BD is a multisystem vasculitis syndrome that can involve blood vessels of all types and sizes and affect any tissue or organ. [5] Sixty-five BD patients were analysed, and 6 patients manifested hypertension in the current study. The common feature of these patients is renal artery stenosis as the cause of hypertension. This study expanded the spectrum of childhood Behcet's disease and revealed important prognostic factors.
Vascular BD has been adopted for patients in whom vascular manifestations are present and often dominate the clinical features. Vascular lesions, with an incidence of 12.8%, are one of the main clinical manifestations of BD and may represent a life-threatening condition. [6, 7] Male sex and young age were reported to increase the risk of vascular complications. Vascular lesions occur in 1.8–32.1% of pediatric patients. [8] In China, the incidence of vascular lesions in adult BD is 7.7%. [9] In the past, venous involvement was frequently reported in many studies, while reports about arterial lesions in patients with BD are rare and often lack awareness. It was reported that the frequency of arterial lesions ranges from 1–33.5%. [10–12] In the current study, the frequency was 18.5% (12/65). All 6 patients with hypertension suffered from stage 2 hypertension and hypokalaemia caused by the increased production of renin due to stenosis of the renal arteries. For those patients with hypertension caused by renal artery involvement, hypertension is a progressive process. During the early stage of artery wall thickening, blood pressure could be normal. With the progression of the disease, lumen stenosis may develop and lead to renin-angiotensin-aldosterone system activation, resulting in hypertension.
The patient could be asymptomatic, and the urine test and serum creatinine levels could be normal in the early stage of disease. Without careful and systemic physical examination, it is difficult to detect hypertension and vascular involvement. It will be more difficult and confusing, especially in situations in which the blood pressure is normal at the beginning, which easily leads to ignorance of regular monitoring of blood pressure. In fact, the blood pressure of some patients was normal at the first hospitalization but ignored monitoring after discharge, such as patient 1 and patient 3 in this cohort. The blood pressure of the two patients was normal at the beginning and was not monitored regularly in the course of disease until they developed hypertensive encephalopathy years later, and vascular involvement was detected to screen for the reasons for hypertension. What should be noted and easy to ignore is regular bilateral blood pressure monitoring. There may be two reasons for this: on the one hand, the blood pressure was indeed normal at the beginning, and the other reason may be that the patient's bilateral blood pressure was asymmetric, and the normal blood pressure value was obtained by measuring the blood pressure on the normal side. Therefore, it is important to measure bilateral blood pressure routinely for vascular BD patients. Vascular ultrasound or CTA could help determine whether vascular involvement is present. Once vascular lesions occur, blood pressure should be closely monitored, and hypertension should be treated in a timely manner to prevent damage to important target organs, such as the eyes, heart, brain and kidneys. This reminds us that systematic screening for asymptomatic arterial lesions should be performed in BD rather than venous lesions only to find artery involvement in the early stage and treat in time to avoid important organ involvement. Careful physical examination is crucial in discovering hypertension and vascular murmur, which indicates vascular involvement.
Eight patients in this study had renal artery lesions, and five of them were found to have renal atrophy. Pyknosis related to hypertension and reduced renal blood supply may contribute to this phenomenon. What needs special attention is that five of the six patients had right artery involvement, and the pathogenic association between BD and right renal artery involvement needs to be clarified in future studies. It has been reported that in patients with fibromuscular dysplsia (FMD), which often causes right artery stenosis, the right renal artery is more prone to be involved than the left renal artery, which may be due to renal mobility when assuming an upright position being greater in the right than in the left kidney,[13] therefore, it has been suggested that repeated stretching of the renal artery may cause microtraumas that predispose patients to FMD. [14] Therefore, we speculate that the susceptibility of BD to right renal artery stenosis may also be related to this factor.
