“Man not only survives and functions in his environment, he shapes it and he is shaped by it.” —René Dubos
When I look back at my 43 years in optometric practice, it is evident that a number of my key career decisions were strongly shaped by the environment in which I was trained and practiced. For example, my optometry education took place between 1971 and 1975, which coincided with the very end of the era of optometry as a drugless profession. Although the first diagnostic pharmaceutical agent law passed in Rhode Island in 1971, it was not until 1997 when Massachusetts passed a therapeutic drug law that all 50 states permitted optometrists to use both diagnostic and therapeutic drugs. Thus, when I was in optometry school, the scope of optometric practice was quite limited. As a second-year student at the Massachusetts College of Optometry, I remember wondering whether I would be able to maintain my enthusiasm and interest in the profession for the next 30 to 40 years. In fact, after completing my second year of optometry school, I seriously contemplated applying to medical school.
When I started my third year of optometry school in 1974, I was at a crossroad — continue my optometry career or apply to medical school. Fortuitously, the course on the diagnosis and treatment of binocular vision disorders was presented that first semester. I was challenged by the complexity of the vergence and accommodative systems, intrigued by the potential to restore normal accommodative and binocular function using vision therapy, and thrilled to learn that this area of eye care was unique to the profession of optometry. My experience in this course changed the direction of my career. I made the decision that if I were to sustain my enthusiasm for a 30- to 40-year career in optometry the area of binocular vision disorders and vision therapy would have to be my primary clinical interest. Serendipitously, in 1975, the State University of New York College of Optometry started the first residency program for optometry, and the residency was in the area of vision therapy. After graduating from optometry school in 1976, I was accepted into the second year of the State University of New York (SUNY), College of Optometry Residency Program in Vision Therapy, and that experience set the stage for the rest of my career.
Upon completion of my residency program, I settled into a career in optometric education, first at the New England College of Optometry and then in 1982 at the Pennsylvania College of Optometry at Salus University. Although my exact role as an optometric educator has changed over the years, my primary responsibilities were clinical and didactic teaching in the areas of binocular vision, pediatric optometry, and vision therapy. In my early years as an optometric educator, I was content — happy with my career decision and pleased with the successful outcomes I was achieving clinically by prescribing vision therapy programs to treat my patients' binocular vision dysfunctions and visual information processing deficits. Then, the era of evidence-based health care began in the early 1990s, and everything changed; this second environmental factor dramatically changed my career path.
The term evidence based was coined by Dr. David Eddy in 1987.1 Two years later, the term evidence-based medicine was published by the Evidence-based Medicine Working Group.2 As a result of this new evidence-based health care culture, greater scrutiny was placed on clinical studies and grading systems to determine the level of evidence or quality of the research for clinical treatments. At the same time, the effectiveness and value of vision therapy were under a relentless and often harsh attack by professionals and organizations in the fields of ophthalmology, pediatrics, and at times the professions of psychology and education.3–9 Given the evidence-based health care environment, questions were raised about the lack of quality evidence for the effectiveness of vision therapy. This negativity about vision therapy was troublesome for the profession of optometry, for me personally, and for many colleagues who taught this subject in the schools and colleges of optometry around the country and provided this service in their clinics. As a relatively young clinical optometric educator with minimal research experience, my initial reaction was that although these attacks were disconcerting I was certainly not in a position to initiate research that would address the lack of high-quality research in the area of vision therapy. I had no formal training in research, and my assumption was that the more senior members of the profession would take the lead and produce the required quality evidence necessary to counter the negativity about vision therapy. However, as the years passed, and I became a middle-aged optometric educator, it became evident that I would have to take some responsibility for the lack of quality evidence. Of course, there were many other optometric educators in the same dilemma, and in 1994, several formed a working group with the goal of conducting a series of randomized clinical trials to study the effectiveness of vision therapy.
