbated by ethnic diversity and a high degree of consanguinity, resulting in a worldwide epidemic.
In people of working age, inherited retinal disease (IRD) stands out as the most common cause of blindness. The molecular diagnosis of such conditions has been accelerated by advancements in molecular genetic techniques, including focused gene panel analysis and the application of next-generation sequencing methodologies. Additionally, progress in ocular imaging and visual function tests has deepened our understanding of the natural history of these diseases, a crucial aspect for assessing the efficacy of potential IRD treatments in clinical trials.
The exploration and management of inherited retinal diseases involve various specialized areas:
Clinical Electrophysiology
Clinical Trials
Gene Therapy
Genomics
Genotype-Phenotype Correlation
Gene Mutation
Gene Sequencing
Inherited Retinal Disease
Molecular Biology
Ophthalmic Genetics
Retinal Imaging
Stem Cells
These areas collectively contribute to the comprehensive understanding, diagnosis, and treatment of inherited retinal diseases, addressing both the genetic basis and clinical manifestations of these conditions.
3) Ocular Oncology and Eye Tumours
Ocular tumors, commonly known as eye tumors, are abnormal growths affecting the eyes. Tumors consist of cells that can exhibit either malignant (cancerous) or benign (noncancerous) characteristics. Among eye tumors, metastatic tumors are the most prevalent. The specialized field dedicated to the study and treatment of cancers occurring in or around the eyes is referred to as ocular oncology. These tumors vary in severity, ranging from benign to life-threatening, with potential consequences including vision loss or even the loss of the affected eye. Providing care for individuals with eye cancer involves unique challenges not encountered in typical ophthalmic practices.
Distinct aspects of ocular oncology include:
Biomarkers and Early Detection of Cancers
Adjuvant Therapies
Improved Visual Outcomes After Ocular Melanoma Treatment
Clinical Care
Types of Ocular Tumors
Challenges of Ocular Oncology
These components collectively contribute to the comprehensive understanding and management of ocular tumors, addressing both the early detection and advanced treatment modalities to enhance visual outcomes and overall patient care.
4) Ocular Immunology and Microbiology
A comprehensive understanding of immunology, both in a general context and specifically in relation to ocular responses, enables doctors to offer a wider range of care. Ocular Immunologists, who are specialized ophthalmologists with advanced training in Ocular Immunology, possess highly specialized diagnostic and therapeutic skills. They are adept at caring for patients with eye ailments stemming from aberrant immunoregulatory systems. Ocular Immunologists address inflammatory disorders of the eye, systemic autoimmune diseases, and administer systemic immunomodulatory therapies, showcasing advanced training and clinical proficiency.
The human eye, constantly exposed to the environment, faces various pathogenic and non-pathogenic microorganisms that affect the ocular surface. Each layer of the eye naturally harbors several microbes. Infection of the outer eye structures is a prevalent form of eye disease, even though the eye is generally resilient to germs. Infections in the eye can arise due to factors such as trauma, surgery, or systemic diseases.
Key areas within the field of Ocular Immunology include:
Eye Inflammation and Inflammatory Eye Disorders
Uveitis
Immunomodulatory Therapy (IMT)
Autoimmune Ocular Disease and Allergy
Retina Immunobiology
Eye Microbiota
Ocular Infections
Ocular Pathogens
Antibiotic Susceptibility
These components collectively contribute to the specialized knowledge required for the diagnosis and treatment of ocular conditions influenced by immunological factors.
5) Ophthalmology Diseases and Disorders
A significant portion of the population experiences vision issues at some point in their lives. While certain symptoms may resolve on their own or with home remedies, others necessitate professional attention. Whether your vision has deteriorated over time or has always been a concern, there are steps you can take to address your eye health. Various factors, such as eye infections, genetic predisposition, injuries, foreign objects in the eye, and vision disorders associated with systemic conditions like diabetes or hypertension, can impact eye health.
Numerous eye conditions, ranging from infections and injuries to genetic disorders, may not exhibit early symptoms, and visual abnormalities may only become apparent once the condition has advanced, posing challenges for effective treatment.
Refractive Errors
Age-Related Macular Degeneration
Glaucoma
Cataract
Diabetic Retinopathy
Amblyopia
Strabismus
Uveitis
Low Vision
Low Vision Rehabilitation
Retinitis Pigmentosa
Thyroid Eye Disease (TED or Graves Eye Disease)
Diabetic Macular Edema
Macular Dystrophy
Seeking timely professional advice and adopting appropriate interventions can help manage these conditions and maintain optimal eye health.
6) Clinical & Experimental Ophthalmology
Ophthalmology, as a medical specialty, encompasses the comprehensive study of eye health and the visual system, covering aspects such as anatomy, physiology, histology, and diseases related to vision. Given the pivotal role vision plays in our daily lives, clinical ophthalmology emerges as a vital field within medicine, focusing on the examination, understanding, and treatment of eye physiology and disorders.
