Correlation of Angiographic Scoring System with Percutaneous Revascularization Success in Chronic Coronary Total Occlusion Patients

Article Information

Mohammed A. Balghith, Ibrahim S. Alharbi*, Abdurrahman S. Al Anezi

King Abdul Aziz Cardiac Center, Ministry of National Guard - Health Affairs, Riyadh, Saudi Arabia

King Abdullah International Medical Research Center, Riyadh, Saudi Arabia

King Saud bin Abdulaziz University for Health Sciences, Riyadh, Saudi Arabia

*Corresponding Author: Ibrahim S. Alharbi, King Abdul Aziz Cardiac Center, Ministry of National Guard - Health Affairs, Riyadh, Saudi Arabia; King Abdullah International Medical Research Center, Riyadh, Saudi Arabia; King Saud bin Abdulaziz University for Health Sciences, Riyadh, Saudi Arabia

Received: 01 June 2020; Accepted: 25 June 2020; Published: 26 June 2020

Citation: Mahammed A. Balghith, Ibrahim S. Alharbi, Abdurrahman S. Al Anezi. Correlation of Angiographic Scoring System With Percutaneous Revascularization Success in Chronic Coronary Total Occlusion Patients. Cardiology and Cardiovascular Medicine 4 (2020): 244-253.

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Abstract

Background: The percutaneous coronary intervention of chronic total occlusions (CTOs) is considered the most challenging technical procedure in the current interventional cardiology. Japanese Multicenter CTO Registry (J-CTO Score) was established to predict the probability of successful guidewire crossing through a half-hour.

Aim: To assess the correlation of J score with percutaneous revascularization success in chronic coronary total occlusion patients. Method: This is a retrospective study that was included CTO patients who underwent coronary angiography at Cardiac Catheterization Laboratory at King Abdul-Aziz Cardiac Center between January 2010 - December 2017 will be extracted from an electronic database ( Apollo Lx, Best Care, Xcelera, Muse). Data collected from patients included demographics, cardiovascular risk factors, comorbidities, angiographic parameters, Haemodynamic Measurements, and laboratory tests. SPSS was used to analyze data.

Results: There were 173 patients included in the study, the mean±SD of CTOs number was1.4±0.8, the mean±SD of J-CTO score was1.8±0.9, the mean ±SD of fluro time was 29.3±14. There was no significant association between J-CTO score and outcome of patients (P=0.6), the amount of contrast used also had no significant association with patients‘outcome (P=0.4), whereas the mean of fluro time was significantly associated with outcome of patients (P=0.01).

Conclusion: J score showed no association with the success rate, however lower fluro time was a predictor of success

Keywords

J score; Total occlusion; Percutaneous revascularization

J score articles, Total occlusion articles, Percutaneous revascularization articles

Article Details

Introduction

The percutaneous coronary intervention of chronic total occlusions (CTOs) is considered the most challenging technical procedure in the current interventional cardiology [1]. While there is not enough data collected yet, growing reviews suggest that successful percutaneous CTO revascularization treats symptoms, makes progress in left ventricular systolic function, and decreases the need for surgical coronary bypass. Besides, complete coronary revascularization improves survival [2] Yet, compared to individuals with severely stenotic, but patent vessels, individuals with a CTO are more likely to be referred for coronary bypass surgery or medical therapy. In a recently published Canadian registry, only one in ten individuals with a CTO underwent PCI [3]. It is worth mentioning that the success rate of CTO PCI was about 70%. This doubt related to the likelihood of success, mixed with the fear of high complication rates and beside the procedure costs, contribute to the unwillingness to percutaneously revascularize CTOs [4].

Japanese Multicenter CTO Registry (J-CTO Score) was initially established to anticipate the probability of successful guidewire crossing within a half-hour. Independent angiographic predictors of failure (each given one point) that pretend the J-CTO score, which comprises angiographic evidence of the prior failed attempt, heavy calcification, blunt proximal stump, bending within the occluded segment, and occlusion length >=20 mm [5]. CTOs were then graded as easy, intermediate, difficult, and very difficult (J-CTO Scores of 0, 1, 2, and ≥3, respectively). Since then, the J-CTO score has been reported to anticipate the overall probability of CTO PCI success. High J-CTO scores have been reported to associate with lesions complexity, [6] and may account for the paradox of stagnant CTO PCI success rate over time, which was due to intervening on increasingly complex CTOs [7].