It was with this environmental backdrop that my primary interest changed from teaching vision therapy and providing vision therapy in the clinic, to conducting high-quality research to study the effectiveness of vision therapy. Although I had no formal training as a researcher, in the late 1990s, I was fortunate to be asked by Jane Gwiazda and Leslie Hyman to be the principal investigator of a clinical site at Salus University for the multicenter Correction of Myopia Evaluation Trial10 evaluating the effectiveness of progressive addition lenses in slowing the progression of childhood myopia. Shortly thereafter, I became involved in the Pediatric Eye Disease Investigator Group and served as a co–protocol chair for several randomized clinical trials.11–13 These two experiences provided me with invaluable training in the conduct of randomized clinical trials, which eventually allowed me to assume a leadership role in the Convergence Insufficiency Treatment Trial studies.
ORIGINS OF OPTOMETRIC VISION THERAPY (1896 TO 1960)
To understand the state of the vision therapy literature in the early 1990s, it is important to provide a concise history of vision therapy and the literature supporting its effectiveness. Although the origins of vision therapy can be found in the orthoptic literature dating back to work by Javal in 1896,14 the emergence of optometric vision therapy had its genesis with the work of Skeffington, Getman, and Brock (as discussed in Press15). From the 1930s through 1960s, these optometry leaders transformed the art and practice of vision therapy from a treatment aimed primarily at improving vergence and binocular function into a more sophisticated treatment that included treatments for accommodative, eye movement, and visual processing problems. During this time, the practice of vision therapy became accepted as an integral part of optometric care with almost all state laws including vision therapy as a component of the practice of optometry. However, the research base substantiating the effectiveness of optometric vision therapy for various vision disorders was virtually nonexistent.
It was not until the 1970s that optometry began investigating the effectiveness of vision therapy. Early research consisted primarily of case reports, case series, and retrospective studies.16–18 Then, in the 1980s, the level of research improved primarily because of research conducted by Kent Daum and Jeffrey Cooper. From 1982 to 1987, Daum19–29 published the results from a series of prospective studies investigating the effectiveness of vision therapy for nonstrabismic binocular vision disorders and accommodative problems.30–32 Then Cooper et al.33 demonstrated the effectiveness of vision therapy for convergence insufficiency using a well-designed, placebo-controlled crossover clinical trial. They used the same study design several years later to demonstrate that vision therapy was an effective treatment for adults with accommodative infacility.34 Although the studies conducted by Daum and Cooper were a vast improvement from the retrospective chart reviews of previous decades, there were still limitations in the vision therapy research literature.
A number of authors incorporated objective outcome measures into their study designs as an attempt to minimize bias associated with the use of unmasked examiners.35–38 Liu et al.35 and Bobier and Sivak36 used objective measures of accommodation to evaluate accommodative response before and after vision therapy. Grisham37 and Grisham et al.38 used eye tracking devices to assess the dynamics of the disparity vergence response as outcomes measures after vision therapy.
Thus, the quality of the evidence on the effectiveness of vision therapy gradually improved; however, there were still no randomized clinical trials until 1999 when Birnbaum et al.39 published the results of the first randomized clinical trial evaluating the effectiveness of vision therapy for convergence insufficiency in adults. Although the study was a randomized clinical trial, there were a number of study design limitations, including no placebo control, unmasked examiners, and the use of a symptom questionnaire that had not been validated.
Thus, in the pre–evidence-based health care era, the literature suggested that vision therapy was effective for the treatment of accommodative and binocular vision disorders.16–19,21,22,24,26,31–52 However, the highest-quality evidence in the form of randomized clinical trials was lacking, and without such data, it was difficult to argue with vision therapy skeptics.
HISTORY OF THE CONVERGENCE INSUFFICIENCY TREATMENT TRIAL INVESTIGATOR GROUP
Early Funding Efforts
Frustrated by the persistent attacks on vision therapy by various professional groups and individuals, a number of like-minded optometric educators, scientists, and statisticians formed an investigator group in 1994 named the Vision and Reading Research Interest Group. The stated goal of this group was to design and implement a randomized clinical trial to study whether vision therapy would lead to improvement in reading ability. In 1995, this group reorganized and changed its name to the Convergence Insufficiency and Reading Study Group because they became more focused on a specific vision disorder — convergence insufficiency. Original members of this group were the study chair Michael Rouse and members Eric Borsting, Ralph Garzia, David Grisham, Harold Solan, Michael Wesson, Leslie Hyman, and Mohamed Hussein. A year later, Susan Cotter, Leonard Press, and I joined the group. Our primary objective at that time was to achieve funding from the National Eye Institute for a randomized clinical trial that would investigate the effectiveness of vision therapy for improving reading in children with symptomatic convergence insufficiency.