In the realm of clinical ophthalmology, practitioners engage in the diagnosis and surgical intervention for a broad spectrum of eye diseases. The clinical procedures employed enable the identification and assessment of various conditions affecting the eye. This specialized branch of medicine is dedicated to advancing knowledge and making clinical breakthroughs related to diverse eye conditions, as well as refining methodologies for patient care in ophthalmology.
The scope of clinical ophthalmology extends to research on ophthalmic surgical techniques, translational research, ocular medicines, and other related areas. Furthermore, experimental ophthalmology serves as the foundational research arm of this field.
Eye Disease
Patient Safety and Quality of Care Improvements
Patient Education and Patient Compliance
Patient Adherence/Satisfaction
7) Ophthalmic Healthcare
An ophthalmologist, whether a medical or osteopathic doctor specializing in eye and vision care, distinguishes themselves from optometrists and opticians in terms of training and the scope of conditions they can diagnose and treat. The future of ophthalmology presents both opportunities and challenges. Successful ophthalmic practices in the future will be recognized for delivering top-notch and streamlined treatment, requiring readiness to support the evolution of integrated care systems.
The key to future success lies in adhering to standardized care processes based on established practice guidelines, ensuring that the level of treatment aligns appropriately with the healthcare practitioner's expertise. Striving for high-quality and efficient care will be essential in navigating the evolving landscape of eye and vision health.
Throughout its history, ophthalmology has benefited from visionary leadership, allowing for adaptation, prosperity, and continuous enhancement of the population's eye health. These enduring qualities are poised to be advantageous as the field moves forward into the future.
Future Trends in Ophthalmology
Issues Facing Ophthalmologists
Demographics, Economics, Human Factors, And Informatics
8) New Diagnostic Techniques and Instruments
Ophthalmologists continuously seek innovative methods to enhance patient treatment, with a focal point on advancing precise and efficient diagnostic tools. The evolution of diagnostic procedures in ophthalmology has come a long way since the initial stages of pars plana vitrectomy, marked by limited instrumentation and diagnostic capabilities, restricting the range of entities diagnosable through invasive means. The integration of cutting-edge instruments has significantly elevated the standards of eye care and the management of prevalent ocular conditions. The ongoing development of new technologies holds the promise of further elevating the identification and treatment of eye issues, thereby enhancing the overall quality of eye care.
Noninvasive Diagnostic Techniques
Diagnostic Procedures in Ophthalmology
Diagnostic Therapeutic Instruments
Ophthalmic Instruments and Diagnostic Tests
9) Cornea and External Diseases
The transparent frontal region of the eye, known as the cornea, covers the iris, pupil, and anterior chamber. Collaborating with the anterior chamber and lens, the cornea refracts light, contributing to approximately two-thirds of the eye's total optical power. Unmyelinated nerve endings within the cornea are responsive to touch, temperature, and chemicals, triggering an automatic eyelid-closing response when touched. The cornea, vital for maintaining transparency, remains devoid of blood vessels in its healthy state. Ailments affecting the outer layer of the eye fall under corneal and external diseases. Common ocular surface diseases include dry eye, corneal infections, blepharitis, allergies, conjunctivitis, and corneal dystrophies, all of which may lead to corneal clouding.
Corneal Allotransplantation
Corneal Dystrophies
Blepharitis
Allergic Disease
Trachoma
Corneal Trauma
10) Eye Surgeries
Ocular surgery, commonly referred to as eye surgery, involves surgical procedures performed on the eye or its surrounding structures by an ophthalmologist. Due to the delicate nature of the eye, special attention is crucial before, during, and after surgery to minimize or prevent additional harm. A skilled eye surgeon is responsible for selecting the most suitable surgical approach for the patient and ensuring the implementation of all necessary safety measures. Anesthesia is essential, given the abundant nerve supply to the eye, with local anaesthesia being the most commonly used type. Eye surgery can address various conditions such as glaucoma, cataracts, detached retinas, retinal tears, diabetic retinopathy, and refractive errors like near sightedness or farsightedness.
Vitreoretinal Surgery
Oculoplastic Surgery
Lasik Surgery
Cataract Surgery
Refractive Surgery
Reconstructive Surgery
11) Neuro-Ophthalmology
Possessing excellent eyesight facilitates the completion of daily tasks effortlessly. However, vision problems are widespread, prompting the emergence of a specialized field known as neuro-ophthalmology in both neurology and ophthalmology. Neuro-ophthalmologists are eye doctors with expertise in addressing visual issues originating from the neurological system. These specialists focus on diagnosing and treating neurological and systemic conditions that impact vision and eye movement. While some disorders within the purview of neuro-ophthalmology may not pose an immediate threat to life, others can progress, leading to irreversible vision loss or even mortality. The issues may be confined to the optic nerve or neurological system, or they may be associated with broader medical conditions.
