PAPA综合征:实现长期缓解的挑战。

Hana Smajlović, Asja Prohić
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Additionally, the levels of other pro-inflammatory cytokines, such as tumor necrosis factor-α (TNF-α), interferon-γ (INF-γ) and interleukin 17 (IL-7) are also elevated, which further disrupts inflammatory mechanisms in the microenvironment (4). Since hyperproduction of IL-1 and other involved cytokines is the predominant event in the pathogenesis, these molecules are promising targets in the treatment of PAPA syndrome. Corticosteroids and biologics are currently the most commonly used agents for inducing and hastening remission of symptoms (5). A substantial step forward in the treatment of PAPA syndrome has been the introduction of medications blocking the cytokines crucial in the pathogenesis of this disorder, with TNF-α and IL-1 inhibitors being the most frequent choice of such biological therapy (6). We report the case of a 22-year-old male patient with PAPA syndrome who was referred to our department 18 months ago due to exacerbation of skin changes. Initial presentation and subsequent evolution of disease in this patient matched the typical clinical pattern of PAPA syndrome. The first symptoms occurred at the age of two in the form of unspecific joint disease that was diagnosed as juvenile idiopathic arthritis. Subsequently, in the early adolescence the patient presented with new skin changes manifesting as severe acne and persistent pyoderma gangrenosum-like ulcers. At the same time, severity of joint involvement gradually decreased. After the characteristic phenotype of the disease had fully developed, suspicion of possible syndromic origin of symptoms arose. For this reason, genetic analysis was performed as requested by attending pediatricians at the University Clinical Center in Sarajevo, and E250Q mutation of the PSTPIP1 gene was detected. Thus, the diagnosis of PAPA syndrome was confirmed. Throughout the duration of the disease, several types of medication had been introduced in the treatment with varying success. Earliest joint symptoms were alleviated with non-steroidal anti-inflammatory drugs, while repeated courses of corticosteroids were the mainstay of the therapy during a decade-long period. As a consequence of prolonged steroid therapy, growth disorder, among various other side-effects, had been especially pronounced. Acting as a classic steroid-sparing immunosuppressive agent, methotrexate had also been part of the patient's treatment regimen. Lastly, biologics, including both TNF-α and IL-a inhibitors, had been separately administered as the remaining treatment options. However, adalimumab expressed a predominant effect on joint symptoms, whereas re-activation of previously undetected Hepatitis-B infection occurred during the subsequent therapy with anakinra. Due to this adverse reaction, anakinra treatment was discontinued. At the initial examination, the patient presented with multiple erythematous, partially excoriated papules and nodules, along with residual post-inflammatory hyperpigmented patches and scars on the skin of the whole back, chest, shoulders, and upper arms (Figure 1, Figure 2). The presence of postoperative scars on the elbows, resulting from previously performed surgical procedures of persistently affected joints with the goal of achieving pain relief and functional improvement, was also observed. Several smaller ulcers with undermined edges (Figure 3), as well as residual hyperpigmentation and cicatrices (Figure 4) were visible on the lower extremities. Additionally, the patient reported appearance of pustules and non-healing ulcers after minor trauma, which corresponds to the pathergy phenomenon, a common feature of PAPA syndrome. In contrast to the severity of cutaneous changes, the joint symptoms were mild. After thorough assessment of the patient's medical history and current condition, a multi-agent regimen was initiated, consisting of adalimumab, isotretinoin, and prednisone. Regular check-ups during the 12 months of treatment showed that the applied agents stabilized the patient's condition, alleviated more severe and acute skin changes, and slowed down further exacerbation of symptoms. Due to the rarity of PAPA syndrome, data on its treatment is scarce. Official guidelines are non-existing, and available information is based on case reports, case series, and a few smaller retrospective studies (5,7). In general, response to therapy remains inconsistent between patients, despite introduction of novel drugs. Furthermore, single treatment regimens are often not equally effective for all manifestations of the disease, which in a number of cases results in the administration of multi-agent treatment (2). As described in our case report, we opted for a multi-agent regimen not only due to specific individual role of each drug in the treatment of PAPA syndrome but also because of the possible augmented effect of combined therapy. Initially, a short course of systemic corticosteroid (prednisone 30 mg/day for 3 weeks) was introduced in order to alleviate acute symptoms until other agents started showing their effects. The initial dose of administered corticosteroid was gradually tapered by 5 mg every week and soon discontinued. Adalimumab (40 mg every 2 weeks for 12 months) was chosen since its previous administration was without significant adverse effects and with more acceptable end results, unlike therapy with anakinra (8). In addition, TNF-α inhibitors, such as adalimumab, etanercept, and infliximab, have been generally regarded as a more effective treatment option for cutaneous changes, while anakinra, an anti-IL-1 agent, has been more beneficial in alleviating joint symptoms (9-11). Since the skin of our patient was significantly more affected than the joints, adalimumab was a preferred option for biological treatment. Finally, isotretinoin (0.5 mg/kg/day for 6 months) also found a place in our multi-agent therapy plan as a specific, supportive treatment agent for acne (12). Due to the fact that our national health insurance system covered the costs of treatment with TNF-α inhibitors for only 12 months, adalimumab had to be discontinued after the end of this period. Episodes of acute exacerbation that the patient experienced after the cessation of multi-agent regimen were addressed with systemic corticosteroids and symptomatic therapy. Based on case reports, corticosteroids are usually one of the first agents to be administered in patients diagnosed with PAPA syndrome. They are frequently effective in alleviating joint symptoms, but, on the other hand, high doses of corticosteroids can worsen acne lesions (6). Moreover, due to the multiple side-effects of corticosteroids, such as electrolyte abnormalities, hypertension, hyperglycemia, osteoporosis, growth suppression, and adrenal insufficiency (13), a steroid-sparing agent is typically introduced into treatment together with or after corticosteroid therapy. A substantial step forward in the treatment of PAPA syndrome has been achieved with the introduction of medications targeting cytokines crucial in the pathogenesis of this disorder. The two most commonly used groups of such biological drugs have been those that block TNF-α and IL-1. A longer lasting improvement of symptoms has been achieved in a number of cases with both types of agents. Since other medications have often failed to establish long-term control of PAPA syndrome, such effects can be seen as a valuable accomplishment (6,14). Regardless of this observation, the response to treatment still differs between patients. More variable effects have been documented for IL-1 inhibitors, such as anakinra, while TNF-α inhibitors, such as adalimumab, infliximab, and etanercept, have been associated with more steady responses (4,6,10). The inconsistent effect of biologic therapies could be explained by the fact that PSTPIP1 protein is involved in various biochemical processes in different cells of the immune system. Thuse, none of the medications has an adequate spectrum of activity to control all involved immunological pathways (5,15). Overall, due to scarcity of valid information and guidelines, there is an increasing need for multicentric randomized controlled trials that would provide evidence-based data on effective treatment options for PAPA syndrome. Despite the rarity of this disorder, extensive research should be performed in order to discover therapies that could successfully manage all different manifestations of PAPA syndrome. Consequently, such efforts and breakthroughs would lead to decreased mortality and improved quality of life for patients suffering from this debilitating disease. The case described herein shows that PAPA syndrome can remain undiagnosed for longer periods of time, resulting in delayed treatment. Furthermore, the available therapeutic options are not sufficient to achieve long-term remission in many patients. 