The efforts of the Convergence Insufficiency and Reading Study Group were instrumental in preparing for a subsequent National Eye Institute grant application submission. From 1995 to 1998, the Convergence Insufficiency and Reading Study Group completed critical preliminary studies pertaining to convergence insufficiency that formed the foundation for the Convergence Insufficiency Treatment Trial Investigator Group activities in later years. These studies included the following: development of the Convergence Insufficiency Symptom Survey,53 determination of school-based prevalence estimates of convergence insufficiency,54,55 establishing the reliability of clinical measures of binocular vision,56 describing the reading ability of a cohort of children with convergence insufficiency,57 ascertaining the treatments of choice that eye care professionals prescribe for convergence insufficiency,58 and defining how eye care professionals reach the diagnosis of convergence insufficiency.59 In 1994, Mike Rouse and Leslie Hyman had a joint meeting with project officers from the National Eye Institute and the National Institute of Child Health and Human Development, where they were advised that their question of interest — Does vision therapy lead to improved reading in children with symptomatic convergence insufficiency? — had little chance of being funded. The National Institute of Child Health and Human Development had most of its money tied up in core grants, and the National Eye Institute was not interested at the time. It was noted at this meeting that, because there were no quality data to answer the more basic question of whether vision therapy was even an effective treatment for convergence insufficiency, it was premature to suggest a clinical trial to investigate whether vision therapy would improve reading performance.
This disappointing news led to the establishment of the Convergence Insufficiency Treatment Trial Investigator Group with a new set of objectives. Some of the original members of Convergence Insufficiency and Reading Study along with new members met during the 4-day 1998 Summer Invitational Research Institute held at the Southern California College of Optometry and sponsored by the American Academy of Optometry and the American Optometric Association. This group of new investigators (Eric Borsting, Jeffrey Cooper, Susan Cotter, Paul De Land, Richard London, G. Lynn Mitchell, Michael Rouse, and Mitchell Scheiman) decided that the most compelling research issue in the area of vision therapy was the treatment of convergence insufficiency. Convergence insufficiency was chosen because it is the most common binocular vision disorder, affecting between 4.2 and 17.6% of the population.55,60–62 It is often associated with symptoms that interfere with everyday function such as frequent loss of place, loss of concentration, having to reread, reading slowly, trouble remembering what was read, sleepiness, blurred vision, diplopia, headaches, and/or eyestrain during reading or other near work.24,52,63,64 In addition, convergence insufficiency was a well-accepted medical diagnosis that was recognized by both optometrists and ophthalmologists. Our group began to develop a general outline for a clinical trial to investigate different treatment modalities for convergence insufficiency. Then, our Convergence Insufficiency and Reading Study study chair Michael Rouse became ill and was no longer able to lead the group. I vaguely remember someone volunteering me as the new study chair, and that was the beginning of my leadership role in the Convergence Insufficiency Treatment Trial.
Between September 1998 and July1999, we developed a preliminary draft of a National Eye Institute, R21 planning grant proposal. Because of the importance of this project to both optometrists and ophthalmologists and to create a planning committee more representative of the eye care community, we added two more members in July 1999, Jonathan Holmes and Michael Repka, both pediatric ophthalmologists with significant clinical trial experience.
