A window of opportunity is a brief time interval during which a suitable action will achieve success. Once this period passes, the window is closed and the desired outcome is no longer achievable. The therapeutic window of opportunity is a well-established concept of critical importance in medicine, specifically for rheumatoid arthritis (RA), and considerable attention has been paid to its timing [1]. In a case–control study, Nell et al. [2] showed that there was a window of opportunity for highly successful RA treatment in the first year, especially within the first 3 months of therapy, and they suggested that early diagnosis and therapy is a crucial step toward achieving optimal control of RA progression and prognosis. This window represents a very early disease phase in which therapeutic disease modification is more successful, likely because the underlying disease process is not fully matured. A growing body of evidence has emphasized the consistent clinical and radiographic benefits of prompt initiation of disease-modifying anti-rheumatic drugs (DMARDs) for patients with rheumatoid arthritis during the early stages of the disease. Therapeutic intervention during this period alters disease progression in such a way that chronicity is reduced, resulting in a greater proportion of patients in drug-free remission after treatment withdrawal as well as reduced mortality. These findings have led to changes in rheumatoid arthritis treatment paradigms, with an increasing emphasis on early diagnosis and treatment [3, 4].

Timely and appropriate therapeutic intervention may substantially modify the outcome of ocular inflammatory disorders in a similar way.

This may have important consequences for the care of initial-onset acute uveitis associated with Vogt–Koyanagi–Harada (VKH) disease, as delivering the right therapies at the right time could reduce the burden of the disease and substantially alter the outcome. VKH pathogenesis in the eye is characterized by an autoimmune reaction against stromal melanocytes or associated proteins [5,6,7,8]. It is considered a primary stromal choroiditis because the inflammatory reaction electively starts within the choroidal stroma [9]. The initial-onset acute disease typically exhibits granulomatous choroiditis with exudative retinal detachment and optic disk hyperemia and swelling, followed by anterior segment involvement and eventual development into chronic recurrent granulomatous anterior uveitis if not properly treated, with typical “sunset glow fundus” (SGF) and chorioretinal atrophy [10,11,12,13].

Ocular involvement is limited to subclinical occult choroiditis during the prodromal phase of initial-onset disease. Acute clinically apparent ocular disease develops after choroiditis spills over into the neighboring structures. This early stage of disease represents the therapeutic window of opportunity, during which the disease is amenable to appropriate therapeutic intervention. If the window closes without sufficient treatment, evolution will irremediably progress toward chronic disease (smoldering or recurrent) which is much more refractory to treatment and needs prolonged and repeated therapeutic intervention [12].

Chronic disease resulting from improper treatment must be distinguished from initial-onset disease which may be substantially impacted by treatment and susceptible to long-term remission and even cure. Intraocular inflammation in insufficiently treated VKH disease will proceed to recurrent granulomatous anterior and posterior uveitis and typical sunset glow fundus (SGF), even when systemic monotherapy is given early in disease [10,11,12,13,14,15,16].

Therefore, we must consider both the time interval for the window of opportunity, and what is appropriate therapy for the treatment of initial-onset VKH disease.

The exact timing of the therapeutic window is difficult to determine, but it is clear that the earlier appropriate therapy begins, the higher the chances to achieve an optimal outcome. One study defined the therapeutic window as 2 weeks following disease onset [17]. Although each patient is different, it is accurate to conclude that the window of therapeutic opportunity closes approximately 2–3 weeks after initial onset [17]. Immediate use of non-steroidal immunosuppression has the advantage to result in immediate inflammation suppressive activity if immediately acting agents such as cyclosporine are used. If agents with delayed activity are used, such as mycophenolic acid, it results in efficient activity at the needed time when corticosteroid tapering has started.

Fortunately, much more precise information is available about the appropriate therapy for initial-onset VKH disease.

Corticosteroid monotherapy has been shown to be inappropriate even if given within an adequate timeframe

Convincing evidence has become available so far to be able to say that systemic corticosteroid monotherapy is not sufficient even if given at an early stage of disease to prevent chronic evolution. A recent publication reported a high percentage of clinical recurrence in VKH patients given early high-dose corticosteroids with slow taper, as 79% of patients progressed to chronic recurrent disease and 38% developed subretinal fibrosis [18]. Additional studies by Chee et al. [19], and Keino et al. [20], showed that steroid monotherapy given at initial-onset disease was incapable of preventing chronic evolution, which is significantly associated with more severe anterior segment inflammation, has a worse visual acuity [12], a worse mean retinal sensitivity [21] and more frequent complications compared with initial-onset acute VKH disease receiving appropriate therapy [11, 12, 21]. Moreover, it was shown that chronic recurrent disease was far more refractory to treatment [21].