PCI in chronic total occlusion has expressed significant evolution with the development of new techniques, as well as with the training of specialized personnel. These predictors have significantly raised success rates, making these procedures more efficient and predictable. CTO is known as coronary obstructions, which establish total occlusion of vessel lumen with TIMI 0 flow and duration longer than three months. Occlusions with the minimal passage of contrast without opacification of the distal vessel are considered “functional CTO” [8].

CTOs occur in 18-52% of individuals submitted to coronary angiography and who have coronary heart disease [9]. Recent reviews showed a prevalence between 16 and 20% [10]. In these studies, the percentage of patients with CTO submitted to PCI was low. In the two Canadian studies, only 9-10% of individuals underwent PCI, while 57 to 64% of them remained in clinical treatment, and 26 to 34% were referred for surgery [11].

It is worth mentioning that the J-CTO score, a scale based on pre-procedural angiographic factors, and previous procedural failure, could be used to predict the probability of successful guidewire crossing of CTO lesions within 30 min and an improved midterm success rate one year after CTO-PCI. Furthermore, the importance of the J-CTO score to predict the complexity of CTO recanalization was externally validated in a more contemporary cohort. However, the impact of the J-CTO score on the long-term target lesion revascularization (TLR) rate, as well as on other clinical outcomes has yet to be completely evaluated [12].

Abe et al. (2019) concluded that 425 lesions of 408 participants who subjected successful CTO-PCI over a median follow-up of 63.0 months in the J-CTO Registry. Besides, the cumulative prevalence of TLR of lesions related to a J-CTO score ≥ 2 was considerably higher than in the others with a J-CTO score ≤ one (27.0 versus 19.4% at five years, respectively). Between 323 lesions of 309 participants with a complete five-year follow-up, the rate of TLR was 28%. A J-CTO score ≥ two was independently related to a higher risk of target lesion revascularization (odds ratio, 1.73; 95% confidence interval, 1.01-2.99, P = 0.048) even after amendment for clinically relevant baseline predictors [12].

Christopoulos et al. (2015) reported that the effect of the J-CTO score on technical success and procedure time was estimated with univariable logistic and linear regression, respectively. The effectiveness of the logistic regression model was assessed with the Hosmer-Lemeshow statistic and receiver operator characteristic curves. Antegrade wiring techniques were commonly used in easy lesions (97%) than very difficult lesions (58%), while the retrograde approach became less common with more lesion difficulty (41% for very difficult lesions vs. 13% for easy lesions). The logistic regression model for technical success revealed satisfactory calibration and discrimination (p for Hosmer-Lemeshow=0.743 and area under curve=0.705). The J-CTO score was related to a two-fold increase in the odds of a technical failure (odds ratio 2.04, 95% confidence interval [95% CI] 1.52-2.80, p<0.001). Procedure time increased by about 20 minutes for every one-point increase of the J-CTO score (regression coefficient 22.33, 95% CI 17.45-27.22, p<0.001) [13].

Nombela et al. (2013) concluded that the J-CTO score was applied to each participant, and calibration and discrimination were evaluated in the whole group, and according to the approach (antegrade 47% and retrograde 53%). Clinical and angiographic differences were reported between the original and studied group. The median J-CTO score was 2.18±1.26, and successful guidewire crossing within a half-hour and final angiographic success was 44.5% and 90.4%, respectively. The J-CTO score revealed good discrimination (c statistic, >0.70) and calibration (Hosmer–Lemeshow P>0.1) in the whole group and for antegrade and retrograde approaches. However, the final success rate was not related to the J-CTO score [6].

Morino et al. (2011) concluded that the set endpoint was carried out in 48.2% of lesions. Independent predictors included bending, calcification, stump, blunt, occlusion length >20 mm, and formerly failed lesion. Easy, intermediate, difficult, and very difficult cohorts, stratified by J-CTO score, revealed stepwise, proportioned, and highly reproducible differences in the probability of successful guidewire crossing within half-hour (in the derivation set 87.7%, 67.1%, 42.4%, and 10.0% and in the validation set 92.3%, 58.3%, 34.8%, and 22.2%, respectively) [5]. This study aims to assess the correlation of J score with percutaneous revascularization success in chronic coronary total occlusion patients.