To help determine the treatment arms that should be studied in a randomized clinical trial, we surveyed both optometrists and ophthalmologists to determine their first-line treatment for convergence insufficiency.58 The most common treatment prescribed by the optometrists was pencil push-ups (36%), followed by home-based vision therapy (22%) and office-based vision therapy (16%). Among the ophthalmologists, the most common treatments prescribed were pencil push-ups (50%), followed by home-based vision therapy (21%) and base-in prism (10%). In October 2000, the National Eye Institute funded our Convergence Insufficiency Treatment Trial planning grant. The objective of this pilot study was to compare the effectiveness of office-based vision therapy, home-based pencil push-ups, and office-based placebo vision therapy as treatments for symptomatic convergence insufficiency in children and young adults. We had two separate cohorts: 47 children aged 9 to 17 years65 and 46 young adults aged 18 to 30 years66 (refer to Table 1 for a summary of the study results). Although the sample size of each cohort was modest, this was the first randomized clinical trial of vision therapy for any condition that included a placebo control group and masked examiners. We found that the most effective treatment for children and adults was office-based vision therapy, the treatment that was least likely to be prescribed by eye care providers. Figs. 1A–C show the study results for the clinical outcome measures of the near point of convergence and positive fusional vergence at near and the Convergence Insufficiency Symptom Survey in the pediatric cohort in the Convergence Insufficiency Treatment Trial pilot study along with several other randomized clinical trials. In Fig. 1A, the horizontal black line is located at 6 cm. Any finding below this level is considered normal. As the graph shows, only participants in office-based vision therapy achieved this normal level. Symptoms, which were similar in all groups at baseline, were statistically significantly reduced from baseline to outcome in the office-based vision therapy group but not in the pencil push-ups or placebo vision therapy. In Fig. 1C, the horizontal black line is located at 16. Any finding below this level is considered asymptomatic. As the graph shows, only participants in office-based vision therapy achieved this asymptomatic level. In addition, only patients in the office-based vision therapy group demonstrated both statistically and clinically significant changes in the clinical measures of near point of convergence and positive fusional vergence at near. Similar results were found for the adult population. Office-based vision therapy was the only treatment that produced clinically and statistically significant improvements in the near point of convergence and positive fusional vergence. All three groups demonstrated statistically significant changes in symptoms (42% office-based vision therapy, 31% office-based placebo vision therapy, and 20% home-based pencil push-ups).
The experience that our Convergence Insufficiency Treatment Trial group gained from our Convergence Insufficiency Treatment Trial R21 Planning Grant had a major impact on our future funding success with the National Eye Institute. By successfully implementing and completing a randomized clinical trial, we established our ability to recruit and retain subjects, function as a team, carefully implement and follow study protocol, and disseminate our findings through presentations and publications. Using a rigorous design, we demonstrated the effectiveness of office-based vision therapy for convergence insufficiency, and we generated the necessary data to determine the sample size that would be required for a large-scale randomized clinical trial. Of great significance were the development and successful implementation of a placebo therapy protocol. This study demonstrated that 83% of subjects randomized to placebo therapy thought they were receiving real vision therapy.70
Based on the results of this pilot study, recruitment and retention performance at the clinical sites, and the sample size calculation, changes were made in the clinical study site composition with some additions and deletions to the original Convergence Insufficiency Treatment Trial group (Pennsylvania College of Optometry, State University of New York College of Optometry, The Ohio State University College of Optometry, Southern California College of Optometry, Pacific University College of Optometry, University of Houston College of Optometry). Five new sites were selected (Bascom Palmer Eye Institute, NOVA Southeastern University College of Optometry, the University of Alabama School of Optometry, Mayo Clinic, and the Ratner Eye Center at the University of California at San Diego), and two were eliminated (Pacific University College of Optometry, University of Houston College of Optometry). This new group formed the Convergence Insufficiency Treatment Trial study team for our next endeavor, the development of a large-scale randomized clinical trial.
