In Mexico, breast cancer is the leading cause of death from malignant tumour in women over 25 years of age, as up to 52% are diagnosed in late stages. Surgical resection of the primary tumour is essential for oncological control, yet radical mastectomy is reserved for patients in advanced stages.1

The surgical procedure involves the development of an inflammatory response, which induces mastocyte degranulation and direct activation of the complement, leading to the release/activation of inflammation mediators such as interleukins and tumour necrosis factor. It has also been suggested that surgical trauma speeds up the development of pre-existing micro-metastases and promotes new metastases 2

In the last ten years, it has been shown that a high systemic inflammatory response is associated to a poor prognosis, irrespective of tumour stage. In particular, white cell counts such as lymphocytes, neutrophils, acute phase proteins such as C-reactive protein (CRP) and albumin have been reported as studies of great prognostic value.3

The role of statins in reducing inflammatory response has been studied in the last few years regarding the different pleiotropic mechanisms that confer stability to the endothelial and vascular functions and oxidative stress,4 as well as the direct role found in reducing CRP and neutrophil/lymphocyte ratio levels (NLR), both of which are classified as inflammation biomarkers.5 A randomised clinical study conducted by Albert-Ridker et al.6 in 2001 showed modulation of inflammatory response with statins, together with reduced tumour stage and greater long-term survival.7

The neutrophil/lymphocyte ratio, defined as absolute neutrophil count divided by lymphocyte count, is an effective inflammation marker that is increasingly used to assess results in surgical patients. Its use has been widely shown in critical patients and some cancers. Walsh et al.,8 studied the prognostic value of NLR >5 in patients with colorectal cancer and identified it as a prognostic marker. Halazun9 showed that a high NLR was a predictor or recurrence and worse survival in oncological patients. Both publications established a cut-off value of 5 for the NLR. The association between a high NLR and poor oncological outcomes is not fully understood. Neutrophils are believed to be a primary source of endothelial growth, which is thought to play a fundamental role in angiogenesis, a process that increases a tumour's ability to spread. Immune response to tumours is determined by cell immunity, which depends on the lymphocyte population. Relative lymphocytopenia could therefore affect prognosis.10

The objective of this study is to determine the role of pravastatin in the mediation of systemic inflammatory response caused by surgical trauma by measuring CRP levels and the neutrophil/lymphocyte ratio in breast cancer patients undergoing radical mastectomy.

Single-blind, randomised, prospective clinical trial. This was conducted in the Oncology Department, Hospital General de México “Dr Eduardo Liceaga”, from July to December 2015. The protocol was approved by independent ethics committee. 30 breast cancer patients undergoing radical mastectomy were randomised by a simple randomisation table to two groups of 15 patients each. The procedure was explained and informed consent was obtained. 20mg of pravastatin was administered prior to surgery to group 1 and not to group 2.

The only inclusion criterion was breast cancer patients scheduled for radical mastectomy, irrespective of clinical stage. Patients with concomitant chronic degenerative conditions, such as hypertension and diabetes mellitus, were excluded; patients who were administered doses of peridural local anaesthetic, IV lidocaine in perfusion or NSAIDs in the peri-operative period were eliminated. The patients assigned to group 1 received 20mg of pravastatin orally from 7p.m. to 8p.m. on the evening before the procedure. Pre-operative samples were taken from both groups for CRP and haematic biometry to calculate the NLR in the pre-op room, and they were subject to control 24h after the surgical procedure.

All the patients received combined anaesthesia and non-invasive monitoring with electrocardiography, non-invasive blood pressure, pulse oximeter. Pre-anaesthetic medication was administered, Midazolam 30μg/kg. Epidural blockage from t5 to t8 was applied, depending on the patient's anatomical characteristics, with use of cephalic catheter, not to administer anaesthesia but to verify patency for post-surgical use; basal narcosis Sufentanil 0.5mcg/kg as inducer propofol (2mg/kg), muscle relaxant Succinylcholine (1mg/kg); maintenance was with sufentanil perfusion (0.0002–0.0008mcg/kg/min), desflurane at 1.0 CAM;

Trans-operative medication: ranitidine 50mg IV, tramadol 100mg IV, ondansetron 8mg.

The numerical variables are expressed as means and with standard deviation. The comparison between groups was performed with Student's T-test. A P value of <0.05 was considered significant. A 95% confidence interval was used. The data analysis was performed by research advisors from Hospital General de México with SAS software.