Subjects and methods

Retrospectively study, which was conducted on Male and female patients with a diagnosis of CTO who underwent coronary angiography at the Cardiac Catheterization Laboratory at King Abdul-Aziz Cardiac Center.

All patients > 18 years of age, with documented CTO from January 2010 to December 2017 who underwent a successful cardiac catheterization procedure at King Abdul Aziz Cardiac Center were included in the study. We exclude patients whose CTOs in more than one vessel and CTOs in small coronary branch vessels.

Random sampling technique

Retrospectively, all patients who underwent coronary angiography at the Cardiac Catheterization Laboratory at King Abdulaziz Cardiac Center between January 2010 - December 2017 were extracted from an electronic database (Apollo Lx, Best Care, Xcelera, Muse).

Data include:

Demographics: age, gender, BMI, BSA, Ethnic group, date of procedure (Apollo Lx, Best Care).

Cardiovascular Risk factors: smoking, diabetes, hypertension, dyslipidemia, hyperuricemia, family history of premature cardiovascular disease (Apollo Lx, Best Care).

Co-morbidities: Renal impairment (CKD class), cerebrovascular disease, peripheral vascular disease, significant valvular lesion, heart failure, prior history of revascularization (PCi or CABG). (Apollo Lx, Best Care).

We classified patients into two groups: those with successful CTO-PCI and those with failed CTO-PCI.

Procedural success defined as residual stenosis less than 50% and wire crossed.

After PCI, patients will be followed retrospectively by for regular outpatient visits.

Statistical Analysis

SPSS program will be used for data analysis, version 22.0. Descriptive statistics were done. A P-value of 0.05 or less will be significant.

Results

We included 173 CTO patients who underwent coronary angiography, the mean± SD of the age of all patients was 60.2±11.4 years old. The majority of patients were males 142 (82.1%), and the mean ±SD of BMI was 30.3±5.3. There were 132(76.3%), 57(32.9%), 84(48.6%) of patients suffering HTN, HF, DM respectively and there were 43(24.9%) current smokers. There were 144(83.2%), 6(3.5%), 8(4.6%), 6(3.5%) of patients having DPL, PVD, CVA, Afib, respectively. Prior MI, prior CABAG, prior PCI were found among 103(59.5%), 22(12.7%), 51(29.5%) of patients, respectively. Cardiogenic shock was experienced by 5(2.9%) of patients, whereas CKD was experienced by 22(12.7%), whereas 7(4%) of patients were hemodialysis patients. The amount of contrast used ranged from 20-500 with a median of 145 and a mean±SD of 162.7±82.9. The fluro time ranged from 2.9-85 with a median of 26.4 and the mean ±SD of 29.3±14. The wire was crossed in 126(72.8%) cases. The details of the demographics and clinical characteristics of patients are shown in Table1, 2.

Variables

Description
(n=173)

AGE

 

Range

36 - 85

Mean ± SD

60.2 ± 11.4

Median (IQR)

61 (52 - 69)

SEX

 

Male

142 (82.1)

Female

31 (17.9)

BMI

 

Range

15.8 - 49.2

Mean ± SD

30.3 ± 5.3

Median (IQR)

30.4 (26.6 - 33.6)

HTN

132 (76.3)

HF

57 (32.9)

DM

84 (48.6)

Smoker

 

Non-smokers

123 (71.1)

Current smoker

43 (24.9)

Ex-smoker

7 (4)

DLP

144 (83.2)

PVD

6 (3.5)

CVA

8 (4.6)

Valve surgery

0 (0)

Afib

6 (3.5)

Prior MI

103 (59.5)

Prior CABG

22 (12.7)

Prior PCI

51 (29.5)

Cardiogenic shock

5 (2.9)

CKD

22 (12.7)

Hemodialysis

7 (4)

Dx

 

SA

72 (41.6)

NSTEMI

45 (26)

UA

35 (20.2)

STEMI

16 (9.2)

SU/HF

3 (1.7)