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Due to the involvement of the PSTPIP1 gene in the regulation of innate immunity, mutations of this gene cause abnormal activation of inflammasomes, complexes of NLRP3/ASC/caspase-1 proteins. As a result, production of interleukin-1β, a key molecule that triggers synthesis of cytokines necessary for the recruitment of neutrophils, is significantly increased (2,3). Additionally, the levels of other pro-inflammatory cytokines, such as tumor necrosis factor-α (TNF-α), interferon-γ (INF-γ) and interleukin 17 (IL-7) are also elevated, which further disrupts inflammatory mechanisms in the microenvironment (4). Since hyperproduction of IL-1 and other involved cytokines is the predominant event in the pathogenesis, these molecules are promising targets in the treatment of PAPA syndrome. Corticosteroids and biologics are currently the most commonly used agents for inducing and hastening remission of symptoms (5). A substantial step forward in the treatment of PAPA syndrome has been the introduction of medications blocking the cytokines crucial in the pathogenesis of this disorder, with TNF-α and IL-1 inhibitors being the most frequent choice of such biological therapy (6). We report the case of a 22-year-old male patient with PAPA syndrome who was referred to our department 18 months ago due to exacerbation of skin changes. Initial presentation and subsequent evolution of disease in this patient matched the typical clinical pattern of PAPA syndrome. The first symptoms occurred at the age of two in the form of unspecific joint disease that was diagnosed as juvenile idiopathic arthritis. Subsequently, in the early adolescence the patient presented with new skin changes manifesting as severe acne and persistent pyoderma gangrenosum-like ulcers. At the same time, severity of joint involvement gradually decreased. After the characteristic phenotype of the disease had fully developed, suspicion of possible syndromic origin of symptoms arose. For this reason, genetic analysis was performed as requested by attending pediatricians at the University Clinical Center in Sarajevo, and E250Q mutation of the PSTPIP1 gene was detected. Thus, the diagnosis of PAPA syndrome was confirmed. Throughout the duration of the disease, several types of medication had been introduced in the treatment with varying success. Earliest joint symptoms were alleviated with non-steroidal anti-inflammatory drugs, while repeated courses of corticosteroids were the mainstay of the therapy during a decade-long period. As a consequence of prolonged steroid therapy, growth disorder, among various other side-effects, had been especially pronounced. Acting as a classic steroid-sparing immunosuppressive agent, methotrexate had also been part of the patient's treatment regimen. Lastly, biologics, including both TNF-α and IL-a inhibitors, had been separately administered as the remaining treatment options. However, adalimumab expressed a predominant effect on joint symptoms, whereas re-activation of previously undetected Hepatitis-B infection occurred during the subsequent therapy with anakinra. Due to this adverse reaction, anakinra treatment was discontinued. At the initial examination, the patient presented with multiple erythematous, partially excoriated papules and nodules, along with residual post-inflammatory hyperpigmented patches and scars on the skin of the whole back, chest, shoulders, and upper arms (Figure 1, Figure 2). The presence of postoperative scars on the elbows, resulting from previously performed surgical procedures of persistently affected joints with the goal of achieving pain relief and functional improvement, was also observed. Several smaller ulcers with undermined edges (Figure 3), as well as residual hyperpigmentation and cicatrices (Figure 4) were visible on the lower extremities. Additionally, the patient reported appearance of pustules and non-healing ulcers after minor trauma, which corresponds to the pathergy phenomenon, a common feature of PAPA syndrome. In contrast to the severity of cutaneous changes, the joint symptoms were mild. After thorough assessment of the patient's medical history and current condition, a multi-agent regimen was initiated, consisting of adalimumab, isotretinoin, and prednisone. Regular check-ups during the 12 months of treatment showed that the applied agents stabilized the patient's condition, alleviated more severe and acute skin changes, and slowed down further exacerbation of symptoms. Due to the rarity of PAPA syndrome, data on its treatment is scarce. Official guidelines are non-existing, and available information is based on case reports, case series, and a few smaller retrospective studies (5,7). In general, response to therapy remains inconsistent between patients, despite introduction of novel drugs. Furthermore, single treatment regimens are often not equally effective for all manifestations of the disease, which in a number of cases results in the administration of multi-agent treatment (2). As described in our case report, we opted for a multi-agent regimen not only due to specific individual role of each drug in the treatment of PAPA syndrome but also because of the possible