The result of chronic ongoing inflammation of the choroid is SGF, which indicates insufficient therapy. Keino et al. [22] followed 102 patients with VKH disease from initial onset who were treated with high-dose corticosteroid therapy. SGF developed in 67.6% of patients, and the mean duration before SGF appearance was 4.2 ± 2.7 months. Lai et al. [23] similarly demonstrated SGF development in 51.4% of patients who received oral corticosteroids during their first attack of VKH disease. These data represent substantial evidence indicating that systemic corticosteroid monotherapy cannot control progressive subclinical choroidal inflammation in most cases, even when given shortly after onset of the disease.

Combination of steroidal and non-steroidal immunosuppression is required to treat initial-onset acute VKH disease in order to prevent chronic evolution

Because numerous studies have shown that corticosteroid monotherapy is insufficient to prevent chronic evolution, combinations of corticosteroids with first-line non-steroidal immunosuppressive therapies such as cyclosporine, azathioprine, mycophenolate mofetil, anti-tumor necrosis factor-α agents, or others have been proposed to achieve better control of the uveitis, facilitate earlier tapering of corticosteroids, and avoid chronic evolution in acute initial-onset disease [17, 24,25,26,27]. First-line immunosuppression is defined here as the initiation of immunosuppression at the onset of disease concomitant to corticosteroids and not thereafter, as is the case in most studies speaking of first-line immunosuppressive therapy.

Subclinical choroiditis is the reason for chronic evolution and is clearly identified by ICGA, uncovering active choroidal inflammation in an apparently quiescent eye during follow-up while monitoring corticosteroid tapering [28,29,30,31,32,33]. This shows that the standard corticosteroid monotherapy is indeed suppressing clinically apparent disease, but is insufficient to suppress choroidal inflammation [32]. Subclinical evolution of choroidal inflammation has also been clearly documented by several groups investigating smoldering disease with the help of ICGA [28,29,30,31,32,33], explaining that the development of SGF despite corticosteroid therapy results from the progressive loss of stromal melanocytes due to the ongoing insufficiently controlled immunological process [19, 32]. This is a strong incentive to maintain sufficiently dosed therapy including first-line non-steroidal immunosuppressive drugs, even in the subacute phase and during the corticosteroid tapering process, to be sure to eradicate choroidal inflammation [24,25,26,27,28,29,30,31,32,33]. An Indian group proposed early and high-dose triple agent immunosuppression in 2006 and reported favorable outcomes with disease remission in all five reported patients [34].

Association of steroidal and non-steroidal immunosuppression induces long-term remission and even cure of VKH disease

Abu El-Asrar et al. [24] determined the effectiveness of mycophenolate mofetil (Cellcept®) combined with systemic corticosteroids as first-line therapy for very early initial-onset acute VKH disease without AC inflammatory signs [26]. They compared the outcomes in this group with those of a group of patients with acute VKH uveitis treated with corticosteroid monotherapy or with the previously reported delayed addition of immunomodulatory therapy [35]. The use of Cellcept® as first-line therapy combined with systemic corticosteroids was safe and effective in the treatment of acute uveitis associated with VKH disease, and significantly reduced the development of chronic recurrent inflammation and late complications and also improved visual outcome. None of the patients developed SGF, suggesting that it was also effective in controlling progressive subclinical choroidal inflammation. Mycophenolate mofetil was also effective in preventing the development of vitiligo, poliosis, alopecia, and sensory hearing loss [24, 26]. In a series [26] of 38 patients with initial-onset acute uveitis associated with VKH disease, 22 (57.9%) patients were able to discontinue treatment without relapse of inflammation. The median durations of corticosteroid therapy and mycophenolate mofetil therapy in these patients were 17.5 and 20.2 months, respectively, and the patients were off treatment for a median period of 25.5 months.

Another study compared medium-dose corticosteroid monotherapy to high-dose corticosteroid therapy combined with non-steroidal immunosuppression and showed that all patients in the corticosteroid monotherapy group showed SGF after 4 months. ICGA also showed the persistence of numerous hypofluorescent dark dots (HDDs) in the corticosteroid group, while no patient showed SGF nor HDDs in the combined group [32].

