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Geographic Disparities in the Surgical Management of Hemifacial Spasm in Canada

Published online by Cambridge University Press:  12 November 2018

Mohamed Somji*
Affiliation:
Section of Neurosurgery, University of Manitoba, Winnipeg, Manitoba, Canada (MS, AMK)
Anthony M. Kaufmann
Affiliation:
Section of Neurosurgery, University of Manitoba, Winnipeg, Manitoba, Canada (MS, AMK)
*
Correspondence to: M. Somji, University of Manitoba – Section of Neurosurgery, GB 137-820 Sherbrook Street, Winnipeg, Manitoba, Canada R3A 1R9. Email: [email protected]
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Abstract

Background

We aimed to interrogate the Canadian Institute for Health Information (CIHI) database in order to determine the geographic distribution and outcomes of microvascular decompression (MVD) for the treatment of hemifacial spasm (HFS).

Methods

The CIHI database was searched from 2004 to 2017 for relevant diagnostic and procedure codes. A new database was populated with the following categories: year, institution, province, number of interventions per year, and mean length of stay. Descriptive statistics were generated. Provincial utilization rates of MVD for HFS were calculated.

Results

During the period 2004-17, we identified 671 MVDs performed for HFS at 20 centers across Canada. During the study period, 286 MVDs (42.6%) were performed at one center in Manitoba. Another 131 (19.5%) and 72 (10.7%) were performed at one center in British Columbia and Ontario, respectively. The remaining 182 (27.1%) MVDs for HFS were performed at 17 centers across the rest of Canada where the mean number of cases performed per year was 1.1 (SD=0.9, range 0.2-2.9). When out-of-province cases were re-allocated to place of residence, the adjusted provincial utilization of MVD for HFS ranged between 0.5 and 6.1 patients per million per year.

Conclusions

Microvascular decompression for HFS is performed relatively rarely and there is a tremendous geographic variation in utilization across Canada. Although most of these surgeries are performed by a few surgeons, more than half of Canadian centers perform an average of less than 1 case per year. Further examination of the impact of these discrepancies appears warranted.

Résumé

Disparités géographiques dans la prise en charge chirurgicale du spasme hémifacial au Canada.

Contexte

Nous avons voulu interroger la base de données de l’Institut canadien d’information sur la santé (ICIS) afin de déterminer la répartition géographique et les résultats de la décompression vasculaire microchirurgicale (DVMC) dans le traitement du spasme hémifacial.

Méthodes

Notre recherche a porté sur les années 2004 à 2017 et visait, au moyen de la base de données de l’ICIS, à repérer des diagnostics et des codes d’acte pertinents. Une nouvelle base de données a été ensuite alimentée en fonction des catégories suivantes : l’année de l’intervention, l’établissement concerné, la province, le nombre d’interventions par année et la durée moyenne de séjour des patients. C’est à partir de cette nouvelle base de données que des statistiques descriptives ont été produites. À cet égard, nous avons calculé les taux provinciaux d’utilisation de la DVMC pour traiter le spasme hémifacial.

Résultats

Au cours de la période allant de 2004 à 2017, nous avons identifié 671 interventions de DVMC dans 20 établissements de santé situés partout au Canada. Durant cette période d’étude, 286 interventions de DVMC (42,6 %) ont été réalisées dans un seul établissement du Manitoba tandis que 131 autres (19,5 %) et 72 autres (10,7 %) ont été respectivement réalisées dans un seul établissement de la Colombie-Britannique et de l’Ontario. Quant aux 182 (27,1 %) autres interventions, elles ont été réalisées dans 17 établissements du reste du pays où le nombre moyen d’interventions par année était de 1,1 (σ = 0,9; étendue = 0,2 – 2,9). Une fois réassignés les cas de patients provenant d’autres provinces, et ce, en fonction de leurs lieux de résidence, l’utilisation ajustée par province de la DVMC variait, sur une base annuelle, de 0,5 à 6,1 patients par million.

Conclusions

Les interventions de DVMC pour traiter le spasme hémifacial sont réalisées peu fréquemment. Il existe aussi une énorme variation géographique au Canada quant à l’utilisation de cette technique chirurgicale. Bien que la plupart de ces interventions soient effectuées par quelques chirurgiens, plus de la moitié des établissements de santé canadiens concernés effectuent en moyenne moins d’une intervention par année. Un examen plus approfondi de l’impact de ces écarts semble ainsi se justifier.