augmented effect of combined therapy. Initially, a short course of systemic corticosteroid (prednisone 30 mg/day for 3 weeks) was introduced in order to alleviate acute symptoms until other agents started showing their effects. The initial dose of administered corticosteroid was gradually tapered by 5 mg every week and soon discontinued. Adalimumab (40 mg every 2 weeks for 12 months) was chosen since its previous administration was without significant adverse effects and with more acceptable end results, unlike therapy with anakinra (8). In addition, TNF-α inhibitors, such as adalimumab, etanercept, and infliximab, have been generally regarded as a more effective treatment option for cutaneous changes, while anakinra, an anti-IL-1 agent, has been more beneficial in alleviating joint symptoms (9-11). Since the skin of our patient was significantly more affected than the joints, adalimumab was a preferred option for biological treatment. Finally, isotretinoin (0.5 mg/kg/day for 6 months) also found a place in our multi-agent therapy plan as a specific, supportive treatment agent for acne (12). Due to the fact that our national health insurance system covered the costs of treatment with TNF-α inhibitors for only 12 months, adalimumab had to be discontinued after the end of this period. Episodes of acute exacerbation that the patient experienced after the cessation of multi-agent regimen were addressed with systemic corticosteroids and symptomatic therapy. Based on case reports, corticosteroids are usually one of the first agents to be administered in patients diagnosed with PAPA syndrome. They are frequently effective in alleviating joint symptoms, but, on the other hand, high doses of corticosteroids can worsen acne lesions (6). Moreover, due to the multiple side-effects of corticosteroids, such as electrolyte abnormalities, hypertension, hyperglycemia, osteoporosis, growth suppression, and adrenal insufficiency (13), a steroid-sparing agent is typically introduced into treatment together with or after corticosteroid therapy. A substantial step forward in the treatment of PAPA syndrome has been achieved with the introduction of medications targeting cytokines crucial in the pathogenesis of this disorder. The two most commonly used groups of such biological drugs have been those that block TNF-α and IL-1. A longer lasting improvement of symptoms has been achieved in a number of cases with both types of agents. Since other medications have often failed to establish long-term control of PAPA syndrome, such effects can be seen as a valuable accomplishment (6,14). Regardless of this observation, the response to treatment still differs between patients. More variable effects have been documented for IL-1 inhibitors, such as anakinra, while TNF-α inhibitors, such as adalimumab, infliximab, and etanercept, have been associated with more steady responses (4,6,10). The inconsistent effect of biologic therapies could be explained by the fact that PSTPIP1 protein is involved in various biochemical processes in different cells of the immune system. Thuse, none of the medications has an adequate spectrum of activity to control all involved immunological pathways (5,15). 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引用次数: 0

摘要

20多年来,首字母缩略词PAPA综合征一直被用来描述由PSTPIP1(脯氨酸-丝氨酸-苏氨酸磷酸酶相互作用蛋白1)基因错义突变引起的自身炎症,临床特征为存在化脓性关节炎、坏疽性脓皮病(PG)和痤疮(1,2)。由于PSTPIP1基因参与先天免疫的调控,该基因的突变会导致炎性小体NLRP3/ASC/caspase-1蛋白复合物的异常激活。因此,白细胞介素-1β的产生显著增加(2,3),白细胞介素-1β是触发中性粒细胞募集所需细胞因子合成的关键分子。此外,其他促炎细胞因子,如肿瘤坏死因子-α (TNF-α)、干扰素-γ (INF-γ)和白细胞介素17 (IL-7)的水平也升高,这进一步破坏了微环境中的炎症机制(4)。由于IL-1和其他相关细胞因子的过量产生是发病机制的主要事件,这些分子是治疗PAPA综合征的有希望的靶点。皮质类固醇和生物制剂是目前最常用的诱导和加速症状缓解的药物(5)。在PAPA综合征的治疗中,一个实质性的进步是引入了阻断在该疾病发病机制中至关重要的细胞因子的药物。TNF-α和IL-1抑制剂是此类生物治疗的最常见选择(6)。我们报告一例22岁的PAPA综合征男性患者,18个月前因皮肤变化加剧而转介至我科。该患者的最初表现和随后的疾病演变符合典型的PAPA综合征的临床模式。最初的症状出现在两岁时,以非特异性关节疾病的形式被诊断为幼年特发性关节炎。随后,在青少年早期,患者出现了新的皮肤变化,表现为严重的痤疮和持续的脓皮坏疽样溃疡。同时,关节受累的严重程度逐渐降低。在疾病的特征性表型完全发展后,怀疑症状可能是综合征起源。因此,根据萨拉热窝大学临床中心主治儿科医生的要求进行了遗传分析,检测到PSTPIP1基因的E250Q突变。因此,PAPA综合征的诊断得到证实。在整个疾病期间,在治疗中引入了几种类型的药物,取得了不同程度的成功。最早的关节症状通过非甾体类抗炎药物得到缓解,而在长达十年的治疗期间,皮质类固醇的反复疗程是主要的治疗方法。由于长期使用类固醇治疗,生长障碍和其他各种副作用尤为明显。作为一种经典的类固醇免疫抑制剂,甲氨蝶呤也是患者治疗方案的一部分。最后,生物制剂,包括TNF-α和IL-a抑制剂,作为剩余的治疗选择分别给予。然而,阿达木单抗表现出对关节症状的主要作用,而在随后的阿那真纳治疗期间,先前未检测到的乙型肝炎感染再次激活。由于这种不良反应,阿那白停止了治疗。初步检查时,患者表现为多发红斑、部分去皮丘疹和结节,并在整个背部、胸部、肩部和上臂的皮肤上残留炎症后色素沉着的斑块和疤痕(图1、图2)。肘部存在术后疤痕,这是由于先前为缓解疼痛和改善功能而对持续受影响的关节进行手术所致。也观察到。下肢可见几个边缘受损的较小溃疡(图3),以及残留的色素沉着和瘢痕(图4)。此外,患者报告轻微创伤后出现脓疱和未愈合的溃疡,这与PAPA综合征的共同特征疼痛现象相对应。与严重的皮肤变化相比,关节症状较轻。在对患者的病史和现状进行全面评估后,开始采用多药治疗方案,包括阿达木单抗、异维甲酸和强的松。在12个月的治疗期间定期检查表明,所施药物稳定了患者的病情,减轻了更严重和急性的皮肤变化,减缓了症状的进一步恶化。由于PAPA综合征的罕见性,有关其治疗的数据很少。
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PAPA Syndrome: Challenges in Achieving Long-Term Remission.

For over two decades, the acronym PAPA syndrome has been used to describe an autoinflammatory condition caused by missense mutations in the PSTPIP1 (proline-serine-threonine phosphatase interacting protein 1) gene and clinically characterized by the presence of pyogenic arthritis, pyoderma gangrenosum (PG), and acne (1,2). Due to the involvement of the PSTPIP1 gene in the regulation of innate immunity, mutations of this gene cause abnormal activation of inflammasomes, complexes of NLRP3/ASC/caspase-1 proteins. As a result, production of interleukin-1β, a key molecule that triggers synthesis of cytokines necessary for the recruitment of neutrophils, is significantly increased (2,3). Additionally, the levels of other pro-inflammatory cytokines, such as tumor necrosis factor-α (TNF-α), interferon-γ (INF-γ) and interleukin 17 (IL-7) are also elevated, which further disrupts inflammatory mechanisms in the microenvironment (4). Since hyperproduction of IL-1 and other involved cytokines is the predominant event in the pathogenesis, these molecules are promising targets in the treatment of PAPA syndrome. Corticosteroids and biologics are currently the most commonly used agents for inducing and hastening remission of symptoms (5). A substantial step forward in the treatment of PAPA syndrome has been the introduction of medications blocking the cytokines crucial in the pathogenesis of this disorder, with TNF-α and IL-1 inhibitors being the most frequent choice of such biological therapy (6). We report the case of a 22-year-old male patient with PAPA syndrome who was referred to our department 18 months ago due to exacerbation of skin changes. Initial presentation and subsequent evolution of disease in this patient matched the typical clinical pattern of PAPA syndrome. The first symptoms occurred at the age of two in the form of unspecific joint disease that was diagnosed as juvenile idiopathic arthritis. Subsequently, in the early adolescence the patient presented with new skin changes manifesting as severe acne and persistent pyoderma gangrenosum-like ulcers. At the same time, severity of joint involvement gradually decreased. After the characteristic phenotype of the disease had fully developed, suspicion of possible syndromic origin of symptoms arose. For this reason, genetic analysis was performed as requested by attending pediatricians at the University Clinical Center in Sarajevo, and E250Q mutation of the PSTPIP1 gene was detected. Thus, the diagnosis of PAPA syndrome was confirmed. Throughout the duration of the disease, several types of medication had been introduced in the treatment with varying success. Earliest joint symptoms were alleviated with non-steroidal anti-inflammatory drugs, while repeated courses of corticosteroids were the mainstay of the therapy during a decade-long period. As a consequence of prolonged steroid therapy, growth disorder, among various other side-effects, had been especially pronounced. Acting as a classic steroid-sparing immunosuppressive agent, methotrexate had also been part of the patient's treatment regimen. Lastly, biologics, including both TNF-α and IL-a inhibitors, had been separately administered as the remaining treatment options. However, adalimumab expressed a predominant effect on joint symptoms, whereas re-activation of previously undetected Hepatitis-B infection occurred during the subsequent therapy with anakinra. Due to this adverse reaction, anakinra treatment was discontinued. At the initial examination, the patient presented with multiple erythematous, partially excoriated papules and nodules, along with residual post-inflammatory hyperpigmented patches and scars on the skin of the whole back, chest, shoulders, and upper arms (Figure 1, Figure 2). The presence of postoperative scars on the elbows, resulting from previously performed surgical procedures of persistently affected joints with the goal of achieving pain relief and functional improvement, was also observed. Several smaller ulcers with undermined edges (Figure 3), as well as residual hyperpigmentation and cicatrices (Figure 4) were visible on the lower extremities. Additionally, the patient reported appearance of pustules and non-healing ulcers after minor trauma, which corresponds to the pathergy phenomenon, a common feature of PAPA syndrome. In contrast to the severity of cutaneous changes, the joint symptoms were mild. After thorough assessment of the patient's medical history and current condition, a multi-agent regimen was initiated, consisting of adalimumab, isotretinoin, and prednisone. Regular check-ups during the 12 months of treatment showed that the applied agents stabilized the patient's condition, alleviated more severe and acute skin changes, and slowed down further exacerbation of symptoms. Due to the rarity of PAPA syndrome, data on its treatment