Convergence Insufficiency Treatment Trial Large-scale Randomized Clinical Trial, Randomized Clinical Trial of Base-in Prism, and Home-based Vision Therapy Studies
Between 2002 and 2004, we completed a randomized clinical trial to investigate the effectiveness of base-in reading glasses for children with convergence insufficiency (Table 1).68 Finding that base-in reading glasses were no more effective than placebo glasses eliminated this treatment modality as a potential treatment arm for our next grant application. Between 2002 and 2004, we submitted grant applications for a large-scale multicenter randomized clinical trial to study the effectiveness of treatments for symptomatic convergence insufficiency to the National Eye Institute three times. After two unsuccessful attempts, the National Eye Institute funded our large-scale Convergence Insufficiency Treatment Trial clinical trial for 5 years. From 2004 to 2007, 221 children with symptomatic convergence insufficiency were enrolled into the study. Each child received treatment for 12 weeks and was followed up for 1 year thereafter. We are extremely proud of the quality of the study; we fulfilled our recruitment goal in only 15 months and had a 99% retention rate at outcome, and less than 2% of 2643 visits were missed. Table 1 provides a summary of the study results, and Figs. 1A–C illustrate the final values after 12 weeks of treatment for the Convergence Insufficiency Symptom Survey score, the near point of convergence, and for positive fusional vergence. In summary, after 12 weeks of treatment, the office-based vergence/accommodative therapy group's Convergence Insufficiency Symptom Survey score was statistically significantly lower than the scores for the home-based pencil push-up therapy group, the home-based computer vergence/accommodative therapy and pencil push-ups group, and office-based placebo therapy group. The office-based vergence/accommodative therapy group also demonstrated a significantly improved near point of convergence and positive fusional vergence ranges compared with the other groups. We concluded that office-based vision therapy should be the first-line treatment for symptomatic convergence insufficiency in children 9 to 17 years old.67,71
A 1-year follow-up of subjects who were successful at 12 weeks showed that most children aged 9 to 17 years, who were asymptomatic after a 12-week treatment program of office-based vergence/accommodative therapy for convergence insufficiency, maintained their improvements in symptoms and signs for at least 1 year after discontinuing treatment.72 In addition, a systematic review of treatments of symptomatic convergence insufficiency concluded that “research suggests that outpatient vision therapy/orthoptics is more effective than home-based convergence exercises or home-based computer vision therapy/orthoptics for children.”73 Another Convergence Insufficiency Treatment Trial article documented important findings about treatment kinetics showing that the rate of improvement is more rapid for clinical signs (near point of convergence and positive fusional vergence) than for symptoms. The pattern of change in symptoms after treatment74 and the relationship between symptoms and clinical measures75 were explored in other articles. We also documented improvement in a number of academic behaviors after successful treatment of convergence insufficiency using a six-item survey named the Academic Behavior Survey.76,77 In these articles, we demonstrated that successful or improved outcome after convergence insufficiency treatment was associated with a reduction in the frequency of adverse academic behaviors and parental concern associated with reading and school work as reported by the parent. Finally, we were able to demonstrate the effectiveness of office-based vision therapy to treat accommodative disorders in 74% of the subjects in Convergence Insufficiency Treatment Trial who also presented with accommodative dysfunction.78
Encouraged by these results, we decided to revisit our original plan in 1994 — to submit a grant application to study the effectiveness of office-based vision therapy for symptomatic convergence insufficiency on reading and attention in children. This plan included the need to conduct pilot studies first. Between 2008 and 2012, we performed pilot studies (“Convergence Insufficiency Treatment Trial — Reading Study”) to generate the data necessary to make sample size calculations for a randomized clinical trial and to determine the appropriate outcome measures for reading and attention.79,80 In the main pilot study, parents of 44 children aged 9 to 17 years with symptomatic convergence insufficiency completed the Conners 3 ADHD Index (a 10-item scale designed to identify children who are at increased risk of attention-deficit/hyperactivity disorder) before and after office-based vision therapy. After therapy, children showed a significant mean improvement (P < .0001, effect size of 0.58) on the Conners 3 ADHD Index, with the largest changes occurring in the 23 children who had the highest baseline score (Scheiman et al. IOVS 2011;52;E-abstract 6370).79 In regard to the reading outcome, statistically significant improvements were found for reading comprehension (P = .009) as measured by the Wechsler Individual Achievement Test II at the 24-week outcome visit.80 Thus, the pilot study results were encouraging, with statistically significant changes found in both attention and reading, although we did not have a control group in this study.