Type
Original Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Canadian Journal of Neurological Sciences Inc. 2018

Introduction

Hemifacial spasm (HFS) is a condition characterized by abnormal, involuntary movements affecting one side of the face. The cause of HFS is generally accepted to be compression of the facial nerve by aberrant vasculature in proximity to its exit from the brain stem.Reference Campos-Benitez and Kaufmann1 These spasms can result in a broad range of impairment ranging from mild to disabling. Typical treatment for HFS includes percutaneous intervention such as botulinum toxin injections and microvascular decompression (MVD) of the offending vessel through a small retromastoid craniectomy. Microvascular decompression generally produces robust results, with published estimates demonstrating an approximate cure rate of 90%.Reference Miller and Miller2 However, the utilization of MVD varies according to the availability of neurosurgical expertise and local practice patterns. We aimed to interrogate the Canadian Institute for Health Information (CIHI) database in order to determine the geographic distribution and outcomes of MVD for the treatment of HFS.

Methods

The CIHI database was searched from 2004 to 2014 for a combination of International Classification of Diseases (ICD-10) diagnostic code G51.3 (clonic HFS) and ICD-10 intervention code 1.BA.72.SZ (decompression; facial; intracranial). Using the resulting CIHI data, a new database was populated with the following categories: year, institution, province, and number of interventions per year. Descriptive statistics were generated. Provincial surgery rates of MVD for HFS were calculated using statistics of Canada estimates of provincial population from 2004 to 2017.3 We calculated the provincial annual rates of MVD for HFS by province of surgery and province of residence for patients. The yearly average number of cases of MVD for HFS were divided by the average provincial population over the study period and expressed per million. Internal data were used to identify the out-of-province fraction treated in Manitoba. These cases were re-allocated to their province of residence to determine an adjusted provincial utilization rate of MVD for HFS in each province. Patients from Yukon, Northwest Territories, Nunavut, Newfoundland and Labrador, and Prince Edward Island were allocated as residents of their respective catchment areas in order to reflect the availability of neurosurgery services.

Results

During the period 2004-17, we identified 671 MVDs performed for HFS across Canada (Figure 1). Of all the MVDs in the study period, 286 (42.6%) were performed at one center in Manitoba. Another 131 (19.5%) and 72 (10.7%) were performed at one center in British Columbia and Ontario, respectively. The remaining 182 (27.1%) MVDs for HFS were performed at 17 centers across the rest of Canadian institutions combined where the mean number of cases performed per year was 1.1 (SD=0.9, range=0.2-2.9). Twelve centers performed an average of less than 1 case annually over the 13-year study period. When data was aggregated by province and institution it remained clear that a few centers have a large volume of experience while most centers have a small volume of experience with MVD for HFS (Figure 2).

Figure 1 Total number of cases of MVD for HFS across Canada (2004-17).

Figure 2 Cumulative MVDs performed for HFS by institution and province (2004-17).

We calculated the provincial annual rates of MVD for HFS by province of surgery and province of residence for patients. Utilization according to province of surgery revealed a large discrepancy with a maximum of 17.2 cases per million persons in Manitoba with the remainder of provinces all performing less than three cases per million persons (Figure 3A). Using internal data, we identified that 60% of patients treated in Manitoba over the study period were residents of other provinces. The adjusted utilization rate of MVD for HFS according to province of residence was calculated by re-allocating these patients to their respective province of origin. These adjusted provincial utilization rates ranged from 6.2 for Manitobans, 2.9 for British Columbians and less than two cases per million per year across the rest of Canada (Figure 3B).

Figure 3 (A) Rate of MVD for HFS per million of provincial population per year (2004-17). (B) Adjusted utilization of MVD for HFS expressed per million of provincial population per year (2004-17).

Discussion

There is a clear geographic disparity in the utilization of surgery for HFS. From 2004 to 2017, 43% of MVDs for HFS were performed at one center and 73% at three centers across Canada. Meanwhile, 12 Canadian centers performed the surgery once or less per year over the study period. Several regional differences are apparent on review of this data. First, most centers in Canada perform very few MVDs each year. For example, in Ontario the cases are distributed between eight centers such that none develops a high volume of experience despite the large provincial population. Second, MVD for HFS is not widely used nationwide and utilization rates vary considerably from province to province. Third, the aggregation of patients undergoing surgery in Manitoba may reflect limitations in availability and access in other provinces, or patient desire to undergo surgery at highest volume centers. The latter may become increasingly commonplace, with growing self-education of patients and their families as well as literature demonstrating greater surgical success at higher volume centers.

Our data are in agreement with other North American results. Kalkanis et al demonstrated that in the United States the average number of MVDs for HFS performed at non-federal hospitals is only 237 cases per year and the average number of MVDs for all indications performed by these neurosurgeons was only three cases per year.Reference Kalkanis, Eskandar, Carter and Barker4 Our data reinforces the literature demonstrating the North American surgical experience consisting of relatively few surgeons having a large volume of experience with MVDs, while the remainder of surgeons have very low annual caseloads.