According to vascular involvement, the prevalence in this study was 18.5% (12/65), of which renal artery involvement accounted for 12.3% (8/65). Other involved vessels cover the main arteries and veins of intracranial, limbs and organs, with a wide range of lesions. Previous studies have found that veins are more prone to be involved in BD and that vascular involvement, especially thrombosis, is common in men. In this study, the proportions of patients with arterial and venous involvement were similar, and most of the patients were female, which is different from previous studies. A study involving 796 Chinese patients with Behçet’s syndrome reported that 12.8% of the patients were affected by blood vessels, in which the male/female ratio was 4:1 and the average age of onset was 29.5. In addition, 54.9% of patients with BD had arterial involvement, 70.6% of patients had venous lesions, and 25.5% had both arterial and venous involvement. [7, 8] This may be related to ethnic differences and the small number of cohorts. In summary, children with BD should not only be given attention to venous involvement but also arterial involvement and thrombosis. Patients 2 and 4 were detected to have multiple venous thromboses.
According to the laboratory examination, leukocytes increased slightly in 5 patients, and elevated platelets and mild anemia were found in 6 patients. It should be noted that the inflammatory indexes (CRP and ESR) increased in all patients; the average ESR was 90 mm/h, and the average level of CRP was 98.06 mg/dl. It is suggested that when the inflammatory index is significantly increased, attention should be given to vascular involvement. Pathergy reaction was negative in all patients. This might be related to the application of glucocorticoid therapy before the diagnosis. In this study, 5 patients were positive for etiology, suggesting that infection may be the cause of the disease.
All children in this study were treated with glucocorticoids combined with cyclophosphamide, and other immunosuppressants included thalidomide and methotrexate. Three patients with nervous system involvement were treated with methylprednisolone pulse therapy, and two of them were treated with infliximab. Except for one patient who was lost to follow-up, the other patients were followed up for 3.3 years to 6.3 years. The symptoms and laboratory examinations improved, and the average time of clinical remission was 6 months. All three patients were complicated with severe renal artery stenosis. One patient stopped treatment one year after diagnosis and showed manifestations of hypertension and convulsion. Two years later, her kidneys significantly shrank, the renal cortex became thinner, and some renal cortex was discontinuous (Fig. 2A and Fig. 2B). This may be related to long-term hypertension and insufficient blood supply to the kidney. Three patients with venous thrombosis were treated with glucocorticoid pulses combined with TNF-α inhibitors, and one patient was treated with IL-6 inhibitors. Two of the patients were treated by steroid pulse therapy combined with cyclophosphamide. It is concluded that thrombosis in BD is mainly mediated by inflammation and that immunosuppressive therapy should be the core of treatment, including immunosuppressive drugs. [15, 16, 17] Anticoagulant therapy may significantly increase the risk of aneurysm rupture and fatal hemorrhage, and immunosuppressive therapy is important for patients with thrombosis. [18, 19] Hence, patients with venous thrombosis should undergo relevant examinations to detect the existence of pulmonary artery aneurysms.
A study showed that tumor necrosis factor inhibitors associated with other immunosuppressive drugs seem to be effective in the management of major vessel involvement and could reduce the risk of relapse. [20, 21] In the current study, anti-TNF-α agents achieved an ideal therapeutic effect on BD accompanied by pulmonary artery aneurysm and venous thrombosis, and the long-term prognosis should be discussed in further studies. For the treatment of hypertension, it is difficult to achieve the ideal effect. Usually, more than two kinds of antihypertensive drugs are needed (Table 3). Once renal artery stenosis occurs, it may lead to the activation of the renin-angiotensin system, and blood pressure is more difficult to control. The blood pressure of children with renal artery involvement but limited to the thickening of the wall was normal. Timely and effective treatment may prevent renal artery stenosis to protect important target organs. Therefore, routine examination of renal artery ultrasound or CTA in children with BD is as important as monitoring blood pressure.
The limitation of the current research is the small number of patients due to the low incidence. In the long run, multicenter research is needed to identify genes that predispose patients to the condition and improve the detection and quantification of renal artery stenosis.