With these valuable pilot data in hand, we submitted a grant application to the National Eye Institute entitled the Convergence Insufficiency Treatment Trial Attention and Reading Trial in 2012. We were not funded the first time, but our resubmission was funded in 2014. The objectives of this placebo-controlled, randomized clinical trial were to determine the effect of office-based vergence/accommodative therapy on reading performance and on attention in 9- to 14-year-old children in grades 3 through 8 with symptomatic convergence insufficiency. Measures of reading and attention were assessed at baseline and after 16 weeks of treatment.81 Recruitment for the study has ended, and all subjects have completed their primary outcome visits; however, some subjects have not yet completed their 1-year follow-up examinations. Articles are now in preparation, and we estimate publication of the data in fall 2018.
During this same period (2012 to 2014), I served as co–protocol chair for a Pediatric Eye Disease Investigator Group study entitled the Convergence Insufficiency Treatment Study. This randomized trial was developed because proponents of home-based computer therapy for convergence insufficiency suggested that, in the Convergence Insufficiency Treatment Trial study, the home-based therapy was not monitored as closely as necessary. In the Convergence Insufficiency Treatment Study, participants were randomized into three home-based treatments groups — pencil push-up therapy, computer-based therapy, or placebo therapy. The protocol was carefully designed to monitor adherence to the home-therapy protocols. The results are summarized in Table 1 and Figs. 1A–C. Unfortunately, the trial was stopped early because of insufficient recruitment (reaching only 34% of that originally planned). In addition to poor recruitment, there were significant and differential retention problems. The majority of participants with symptomatic convergence insufficiency did not have a successful outcome at 12 weeks, and the two active therapies were no more effective than placebo therapy (Scheiman et al. OVS 2015;92;E-abstract 150015). Although the estimates of success were not precise because of the insufficient recruitment and the differential loss to follow-up among groups, the best-case success scenario was still disappointingly low, again supporting the results of the Convergence Insufficiency Treatment Trial that home-based therapy is not as effective as office-based therapy.
CONVERGENCE INSUFFICIENCY: CURRENT AND FUTURE RESEARCH
Although the Convergence Insufficiency Treatment Trial Investigator Group has demonstrated that vision therapy is an effective treatment option for convergence insufficiency in children and that office-based therapy is more effective than home-based therapy, many additional research questions related to convergence insufficiency remain. These questions include the following:
- Is vision therapy effective for other age groups such as young children (6 to 8 years old) or presbyopes?
- What are the underlying mechanisms that account for the improvement in clinical signs and symptoms?
- What physiological changes occur after successful vision therapy?
- Can we evaluate the effect of vision therapy on convergence insufficiency using objective measures?
- Using information about mechanisms and physiological changes, can we develop vision therapy protocols that led to better success rates?
My current research is designed to address some of these issues. In recent years, I have been fortunate to collaborate with Tara Alvarez, PhD, a biomedical engineer from the New Jersey Institute of Technology. Dr. Alvarez, an internationally recognized expert in vergence and eye movements, has used convergence insufficiency as a model to study neural control of oculomotor movements, adaptation, learning, and plasticity of eye movements. In the past 5 years, Dr. Alvarez and I have demonstrated that an objective vergence eye movement assessment can serve as an outcome measure for clinical studies in children.82–84 Dr. Alvarez was the first researcher to use objective eye movement recordings and functional magnetic resonance imaging as outcome measures to assess the mechanism for change that occurs after vision therapy for convergence insufficiency in young adults.84,85 In more recent studies, we have shown the value of objectively assessing disparity vergence, as evidenced by the statistically significant changes in disparity vergence peak velocity and response amplitude found after successful office-based vision therapy in children with convergence insufficiency (Scheiman et al. OVS 2016;93;E-abstract 165013).82,83,86Fig. 2 illustrates an ensemble plot of multiple convergence movements evoked from symmetrical 4° vergence stimuli in a subject with normal binocular vision. There is very little variance in the multiple responses, and the response amplitude closely matches the 4° symmetrical binocular visual stimulus when compared with the convergence insufficiency data. In contrast, Fig. 3A shows an ensemble plot of 4° vergence responses for a subject who exhibited substantial impairment of convergence, with the convergence responses reaching approximately only 2.5° on average with considerable variance in the convergence responses (varying from <2 to 4°) including one response in which it appears the participant loses convergence altogether (i.e., loss of fusion) and then attempts to converge again. After therapy (Fig. 3B), the convergence response amplitude is more accurate, and the maximum response is achieved in less than 1 second. These objective measures provide additional information about vergence that is not accessible with clinical tests.
