Volume 44 Number 4
The incidence of stomal and peristomal complications: preliminary results three months after stoma creation
Giorgia Chirco, Mario Antonini, Tommaso Cioppa
Keywords ostomy, incidence, risk factors, stoma complications, peristomal complications
For referencing Chirco G, Antonini M, Cioppa T. The incidence of stomal and peristomal complications: preliminary results three months after stoma creation. WCET® Journal 2024;44(4):13-23.
DOI
10.33235/wcet.44.4.13-23
Submitted 3 February 2024
Accepted 9 September 2024
Abstract
Background The creation of an intestinal and/or urinary ostomy is often associated with a wide variety of complications, whose incidence and risk factors reported in the literature are often discordant.
Aims A prospective longitudinal repeated-measures observational study was conducted aimed at investigating the incidence of complex stomal complications and ascertaining the determinants of their occurrence. The ultimate goal is to improve the available data for the development of new knowledge in this area.
Methods A total of 181 adult subjects were recruited and followed for a period of three months at set intervals (T0 to T5), surveying the occurrence of any complications. Fisher’s Test and Chi-square Test were used to study the relationship between the various variables and the occurrence of complications.
Results Complications occur most frequently in the immediate postoperative period (iT0= 54.14%). The incidence rate of stomal and peristomal complications demonstrated a different distribution in the various follow-ups. Complications show a different character depending on the type of ostomy, with a higher incidence in intestinal ostomies; they also appear to be statistically correlated with the presence of general preoperative comorbidities.
Conclusions The purpose of this study was to implement the available data regarding complex stomal complications for the future development of new knowledge through two objectives: 1) to determine the incidence of complex stomal complications in new ostomate patients residing in the Empolese-Val d’Elsa and Lower Valdarno area of Italy,
2) to verify what the factors determining the occurrence of these complications are.
Introduction
Ostomy surgery can cause several complications, including surgical, stoma, and peristomal skin problems, as well as inherent difficulties with stoma care. In addition, the new stoma may have an adverse effect on the person’s mental and physical state affecting their ability to adjust to the presence of the stoma. These complications have a negative impact on ostomy management and are considered a health problem for ostomy patients.1
Researchers have studied the different types of complications associated with ostomies and peristomal skin, as well as associated incidence rates and risk factors. The most commonly reported complications are divided into early complications (ischemia and necrosis, stomal retraction, mucocutaneous detachment, inadequate positioning, parastomal ulceration, early skin excoriation) and late complications (parastomal hernia, prolapse, stenosis, peristomal dermatitis, varices, peristomal Pyoderma Gangrenosum).2-3 However, the literature shows varying levels of occurrence, with the incidence of these conditions ranging from 20% to 70%.4-8 A systematic review conducted by Malik et al (2018) identified the incidence of various types of stomal complications, defining peristomal skin complications and parastomal hernia as “the most common adverse events across all types of ostomies”.9 During the literature review for this study, the authors reviewed a wide variety of studies regarding the incidence rate of ostomy complications.8-12 For example, regarding parastomal hernias, Krishnamurty (2017) in his study of a total of 345 patients reports an incidence rate ranging from 0 to 48% depending on the type of ostomy (between terminal and loop ostomies)8; Malik (2018) in his study of a total of 864 patients reports a rate ranging from 0 to 88.2%, but excluding terminal ostomies.9 Nybaek (2010) reported a parastomal hernia incidence rate of 12 % in a total of 67 patients.10 This inconsistency in results may be due to differences in study design. Similarly, Salvadalena in 2010 highlighted the limitations of the studies reviewed at that time. Those limitations included: inconsistent definitions and measurements of complications, making it difficult to reliably and validly determine their incidence.11 In addition, there are differences in the study designs and the timing of the assessment of the subjects postoperatively. Many studies are retrospective in nature. This leads to limitations such as inconsistencies in data collection and possible differences between the actual condition of participants and what is reported in clinical reports.13–17 These factors make the incidence rate of ostomy-related surgical and peristomal skin complications reported in retrospective studies less reliable and less usable as strong evidence. Generally, these limitations require more attention and standardisation in stomal and peristomal skin complication research.9
What seems to be less clear today are the risk factors that influence and/or may influence the occurrence of these complications. This is the subject of several studies. One such study, by Pittman et al (2008), listed demographic and clinical factors that could contribute to ostomy complications, which would then affect quality of life (QoL).18 Their study was used to support an investigation of factors contributing to reduced QoL and focused primarily on factors associated with QoL.19 In 2010, Nybaek et al. investigated the relationship between the occurrence of complications like irritant contact dermatitis, peristomal medical adhesive-related skin injury (PMARSI), folliculitis, psoriasis and other uncommon diseases and specific risk factors. Their conclusion was that repetitive tape stripping and sodium lauryl sulfate testing may have a role as predictive tests to identify patients at risk of peristomal skin problems but “a model describing the relationship between the occurrence of stomal and peristomal complications and possible risk factors would be necessary for future studies”.10 Based on this, Salvadalena (2010) developed a model to represent the possible relationship between variables previously reported in the literature to correlate with the development of stomal/peristomal morbidity. This model involved the identification of four groups of variables: patient variables (such as age, gender, body mass index or BMI, health condition); surgical variables (such as stoma type and construction, suture type); preoperative care variables (such as stoma site marking, patient education); stoma-care variables (such as development of stoma complications and/or peristomal complications that could impact QoL). This has been developed to represent the underlying understanding of the physiological and anatomical complications of the stoma and peristomal skin and therefore provides a framework for future studies aimed at investigating the incidence of stoma and peristomal complications and the relationships that may exist between these complications and other variables.11
Based on these parameters, the aims of this study were to determine the incidence of stoma and peristomal complications in patients with a newly constructed stoma during three months of follow-up of those patients living in the Empolese-Val d’Elsa and Valdarno Inferiore areas of Italy, and to define risk factors for their occurrence.
Methods
Overall study design: An observational, prospective, longitudinal, repeated measures study was conducted.
Sample and Setting: The study was carried out at the Stoma Rehabilitation Centre (CE.RI.STOM) in Empoli (Local Health Authority Toscana Centro, Florence, Italy). The study commenced on 19 May 2021 and ended on 31 Decmber 2021, and lasted seven months. The study included observation and recording of stomal and peristomal complications, as well as review of the personal and medical history of each subject. Inclusion criteria for participation were: patients who underwent ostomy creation for the first time between May and September 2021; in an emergency or elective setting; with an intestinal or urinary ostomy; with or without peristomal skin lesions according to SACS scale 2.020 and/or stomal complications (Table 1). Patients were excluded from the study if they were under 18 years of age and/or unable to give valid informed written consent. Withdrawal criteria included: patients who changed treatment or follow-up center for strictly personal reasons; patients who received surgery to restore normal intestinal continuity before the end of the three month period; and patients who died during the same period.
Table 1. Definitions of complications. Chirco G, Antonini M. Stoma and peristomal complications: a rapid overview of the literature. Infermieristica Journal 2023;2(1):13–25. doi: 10.36253/if-2075
Instrument: To conduct the study, the research team created double-entry tables in Excel files with acceptable inter-rater reliability. These tables were separated by observation time: T0 at the time of enrollment; T1 at one week; T2 at two weeks; T3 at one month; T4 at two months; and T5 at three months. At the time of enrollment, the student, after obtaining appropriate consent, subjected each participant to a face-to-face interview to learn about the patient’s medical history. Questions included: How old are you? How tall are you and how much do you weigh? Does you have any pathology unrelated to the ostomy? If so, is it medical (such as heart disease, respiratory disease, diabetes) or neoplastic in nature? When was the stoma created? Is the stoma permanent or temporary? Did you have any immediate postoperative complications? Except for the first two questions, the other answers were dichotomous. This interview allowed identification of the risk factors considered in the study. These data are reported only in times T0, as they were not necessary for the later conduct of the study. In times T1, T2, T3, T4, T5, the data collected concerned the presence/absence of stomal and peristomal complications, their type and classification, and the need for medical or surgical treatment. These complications were observed, defined and photographed by the experienced nurse. Specifically, the SACS 2.0 Classification20 was used to classify peristomal skin changes, and the literature review by Chirco et al (2023)21 was used to classify stomal complications.
At the end of the observation period, XLSTAT Software (version2021.3.1) was used to study risk factors, considering a p-value <0.05 as significant, and Pivot Tables were used to study the incidence of complications.
Study procedure: The study included an initial phase of research protocol writing and literature search. This was primarily done by the nursing student under the supervision of the expert nurse and the surgeon who sponsored the study. The criteria for the literature search included: studies published in international indexed journals, in English, conducted within the last 20 years, investigating risk factors associated with the development of stoma and peristomal complications, and investigating individual complications. Following approval by the local ethics committee, the study team was able to begin the second phase of observation and data collection. Specifically, the 181 patients were enrolled from May to September 2021. Each patient was enrolled in the immediate post-operative period and within 48–72 hours of surgery. Surgery was performed by specialist ostomy surgeons who were part of the surgical team. Patients were seen by an ET/Wound Care nurse who assessed them for the presence or absence of ostomy complications at both the initial and subsequent follow-up visits. The student nurse was responsible for interviewing participants and collecting data. For the purpose of the study, participant data were collected in the immediate postoperative period, within 48–72 hours after surgery in the inpatient ward of the hospital (T0), and then within the special outpatient clinic as follows: one week after the first assessment (T1), two weeks after (T2), one month after the first access (T3), two months after (T4) and three months after (T5). The interview was conducted during the first visit, and stoma and peristomal skin data were collected for the next three months until December 2021. Demographic data collected included: sex; age; BMI (≤18 underweight; 18≤BMI≤24.5 standard; ≥24.5 overweight); previous comorbidity and type of comorbidity (cardiac, respiratory, gastrointestinal, diabetes, previous neoplasm and systemic disease); type of ostomy surgery and whether emergency or elective; date of surgery; type of stoma created or formed and if it’s temporary or permanent; postoperative complications; type of complication, whether stomal or peristomal; type of treatment for complication, whether medical or surgical. At the end of the observation period, in January and February 2022, data analysis was performed by the student nurse under the supervision of the study sponsor surgeon.
All patients and their caregivers received regular training on stoma self-management as outlined by the Association for Technical-Scientific Stomatherapy and Pelvic Floor Rehabilitation (AIOSS)22 in the first two weeks after surgery and, if necessary, in the months following.
Outcomes measures: As this was a prospective observational study, no outcome measures were defined, but two objectives were included in the research protocol: (i) to determine the incidence of stomal and peristomal complications and (ii) to verify independent risk factors for the complications found using Fisher’s exact test and chi-square.
Ethical approval: The research protocol of the study was reviewed by the Regional Zonal Ethics Committee of the Azienda USL Toscana Centro and was approved by Measure No. 1325 dated 18.05.2021. Patients who voluntarily participated in the study from May to December 2021 were enrolled in accordance with the current regulations regarding data confidentiality and ethical requirements. The patients were informed of the objectives and methods of the study and signed the informed consent and release form for the collection of iconographic material.
Data analysis
At the end of the observation period, both incidence and cummulative rates were studied, with respect to the total number of complications that occurred during the three months of observation, and individually over the different observation periods, using Pivot Tables generated from data processed in the Excel database. In each of the six observation periods, the incidence was calculated: over the total number of complications that occurred; by differentiating between stomal from peristomal complications: and by individual type of ostomy, between urinary (Nephrostomies, Cutaneous Ureterostomies and Ileocutaneous Ureterostomies) and intestinal (Caecostomies, Ascending Transverse Colostomies, Descending Transverse Colostomies and Sigmoid Colostomies, and Ileostomies).
To study the correlation between the different variables found in this study and the occurrence of complications, Fisher’s Test and the Chi-square Test were used, performed with XLSTAT Software (version 2021.3.1) (By Addinsoft PARIS, France, Europe), considering a p-value <0.05 for each variable to be significant. The presence/absence of complications was defined as the dependent variable, while the independent variables included: age, sex, BMI, type of surgery (urgent vs elective), previous comorbidities, type of comorbidities (medical vs neoplastic).
After careful situational analysis, we agreed to follow the protocol proposed in the study by Antonini et al (2018) published in the WCET Journal23 for the proposed secondary goal of defining a universally accepted treatment for individual complications.
Results
A total of 181 subjects were recruited, 66 women and 115 men, with a mean age of 73 years (range 32–97 years). Of these, 130 had a BMI >24.5, only three had a BMI ≤18, and 48 were normal weight. In addition, 168 of 181 subjects reported at least one comorbidity among cardiac, respiratory, chronic gastrointestinal, urologic, previous neoplastic, and systemic diseases such as hypo-/hyperthyroidism. Regarding surgical variables, 87 subjects underwent emergency surgery, while the remaining 94 subjects underwent elective surgery (Table 2). Of the latter, only one participant received preoperative planning for proper ostomy placement; therefore, this variable was excluded from the statistical analysis performed for the risk factor identification study. 51.9% had a intestinal ostomy; the remaining 48.1% had a urinary ostomy.
Table 2. Distribution of the demographic and surgical variables in the population of the study
During each observation period, the number of patients decreased from time to time according to the various withdrawal criteria described above. Of the 181 patients enrolled at T0, only 98 (54.1%) manifested complications. At the end T5 (three months), 129 patients remained and of these, only 18 (13.9%) had complications. Furthermore, the number of patients with complications at each observation time point ranged from 1 to a maximum of 4 (Table 3).
Table 3. Summary table of the complications recorded during the six observation times.
Incidence analysis
Data analysis shows the incidence rate of stomal complications decreases progressively over time: from 54.1% in T0 to 13.9% in T5, with a slight increase at two weeks (T2=17.8%) and one month after recruitment (T3=20.5%).
A total of 356 complications were recorded during the three months of observation; in order, from T0 to T5, the most representative incidence rates were: irritant contact dermatitis (ICD) 18.5% (66/356) and evenly distributed among the different follow-ups; ostomy malposition in the abdominal plane with 13. 2% (47/356), observed at T0; stomal edema 10.9% (39/356), mainly observed at T0; mucocutaneous detachment 8.1% (29/356), mainly observed at T2 (Table 4).
Table 4. Distribution of total complications in the various follow-ups in relation to the number of observed complications.
Furthermore, the data collected shows that the incidence rate of the different complications, stomal and peristomal, is distributed differently at the different observation times (Table 5). At T0, the predominance of stomal complications over peristomal complications can be observed in relation to the number of total complications recorded, with ostomy malposition (i= 29.1%) and stomal edema (i= 21.7%) showing a higher incidence. However, it increases again three months after enrollment, when a higher incidence of late stomal complications were shown, such as retraction (iT1=29%; iT2=40%; iT3=38%) and parastomal hernia (iT4=100%; iT5=67%). In the subsequent observation periods from T1 to T5, peristomal complications occurred more frequently. The most common complications were:
- ICD, recorded almost consistently at all observation times (iT1=31%; iT2= 19.2%; iT3= 23.3%; iT4= 38.7%; iT5= 32.1%)
- Mucocutaneous detachment, predominantly seen two weeks after enrollment (iT2= 35%)
- Proliferative lesions of different types were an almost constant presence, (i= 16-21%), classified according to the SACS 2.0 scale;
- Peristomal skin infections (i=10-11%)
Table 5. Distribution of the incidence of stomal and peristomal complications at different observation times (T0–T5).
Data obtained from analysing the incidence of ostomy complications, differentiated according to the type of ostomy, then revealed that 77.5% (276/356) of the total number of complications recorded during the six different follow-ups occurred in intestinal ostomies. Those with the highest incidence were:
- ICD, i=19.5% (54/276), more common in ileostomies (i=30.2%) and caecostomies (i=2.5%)
- Stomal edema, i=13.4% (37/276), most frequent in colostomies (Table 6)
- Ostomy malposition, i=9.7% (27/276), also most frequent in colostomies
- Mucocutaneous detachment, i=8.7% (24/276), also mainly in colostomies.
In addition 22.4% (80/356) of the total complications recorded occurred in urinary ostomies. The most representative ones were:
- Ostomy malposition, i=25% (20/80), mainly in cutaneous ureterostomies (i=50%)
- ICD, i=15% (12/80), mainly in ileocutaneous ureterostomies (i=33.3%)
- Proliferative injury, i=12.5% (10/80), and hyperemic injury due to inflammatory process, i=11.2% (9/80), both more common in nephrostomies (Table 7).
Table 6. Distribution of Total Stomal Complications (T0 to T5) in Intestinal Stomies in comparison to the number of complications.
Table 7. Distribution of Total Stomal Complications (T0 to T5) in Urinary Stomies with respect to the number of complications.
Risk factor analysis
The highest incidence rate of stomal complications was observed in the period immediately after surgery (T0). Therefore, a static analysis nonparametric inferential statistical analysis was performed in this period to evaluate the correlation between the different variables and the occurrence of complications. To perform this analysis, the Fisher’s Test, significance test used with nonparametric statistics for hypothesis testing, and a Chi-square Test, was used to test the statistically significant association between two qualitative variables. We considered a p-value<0.05 as significant.
The analysis showed that the presence of a general preoperative comorbidity was a determinant factor for the development of stomal/peristomal complications (p-value =0.005) (Table 8). However, there was no statistically significant correlation (p-value =0.013) when stratified by type of preoperative comorbidity (medical vs neoplastic). Similarly, sex (p-value =0.097), age (p-value =0.789), BMI (p-value =0.188), and type of surgery (urgent vs elective) (p-value =0.010) were not associated with the occurrence of complications.
Table 8. Correlation between dependent variable “presence/absence of complications” and independent variable “presence/absence of general pre-operative comorbidity”.
Discussion
A careful review of the international literature published in the last two decades shows that there is still great heterogeneity in the available data, both regarding the incidence and prevalence of stomal and peristomal complications and the risk factors for developing these complications. According to a recent systematic review by D’Ambrosio et al (2022), the causes of these discrepancies can be attributed to several factors: small and heterogeneous sample sizes, differences in the type of ostomy, differences in the type of complications considered and in the way cases were identified, and variability in the assessment/classification of the skin problem.24 In addition, most of the studies conducted are retrospective in nature. Based on these assumptions, there is a need to study: the incidence of individual complications in the first three months after ostomy creation; the variables influencing their occurrence; and possible risk factors using a standardised study design.
Our study concludes that stomal complications are more frequent than peristomal complications, especially regarding early complications. This predominance seems to be reversed in the other five observation times, where the ratio of stomal to peristomal complications is almost always 1:3. As the observation time increases, the probability of developing stomal complications seems to decrease.
Among the most common early stomal complications we report: ostomy malposition (i=29.1%), stomal edema (i=21.7%) predominantly present at T0, and stoma retraction (iT1=29%; iT2=40%). Two factors may explain the higher incidence of ostomy complications at T0 in this sample: firstly, in the center where the study was conducted, it is not common practice to perform preoperative stoma positioning; second, among the studies in the literature and analysed, none of them considers ostomy malposition and stomal edema among the stomal complications. The latter is considered a pathological process, the causes of which need to be carefully studied, and not a physiological manifestation of the stress to which the bowel is subjected during surgery.25 Failure to adopt the practice of preoperative ostomy placement in the institution has a negative impact on study outcomes and patient well-being. It also exposes the patient to an increased risk of developing stomal and peristomal complications, as demonstrated by previous studies.26-28 Millan et al in 2010 showed in their study that the sample who benefited from preoperative stoma education and stoma placement by stomatherapists had fewer peristomal skin complications than the control group in both emergency and elective surgery patients.29 Pinto et al (2017), through their review of 22 articles, also defined four categories of risk factors; stoma position is among the treatment-related risk factors.30 This undoubtedly explains the high rate of malpositioned or poorly positioned ostomies recorded in the data collection. In our opinion, the study of such a single complication allows the surgical team to improve their approach and, as a goal for a future study, to evaluate the correlation between the presence of malposition at T0 and the occurrence of complications at subsequent follow-ups, defining which of these are the most common.
