CVIR Endovascular volume 5, Article number: 26 (2022) Cite this article Show
AbstractBackgroundPathologic studies have shown that in patients with critical limb threatening ischaemia (CLTI) medial arterial calcifications are frequently found and may be responsible for aggravating the disease. These extensive calcifitcations are found not only in arteries of the leg but also in the coronary arteries and the aorta. The progression of these calcifications is fast and they stiffen the vessel wall and may thus increase the cardiovascular risk. Reduction of progression of calcification may not only reduce the burden of CLTI but may also reduce the high residual cardiovascular risk. Medial calcifications have been halted by etidronate in other trials. Its potential to reduce the burden from peripheral vascular disease in CLTI and residual cardiovascular risk remains to be established. MethodsThis is an investigator-initiated multicenter, double blind, placebo-controlled, randomized trial comparing the effects of etidronate versus placebo in patients with CLTI. Subjects will be randomized to either treatment with etidronate for 12 months (cyclical 20 mg/kg for 2 weeks on and 10 weeks off) orally or placebo for 12 months (in a similar routine). The primary endpoint is the change in arterial calcification as quantified by CT-scan. Secondary endpoints are the number of amputations above and below the ankle, mortality, number of vascular interventions and quality of life. DiscussionUp to now, the inert end stage of vascular disease in patients with CLTI, has been considered calcification of vessel walls. We believe there is reason to reverse causation and hypothesize that calcification causes vascular disease. This reversal can be proven in a clinical trial if halting the calcification process improves the outcome of the patient. Therefore we use etidronate, a bisphosphate that has proven to stop the calcification in several rare monogenetic calcifying diseases. We aim to perform this mechanistic proof-of-concept study hopefully leading to a clinical outcome study later on. Peer Review reports BackgroundCLTI is the most severe type of peripheral vascular disease. Patients with CLTI have pain at rest and skin wounds in the leg(s). In addition, the cardiovascular mortality is high. A recent systematic review and meta-analysis on the outcome of conservative treatment of CLTI patients showed that within 1 year of diagnosis 18% of the patients died and 27% underwent amputation. The one year amputation free survival rate was 60% (Spreen et al. 2016; Van Reijen et al. 2021). In addition, the PADI-trial reported a 10-year survival of only ±20% (Konijn et al. 2020b). With an estimated yearly incidence of 500–1000 new cases per million individuals in Western society, CLTI poses a considerable burden on patients’ health and resources (Teraa et al. 2016). Several histopathologic studies of amputated legs of CLTI patients have shown that calcification of the media is present in up to 72% of patients and that the classical atherosclerotic disease is less pronounced (O’Neill et al. 2015; Soor et al. 2008) In a group of 54 CLTI patients, we reported that virtually all had severely calcified peripheral vessels, coronary arteries and a severely calcified aorta. The median coronary artery calcium score was 1485 and in 19 of 45 (35%) patients, it was above 2000. The thoracic and the abdominal aorta where completely annular calcified in 37%, 31% of cases respectively. Although treatment of CLTI has improved, there still is a high cardiovascular mortality. Current treatment strategies target on luminal thrombosis and cholesterol-driven atherosclerosis, a process mainly located in the intima. However, a process which co-occurs with atherosclerosis, arterial calcification, may independently lead to vascular disease. Arterial calcifications, especially when located in the media, are a cause of vascular stiffening and an independent cause of vascular disease (Konijn et al. 2021; Konijn et al. 2020a; Lanzer et al. 2014; Teraa et al. 2016) A meta-analysis showed that calcification in any vascular bed is associated with a three to fourfold increased risk for cardiovascular events and mortality (Rennenberg et al. 2009). We postulate that medial arterial calcification can aggravate CLTI and at the same time can be present in other vascular territories causing acute coronary syndrome or stroke. Halting the progression of these calcifications may improve the outcome of the patients. The strongest inhibitor of vascular calcification in the body is inorganic pyrophosphate (PPi) (Evrard et al. 2015; Fleisch et al. 1965). Etidronate, the oldest bisphosphate is a stable PPi analogue, which has been used for the treatment of osteoporosis. It stops the vascular calcification in several rare monogenetic calcifying diseases and was effective in several RCT’s (Bartstra et al. 2020; Kawahara et al. 2013; Kranenburg et al. 2018; Oliveira and Oliveira 2016) A meta-analysis showed that the risk of cardiovascular mortality in patients treated with bisphosphonates decreased with 19% (RR 0.81; 95% CI 0.64–1.02) and that the risk of all-cause mortality decreased with 10% (RR 0.90; 95% CI 0.84–0.98) (Kranenburg et al. 2016). Although there is evidence that etidronate is effective in improving proxy endpoints, both mechanistic studies and studies with clinically relevant endpoints are lacking in CLTI. Methods/designThis is an investigator-initiated double blind, placebo-controlled, randomized clinical trial comparing the effects of etidronate (n = 40) versus placebo (n = 40), taking a 25% dropout in to account, in patients with CLTI. Our objective is to quantify the effects of etidronate on CT measured arterial calcification in patients with CLTI. Study populationSeventy-six patients with CLTI, stable for 2 weeks, will be recruited. After the screening for eligibility and explanation of the potential benefits and risks, the participants will sign the informed consent. Inclusion criteria
Exclusion criteria