Elective AICD

2 (1.2)

Table1: Demographics and clinical characteristics of patients

J- CTO score

Range

Mean ± SD

Median (IQR)

0 – 4

1.8 ± 0.9

2 (1 - 2)

amount of contrast used

Range

Mean ± SD

Median (IQR)

20-500

162.7 ± 82.9

145 (110 - 200)

Fluro Time

Range

Mean ± SD

Median (IQR)

2.9 – 85

29.3 ± 14

26.4 (20 - 37)

Table 2: Angiographic characteristics of patients

Regardingthe success rate was 50.3%, whereas the failure rate was 49.7%, figure1.

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Figure 1: Outcome of patients

The angiographic factors affecting the success rate are shown in table3; the success and failure outcome didn't differ with J-CTO score (P=0.65). Also, amount of contrast used had no significant effect on the success and failure rate (P=0.42), whereas fluro time significantly affected the success rate (P=0.01), where the mean of fluro time was lower in patients experienced successful procedure.

 

Outcome

 

 Factors

Success
(n=87)

Failure
(n=86)

P value

J- CTO score

     

Range

0 - 4

0 - 4

 

Mean ± SD

1.8 ± 0.8

1.8 ± 1

 

Median (IQR)

2 (1 - 2)

2 (1 - 2)

0.659

Amount of contrast used

     

Range

30 - 500

20 - 500

 

Mean ± SD

165.7 ± 80

159.6 ± 86.2

 

Median (IQR)

150 (110 - 210)

140 (110 - 190)

0.424

Fluro time

     

Range

7 - 80

2.9 - 85

 

Mean ± SD

26.8 ± 13

31.9 ± 14.7

 

Median (IQR)                                                       

24 (19 - 35.1)

31.4 (23 - 38)

0.010

Table3: Factors affecting Success

Discussion

Planning of the recanalization procedure requires the use of angiographic scores to estimate the probable success rate and the type of approach [8]. The J-CTO score is the most widespread and oldest one [5]. Higher J-CTO score significantly indicates lower success rates, greater use of contrast, more frequent use of retrograde approach and longer procedures [13,14].

In the present study, we aimed to investigate the association of J score with percutaneous revascularization success in chronic coronary total occlusion patients. The range of J-CTO score was 0-4 with a mean of 1.8, the mean amount contrasted used, and fluro time was 162.7 and 29.3, respectively. The wire was crossed among 72.8% of patients; the success rate of the procedure was 50.3%. By investigating the factors affecting the outcome of patients, it was found that J-CTO score had no association with the outcome of patients the mean of J-CTO score was similar in success group and failure group (1.8); also the mean of amount of contrast used didn't differ between the two groups. However, fluro time showed a significant influence on the outcome of patients; the low mean of fluro time was significantly associated with the success of the procedure.

It was demonstrated that J-CTO score ≥3was independently associated with worse outcomes in the long term after retrograde CTO PCI [15]. In one study [16], it was found that 36.3% of patients were presented with J-CTO score2, and the higher score was associated with higher failure rates (P=0.006). Another study [17] reported that the success rate of CTO-PCI was high 82.6%, which was higher than our rate. However, a fewer rate of 29.4% of cases achieved 30 min wire crossing, whereas, in our study, the wire crossing was a success in 72.8%. The previous study [17] revealed that the CTA-derived J-CTO score was more useful than the J-CTO score derived from Conventional angiography in predicting the success of the procedure and 30 minutes crossing.

It was reported that high J-CTO score lesions had a higher five-years risk of TLR [12], and the J-CTO score was strongly associated with final success rate and efficiency, and J-CTO was supported to be used in CTO interventions [13]. It was shown that the J-CTO score helped to predict the complexity of CTO recanalization [6].

Conclusion

In the present study, we found that the success rate was low and J-score, as well as the amount of contrast couldn't predict the success rate and their mean value didn't vary between the patients in success group and failed group, whereas low fluro time can be a predictor of the success of the process.

References

  1. Grantham JA, Marso SP, Spertus J, House J, Holmes DR, Rutherford BD. Chronic total occlusion angioplasty in the United States. JACC: Cardiovascular Interventions 2 (2009): 479-486.‏
  2. