Pediatric non-galenic pial arteriovenous fistula’s characteristics and outcomes: a systematic review

Introduction Pediatric non-galenic pial arteriovenous fistulas (pAVFs) are rare vascular malformations that are characterized by a pial arterial-venous connection without an intervening capillary bed. Outcomes and treatment strategies for pAVFs are highly individualized, owing to the rarity of the disease and lack of large-scale data guiding optimal treatment approaches. Methods We performed a systematic review of pediatric patients (< 18 years at diagnosis) diagnosed with a pAVF by digital subtraction angiogram (DSA). The demographics, treatment modalities, and outcomes were documented for each patient and clinical outcome data was collected. Descriptive information stratified by outcome scores were classified as follows: 1 = excellent (no deficit and full premorbid activity), 2 = good (mild deficit and full premorbid activity), 3 = fair (moderate deficit and impaired activity), 4 = poor (severe deficit and dependent on others), 5 = death. Results A total of 87 studies involving 231 patients were identified. Median age at diagnosis was 3 years (neonates to 18 years). There was slight male preponderance (55.4%), and 150 subjects (81.1%*) experienced excellent outcomes after treatment. Of the 189 patients treated using endovascular approaches, 80.3% experienced excellent outcomes and of the 15 patients surgically treated subjects 75% had an excellent outcome. The highest rate of excellent outcomes was achieved in patients treated with Onyx (95.2%) and other forms of EvOH (100%). High output heart failure and comorbid vascular lesions tended to result in worse outcomes, with only 54.2% and 68% of subjects experiencing an excellent outcome, respectively. *Outcomes were reported in only 185 patients. Conclusion pAVFs are rare lesions, necessitating aggregation of patient data to inform natural history and optimal treatment strategies. This review summarizes the current literature on pAVF in children, where children presenting with heart failure as a result of high flow through the lesion were less likely to experience an excellent outcome. Prospective, large-scale studies would further characterize pediatric pAVFs and enable quantitative analysis of outcomes to inform best treatment practices. Supplementary Information The online version contains supplementary material available at 10.1007/s00381-024-06352-5.


Introduction
Pial arteriovenous fistulas (pAVF), also known as nongalenic arteriovenous fistulas, are vascular malformations that are distinct from arteriovenous malformations (AVM) due to the lack of a nidus between feeding artery and draining vein [1].Unlike dural arteriovenous fistulas (dAVF), pAVFs involve parenchymal cerebral vasculature rather than meningeal [2].pAVFs may drain through the vein of Galen (VOG) and still be differentiated from VOG malformations which are primarily fed by choroidal arteries.AV shunting by pAVFs predisposes to venous varix formation, which increases the risk of hemorrhage.pAVFs are rare lesions, contributing to only 1.6% of all brain vascular malformations [3,4] Digital subtraction angiography (DSA) is recommended for diagnosis and characterization of the angio-architecture.
pAVFs are almost entirely congenital.The majority of diagnoses occur either shortly after birth due to heart failure or cerebral venous congestion/neurologic decline or following spontaneous intracranial hemorrhage later in life [5].The molecular pathophysiology underlying pAVF formation in utero is not well characterized, but thought to involve perturbations in angiogenic growth factors and embryonic vascular morphogenesis [6][7][8].The most frequently associated genetic mutations involve the hereditary hemorrhagic telangiectasia (HHT) genes (ENG, ACVRL and SMAD4) and RASA1 --which are also implicated in brain AVM and VOGM, respectively [9].HHT is an autosomal dominant disease characterized by vascular malformations throughout the body [10].RASA1 variants affect the RAS/MAPK signaling pathway involved in vascular endothelial cell proliferation [11].There is increasing recognition, overall, of the contribution of genetic factors to cerebrovascular disease more broadly.
The goal of pAVF treatment is disconnection of the shunt, either through open surgery or endovascular embolization.However, due to the rarity of the condition, there are no consensus guidelines for treatment.Surgical treatment of pAVFs is typically reserved for patients with intracranial hemorrhage causing mass effect and neurologic deterioration, but more commonly endovascular embolization is preferred [2].In an effort to understand demographic, clinical, and radiological factors associated with treatment outcomes, we performed a systematic review of published pAVF cases in children.

Methods
This systematic review followed PRISMA guidelines [12].PubMed, CINAHL, Scopus, and Embase databases were queried without a date restriction.The protocol for the review was not registered.Search strategy included MeSH (Medical Subject Heading) terms related to pial arteriovenous fistulas and then translated across each database (see Appendix).Search results were then screened by title and abstract, then full text by two independent reviewers (G.T., J.B.) with discrepancies reviewed by a 3rd author (A.T.H).Articles were included based on the following criteria: (1) Available full text with English translation, (2) pediatric patients less than 18 years old, (3) individual patient data could be retrieved, (4) articles represented primary sources, and 4) pAVF was diagnosed by cerebral angiography.Only case reports, case studies, case series, and cohort studies were included in our analysis.Review articles, meta-analyses, non-human studies, conference papers, and abstracts without full text were excluded.Dependent variables were age, sex, race, cardiovascular disease, venous varix, cerebral hemorrhage, genetic disease, other vascular lesions, feeding artery name, draining vein location (deep/superficial), treatment modality, embolic agent, treatment success, number of stages, and procedural complications.Clinical outcome was identified in 187 patients (80.6%) and scored on a scale of 1-5 using the ranking system utilized by Hoh et al., to score pAVFs based on patient activity and deficit [5].

Results
There were 857 articles identified on initial screening (339 in PubMed, 319 in Embase,169 in Scopus, and 66 in CINAHL) and imported into Covidence.The 469 duplicates were automatically removed.Initial title and abstract screening removed another 224 articles, leaving 164 studies for full text review.Of these, 87 were included for data extraction based upon the aforementioned criteria.The other 77 manuscripts were removed due to the reasons found in Fig. 1.A summary of all included cases can be seen in supplemental material 1 .
The median clinical follow up was 9 months, with a range of 3 months to 6 years.Of the 185 patients with reported outcomes data, 150 patients (81.1%) experienced an excellent outcome (Table 2).Among those with less than excellent outcomes, 8.6% were good outcome, 4.3% fair, 1.1% poor, and 4.9% experienced any-cause mortality.There were two intraoperative deaths.One from vessel perforation during endovascular treatment and the other from acute sinus thrombosis during open surgery [13,14].First time angiographic success (i.e., complete obliteration of the fistula) was achieved in 76.3% (135 patients).One patient experienced spontaneous involution.Twenty-nine subjects (12.6%) underwent a second treatment (Table 3) although whether staging was intentional could rarely be ascertained.Of those who underwent a 2nd treatment, 23 of those patients experienced complete obliteration.When accounting for obliterations after the 2nd treatment, the rate of complete obliteration rose to 89.2%.Procedural complications occurred in 21.6% of cases.Of the complications, 14.5% were transient (< 12 months duration) and 6.9% permanent.Major complications included cardiac arrest and venous sinus thrombosis.The infant with cardiac arrest was successfully resuscitated [15].The patient who experienced venous thrombosis was treated with anti-coagulation and anti-platelet therapy and showed complete resolution at the 6-month follow-up [16].Endovascular procedural complications consisted of distal embolic migration into the cerebral veins and lungs [17].Subsequent venous congestion led to seizures in one subject [18].Of the 13 permanent complications, 9 resulted in death.The 2 immediate peri-operatively mortalities were due to vessel perforation and acute sinus thrombosis.The 7 remaining patients died shortly post-op with 2 succumbing to brain death (not otherwise specified)   shortcoming is exaggerated in similar reviews of rare pathologies in the neurosurgical literature that by nature involve small sample size [6].Another limitation is publication bias intrinsic to systematic reviews.Many potentially important variables could not be controlled for, such as length of follow-up, operator experience and treatment timing.Small sample size and the retrospective nature of all studies precluded statistical analysis.

Conclusions
pAVFs are rare pediatric vascular anomalies with overall favorable outcome except when associated with heart failure or multifocal vascular lesions.Treatment appears well-tolerated and primarily involves endovascular embolization.This review encompasses the largest descriptive review of pediatric pAVFs.However, the included studies were entirely retrospective and primarily single center, limiting generalizability and with significant risk of bias.Further studies to delineate pAVF natural history and optimal treatment paradigm are needed and should conform to a standardized reporting format to facilitate metanalysis.

Supplementary Information
The online version contains supplementary material available at https://doi.org/10.1007/s00381-024-06352-5.Almost all subjects underwent treatment (Table 4).Endovascular embolization was the most common treatment, (81.8%) followed by open surgery (8.7%) and radiation (0.4%).Combination therapy was employed in 5.2% of cases.Among endovascular techniques, pure liquid (25.9%), coils (22.2%) and a combination of coils and liquid (21.2%) were used.Of the endovascularly treated patients, 80.3% of patients achieved an excellent outcome compared to 75% of surgically treated patients.Of the patients treated with multimodal therapy, 9 of the patients underwent the therapy as part of a second treatment option.Patients treated with Onyx, a type of liquid embolic system that consists of ethyl vinyl alcohol (EvOH), dimethyl sulfoxide (DMSO) and tantalum powder, experienced 95.2% excellent outcomes while all patients treated with other types of EvOH had excellent outcomes.HOHF reduced excellent outcomes to 45.8% and the presence of coexisting vascular lesions had only a 68.5% rate of excellent outcomes.

Discussion
Here we perform a systematic review of pAVF outcomes in children.While meta-analysis was not feasible owing to low sample size and the large number of case reports, we observed some patterns worth mentioning.First, those presenting with > 1 vascular malformation were likely to harbor an underlying genetic condition such as HHT or RASA1.Genetic testing should be considered in these cases [19].Second, the presence of a venous varix was strongly associated with symptomatic and/or hemorrhagic presentation, implicating the varix as a high-risk feature.
Despite young average age at presentation, most patients (over 80%) experienced an excellent outcome.Patients treated with endovascular therapy alone or in combination achieved the highest rate of excellent outcomes, although several stages may be required to completely occlude the pAVF.Patients with HOHF were least likely to experience excellent outcome, possibly reflecting the severity of arteriovenous shunting and downstream effects on the brain and other organs.Poor outcomes clustered in the neonatal group, with most survivors demonstrating recovery from complications and normal development following complete treatment.Overall, this summative data represents the largest descriptive pediatric pAVF cohort.
The amount of missing data encountered in this study highlights the importance of standardized reporting that includes subject-level granularity.Common data elements reduce bias associated with missing results.This

Fig. 1
Fig. 1 PRISMA flow diagram describing the results of our systematic review Thank you to Ms. Emma O'Hagan, a medical librarian at UAB Lister Hill Library of Health Sciences, for designing the literature search of the material and Dr. Kathryn Kaiser for assistance with Covidence templates and data extraction.

and 5
to post-embolization hemorrhage.Six of the 9 patients were neonates.

Table 3
Treatment modalities and number of interventions needed for

Table 4
Outcomes data of differing embolic treatments.The scores are represented by the following: 1 = excellent (no deficit and full premorbid activity), 2 = good (mild deficit and full premorbid activity), 3 = fair (moderate deficit and impaired activity), 4 = poor (severe deficit and dependent on others), 5 = death.Abbreviations include: nBCA-n-Butyl cyanoacrylate, EvOH-ethyl vinyl alcohol, and CVD-