A total of 30 patients were randomised and distributed in 2 groups. Group 1 received 20mg pravastatin on the evening prior to the surgery and group 2 was the control group. The mean age was 56.9 years in the control group and 53.4 years in the pravastatin group. Pre-operative paraclinical analyses showed a mean baseline CRP of 4.12mg/dl (SD 2.45) in the control group vs 2.41mg/dl (SD 1.22) in the pravastatin group, and the mean baseline NLR was 2.17 (SD 2.22) vs 3.14 (SD 1.15). There were no statistically significant differences between the two groups in the pre-operative period

When analysed 24h after surgery, we found that group 1, which had received pravastatin, presented less CRP elevation, with a mean value of 12.6mg/dl 95% CI (8.34–16-9) SD 7.73 vs 43.8 in the control group, 95% CI (34.3–53.3) SD 17.22 and a p-value of 0.0000.

There were no statistically significant differences in post-operative NLR levels between the two groups, p-value 0.2337, mean 3.57 95% CI (2.02–5.11) SD 2.78 vs 7.17 95% CI (3–17.42) SD 18.41.

Inflammation plays an important role in the physiopathology of cancer, as it could promote carcinogenesis, differentiation and growth of the primary tumour as well as inhibiting apoptosis and increasing the mitotic rate10; all these factors could make a local or systemic relapse more likely.11 In the last ten years it has been shown that high systemic inflammatory response is associated to poor prognosis, irrespective of tumour stage, in particular white cell count (lymphocytes, neutrophils); acute phase proteins such as C-reactive protein and albumin have been reported as studies of great prognostic value.3

Furthermore, in animal models, the role of pro-inflammatory cytokines has been described in the production of a large variety of symptoms in cancer patients, such as weight loss, depression, fatigue and others.3 It has also been suggested that surgery accelerates the development of pre-existing micrometastasis and promotes new metastases.12 The proposed mechanisms include post-surgical suppression of cell immunity. It is known that the manipulation of tumour tissue can spread tumour cells through lymphatic circulation and that the increase in growth factors after surgery and tissue damage promote the development of metastases and onset of new tumour cells.11

The role of statins in reducing inflammatory response has been studied, showing pleiotropic effects and involvement in T-cell regulation, improving immune tolerance, the maintenance and resolution of inflammation and prevention of autoimmune tissue damage.13 A direct effect has also been found on the reduction in inflammation biomarkers, which could be markers of tumour recurrence.14

In 2000, the CARE study15 followed up patients for 5 years and showed that pravastatin reduced CRP independently from LDL. These data were similar with lovastatin and simvastatin, giving an initial idea of the anti-inflammatory effects of statins. This was, however, a retrospective study. Later, the PRINCE study6 (the pravastatin CPR evaluation), a double-blind, randomised, cohort study, administered 40mg of pravastatin vs placebo in healthy subjects with no history of cardiovascular risk and also measured response to pravastatin in patients with a history of myocardial infarction, showing reductions of up to 14.2% in CRP after 12 and 14 weeks of follow-up with the use of pravastatin, changes that were not found in the placebo group.16 This study suggested that statins significantly reduce CRP, independent from LDL, which is consistent with the findings of our study, with significant results in modulation of inflammatory response measured with biomarkers.

The statistical analysis shows how the administration of a single pre-operative 20mg dose of pravastatin, administered uniformly the evening before surgery, significantly reduced elevation of C-reactive protein, with a p-value of <0.000 and a mean value of 12.6 vs 43.8 with 95% CI (8.34–16.9).

On the other hand, determination of the neutrophil/lymphocyte ratio shows lower values in the pravastatin than in the control group, but there were no statistically significant differences, with a p-value of <0.233 and a mean value of 3.5 vs 7.17 95% CI (2.02–5.11)

We find serious limitations in patient follow-up as they were discharged on the day following the surgery, as well administration the fact that there was no post-operative anaesthetic control.

The pre-operative administration of a single dose of 20mg pravastatin significantly reduced inflammatory biomarker elevation, especially C-reactive protein, making it a drug that could be routinely used in patients undergoing radical mastectomy.

Studies are required to measure its efficacy in other procedures, although it can be inferred that it is a safe drug with few undesirable effects and readily available, so it could be useful in other fields. Nonetheless, studies are required to validate its use in other scenarios.

Research should be conducted with a larger population, evaluating more specific biomarkers, in order to confirm the drug's utility in inflammatory response modulation in this and other surgeries. However, as it is an inexpensive drug, administered orally, its pre-operative administration in breast cancer patients could be protocolised in order to improve prognosis and reduce the risk of tumour recurrence.

The authors received no funding for this study.

The authors have no conflicts of interest to declare.