Clostridium difficile (CD) is the primary cause of nosocomial diarrhoea in the western world and is associated with high morbidity and mortality and use of healthcare resources.1 Classic treatment comprises the withdrawal of the offending antibiotic and the administration of metronidazole, vancomycin or, more recently, fidaxomicin. However, a significant number of patients fail to respond to initial treatment or suffer a recurrence (2–38%) in the first eight weeks.2

In 1958, Eiseman et al. published a series of four cases of pseudomembranous enterocolitis successfully treated with faecal enema.3 This approach, conceptually at odds with current thinking at the time that microbiota was a harmful entity, was forgotten about by the scientific community for more than half a century. It was not until the last decade, and the last five years in particular, that faecal microbiota transplantation (FMT) has established itself as one of the most talked-about treatments on a theoretical and practical level in the fields of gastroenterology, autoimmune processes and metabolic diseases. The clinical practice guidelines already include this therapeutic approach as an alternative treatment for recurrent CD infection (CDI) and clinical trials have been published that support its efficacy in inflammatory bowel disease.4–6 With the publication of the first trials of FMT in CDI, in 2013 we designed a multidisciplinary programme (Department of Gastroenterology and Hepatology, Department of Microbiology and Department of Infectious Diseases) at our centre. To date, no data have been published that evaluate the outcome of FMT in Spain. The objective of this study was to analyse the effectiveness and safety of FMT following the implementation of this programme.

A total of 16 donors were studied, with a median of one donor (range: 0–2) per recipient; in 11 cases (84.6%), the donor was related to the recipient. A total of 13 FMTs were performed on 12 patients, with a median age of 84.6 years (range: 38.2–98.2), 11 (91.7%) of whom were women (Table 5). One Hindu patient rejected FMT on religious grounds. Four patients did not belong to our institution and were referred to our centre for the procedure. The indication in all cases was multiple recurrence of CDI. No patient received immunosuppressants. All patients had previously received fidaxomicin. The median number of episodes prior to FMT was three (range: 2–6), with a median of 68.5 days (range: 24–306) between onset of the first CDI episode and the first FMT. Twenty-four hours prior to the FMT, the median number of bowel movements per day was 3.5 (range: 2–12). Two patients presented with bloody stools, seven with abdominal pain and two with nausea. All procedures involved colonoscopy, with caecal intubation in nine patients (69.2%), the proximal ascending colon reached in three patients and the sigmoid in just one patient. 500ml of filtered faecal solution were used in all cases, instilling 350ml in the caecum and ascending colon, 100ml in the transverse colon and 50ml in the descending colon in 12 FMTs and injecting all the solution into the sigmoid and rectum in one case. Sedation was administered by the endoscopist in five FMTs, by the anaesthetist in seven cases, and one patient was not sedated. In terms of preparation, eleven patients received 4l of polyethylene glycol lavage solution and one patient received just 2l of polyethylene glycol owing to an underlying comorbidity (chronic heart failure and liver cirrhosis). Incidental findings arising during the endoscopy were: uncomplicated diverticulosis in three patients (25%); erythema and oedema in two patients (16.6%) pseudomembranes in one case, one 4-cm villous adenoma in the caecum and one 1-cm pedunculated polyp in the rectum.

Twelve out of the thirteen FMT procedures (92.3%) were performed in the hospital, with a median post-FMT hospitalisation of 2.5 days (range: 0–8). No patient required intensive care. 48h after the FMT, the symptoms of all patients had abated with a median of one daily bowel movement (range: 0–2). The effectiveness of one FMT session was 91.7% (11/12; 95% CI: 64.6–98.5%). In the patient who did not respond to treatment and in whom the colonoscopy only reached the sigmoid, a second FMT was performed with faeces from the same donor 17 days later, achieving complete abatement of symptoms. No side effects to the endoscopic procedure or to the FMT were reported after a median follow-up of 6.5 months (range: 1–16 months). Two patients died during follow-up for causes unrelated to the FMT (terminal gastric adenocarcinoma and acute pulmonary oedema). One patient from another autonomous community experienced mild diarrhoea after taking antibiotics three months after the FMT, which was treated by her doctors with vancomycin. She experienced no further diarrhoea during subsequent follow-up.