In a series of 9 VKH patients receiving combined steroidal and non-steroidal immunosuppression with ICGA assisted monitoring of therapy to detect subclinical recurrence of choroiditis, a high proportion (7/9, 78%) of cases “healed” with no recurrent activity within a mean follow-up therapy-free period of 26 ± 14.8 months, and a low proportion of cases developed SGF (3/9, 33%) [29]. However, the mean duration of treatment was 27.3 months ± 38.2 months (range 9–114), much longer than the 6–9 months typically recommended in the literature [29]. These results indicate that early, combined, sustained, and if possible ICGA-monitored treatment is able to modify the VKH disease phenotype, avoiding SGF and achieving cure, much in the same fashion as early and sustained therapy changes the phenotype of birdshot retinochoroiditis [36]. Treatment duration is variable and individually different, depending on the time-point of treatment initiation, disease severity, and individual susceptibility to treatment, which may include biomarkers indicating therapy response in the future [37]. Treatment should not be stopped if subclinical ICGA-detected choroiditis remains present, and the duration should be 15 months at minimum, and ideally closer to 24 months [29].

Initial-onset acute VKH, a condition particularly prone to benefit from the concept of therapeutic window of opportunity

The particularity of initial-onset acute VKH is that inflammation develops exclusively within the choroid, meaning that intraocular inflammation completely subsides once choroiditis is completely under control, as there is no other origin of inflammation. However, we know by now that all choroidal inflammation may not be silenced even when clinically apparent disease appears to be under control. ICGA monitoring of VKH patients under treatment has shown that choroidal inflammation is still present in most cases once clinical signs as well as morphological and functional parameters have normalized [28,29,30,31,32,33, 38,39,40], and the persistence of this choroidal subclinical disease explains the evolution toward SGF in most insufficiently treated cases [20, 22, 41].

Zero tolerance to choroiditis must therefore be the aim if cure of the disease is to be achieved. Some authors proposed ICGA monitoring for regression of choroidal disease in the convalescent phase of disease and long-term tapering of therapy until absence of recurrence of choroidal subclinical disease, i.e., absence of recurrence of hypofluorescent dark dots (HDDs) on ICGA [29]. Ideally, if possible and available to the clinician, meaningful ICGA monitoring presupposes an ICGA every 5–6 weeks during the first 4–6 months and then every 2–3 months during the long-term tapering period [29]. Performing an ICGA every 6 months in the follow-up of VKH disease does not allow for timely treatment modification, but is nevertheless useful in order to provide information about the presence or absence of subclinical occult choroiditis [42]. ICGA is very reactive and precise for evaluating disease activity in the choroid and allows for therapy readjustment and safe tapering [43]. The treatment durations reported in textbooks or in published literature are not long enough to achieve zero tolerance of choroiditis and safe withdrawal of treatment [29, 44]. With optimal management including early combined steroidal and first-line non-steroidal immunosuppression, SGF should not be considered part of the natural course of the disease, but rather the result of insufficient treatment that failed to stop subclinical choroidal inflammation [45]. In contrast to many reports, a recent report stated that corticosteroid therapy in initial-onset disease was sufficient to achieve a satisfactory outcome with non-steroidal immunosuppression necessary in only 15.3% of cases [46]. No information was given, however, on the rate of clinical chronic evolution, nor on occult chronic evolution as ICGA was not performed. No information was given either on treatment-free follow-up. Sunset glow fundus was reported at the rate of close to 50%, anterior and posterior recurrence at the rate of 22.5% and complications at the rate of 21.2%. Judging by these numbers, chronic evolution must not have been negligible.

Perspective: the therapeutic window of opportunity in VKH

In summary, VKH disease is a primary stromal choroiditis with inflammation initiating exclusively from the choroid, the structure that should be targeted by therapy. The choroidal compartment is easily accessible to systemic therapy, unlike the retina. There is increasing evidence that a substantial proportion of cases can be cured before depigmentation occurs if treatment is conducted with a zero tolerance for recurrence of the mostly subclinical choroiditis that can be detected by ICGA, Three crucial conditions must be satisfied to achieve this goal: (1) early therapy initiation, given that the therapeutic window is likely the 2–3 first weeks following disease onset, (2) a combination of steroidal and first-line non-steroidal immunosuppression, and (3) zero tolerance to subclinical choroiditis, best monitored by ICGA with the need to re-increase therapy if HDDs are still present or reappear.

The disease will evolve toward chronic VKH in the absence of such a strict approach within an appropriate time period, a disease differentiated from initial-onset VKH and more resistant to therapy, not prone to remission, and often leading to ocular (SGF, subretinal fibrosis, glaucoma) and extra-ocular complications including integumentary changes (vitiligo, alopecia, poliosis) and hearing loss.