Several explanations may be put forward to explain the observed geographical disparity in Canada. Low-institutional experience may lead to reluctance to engage in MVDs, while high-institutional experience leads to greater confidence and willingness to engage in MVDs. This results in a cycle causing the stratification between low-volume and high-volume centers. The observed geographic disparity may also be related to variation in the perception of healthcare providers with regards to the position of MVD in the management algorithms for HFS. Indeed, there are no well-known guidelines to direct primary care or surgical providers on when to seek surgical management for HFS. Proponents of botulinum toxin as primary treatment for HFS point to high rates of patient satisfaction and low complication rates,Reference Defazio, Abbruzzese and Girlanda5 while others have found improved quality of life scores achieved with MVD surgery.Reference Lawrence, Frederickson, Chang, Weiss, Gerszten and Sekula6 Thus, the observed disparity may be attributable to variations in practice patterns and healthcare provider beliefs regarding the relative efficacy, functional outcomes, and cost-effectiveness of interventional therapies such as botulinum toxin relative to MVD. Finally, easy accessibility to alternative treatment options such as botulinum toxin as well as surgical therapy may be speculated to vary from province to province.

There are several limitations to the present study. First, the CIHI database excludes Quebec and so a truly nationwide sample has not been presented. Second, patients who undergo surgery at a location other than their home province are not accounted for in the CIHI database. We attempted to minimize this bias by using internal data to represent the fraction of patients who received treatment in Manitoba but were from other provinces. We lacked data to perform a similar redistribution for patients seeking out-of-province care at centers other than Manitoba. Heterogeneity of input into the CIHI database including the specific diagnostic and intervention code may result in missing data. Finally, outcomes collected in the CIHI database only include length of stay and discharge disposition, and so a more generalized association between outcomes and case volume is not possible with the current data.

Conclusion

The bulk of MVDs for HFS are performed by relatively few surgeons, and most centers in Canada achieve a mean of only 1 case per year. There is a tremendous geographic variation in utilization of MVD for HFS across Canada. Some reasons for this geographic disparity may include institutional experience with MVDs, beliefs about the comparative efficacy of surgical management versus botulinum toxin, accessibility to services, and patient self-selection.

Disclaimer

This study has not been published in whole or in part elsewhere and is not under simultaneous consideration for publication elsewhere.

Parts of this material are based on data and information provided by the Canadian Institute for Health Information. However, the analysis, conclusions, opinions, and statements expressed here are those of the authors, and not necessarily those of the Canadian Institute for Health Information.

Disclosure Information

Mohamed Somji and Anthony M. Kaufmann have nothing to disclose.

Statement of Authorship

Both authors contributed jointly to all aspects of the paper.

References

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2. Miller, LE, Miller, VM. Safety and effectiveness of microvascular decompression for treatment of hemifacial spasm: a systematic review. Br J Neurosurg. 2012;26(4):438-444.10.3109/02688697.2011.641613Google Scholar
3. Population Estimates, Quarterly. 2018, [cited; Table 17-0-0009-01]. Available at: https://www.statcan.gc.ca/.Google Scholar
4. Kalkanis, SN, Eskandar, EN, Carter, BS, Barker, FG 2nd. Microvascular decompression surgery in the United States, 1996 to 2000: mortality rates, morbidity rates, and the effects of hospital and surgeon volumes. Neurosurgery. 2003;52(6):1251-1261; discussion 61-2.Google Scholar
5. Defazio, G, Abbruzzese, G, Girlanda, P, et al. Botulinum toxin A treatment for primary hemifacial spasm: a 10-year multicenter study. Arch Neurol. 2002;59(3):418-420.10.1001/archneur.59.3.418Google Scholar
6. Lawrence, JD, Frederickson, AM, Chang, YF, Weiss, PM, Gerszten, PC, Sekula, RF Jr. An investigation into quality of life improvement in patients undergoing microvascular decompression for hemifacial spasm. J Neurosurg. 2018;128(1):193-201; Available at: https://doi.org/10.3171/2016.9.JNS161022. [Epub ahead of print, 2017 February 10].Google Scholar
Figure 0

Figure 1 Total number of cases of MVD for HFS across Canada (2004-17).

Figure 1

Figure 2 Cumulative MVDs performed for HFS by institution and province (2004-17).

Figure 2

Figure 3 (A) Rate of MVD for HFS per million of provincial population per year (2004-17). (B) Adjusted utilization of MVD for HFS expressed per million of provincial population per year (2004-17).