The analysis of the incidence of complications also showed that the type of complications differed according to the type of ostomy, intestinal or urinary. The cause of this difference may be attributed to the different type of harmful input of stomal effluent with which the skin comes into contact. We can state that, in agreement with the literature, especially the review by Steinhagen et al published in (2017), peristomal skin complications occur mainly in ileostomies,31 with a high incidence of ICD (i= 30.2%); in colostomies, however, stomal complications are more common. In our study, the highest incidence rate of colostomy-related complications was attributed to mucocutaneous detachment (i= 33.3%), which mainly occurred two weeks after enrollment (T2) presumably due to the removal/loosening of sutures at the muco-cutaneous junction. The aforementioned study by Steinhagen et al. reported that the incidence rates of mucocutaneous detachment are underestimated in the literature and that it is predominantly a complication of the early postoperative period.31 Therefore, we can say that the complications are different depending on the type of stoma.
Finally, the statistical analysis performed showed that the stomal and peristomal complications identified in this study of the ostomies were statistically related to the presence of one or more common preoperative comorbidities, although with important limitations due to the partial heterogeneity of the sample and the difficulty of stratification. In contrast, Koc et al (2017), in their retrospective analysis conducted to study risk factors for the development of early complications, define stoma siting as an independent risk factor for the development of stomal complications.2 Guerra et al (2023) suggest that proper stoma care and maintenance, including the use of protective films and careful monitoring of weight and comorbidities, are key to minimising the risk of stoma-related complications.3
Strengths
The design of this study, through the use of clear operational definitions, standardised assessment methods, and the prospective, longitudinal, repeated-measures nature of the study, is an improvement over previous studies in the literature. In addition to describing the cumulative incidence of complications and to define the significance of the possible risk factors, the data provide a detailed description of the type of complications that occur at each follow-up and the types of ostomy in which they occur. Few previous studies of this type have been found in the literature,24;32-33 and only one researcher11 has reported longitudinal data on the incidence rate of stomal complications, both cumulatively and individually over the periods of observation.
Limitations
The partial heterogeneity of the data obtained was due to the small sample size, therefore study results should be viewed with caution. Moreover, of the 181 subjects enrolled in the immediate postoperative period, only 129 reached the end of observation (three months), and of this loss, logistic regression analysis would be useful.
It is the authors’ opinion that, in order to have a complete view of late stoma complications, the observation period should be extended to at least one year and that it would be more appropriate to have the involvement of other stoma rehabilitation centers in order to have a broader view of the phenomenon.
Conclusion