Neurologic and Ophthalmologic Sciences
Diagnosing and Treating
Neoplastic Conditions Affecting the Oculomotor and Visual Systems
12) Paediatric Ophthalmology and Strabismus
Pediatric ophthalmology stands out as an intriguing field, although it can be challenging due to the intricacies of examining young children. While all ophthalmologists possess some training in pediatric eye conditions, those specializing in pediatric ophthalmology bring enhanced expertise and experience in diagnosing and treating common eye issues in children. These professionals focus on inspecting, diagnosing, and treating eye problems in neonates, children, and adolescents, and they serve as both medical and surgical specialists, conducting eye surgeries on children.
One prevalent condition they address is strabismus, where both eyes fail to align in the same direction, leading to a lack of simultaneous focus on the same object. "Crossed eyes" represent a common manifestation of strabismus, occurring either intermittently or regularly. Prolonged presence of this condition during childhood can result in amblyopia (lazy eyes) and the loss of depth perception.Congenital Eye Disorders
Eye Alignment Disorders
Eye Problems in Children
Diagnosing and Treating Eye Disorders
13) Aging Eyes: Changes, Disease and Care
As one ages, changes occur in the eyes. While certain issues become more prevalent with aging, they can affect individuals at any stage of life. Presbyopia, for instance, is a condition where the eye's lens becomes less flexible and loses the ability to thicken over time, impacting its capacity to focus on nearby objects. Additionally, the number of mucous cells in the conjunctiva may decrease with age, and tear production may diminish, leading to a reduced availability of tears to keep the eye's surface adequately moist. Consequently, dry eyes become more common in older adults due to these age-related changes.
Preventing and Treating Eye Disease
Cataract
Glaucoma
Age-Related Macular Degeneration
Diabetic Retinopathy
Vision Deterioration
Age Related Eye Conditions
14) Nanotechnology in Ophthalmology
Nanotechnology is an emerging concept poised to become the forefront of scientific and technological advancements. Operating on the scale of nanometer-sized molecules, it has showcased its capabilities in various fields such as space exploration, medicine, and other scientific disciplines. Given the eye's compact and exposed nature, it presents an ideal target for nanotechnology applications.
The introduction of nanomedicines has sparked considerable enthusiasm for ophthalmic pharmacotherapy, envisioning the potential of nanostructured drugs to navigate the restrictive barriers of the eye. Despite the promising outlook, challenges such as ensuring safe manufacturing processes and understanding unforeseen biological implications of nanomaterial use currently impede the widespread adoption of nanotechnology. However, these obstacles are not insurmountable, and ongoing advancements suggest that this evolving field is likely to yield innovative treatments for various ocular disorders.
Nanomedicine
Nano Pharmaceuticals
Nanostructured Drugs
15) Retina And Retinal Detachment
The delicate membrane that lines the inner surface at the back of the eyeball is referred to as the retina. Comprising multiple layers, one of which houses specialized cells called photoreceptors the retina plays a crucial role in vision. As light passes through the eyes, the lens focuses an image onto the retina.
A detached retina occurs when the retina lifts away from the back of the eye. This detachment disrupts its normal function, resulting in blurred vision. Retinal detachment is a serious issue, and prompt consultation with an ophthalmologist is essential to prevent potential vision loss in the affected eye. Despite the absence of pain associated with retinal detachment, there are often symptoms that precede the detachment and should not be ignored. Seeking timely medical attention is crucial in addressing this condition. Retinal detachment Symptoms
Retinal tear
Retinal Detachment Causes and Types
Retinal Detachment Risk Factors
Retinal Detachment Prevention
Nystagmus
16) Dry Eye Infographic/Dry Eye Syndrome
Dry eyes result from a prolonged lack of lubrication and moisture on the eye's surface. Maintaining a consistent and sufficient layer of tears on the eye is essential for overall eye health, comfort, and optimal vision. The condition associated with dry eyes is known as dry eye syndrome (DES), or alternatively, keratoconjunctivitis sicca (KCS). Dry eye syndrome can manifest with a range of symptoms, from minor irritation to severe inflammation, and in some cases, it may lead to scarring on the front surface of the eye. This prevalent ocular condition affects a significant portion of the population, with estimates indicating a prevalence of 5–34 percent depending on the demographic studied.
Eye Infographic
Contact Lens
Diagnosis and Pathophysiology
Artificial Tears and Other Treatments
17) Vision Rehabilitation
Rehabilitation, essentially synonymous with "becoming able again," facilitates patients in reclaiming physical, social, emotional, and spiritual independence, contributing to an overall improvement in their quality of life. The goal of rehabilitation is to enhance functionality and independence by adapting to challenges rather than reversing the underlying causes of harm. Specifically addressing vision-related challenges, medical rehabilitation geared toward improving or managing low vision is referred to as vision rehabilitation, often abbreviated as vision rehab. In essence, it is the systematic process of restoring functional capacity and enhancing the quality of life and independence for individuals who have experienced vision loss due to disease or injury. Vision rehabilitation in the context of low vision enables optometrists to assist their patients in improving function, independence, and overall health.
Clinical Studies and Treatments
Neurological Approach
Chemical Treatments
Physical Approach