I am currently collaborating with Dr. Alvarez on her National Eye Institute–funded R01, entitled Functional Mechanisms of Neural Control in Convergence Insufficiency. In this randomized clinical trial, objective assessments of vergence and accommodation and functional magnetic resonance imaging are the outcome measures used to study the underlying mechanisms of changes in visual function after vision therapy for young adults with symptomatic convergence insufficiency. In this study, 100 subjects (50 with convergence insufficiency and 50 with normal binocular vision) have been randomized to either office-based vision therapy or office-based placebo therapy. In addition to the traditional clinical measures, subjects undergo objective vergence and accommodation testing and a functional magnetic resonance imaging at baseline and again at outcome. We expect to publish these study results in fall 2018.
It is now recognized that vision problems are common after mild traumatic brain injury/concussion, and serendipitously, convergence insufficiency appears to be the most common concussion-related vision disorder.87,88 With the assumption that concussion-related convergence insufficiency is physiologically different from naturally occurring convergence insufficiency, it is important to determine the effectiveness of treatments of concussion-related convergence insufficiency. In 2017, we formed the Convergence Insufficiency and Concussion Investigator Group with a goal of achieving National Institutes of Health funding for a multicenter clinical trial. As study chair of the Convergence Insufficiency and Concussion Investigator group, I am excited that optometrists are now working closely with pediatricians, sports concussion physicians, physical therapists, and neuropsychologists in a collaborative relationship to study post-concussion convergence insufficiency.
Our group has been able to complete a series of pilot studies to determine if it is feasible to use objective eye movement recordings as outcome measures,82 to demonstrate the prevalence of concussion-related convergence insufficiency,87 and to show preliminary retrospective data about the effectiveness of vision therapy for concussion-related convergence insufficiency.89
We have already submitted our first National Eye Institute application for a randomized clinical trial and are currently performing a series of pilot studies to (1) determine the natural history of concussion-related convergence insufficiency, (2) investigate whether concussion-related convergence insufficiency is physiologically different from naturally occurring convergence insufficiency, and (3) validate of a symptom survey for concussion-related convergence insufficiency.
The year 1994 marked the origin of our Convergence Insufficiency Treatment Trial investigator group, and we now had almost 25 years of collaboration, with more than 200 investigators from multiple professions (optometry, ophthalmology, pediatric medicine, physical rehabilitative medicine, neurology, biostatistics, education, psychology, physical therapy) having been a part of our studies. We have been funded by the National Eye Institute for three randomized clinical trials in an era in which such funding is difficult to secure for all researchers, let alone optometrists. An important accomplishment of our group is our contribution of high-quality evidence-based data into the vision therapy literature to help guide clinical decision making in regard to the treatment of convergence insufficiency. I am extremely proud that our Convergence Insufficiency Treatment Trial Investigator Group was highly effective and completed multiple clinical trials, always reaching recruitment goals in the allotted period of time, with very high participant retention rates (≥98%) and very low missed-visit rates (≤3%).
Of the greatest significance to me, however, is that numerous optometric educators from various schools and colleges of optometry have gained valuable experience participating in our randomized clinical trials. In addition, a template that can be used by other clinician scientists to study the effectiveness of vision therapy for other binocular vision, accommodative, and eye movement disorders has now been established. This template combined with the valuable experience of participating in these trials bodes well for the future of research related to vision therapy. My hope is that some of these individuals will become future leaders as we begin to study other eye disorders that are treated with vision therapy. Although the challenges of this type of research can be formidable (25 years to finally answer our original question), the rewards are satisfying and long lasting.
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