The results of this study are believed to have implications for colorectal and general surgeons performing ostomy surgery, ET/Stomal Therapy Nurses and ward nurses in providing ostomy education and practice. However, there is a clear need for continuation of the study, expansion of the study in terms of length of follow-up, and research into the relationships between the variables that have the greatest impact on the development of individual complications. The research and current study is ongoing and its primary goal is to define a standardised approach to ostomy complications for use in the various hospital and non-hospital settings. The ultimate goal is to improve the QoL for all ostomy patients.
造口及造口周围并发症的发生率:造口术后三个月的初步结果
Giorgia Chirco, Mario Antonini, Tommaso Cioppa
DOI: 10.33235/wcet.44.4.13-23
摘要
背景 肠造口术和/或尿道造口术通常会引起多种并发症,文献中报道的并发症发生率和危险因素往往存在差异。
目的 本研究是一项前瞻性纵向重复测量观察性研究,旨在调查复杂造口并发症的发生率,并确定其发生的决定因素。最终目标是通过改进现有数据,推动该领域新知识的发展。
方法 总共招募了181例成年受试者,在为期三个月的时间内按照设定的时间间隔(T0至T5)进行随访,以监测任何并发症的发生情况。采用Fisher精确检验和卡方检验来研究不同变量与并发症发生之间的关系。
结果 并发症在术后即刻期最为常见(iT0=54.14%)。造口及造口周围并发症的发生率在各次随访中呈现出不同的分布特点。根据造口类型的不同,并发症表现出不同的特征,肠造口的并发症发生率较高;并发症似乎还与一般术前合并症的存在有统计学相关性。
结论 本研究的目的是通过以下两个目标,利用有关复杂造口并发症的现有数据,以便未来能够发掘新的知识:1)确定居住在意大利Empolese-Val d'Elsa和Lower Valdarno地区的新造口患者中复杂造口并发症的发生率;2)验证导致这些并发症发生的决定因素。
引言
造口手术可能会引起多种并发症,包括手术相关问题、造口及造口周围皮肤问题,以及造口护理方面的固有困难。此外,新造口可能会对患者的心理和生理状态产生负面影响,影响他们适应造口存在的能力。这些并发症不仅给造口管理带来了挑战,也成为造口患者健康的一个重要问题。1
研究人员对与造口和造口周围皮肤相关的各类并发症以及相关发生率和危险因素进行了研究。文献中报告的最常见并发症分为早期并发症(如缺血、坏死、造口回缩、粘膜皮肤分离、定位不当、造口旁溃疡、早期皮肤表皮脱落)和晚期并发症(如造口旁疝、脱垂、狭窄、造口周围皮炎、静脉曲张、造口周围坏疽性脓皮病)。2-3然而,文献显示,这些疾病的发生率存在差异,从20%到70%不等。4-8Malik等人(2018)进行的一项系统性综述确定了各类造口并发症的发生率,将造口周围皮肤并发症和造口旁疝定义为“所有类型造口中最常见的不良事件”。9
在该研究的文献综述中,作者回顾了关于造口术并发症发生率的各种研究。8-12例如,关于造口旁疝,Krishnamurty(2017)在其对345例患者的研究中报告称,根据造口类型(末端造口和环状造口)的不同,发生率从0%到48%不等8;Malik(2018)在他对864例患者的研究中报告了0%至88.2%的发生率,但未包括末端造口。9 Nybaek(2010)报告称,在总共67例患者中,造口旁疝的发生率为12%。10这些结果不一致可能是因为研究设计的不同。同样,Salvadalena在2010年指出了当时所回顾研究的局限性。这些局限性包括:并发症的定义和测量方法不一致,因此难以可靠有效地确定其发生率。11此外,研究设计和受试者术后评估时间点的不同也造成了差异。许多研究都属于回顾性研究。这就导致了一些局限性,如数据收集不一致,受试者的实际情况与临床报告中的情况可能存在差异。13-17这些因素使得回顾性研究中报告的造口相关手术和造口周围皮肤并发症发生率的可靠性较低,作为强有力证据的价值也较低。通常,在造口及造口周围皮肤并发症的研究中,这些局限性需要得到更多关注和标准化处理。9
目前尚不清楚哪些危险因素会影响和/或可能影响这些并发症的发生。这是多项研究的主题。其中一项由Pittman等人(2008)进行的研究列出了可能导致造口并发症进而影响生活质量(QoL)的人口统计学和临床因素。18该研究用于支持对导致QoL下降的因素进行调查,主要侧重于与QoL相关的因素。19 2010年,Nybaek等人调查了刺激性接触性皮炎、造口周围医用粘胶相关性皮肤损伤(PMARSI)、毛嚢炎、银屑病和其他罕见疾病等并发症的发生与特定危险因素之间的关系。他们得出结论,重复性胶带剥离和十二烷基硫酸钠测试可作为一种预测性测试,用于识别有可能出现造口周围皮肤问题的患者,但“未来的研究有必要建立一个描述造口及造口周围并发症发生与潜在危险因素之间关系的模型”。10基于此,Salvadalena(2010)开发了一个模型,以展示既往文献中报道的变量与造口/造口周围疾病发病率发展之间的可能相关性。该模型包括确定四组变量:患者变量(如年龄、性别、体重指数或BMI、健康状况);手术变量(如造口类型和结构、缝合类型);术前护理变量(如造口部位标记、患者教育);造口护理变量(如可能影响QoL的造口并发症和/或造口周围并发症的发展)。该模型的制定代表了对造口和造口周围皮肤的生理和解剖并发症的基本理解,因此为今后旨在调查造口和造口周围并发症的发生率以及这些并发症与其他变量之间可能存在的关系的研究提供了一个框架。11
根据这些参数,本研究旨在确定居住在意大利Empolese-Val d'Elsa和Valdarno Inferiore地区的新造口患者在三个月随访期间的造口和造口周围并发症发生率,并确定发生这些并发症的危险因素。
方法
总体研究设计:开展了一项观察性、前瞻性、纵向、重复测量研究。
样本和设置:研究在恩波利造口康复中心(CE.RI.STOM)(意大利佛罗伦萨托斯卡纳中心地方卫生局)进行。研究于2021年5月19日开始,2021年12月31日结束,历时七个月。研究包括观察和记录造口和造口周围并发症,以及审查每例受试者的个人和病史。参与的纳入标准为:2021年5月至9月期间首次接受造口术的患者;接受紧急或择期手术;接受肠造口或泌尿道造口术;根据SACS量表2.020,有或没有造口周围皮肤损伤和/或造口并发症(表1)。如果患者未满18岁和/或无法提供有效的知情书面同意书,则将其排除在研究之外。退出标准包括:完全出于个人原而更换治疗或随访中心的患者;在三个月期限结束前接受手术以恢复正常肠道连续性的患者;以及在此期间死亡的患者。
表1. Definitions of complications. Chirco G, Antonini M. Stoma and peristomal complications: a rapid overview of the literature. Infermieristica Journal 2023;2(1):13–25. doi: 10.36253/if-2075
工具:为开展研究,研究小组在Excel文件中创建了具有可接受的评分者间可靠性的双输入表格。这些表格按照观察时间分为:T0:入组时;T1:一周时;T2:两周时;T3:一个月时;T4:两个月时;T5:三个月时。入组时,在获得适当的知情同意后,为了解患者的病史,学生对每位受试者进行了面对面访谈。问题包括:您多大年纪?您的身高和体重分别是多少?您是否患有与造口术无关的其他疾病?如果有,是内科疾病(如心脏病、呼吸系统疾病、糖尿病)还是肿瘤性疾病?造口是何时创建的?造口是永久性的还是临时性的?是否出现术后即刻并发症吗?除了前两个问题外,其余答案均为二元选择。通过这次访谈,确定了研究中考虑的危险因素。这类数据仅在T0时间段报告,因为后续的研究开展不再需要这些信息。在T1、T2、T3、T4和T5时间段,收集的数据涉及造口及造口周围并发症的存在与否、类型和分类,以及是否需要药物或手术治疗。经验丰富的护士对这些并发症进行了观察、界定和拍照。具体而言,SACS 2.0分类20用于对造口周围皮肤变化进行分类,Chirco等人(2023)21的文献综述用于对造口并发症进行分类。