Recent studies have shown that recurrent CDI is associated with high costs, hospital readmissions and even increased mortality.8,9 Although fidaxomicin is superior to classic treatments, some patients still experience recurrences, especially when administered to patients with multiple recurrences of CDI.10 Despite the fact that FMT is an excellent alternative in this scenario, no data supporting its efficacy have been published to date in Spain.

The key to FMT is the microbiota donor, but the most efficient screening method and the closeness of the relationship with the recipient are still much disputed. In our protocol, the inclusion and exclusion criteria are based primarily on the review conducted by Bakken et al. (Tables 2 and 3). Although quite restrictive, we believe that this is justified due to the risk of pathogen transmission and the limited availability of donors.7 In our study, 11 of the 13 FMTs were conducted with related donors. The advantage of this approach is greater accessibility and shared environmental risk factors, which could minimise the risk of infection transmission.7 However, a meta-analysis of 273 patients found no statistically significant differences in the rate of clinical resolution between anonymous donors and donors related to the recipient.11

Although fresh faeces were used in all our patients, consistent with the method of choice stipulated in the protocol, it has been shown that faeces may be frozen at −80°C for up to six months without loss of viability.12 In this regard, Lee et al. recently published a clinical trial with 219 patients that found that outcomes with frozen faecal material is not inferior to fresh samples.13 The use of frozen faeces is less expensive as multiple transplants may be performed from a single donor. It also makes FMT viable for patients without family or without accessible or appropriate donors. In terms of the volume of faeces, 500ml of microbiota solution were administered to all patients. This decision was based on the systematic review conducted by Gough et al., where the CDI resolution rate was directly and proportionally associated with the volume infused (97% with >500ml versus 80% if <200ml).14 This review also found that recurrence was four times more likely when the weight of the faeces was <50g, which is why 100g were used in our protocol.14

Enemas were initially administered until the duodenal route was introduced in 1991 and the colonoscopy in 2000, which is currently the most widely used approach.6,15,16 Despite the fact that the optimal route has still not been definitively established as no comparative study has been specifically designed for this purpose, we believe that colonoscopy is the best option as it has shown greater therapeutic success versus the upper gastrointestinal route in numerous systematic reviews (89–92% versus 76–82%), as well as greater theoretical patient acceptance.11,14 Moreover, unlike enemas which only reach the splenic flexure and could theoretically be less effective, with colonoscopy, the solution can be instilled throughout the entire colon and even in the terminal ileum. Colonoscopy also allows the seriousness of the disease to be evaluated through inspection of the colonic mucosa. Histological samples may also be obtained and the presence of any comorbidity assessed. In our series, abnormal mucosa was found in three patients (23%), in whom findings consistent with CDI were seen. Two preneoplastic lesions were also identified, similar to the findings of previous series.17,18

It is important to emphasise that precautions should be taken during the colonoscopy, such as minimal insufflation and not forcing the colonoscope through difficult angles, which explains the low rate of caecal intubation in our series. Regarding colonoscopy preparation, the use of lavage solutions seems to reduce the density of both CD bacteria and their spores, which is why experts recommend their administration on the day preceding the FMT, irrespective of the route of administration.19

Recipients of FMT for CDI tend to be frail, elderly patients with multiple comorbidities, which is true of most of the patients treated at our centre (Table 5).16,20 Although FMTs were not performed on immunosuppressed patients as this is an exclusion criteria of the initial protocol, it is likely that this criterion will have to be amended as various working groups have reported favourable outcomes with no increased risk of infection.21,22