Intervention and comparatorSubjects will be randomized to either treatment with etidronate orally for 12 months (cyclical 20 mg/kg for 2 weeks on and 10 weeks off) or placebo for 12 months (in a similar cyclical routine). Outcome parametersPrimary outcome: changes in arterial calcification in a total vascular score as quantified by CT-scan at baseline,6 months and at 1 year. Calcification will be quantified in the intracranial and extracranial carotid arteries, coronary arteries, thoracic and abdominal aorta and iliac, femoral and crural arteries. CT calcium volume will be quantified using dedicated applying a threshold of 130 Hounsfield Units for calcium. Secondary outcomes: numbers of amputations above and below the ankle, mortality, number of vascular interventions, quality of life as measured with the short form 36 (SF-36) health survey, serum calcium and phosphate and inorganic pyrophosphate. Sample size calculation and data analysisWe used data from the observational cohort study DIACART with type 2 diabetes patients with peripheral vascular disease, at least a history of cardiac disease, aged > 55 (Bourron et al. 2020). This cohort resembles our CLTI patient group as shown in the pooled data from our JUVENTAS and PADI studies in witch there were 281 CLTI patients included of whom 49.1% had diabetes type 2, 39% coronary disease, 22% TIA or stroke, 18% impaired renal function. At baseline the calcification score was median (IQR) 527 (55–2253) and at 31 months follow-up 1355 (167–4235) which amounts to 44% progression per year. The TEMP-study showed us (RCT etidronate/placebo in PXE patients) that etidronate completely halted the progression of calcification in all the main vascular beds. To be prudent we aim to find a difference between placebo and etidronate group after 1 year of 22%. Alfa 0.05%; Power 80%; Dropout rate 30%. Per arm 40 patients, total 80 will be included, taken into account a drop out of 25%. Descriptive data will be presented as categorical (n, %) or continuous (mean ± standard deviation or median and interquartile range when appropriate). Differences in change in CT calcification mass will be analyzed using unpaired Student’s t-tests or Mann-Whitney-U tests when appropriate. Differences in change in secondary outcomes will be evaluated in similar manners. DiscussionUp to now, calcification of vessels in patients with CLTI has been considered the inert endpoint of vascular disease. This belief is based on cross-sectional studies that show extensive calcification in CLTI patients. Yet this type of study cannot differentiate between cause and effect. So far, research has shown that calcification of the media is an active metabolic process independent of atherosclerosis. This calcification has shown to prevent remodeling and collateral formation in the cerebral circulation (Luijten et al. 2021) Thus, we believe there are reasons to reverse the present paradigm from ‘vascular disease causes calcification’ into ‘calcification cause vascular disease’. This can be proven in a clinical trial if stopping the calcification process improves the clinical outcome. Etidronate halts the last step of the calcification process. It stops and even reverses the calcification process in nearly all vascular territories (Bartstra et al. 2020) and it decreases aortic stiffness (Kawahara et al. 2013) It also has an excellent risk profile. Yet whether this drug halts calcifications in CLTI is unknown and it is essential to plan a subsequent clinical study to show that etidronate is effective in clinical relevant endpoints. The current trial focuses on mechanistic, so-called intermediate endpoints, but our main interest is to gain health benefit. Therefore, we already include secondary endpoints such as mortality, cardiovascular intervention of any type, amputation and quality of life. All participants will be followed during and after the trial for the occurrence of these endpoints. We hope to get our ‘mechanistic’ answer quickly and eventually will be able (after longer follow-up without treatment) to evaluate effects on endpoints that are most relevant for patients. This will provide us with the effect size of the treatment with etidronate in the CLTI group. To truly investigate an actual effect on clinical endpoints a phase 3 trial is needed with substantially larger numbers of participants and longer follow-up. The current proof-of-principle trial is the first step to assess efficacy and safety of etidronate in patients with CLTI. This study may provide evidence that vascular calcification can be stopped with etidronate and may indicate that this could result in improved clinical outcome in CLTI and cardiovascular disease. Availability of data and materialsNot applicable. AbbreviationsCLTI: Chronic limb threatening ischaemia PPi :Inorganic pyrophosphate References
Download references AcknowledgementsNot applicable. Author informationAuthors and Affiliations
Authors
ContributionsAll author(s) read and approved the final manuscript. Corresponding authorCorrespondence to R. Hoogervorst. Ethics declarationsEthics approval and consent to participateNot applicable Consent for publicationNot applicable. Competing interestsThe authors declare that they have no competing interests. Additional informationPublisher’s NoteSpringer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. Rights and permissionsOpen Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/. Reprints and Permissions About this articleCite this articleHoogervorst, R., van Overhagen, H., de Jong, P.A. et al. Treatment of arterial calcification in patients with chronic limb threatening ischemia with etidronate: protocol of an investigator-initiated multicenter, double blind, placebo-controlled, randomized clinical trial. CVIR Endovasc 5, 26 (2022). https://doi.org/10.1186/s42155-022-00298-y Download citation
Keywords
What does it mean to have vascular calcifications?Vascular calcification is the pathological deposition of mineral in the vascular system. It has a variety of forms, including intimal calcification and medial calcification, but can also be found in the valves of the heart.
Can you reverse vascular calcification?These data suggested that vascular calcification, once it occurs, is unlikely to be reversed. Thus, therapeutic interventions that stop and reverse calcification may be of great value to patients with ESRD with vascular disease. Currently, no definite therapy has emerged.
What are the symptoms of vascular calcification?Coronary Calcification Symptoms. Angina (chest pain). Numbness in the extremities.. Decrease in blood pressure.. Heart attack.. What doctor treats vascular calcification?You should see a vascular specialist when you are diagnosed with a vascular condition or when you exhibit common symptoms of vascular disease. Typically, a primary care physician or podiatrist provides a referral to a vascular specialist.
|