观察期结束后,使用XLSTAT软件(版本2021.3.1)研究危险因素,认为p值<0.05具有显著性,并使用透视表研究并发症的发生率。
研究程序:研究包括一个初始阶段,即研究方案编写和文献检索。这部分工作主要由护理专业学生在专家护士和赞助该研究的外科医生的监督下完成。文献检索的标准包括:过去20年内在国际索引期刊上发表的英文研究,调查与造口和造口周围并发症发展相关的危险因素,以及调查个体并发症。经当地伦理委员会批准后,研究小组开始了第二阶段的观察和数据收集工作。具体来说,181例患者于2021年5月至9月期间被纳入研究。每例患者均在术后即刻期内,即手术后48至72小时内入组。手术由外科手术团队中的专业造口外科医生执行。ET/伤口护理护士对患者进行检查,在初次和随后的随访中评估是否存在造口并发症。学生护士负责与受试者面谈并收集数据。为便于研究,研究人员在术后即刻、术后48-72小时内在医院住院病房(T0)收集受试者数据,然后在专科门诊收集数据,具体如下:首次评估后一周(T1)、两周后(T2)、首次访视后一个月(T3)、两个月后(T4)和三个月后(T5)。访谈在首次访视时进行,并在接下来的三个月至2021年12月期间收集造口和造口周围皮肤数据。收集的人口统计学数据包括:性别;年龄;BMI(≤18体重过轻;18≤BMI≤24.5标准;≥24.5超重);既往合并症和合并症类型(心脏病、呼吸道疾病、胃肠道疾病、糖尿病、既往肿瘤和全身性疾病);造口手术类型,无论是紧急还是择期手术;手术日期;创建或形成的造口类型,以及是临时还是永久性造口;术后并发症;并发症类型,无论是造口还是造口周围发症;并发症治疗类型,无论是药物治疗还是手术治疗。在2022年1月和2月的观察期结束时,学生护士在研究赞助者外科医生的监督下进行了数据分析。
所有患者及其护理人员在手术后的前两周以及必要时在接下来的几个月内接受了技术与科学造口护理及盆底康复协会(AIOSS)22概述的造口自我管理定期培训。
结局指标:这是一项前瞻性观察性研究,因此没有确定结局指标,但研究方案中包括了两个目标:(i)确定造口和造口周围并发症的发生率,以及(ii)使用Fisher精确检验和卡方检验来验证并发症的独立危险因素。
伦理批准:本研究的研究方案由Azienda USL托斯卡纳中心的区域伦理委员会审查,并于2021年5月18日通过第1325号决议获得批准。2021年5月至12月期间,自愿参与研究的患者均按照现行有关数据保密和伦理要求的规定入组研究。患者已被告知研究的目的和方法,并签署了知情同意书和图像资料收集的授权书。
数据分析
在观察期结束时,利用Excel数据库中的数据生成的数据透视表,对三个月观察期间发生的并发症总数以及不同观察期的个体并发症的发生率和累积率进行了研究。在六个观察期中的每个观察期,计算了以下几方面的发生率:所有发生的并发症;区分造口并发症和造口周围并发症;按造口类型分别计算尿道造口(肾造口、经皮输尿管造口和回肠输尿管造口)和肠造口(盲肠造口、升横结肠造口、降横结肠造口、乙状结肠造口和回肠造口)。
为了研究本研究中发现的不同变量与并发症发生率之间的相关性,我们使用XLSTAT软件(版本2021.3.1)(由Addinsoft PARIS提供,法国,欧洲)进行了Fisher检验和卡方检验,认为每个变量的p值<0.05即具有显著性。将并发症的存在与否定义为因变量,自变量包括:年龄、性别、BMI、手术类型(紧急手术与择期手术)、既往合并症、合并症类型(内科疾病与肿瘤性疾病)。
经过详细的情况分析后,我们决定遵循Antonini等人(2018)在WCET杂志23上发表的研究中提出的方案,以确定一种普遍接受的个体并发症治疗的次要目标。
结果
共招募了181例受试者,包括66例女性和115例男性,平均年龄为73岁(范围为32-97岁)。其中,130例患者的BMI>24.5,仅3例患者BMI≤18,48例患者体重正常。此外,181例受试者中有168例报告了心脏病、呼吸系统疾病、慢性胃肠道疾病、泌尿系统疾病、既往肿瘤和全身性疾病(甲状腺功能减退症/甲状腺功能亢进症等)中的至少一种合并症。在手术变量方面,87例受试者接受了紧急手术,其余94例受试者接受了择期手术(表2)。在后者中,仅有一例受试者接受了正确放置造口的术前规划;因此,在进行危险因素识别研究的统计分析时排除了这一变量。51.9%的患者接受了肠造口,剩余48.1%接受了尿道造口。
表2.研究人群的人口统计学和手术变量分布情况
在每个观察期内,根据上述各种退出标准,患者数量不时减少。在T0入组的181例患者中,仅有98例(54.1%)出现并发症。在T5结束时(三个月),仍保留有129例患者,其中仅有18例(13.9%)出现并发症。此外,每个观察时间点出现并发症的患者人数从1人到最多4人不等(表3)。
表3.六个观察期间记录的并发症汇总表。
发生率分析
数据分析显示,随着时间的推移,造口并发症的发生率逐渐降低:从T0的54.1%降至T5的13.9%,在招募后两周(T2=17.8%)和一个月(T3=20.5%)时略有上升。
在三个月的观察期间,共记录了356例并发症;从T0到T5,最具代表性的并发症发生率依次为:刺激性接触性皮炎(ICD)18.5%(66/356),在不同随访中均匀分布;腹部平面造口错位13例。T0时观察到2%(47/356);造口水肿10.9%(39/356),主要发生在T0;粘膜皮肤分离8.1%(29/356),主要在T2观察到(表4)。
表4.各次随访中并发症总数的分布与观察到的并发症数量的关系。
此外,收集的数据显示,不同并发症(造口和造口周围)的发生率在不同的观察时间分布不同(表5)。在T0时,可以观察到与记录的总并发症数量相关的造口并发症多于造口周围并发症,造口错位(i=29.1%)和造口水肿(i=21.7%)的发生率较高。然而,在入组三个月后,这一比例再次上升,因为此时晚期造口并发症的发生率较高,如回缩(iT1=29%;iT2=40%;iT3=38%)和造口旁疝(iT4=100%;iT5=67%)。在T1至T5的后续观察期内,造口周围并发症的发生频率更高。最常见的并发症是:
- ICD,几乎在所有观察期内均有记录(iT1=31%;iT2=19.2%;iT3=23.3%;iT4=38.7%;iT5=32.1%)。
- 皮肤粘膜分离,主要出现在入组两周后(iT2=35%)
- 根据SACS 2.0量表分类,不同类型的増生性病变几乎一直存在(i=16%-21%);
- 造口周围皮肤感染(i=10%-11%)。
表5.不同观察时间(T0-T5)造口和造口周围并发症的发生率分布。
- 根据造口类型对造口并发症的发生率进行分析后得出的数据显示,在六次不同的随访中,肠造口并发症的发生率占总并发症发生率的77.5%(276/356)。发生率最高的是:
- ICD,i=19.5%(54/276),在回肠造口(i=30.2%)和盲肠造口(i=2.5%)中更为常见
- 造口水肿,i=13.4%(37/276),在结肠造口中最为常见(表6)
- 造口错位,i=9.7%(27/276),在结肠造口中也最常见
- 皮肤粘膜分离,i=8.7%(24/276),也主要发生在结肠造口。
- 此外,在记录的所有并发症中,22.4%(80/356)发生在尿道造口。最具代表性的是:
- 造口错位,i=25%(20/80),主要发生在经皮输尿管造口(i=50%)
- ICD,i=15%(12/80),主要发生在回肠输尿管造口(i=33.3%)
- 増生性损伤,i=12.5%(10/80),炎症过程导致的充血损伤,i=11.2%(9/80),这两种损伤在肾造口术中更为常见(表7)
表6.肠造口术中造口并发症总数(T0至T5)的分布与并发症数量的对比。
表7.尿道造口术中造口并发症总数(T0至T5)的分布与并发症数量的对比。
危险因素分析
术后即刻(T0)的造口并发症发生率最高。因此,在此期间进行了静态分析非参数推断统计分析,以评估不同变量与并发症发生之间的相关性。为了进行这一分析,我们使用了Fisher检验(用于假设检验的非参数统计的显著性检验)和卡方检验来检验两个定性变量之间是否存在显著的统计学关联。我们认为p值<0.05具有显著性。
分析表明,术前存在一般合并症是造口/造口周围并发症发生的决定性因素(p值=0.005)(表8)。不过,按术前合并症类型(内科疾病与肿瘤性疾病)进行分层时,两者之间的相关性没有统计学意义(p值=0.013)。同样,性别(p值=0.097)、年龄(p值=0.789)、BMI(p值=0.188)和手术类型(紧急手术与择期手术)(p值=0.010)与并发症的发生无关。
表8:因变量“存在/不存在合并症”与自变量“存在/不存在术前一般合并症”之间的相关性。