A wide variety of definitions of recurrence and infection cure can be found in the literature, which partly explains the variable success rates published. Most studies base the definition of cure on purely clinical criteria (complete abatement of diarrhoea), with timescales ranging from one week to six months.16 This study defined cure as the lack of diarrhoea in the first eight weeks after the FMT, consistent with the recommendations of the American College of Gastroenterology (ACG) and the European Society of Clinical Microbiology and Infectious Diseases (ESCMID).2,6 The clinical success rate with a single procedure was 91.7% (95% CI: 64.6–98.5%), with a second FMT required in one case due to infection recurrence after the first FMT. These positive outcomes are consistent with those obtained in uncontrolled clinical trials and studies.16,18,23

There is currently a lack of sufficient evidence to determine the necessary number or frequency of infusions. In the 2016 systematic review by Chapman et al., the number of FMTs per patient ranged from one to 10, with infection recurrence identified as the most common reason for repeating the procedure.16 In another systematic review of 801 cases of FMT with various indications, 83.3% of patients received one single instillation.15

In our study, just one outpatient procedure was performed due to the frailty of the patients treated. In the future, if the indications for FMT are broadened or if its use in CDI is prioritised, a significant number of procedures can be expected to be performed at outpatient clinics.

In general, the adverse effects of FMT are rare, mild and transitory. Publication bias, the retrospective nature of many series and the lack of long-term data mean that available information should be interpreted with caution. There is a potential risk of pathogen transmission despite strict donor screening, with two cases of post-FMT norovirus-induced acute gastroenteritis reported in the literature.24 In the first days after the procedure, the most common adverse effects are abdominal pain, nausea, vomiting, a bloated feeling, diarrhoea and flatulence. Other reported side effects include constipation, vomiting, pruritus, paraesthesia, catarrh, headache, appearance of blisters on the tongue and transitory fever.25 In our series, no short- or medium-term adverse effects were recorded, although, owing to the retrospective nature of the study, minor symptoms (nausea, abdominal discomfort, etc.) may not have been reported. Two patients died during follow-up, one due to terminal gastric adenocarcinoma and the other due to acute pulmonary oedema 10 days after the second FMT. Although a possible link between colonoscopy preparation and the second patient death referred to above could be hypothesised, we consider this to be very unlikely as the patient was discharged five days after the colonoscopy with stable cardiorespiratory status, a lower volume of lavage solution was administered and the patient's medical history refers to multiple admissions due to decompensated chronic heart failure (Table 5). To date, after more than 1000 published cases, no death with a direct causal link to FMT has been reported.

From a financial perspective, it should be noted that the introduction of FMT at the centre did not involve any additional costs for the healthcare system as human resources and materials that were already available and accessible to any tertiary hospital were used for routine care. In fact, numerous studies have been published that support its efficiency.26,27

The main limitations of this study are its small sample size, the heterogeneity of the subjects included and the retrospective collection of information. Nevertheless, we believe that it is a valid test of the applicability and effectiveness of FMT in Spain.

The principal challenges FMT will face in the future are the standardisation and simplification of its steps, ascertaining the possibility of isolating microbiota subpopulations that offer real therapeutic power, improving our understanding of its long-term effects, understanding its effectiveness in refractory CDI and defining its true utility in other diseases. Clinical trials in the fields of inflammatory bowel disease, hepatic encephalopathy, primary sclerosing cholangitis, acute pancreatitis, irritable bowel syndrome, constipation, non-alcoholic steatohepatitis, metabolic syndrome, eradication of multidrug-resistant bacteria in rectal carriers, HIV and epilepsy are currently ongoing.28,29

The results obtained at our centre offer further evidence of the effectiveness and safety of FMT by colonoscopy in recurrent CDI. It is a simple procedure backed by scientific evidence, whose conduct in our setting is feasible with a multidisciplinary team. Beyond its potential value as a research tool, its use meets a current and growing care need. As such, we believe that its implementation should be promoted at other tertiary centres to facilitate its accessibility, centralise tasks and encourage the founding of regional microbiota banks in order to optimise the procedure.

None.