is scarce. Official guidelines are non-existing, and available information is based on case reports, case series, and a few smaller retrospective studies (5,7). In general, response to therapy remains inconsistent between patients, despite introduction of novel drugs. Furthermore, single treatment regimens are often not equally effective for all manifestations of the disease, which in a number of cases results in the administration of multi-agent treatment (2). As described in our case report, we opted for a multi-agent regimen not only due to specific individual role of each drug in the treatment of PAPA syndrome but also because of the possible augmented effect of combined therapy. Initially, a short course of systemic corticosteroid (prednisone 30 mg/day for 3 weeks) was introduced in order to alleviate acute symptoms until other agents started showing their effects. The initial dose of administered corticosteroid was gradually tapered by 5 mg every week and soon discontinued. Adalimumab (40 mg every 2 weeks for 12 months) was chosen since its previous administration was without significant adverse effects and with more acceptable end results, unlike therapy with anakinra (8). In addition, TNF-α inhibitors, such as adalimumab, etanercept, and infliximab, have been generally regarded as a more effective treatment option for cutaneous changes, while anakinra, an anti-IL-1 agent, has been more beneficial in alleviating joint symptoms (9-11). Since the skin of our patient was significantly more affected than the joints, adalimumab was a preferred option for biological treatment. Finally, isotretinoin (0.5 mg/kg/day for 6 months) also found a place in our multi-agent therapy plan as a specific, supportive treatment agent for acne (12). Due to the fact that our national health insurance system covered the costs of treatment with TNF-α inhibitors for only 12 months, adalimumab had to be discontinued after the end of this period. Episodes of acute exacerbation that the patient experienced after the cessation of multi-agent regimen were addressed with systemic corticosteroids and symptomatic therapy. Based on case reports, corticosteroids are usually one of the first agents to be administered in patients diagnosed with PAPA syndrome. They are frequently effective in alleviating joint symptoms, but, on the other hand, high doses of corticosteroids can worsen acne lesions (6). Moreover, due to the multiple side-effects of corticosteroids, such as electrolyte abnormalities, hypertension, hyperglycemia, osteoporosis, growth suppression, and adrenal insufficiency (13), a steroid-sparing agent is typically introduced into treatment together with or after corticosteroid therapy. A substantial step forward in the treatment of PAPA syndrome has been achieved with the introduction of medications targeting cytokines crucial in the pathogenesis of this disorder. The two most commonly used groups of such biological drugs have been those that block TNF-α and IL-1. A longer lasting improvement of symptoms has been achieved in a number of cases with both types of agents. Since other medications have often failed to establish long-term control of PAPA syndrome, such effects can be seen as a valuable accomplishment (6,14). Regardless of this observation, the response to treatment still differs between patients. More variable effects have been documented for IL-1 inhibitors, such as anakinra, while TNF-α inhibitors, such as adalimumab, infliximab, and etanercept, have been associated with more steady responses (4,6,10). The inconsistent effect of biologic therapies could be explained by the fact that PSTPIP1 protein is involved in various biochemical processes in different cells of the immune system. Thuse, none of the medications has an adequate spectrum of activity to control all involved immunological pathways (5,15). Overall, due to scarcity of valid information and guidelines, there is an increasing need for multicentric randomized controlled trials that would provide evidence-based data on effective treatment options for PAPA syndrome. Despite the rarity of this disorder, extensive research should be performed in order to discover therapies that could successfully manage all different manifestations of PAPA syndrome. Consequently, such efforts and breakthroughs would lead to decreased mortality and improved quality of life for patients suffering from this debilitating disease. The case described herein shows that PAPA syndrome can remain undiagnosed for longer periods of time, resulting in delayed treatment. Furthermore, the available therapeutic options are not sufficient to achieve long-term remission in many patients. Thus, continuous and comprehensive research is vital for ensuring adequate care of patients with PAPA syndrome.

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