讨论
对过去二十年发表的国际文献进行仔细回顾后发现,无论是在造口和造口周围并发症的发生率和流行率方面,还是在发生这些并发症的危险因素方面,现有数据仍然存在很大的异质性。根据D'Ambrosio等人最近(2022)的系统性综述,造成这些差异的原因可归结为以下几个因素:样本量小且存在异质性、造口类型不同、考虑的并发症类型和确定病例的方式不同,以及对皮肤问题的评估/分类存在差异。24此外,大多数研究均是回顾性研究。基于这些假设,有必要研究:造口术后前三个月内个体并发症的发生率;影响其发生的变量;以及使用标准化研究设计的可能危险因素。
我们的研究得出结论,造口并发症比造口周围并发症更常见,尤其是早期并发症。在其他五个观察时间段,这种优势似乎发生了逆转,其中造口与造口周围并发症的比例几乎总是1:3。随着观察时间的延长,出现造口并发症的概率似乎在降低。
我们报告的最常见早期造口并发症包括:造口错位(i=29.1%)、造口水肿(i=21.7%)(主要出现在T0期)和造口回缩(iT1=29%;iT2=40%)。两个因素可能解释了该样本中T0时造口并发症发生率较高的原因:首先,在进行该研究的中心,术前进行造口定位的做法并不常见;其次,在文献和分析的研究中,没有一项研究将造口错位和造口水肿视为造口并发症。后者被认为是一种病理过程,其原因需要仔细研究,而不是肠道在手术过程中受到压力的生理表现。25如果医疗机构未能采用术前造口置入的做法,则会对研究结果和患者福祉产生负面影响。既往研究也表明,这也増加了患者发生造口和造口周围并发症的风险。26-28 Millan等人在2010年的研究中表明,在紧急手术和择期手术患者中,受益于造口治疗师术前造口教育和造口置入的样本比对照组造口周围皮肤并发症更少。29 Pinto等人(2017)通过对22篇文章的回顾,也定义了四类危险因素;造口位置是与治疗相关的危险因素之一。30这无疑解释了数据收集中记录的造口位置不当或位置不佳的比例较高的原因。我们认为,通过对这种单一并发症的研究,手术团队可以改进他们的手术方法,并作为未来研究的一个目标,评估T0时出现的错位与后续随访中发生的并发症之间的相关性,确定哪些并发症是最常见的。
对并发症发生率的分析还显示,并发症的类型因造口类型(肠造口或尿道造口)而异。造成这种差异的原因可能是皮肤接触到的造口渗出物中有害物质的类型不同。由此可见,与文献,尤其是Steinhagen等人(2017)发表的综述一致,造口周围皮肤并发症主要发生在回肠造口,31 ICD的发生率较高(i=30.2%);但在结肠造口中,造口并发症更为常见。在本研究中,结肠造口相关并发症发生率最高的是皮肤粘膜分离(i=33.3%),主要发生在入组两周后(T2),这可能是由于皮肤粘膜交界处的缝线被拆除/松动所致。上述Steinhagen等人的研究报告指出,文献中低估了皮肤粘膜分离的发生率,它主要是术后早期的并发症。31 因此,可以看出,造口类型不同,并发症也不同。
最后,所进行的统计分析显示,本造口术研究中发现的造口和造口周围并发症在统计学上与术前存在一种或多种常见合并症有关,但由于样本的部分异质性和分层的困难性而存在重要的局限性。相比之下,Koc等人(2017)在为研究早期并发症发生危险因素而进行的回顾性分析中,将造口选址定义为造口并发症发生的独立危险因素。2 Guerra 等人(2023)建议,正确的造口护理和维护,包括使用保护膜以及仔细监测体重和合并症,是将造口相关并发症风险降至最低的关键。3
研究优势
通过使用明确的手术定义、标准化的评估方法以及前瞻性、纵向、重复测量的研究性质,本研究的设计比以往的文献研究有所改进。除了描述并发症的累积发生率和确定可能的危险因素的重要性外,数据还详细描述了每次随访时发生的并发症类型以及发生并发症的造口类型。以前的文献中很少发现此类研究,24;32-33只有一位研究者11报告了造口并发症发病率的纵向数据,包括观察期间的累积数据和个体数据。
研究局限性
由于样本量较小,获得的数据存在部分异质性,因此应谨慎看待研究结果。此外,在入组术后即刻期的181例受试者中,仅有129例达到了观察终点(3个月),在这部分损失中,逻辑回归分析是有用的。
作者认为,为了全面了解造口后期并发症的情况,观察期至少应延长至一年,而且更应该让其他造口康复中心参与进来,以便更广泛地了解这一现象。
结论
这项研究的结果被认为对实施造口手术的结直肠外科医生、普通外科医生、ET/造口治疗护士以及病房护士在提供造口教育和实践方面具有重要意义。然而,显然有必要进一步开展研究,延长随访时间,并探讨对个体并发症发展影响最大的变量之间的关系。目前,这项研究仍在进行中,其主要目标是制定适用于各种医院和非医院环境的造口并发症标准化处理方法。最终目标是改善所有造口患者的QoL。
Author(s)
Giorgia Chirco
Nurse, Don Carlo Gnocchi Foundation, Florence, Italy
Email giorgiachirco1999@gmail.com / giorgia.chirco1999@pec.it
Mario Antonini
ET/Wound Care Nurse, Ostomy Rehabilitation Center (CE.RI.STOM) Azienda USL Toscana Centro, Empoli, Italy
Tommaso Cioppa
MD SOC
General Surgery, Azienda USL Toscana Centro, Empoli, Italy
* Corresponding author
References
- Cottam J, Richards K, Hasted A, Blackman A. Results of a nationwide prospective audit of stoma complications within 3 weeks of surgery. Colorectal Dis. 2007 9(9):834–838. doi: 10.1111/j.1463-1318.2007.01213.x
- Koc U, Karaman K, Gomceli I, Dalgic T, Ozer I, Ulas M, Ercan M, Bostanci E, Akoglu M. A retrospective analysis of factors affecting early stoma complications. Ostomy Wound Manage. 2017;63(1):28–32. PMID: 28112647
- Guerra E, Denti FC, Di Pasquale C, Caroppo F, Angileri L, Cioni M, Parodi A, Fortina AB, Ferrucci S, Burlando M. Peristomal Skin Complications: Detailed analysis of a web-based survey and predictive risk factors. Healthcare (Basel). 2023;11(13):1823. doi: 10.3390/healthcare11131823
- Dellafiore F, Caruso R, Bonavina L, Udugampolage NS, Villa G, Russo S, Vangone I, BaronI I, Di Pasquale C, Nania T, Manara DF, Arrigoni C. Risk factors and pooled incidence of intestinal stoma complications: systematic review and Meta-analysis. Curr Med Res Opin. 2022 38(7):1103–1113. doi: 10.1080/03007995.2022.2081455
- Arumugam PJ, Bevan L, Macdonald L, Watkins AJ, Morgan AR, Beynon J, Carr ND. A prospective audit of stomas--analysis of risk factors and complications and their management. Colorectal Dis. 2003;5(1):49–52. doi: 10.1046/j.1463-1318.2003.00403.x.
