Novel Prevention Approaches of Breast Cancer Surgery Related Complications: Systematic Review and Network Meta-Analysis

Background: Breast cancer surgery related complications are a complex condition influenced by interactions among nerve pathways and the physiological responses to breast surgery. The intensity of this complications displays substantial heterogeneity, dependent on individual patient characteristics, the extent of the surgical procedure performed, and various contributing factors. Methods: A comprehensive search of electronic databases was conducted to identify relevant randomized controlled trials (RCTs) investigating interventions for post-mastectomy pain syndrome (PMPS). A network meta-analysis was performed to integrate direct and indirect evidence, enabling comparisons of multiple interventions across different outcome measures. Results: The systematic search yielded a total of 26 RCTs investigating 4 groups of different interventions for PMPS. The interventions included pharmacological agents, nerve blocks, physical therapy, and anesthesia regimens. Nerve blocks (OR: 0.34; 95% CrI: 0.24–0.46) and anesthesia (OR: 0.39; 95% CrI: 0.26–0.56) demonstrated improvements in functional outcomes and quality of life. Conclusion: This systematic review and network meta-analysis provide a comprehensive evaluation of interventions for PMPS, highlighting their varying efficacy in alleviating pain and improving functional outcomes and quality of life. However, further research with large-scale, well-designed RCTs is warranted to strengthen the evidence base and validate the effectiveness of these interventions in managing PMPS effectively.


Introduction
Breast cancer (BC) is the primary cause of mortality in women and ranks as the fifth leading cause of cancer-related deaths worldwide.It accounted for 2.3 million new cases in 2020, representing 11.7% of all cancer cases, and caused 684,996 deaths [1].Notably, Asia had the highest incidence with 1,026,684 cases (45.4%) and the highest number of deaths with 345,559 (50.4%) [1,2].In Kazakhstan alone, an estimated 4,896 new cases of invasive breast cancer will be diagnosed in 2030 [3].Moreover, the number of breast cancer-related deaths is set to double by 2040 in many countries, suggesting a concerning escalation in the future burden of BC [4,5].
Based on data from the CONCORD-2 study, BC patients diagnosed between 2005 and 2009 had 5-year survival rates of at least 85% [6].However, a significant concern in survivorship is persistent pain after breast cancer treatment, with 10-20% of survivors reporting moderate to severe pain that can last for several years after surgery [7].The growing number of survivors highlights the need to improve the quality of life for breast cancer patients whose lives are extended by treatment.Unfortunately, intractable post-mastectomy pain negatively affects the quality of life for many patients [8,9].
The persistent pain is commonly known as postmastectomy pain syndrome (PMPS), which is described by the International Association for the Study of Pain (IASP) as enduring pain in the anterior thorax, axilla, and/ or upper arm for more than three months after completing treatment.PMPS may result from nociceptor or nerve fiber of peripheral nerves damage during mastectomy or adjuvant therapy, indicating that it mainly exhibits neuropathic pain characteristics [10].The exact incidence of PMPS varies in the literature, with estimates ranging from 20% to 60% of mastectomy patients experiencing chronic pain after surgery [11][12][13].The classic PMPS itself has a lower incidence (23.9%) in comparison with lymphedema and musculoskeletal pain (47% and 42%) in patients undergoing breast surgery [9,12,14].
Certain risk factors have been identified to increase the likelihood of developing PMPS.These include younger age, pre-existing painful conditions, more extensive surgeries involving lymph node removal, radiation therapy, and psychological vulnerability, anxiety and depression [15].One of the most reliable factors associated with the development of persistent postoperative pain is the presence of pre-existing pain, as indicated by a recent meta-analysis [16].The study revealed that among women who had pre-operative pain, the odds of experiencing PMPS increased to 1.29 (95% CI = 1.01-1.64)[16].Some authors suggest that pain sensitivity and/or central sensitization might predispose surgical patients to chronic pain after surgery [17][18][19].
The primary aim of this review is to identify the most effective treatment modality for chronic pain after breast cancer-related surgery.

Materials and Methods
This systematic review was designed following Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines [20].

Information sources and selection of studies
The researchers captured all pertinent trials specific to treatments for PMPS.The search was conducted through MEDLINE (PubMed), Embase (Elsevier), Cochrane Central Register of Controlled Trials (Wiley), Clinicaltrials.gov,and Web of Science (Clarivate) databases from 1 January 2010 to 1 July 2023.All results were exported to EndNote for further deduplication and evaluation.Search strings contained MESH terms and key words such as: "breast neoplasm/surgery; mastectomy; lumpectomy; segmentectomy; postoperative pain/adverse reactions; perioperative treatment; neuralgia; chronic pain; neuropathic pain; neurofibrositis; neurosensory pain; pain syndrome; persistent pain; nerve damage; post-operative pain; post-surgery pain; post-mastectomy pain syndrome".After that, all unique articles meeting criteria of inclusion were exported to online platform to independent screening by review team (investigators from author list).Additional articles identified by searching the references of eligible articles.No restrictions of language or geographical location were placed.Search strategies included searching for articles in other languages.When such an article was included, it was translated by a qualified translator.

Selection of studies
Included in the synthesis were full-text articles with outcomes of our interest, such as presence of chronic (> 1 months) pain after mastectomy.Definitions, such as "breast surgery", "persistent pain" were outlying for selection.RCTs with sample sizes greater than 10 patients in every arm were included.To avoid selection bias, inclusion criteria were agreed before data extraction and NMA.Full-text screening was performed by two investigators with uncertainties resolved by senior author.

Inclusion criteria
-Full-text, original articles in peer-reviewed journals; -Reporting outcomes of impact of intervention on PMPS after breast cancer surgery; -Randomized Controlled Trials with sample size > 10 patients.

Data extraction and assessment
Data from studies that met the eligibility criteria was validated to extraction and exported to Excel spreadsheet.Data fields of interest included: (1) first author, publication year and country of study; (2) study design and prevention approach; (3) sample size; (4) follow-up period; (5) outcomes; (6) instrument for outcome measurement.This information was obtained for both experimental and control groups.The primary outcomes were considered to patient's self-reported pain condition, comparing the PMPS incidence in the main and control groups.The quality of RCTs was assessed by using the Jadad scale [21].Studies were evaluated according to study design, including availability of randomization and blinding methods, as well as description of any withdrawals in the follow-up period.We graded studies as having a high (0-2 points) or low risk of bias (3-5 points).
The feasibility assessment via NMA evaluated whether RCTs were comparable in terms of outcomes and timepoints at which outcomes were assessed.Connected networks that included control and comparators are presented in Figure 1.Comparisons between interventions were compared indirectly via Bayesian NMA.

Bayesian Analysis and NMA Approach
In every analysis, the comparisons between the control group and each treatment of interest were determined using long-established Bayesian Network Meta-Analysis (NMA) techniques.Bayesian NMA used to explore the potential impact of prevention modalities across trial populations, within variety subgroups of treatment methods.Heterogeneity across studies was proceeded using Cochrane Q-statistic (p≤0.05 was set as statistically significant) and heterogeneity of studies was confirmed with I 2 =96%.The following ranking was used: I 2 =0%-25% -no heterogeneity; I 2 =25%-50% -moderate heterogeneity; I 2 =50%-75%, -large heterogeneity; I 2 =75%-100%extreme heterogeneity.
We used random-effects (RE) models to determine the overall intervention effect, taking into account heterogeneity among trials.For continuous outcomes (pain severity), the overall pooled estimates were reported as weighted standardized mean difference (SMD) with 95% confidence intervals (CI), to take into account the differences in sample sizes across studies.Among the studies that met our selection criteria, pain was evaluated using either the visual analogue scale (VAS) with a range excluded for the following reasons: 49 trials investigated short follow-up after intervention with time-points at 24h and 4 weeks, 33 trials did not contain any outcomes of interest, 4 trials included multi-arm stratification with varying doses of medications.Subsequently, a total of 26 RCTs were included in the NMA, as presented in the flow diagram, in Figure 2.

Risk of Bias Assessment
Among the included studies, the most frequently found bias was performance bias; only 7 studies (out of 26) were unblinded (Figure 3).

Treatment and patient characteristics
A summary of the trials characteristics and treatment approaches is provided in Table 1.The 26 studies included in the NMA assessed monotherapy options.The evaluated treatments and their frequencies across the RCTs were as follows: nerve blocking (nine studies), anesthesia (five studies), oral medications (five studies), physical methods (seven studies).
A total of 2669 patients were included in the 26 RCTs.Sample sizes ranged from 18 to 190.All patients have been diagnosed with metastatic BC or locally advanced BC and received prior treatment, such as radical or partial mastectomy.Trial samples were generally similar, including sex, age and type of prior treatment.Range of average age estimated from 50 to 60 years.

Prevention Modalities Nerve Blocks
Ten studies were RCTs on the efficacy of perioperative nerve blocks in the prevention of PMPS met inclusion criteria (Table 1).The total study population involved of 0 to 100 or the numeric rating scale (NRS) with a range of 0 to 10.All pain scores were converted to the NRS format, which ranges from 0 to 10.
All analyses were performed using the RevMan Web (v 1.22.0,The Cochrane Collaboration, 2020) and MetaInsight software (v 1.1, National Institute for Health Research) [22].NMA was conducted with usage of with 50,000 iterations and a burn-in period of size 10,000 .Forest plots with odds ratios and their 95% CI were used to visualize all results.Each NMA yielded an assessment of the relative treatment effect, represented as an odds ratio (OR) for incidence of PMPS.Along with these estimates, a 95% credible interval (CrI) was provided.In the results section, the term 'statistically' was used to indicate cases where the 95% CrIs for OR did not encompass the 1.

Ethics approval and consent to participate
Not required as data is not individualized, and primary data need to be collected.

Consent for publication
The corresponding author accepts responsibility for releasing this material on behalf of all co-authors.

Systematic Literature Review Study Selection
The comprehensive search identified 4,128 records for the title and abstract screening after duplicate removal.Of these, 509 articles were screened for full-text eligibility and 26 publications meeting inclusion criteria were involved in qualitive synthesis and Bayesian NMA.Of the 86 RCTs identified by researchers, 60 trials were

patients.
Inefficiency of wound irrigation with local analgetics via catheter/injection prompted to search new nerve blocking techniques [23].However, higher doses of opioid analgetics for regional irrigation led to decrease in pain severity (p<0.006),but had limitations, including respiratory depression, sedation, nausea, vomiting, constipation, and high tolerance [24].
The PECS II block is an ultrasound-guided technique targeting the inter-fascial plane between the pectoralis major muscle and the pectoralis minor muscle, with a deeper block affecting the serratus anterior muscle (SAM) [25].Compared to the original PECS method, the modified PECS II procedure showed more effective results.A study comparing PECS and PECS II found that the latter reduced opioid use in the first 12 hours and resulted in shorter postanesthesia care unit stays and overall hospitalization time [26].Study included in this NMA showed higher rate of pain-free women at six postoperative months after PECS II block compared to the SAP block (p = 0.03) [27].
The use of thoracic paravertebral block (TPVB) in breast surgery has been well-known in previous studies, showing reductions in opioid use and postoperative pain.In study performed by Karmakar et al. (2014) [28], the single-injection TPVB technique requires less time to perform and is less labor-intensive compared to the Figure 3. Risk of Bias assessment Using Cochrane Criteria.multiple-injection technique or paravertebral catheters.However, it should be noted that TPVB may be regional and not affect axilla (T1 nerve distribution).

Anesthesia
Five studies investigating the efficacy of anesthesia in preventing PMPS were included in this review, comprising    1).Lidocaine exhibits several properties that make it a potentially useful drug for preventing chronic postsurgical pain, including sodium channel blockade, anti-inflammatory effects, and anti-hyperalgesic properties.Terkawi et al. (2015) [29] conducted a double-blind, placebo-controlled study and found that perioperative lidocaine infusion reduced the incidence of PMPS (12%) compared to the placebo group (30%).However, there was no statistically significant difference in acute postoperative pain or morphine consumption between the lidocaine and placebo groups in this study population.Kendall et al. (2018) [30] reported no differences in the quality of recovery, pain burden, or opioid consumption between groups at 24 hours.However, at 6 months after surgery, 29% of patients in control group had pain attributed to surgery compared to 13% in experimental group (p = 0.04).
Kang et al. (2020) [31] found that intraoperative low-dose ketamine reduced pain incidence at 3 months postoperatively compared to the control group, but this effect did not persist at 6 months (p = 0.121).However, Figure 5. Forest Plot for chronic pain severity, based on VAS/NRS pain assessment after 3 months of the follow-up.The observed effects, based on the random-effects model, are indicated with the green square with the outer edges indicating the 95% confidence interval limits.The size of each square is proportional with the weight of that particular study in the meta-analysis.Table 3. League Table .The estimates from the network meta-analysis.subanesthetic ketamine doses may be associated with serious psychotomimetic complications, and guidelines caution against its use due to potential adverse effects.
Systemic lidocaine, on the other hand, not only improved acute postoperative pain scores but also positively influenced emotional state and pain sub-This table contain estimates from Bayesian meta-analysis with indirect evidence.The data are considered consistent due to the high heterogeneity of the studies included in the NMA.
Figure 7. Ranking Results.SUCRA (Surface Under the Cumulative Ranking Curve) values, varying from 0 to 100%, indicate the probability of a therapy being in the top rank or among the top ranks.A higher SUCRA value, closer to 100%, signifies a greater likelihood of the therapy ranking higher.Conversely, a lower SUCRA value, closer to 0, suggests a higher likelihood of the therapy being in the bottom rank or among the lower ranks.scores of the Quality of Recovery-40 (QoR-40) [32].Additionally, systemic lidocaine reduced the intensity of chronic pain at 3 months post-surgery, as evaluated using the Short-Form McGill Pain Questionnaire (SF-MPQ).No significant differences were observed between the magnesium and control groups (p = 0.164) [32].
Wang et al. (2020) [33] found that ropivacaine infiltration of two drainage exit sites effectively reduced postoperative acute pain and analgesic requirements within 24 hours.However, at the 3-month follow-up, no significant differences were detected in the incidence of chronic pain between the ropivacaine and control groups.

Oral Medications
Five RCTs investigating the efficacy of oral medications in managing PMPS met the inclusion criteria (Table 1), comprising a total population of 495 patients.
Morel et al. ( 2016) [34] conducted a randomized, pilot clinical trial and found that patients in the memantine group reported significantly less pain than those in the placebo group (p = 0.017).Moreover, only 5% of patients in the memantine group required neuropathic pain treatment compared to 30% in the placebo group (p = 0.04).This innovative trial suggests that pre-surgery memantine may prevent the occurrence of pain three months after mastectomy and potentially reduce dysesthesia and paresthesia induced by chemotherapy.
(2019) [35] found that pregabalin decreased the incidence and intensity of chronic pain at 6 months postoperatively.
Nefopam was found to be effective in reducing acute postoperative pain and analgesic drug consumption [37].Notably, significantly fewer patients in the nefopam group experienced postoperative pain compared to the control group at 3 months postoperatively (36.6% vs. 59.5%, p = 0.04).However, in nefopam group NRS points was low and comparable between the two groups.

Physical Methods
Six randomized controlled trials (RCTs) assessed the impact of physical therapy (PT) on the incidence and severity of post-mastectomy pain syndrome (PMPS), involving a total study population of 808 patients.
According to Ammitzbøll et al. (2020) [38], implementing a 1-year progressive resistance training program did not yield any notable advantages over usual care in terms of reducing the incidence or intensity of chronic pain.Pain scores mostly showed insignificant decreases from baseline to 20 weeks, which remained consistent at the 12-month follow-up.De Groef et al. (2017) [39] found that including an 8-session myofascial therapy program in a standard PT regimen did not result in any additional benefits.The addition of myofascial therapy did not show any extra advantageous effects on pain prevalence rate, pain intensity, or pain quality in the early postoperative stage after breast cancer surgery [39].Hammond et al. (2020) [40] demonstrated that the treatment group, after attending four PT sessions, experienced a significant reduction in pain over time (OR 0.85, 95% CI 0.76-0.94;p = 0.002).DOI:10.31557/APJCP.2024.25.1.9Complications of Breast Cancer Surgery

Surgical Methods
Targeted muscle reinnervation could potentially alleviate persistent neuroma pain following mastectomy and/or axillary lymph node dissection (ALND).Nerve allografts might serve as grafts placed between nearby nerve segments.Additionally, the use of fat grafting could reduce the likelihood of developing PMPS [26].
The use of autologous fat graft may lead to improvements in tissue differentiation and scar softness, which can positively impact nerve entrapment and contribute to successful clinical outcomes [41].The effectiveness of fat grafting in addressing PMPS is based on the principles of regenerative medicine.Specifically, the stromovascular component of fat tissue contains crucial mesenchymal stem cells (ADSC) [41].These ADSCs play a significant role in sustaining the viability of grafted fat cells by secreting various cytokines and growth factors, leading to neoangiogenesis, immunomodulation, and anti-inflammatory effects.

Meta-Analysis
To evaluate the efficacy in decreasing PMPS incidence by variety of treatment modalities we visualized two forest plots.We calculated odds ratios with a random-effects meta-analysis of the incidence of PMPS between treated and control groups.

Pain Severity
Data from 12 RCTs, including 1,203 patients (591 in the experimental groups and 612 in the control groups), were used for the meta-analyses of chronic pain.Only these studies reported pain scores in VAS or NRS scales assessment after 3 months.Results indicated a reduction in the incidence of PMPS at 3 months (OR 0.55 [0.39 to 0.87], P = 0.04).
According to the Hedges' g and funnel plot, publication bias occurred in the results of the studies to determine the pain severity in patients with PMPS because of heterogeneity of studies included in meta-analysis (the weight of each study, the sample size, the inverse of the variance) (P: 0.002; Figure 6).
Oral medications and physical methods were statistically unsignificant in any comparisons with other treatment modalities.However, there was significant difference in these two methods itself.Thus, oral medications were effective in comparison to physical methods (OR: 0.94; 95% CrI: 0.58-1.51).Anesthesia was associated with a significantly lower PMPS incidence compared with oral medications (OR: 0.63; 95% CrI: 0.64-0.90)and physical methods (OR: 0.59; 95% CrI: 0.37-0.96)(Table 3).

Discussion
Post-mastectomy pain syndrome is a challenging and distressing condition that affects a considerable number of breast cancer survivors.Many studies have been carried out to investigate the efficacy of various PMPS prevention modalities and breast cancer surgery.In this study, we first evaluated indirect comparisons between treatment groups, the efficacy of each comparator itself, and its influence on PMPS incidence through a systematic review and network meta-analysis.
Our findings demonstrated that PMPS management requires a multidimensional approach, as the specific pain experienced by patients may vary based on individual characteristics, the extent of surgery, and other contributing factors.The efficacy of interventions varied, with some showing promising results in reducing pain intensity, while others demonstrated improvements in functional outcomes and quality of life.The pooled analysis of data from included trials of high methodological quality showed a significant effect of nerve blocks and anesthesia compared with other approaches on the general and physical components of women with PMPS.
Pharmacological agents, particularly nerve pain medications and anti-inflammatory drugs, emerged as potential options for alleviating PMPS-related pain.Their ability to target neuropathic pain mechanisms may explain their favorable outcomes.Memantine inhibits neuropathic pain through impairment of NMDA-receptors activity.
The key impact of NMDA-antagonists in neuropathic pain is to inhibit downstream protein expression and phosphorylation of tyrosine 1472 on the NR2B subunit of NMDAr in two structures of the limbic system, the hippocampus and the insular cortex, leading to a decrease in the central sensitization component of persistent pain.Thus, patients who received memantine had minimal adverse effects (dizziness and somnolence).Studies included in this NMA add to the evidence that using pregabalin as a preventive analgesic may not reduce the incidence of chronic postmastectomy pain.In a systematic review, Larsson et al., (2017) [42] showed that tricyclic antidepressants are effective in neuropathic pain, but included studies were non-randomized cohort studies and didn't meet our criteria.Although, they stated that anti-epileptic drugs didn't show any positive effect on pain reduction.
Yuksel et al., (2021) [43] systematic review evaluated that perioperative IV lidocaine had the most positive effect on PMPS incidence; however, differences in pain assessment through all studies can affect the final results.Nefopam in Na et al. [37] study enhanced the efficacy of fentanyl, ketorolac, and meloxicam.The analgetics consumption was comparable during the first 6 h.So, we can conclude, that adding nefopam to other drugs can reduce persistent pain more than the acute one immediately after operation.There is no RCTS meeting NMA criteria on the usage of capsaicin.However, some authors stated that capsaicin is very effective in the postoperative period with minimal adverse effects (burning sensations) [44,45].After analyzing RCTs on anesthesia regimens, it was revealed that modulation of acute pain isn't sufficient to prevent chronic pain.Thus, we highly recommend controlling the patient's follow-up in PACU and combining two or three methods for PMPS prevention.
Physical therapy interventions, such as exercises targeting a range of motion and strengthening, may address muscular and biomechanical factors contributing to pain.Acupuncture is gaining substantial support as an effective approach for managing chronic issues among cancer survivors, encompassing chemotherapy-induced nausea and vomiting, anxiety, and post-treatment fatigue [46].Class I compression corsets serve as a dual-purpose solution: not only are they effective in treating lymphedema, but they can also be employed for preventive measures against edema in patients who have undergone axillary lymph node removal and radiotherapy.Kannan et al., (2021) [47] investigated only physical methods in alleviating chronic pain.However, as stated earlier resistance training was very effective in these patients.Thus, there is no evidence proofing the efficacy of new physical methods, including water exercises and nerve gliding in PMPS prevention.Generally, any type of perioperative exercise or postoperative program are safe interventions for women.We can recommend perioperative intervention of physical methods or mental preparation programs for decrease PMPS incidence.
Furthermore, nerve blocks and complementary therapies demonstrated potential benefits in managing PMPS.Nerve blocks may offer targeted pain relief by interrupting pain signals from affected nerves.Thoracic paravertebral blocks (TPVB) achieve immediate but short-term pain relief (<1 month).Pectoral nerves block with steroid injection showed an initial slower response but longer lasting (6 months) relief [48].Blocks may be useful in cases where immediate pain relief is needed.The PECS II block is comparable in quality to TPVB in pain scores and opioid consumption, with both methods being superior to systemic analgesia alone.However, one significant advantage of PECS II is its safety in the postoperative period and the duration of action without the need for additional medications (e.g., steroids).Potential disadvantages of PECS II include potential intravascular spread by the pectoral branch of the thoracoacromial artery.Compared to TPVB, the PECS II block is peripheral in nature and carries a lower risk of sympathetic blockade and major bleeding.However, there is a lack of high-quality evidence and RCTs comparing the various technical approaches and their efficacy.
Cryoneurolysis stands out due to its prolonged effects, lasting for weeks and months after a single administration.This method also offers an advantage by avoiding systemic side effects associated with opioid use, such as nausea, sedation, and respiratory depression [49].Furthermore, it presents no risk of misuse, dependence and overdose.Paravertebral nerve block, lasting 6-8 hours with an option for continuous infusion via catheter, may lead to adverse effects (sympathetic blockade, hemodynamic instability).The serratus plane block's effects last from 2 to 3 days up to 12 weeks; however, it should be noted that it carries the risk of pneumothorax, but widely used in plastic surgery cases for easiest further flap fixation.
This meta-analytic review has several strengths.We identified significant benefits for several treatment modalities in reducing pain severity in women with PMPS.Also, we provided indirect comparison within modalities due to a lack of RCTs with head-to-head comparisons.
The current meta-analysis has some limitations: the small sample sizes and overall patient count in some of the included trials.It is noteworthy that the complexity of PMPS posed certain challenges to our analysis.Variability in outcome measures and patient populations may have influenced the results.
In conclusion, further research and high-quality RCTs are necessary to consolidate these findings and guide the development of evidence-based guidelines for PMPS management, ultimately improving the lives of breast cancer survivors facing this challenging condition.By implementing evidence-based interventions, both surgeons and anesthesiologists can optimize pain relief, functional outcomes, and overall quality of life for breast cancer survivors experiencing PMPS.

Figure 1 .
Figure 1.Netawork Plot of All Studies with a Number of each Comparison Pairs.

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Abbas et al., 2018, Egypt , Pfizer, NY) 75 mg with a sip of water one hour before induction of anesthesia and repeated 12 hourly for seven days Placebo capsules at the same time points with the same steps -Grading System for Neuropathic Pain (a key acupoint of the hand-jueyin pericardium meridian) and CV17 (Danzhong, a key acupoint of the Ren meridian).et al., 2016, Poland Exp = 62.4 (12.9)Cont = 62.5 (12.0)

Figure 2 .
Figure 2. PRISMA-P Flow Diagram.This diagram demonstrates the method of identifying articles for the systematic review.

Figure 6 .
Figure 6.The Funnel Plot in the Pooled Analysis of Pain Severity in Patients with PMPS.

DOI: 10 .
31557/APJCP.2024.25.1.9Complications of Breast Cancer Surgery collection and analysis: DN, GK; investigation: DN, SK; data curation: MA; writing-review and editing: DN, KD, AB.All authors have read and agreed to the published version of the manuscript.

Table 1 .
Characteristics of Included Studies.

Table 2
. Ranking Results a total study population of 529 patients (Table