- Jayarajah U, Samarasekara AMP, Samarasekera DN. A study of long-term complications associated with enteral ostomy and their contributory factors. BMC Research Notes. 2016;9:500. https://doi.org/10.1186/s13104-016-2304-z
- Shabbir J, Britton DC. Stoma complications: a literature overview. Colorectal Dis. 2010;12(10):958–964. doi:10.1111/j.1463-1318.2009. 02006.x.
- Krishnamurty DM, Blatnik J, Mutch M. Stoma complications. Clin Colon Rectal Surg. 2017;30(3):193–200. doi: 10.1055/s-0037-1598160
- Malik TAM, Lee MJ, Harikrishnam AB. The incidence of stoma related morbidity– a systematic review of randomised controlled trials. Ann R Coll Surg Engl. 2018;100:501–508. doi: 10.1308/rcsann.2018.0126
- Nybaek H, Lophagen S, Karlsmark T, Knudsen DB, Jemec GBE. Stratum corneum integrity as a predictor for peristomal skin problems in ostomates. Br J Dermatol. 2010;162(2):357–361.
- Salvadalena GD. The incidence of stomal and peristomal complications during the first three months after stoma creation [PhD Thesis]. Chicago (US): Health Sciences Centre, University of Illinois; 2010.
- Alonso Gracia N, Analysis of medical/surgical complications of cutaneous ileostomy. Actas Urol Esp. 2004;28(6):437–442.
- Szymanski KM. External stoma and peristomal complication following radical cystectomy and ileal conduit diversion: a systematic review. Ostomy Wound Manage. 2010;56(1):28–35.
- Giannakopoulos GF, et al. Morbidity and complications of protective loop ileostomy. Colorectal Disease. 2009;11:609–612.
- Karadag A. Frequency of stoma complications in Ankara, Turkey. WCET Journal. 2004;24(2):41–43.
- Kouba E, et al. Incidence and risk factors of stoma complications in patients undergoing cystectomy with ileal conduit urinary diversion for bladder cancer. J Urology. 2007; 178: 950-954.
- Saghir JH, et al. Factors that predict complications after construction of a stoma: a retrospective study. Eur J Surg. 2001; 167:531–534.
- Pittman J, Rawl SM, Schmidt CM, Grant M, Ko CY, Wendel C, et al. Demographic and clinical factors related to ostomy complications and quality of life in veterans with an ostomy. J WOCN. 2008;35(5),493–503.
- Sung et al. Factors affecting ostomy-related complications in Korea. J WOCN. 2010; 37(2): 166-172.
- Antonini M, Arena R, Gasperini S, Manfredda S, Militello G, Veraldi S. A revised version of the original SACS Scale for Peristomal Skin Disorders Classification. WCET® Journal. 2016; 36:22-29.
- Chirco C, Antonini M. Stoma and peristomal complications: a rapid overview of the literature. Infermieristica Journal. 2023;2(1):13-25. doi: 10.36253/if-2075
- Barbierato M, AIOSS. Linea Guida sulla gestione del paziente adulto con stomia enterale e/o urinaria. October 2018, first revision August 2021. https://www.aioss.it/wp-content/uploads/2023/06/BEST-PRACTICES-in-STOMATERAPIA-2021.pdf
- Antonini M, Arena R, Mancini S, Bartoli R T, Manfredda S, Militello G, Gasperini S, & Veraldi S. Peristomal skin changes: What treatment should be adopted?: Results of an observational multi-centre study. WCET Journal, 2018;38(1),30–34.
- D’Ambrosio F, Pappalardo C, Scardigno A, Maida A, Ricciardi R, Calabrò GE. Peristomal skin complications in ileostomy and colostomy patients: what we need to know from a public health perspective. Int J Environ Res Public Health. 2022;20(1):79. doi: 10.3390/ijerph20010079
- Antonini M. Edema, Ischemia e Necrosi della stomia: Assessment e trattamento. In: AIOSS. Arte e scienza dell’assistenza infermieristica in stomaterapia: curare, prendersi cura, educare, a cura di Carla Saracco. Castellato (TE): Editpress S.r.l.; luglio 2021; 505–507
- Erwin-Toth, P. Ostomy pearls: a concise guide to stoma siting, pouching systems, patient education, and more. Adv Skin. 2003; 16(3):146–152.
- Arolfo S, Borgiotto C, Bosio G, Mistrangelo M, Allaix ME, Morino M. Preoperative stoma site marking: a simple practice to reduce stoma-related complications. Tech Coloproctol. 2018;22(9):683–687. doi: 10.1007/s10151-018-1857-3
- WOCN Society Clinical Guideline. J WOCN. 2018;45(1),50–58. doi:10.1097/WON.0000000000000396
- Millan M, Tegido M, Biondo S, García-Granero E. Preoperative stoma siting and education by stomatherapists of colorectal cancer patients: a descriptive study in twelve Spanish colorectal surgical units. Colorectal Dis. 2010;12(7):e88–92. doi: 10.1111/j.1463-1318.2009.01942.x.
- Soares-Pinto I, Queirós S, Queirós C, da Silva C, Santos C, Brito M. Risk factors associated with the development of elimination stoma and peristomal skin complications. Revista de Enfermagem Referência. 2017;IV:155–166. doi: https://doi.org/10.12707/RIV17071
- Steinhagen E, Colwell J, Cannon LM. Intestinal stomas-postoperative stoma care and peristomal skin complications. Clin Colon Rectal Surg. 2017;30(3):184–192. doi: 10.1055/s-0037-1598159.
- Carlsson E, Fingren J, Hallén AM, Petersén C, Lindholm E. The prevalence of ostomy-related complications 1 year after ostomy surgery: a prospective, descriptive, clinical study. Ostomy Wound Manage. 2016;62(10):34–48. PMID: 27768579
- Harputlu D, Özsoy SA. A prospective, experimental study to assess the effectiveness of home care nursing on the healing of peristomal skin complications and quality of life. Ostomy Wound Manage. 2018;64(10):18–30. PMID: 30312155
- Lindholm E, Persson E, Carlsson E, Hallén AM, Fingren J, Berndtsson I. Ostomy-related complications after emergent abdominal surgery: a 2-year follow-up study. J WOCN. 2013;40(6):603–610. doi: 10.1097/WON.0b013e3182a9a7d9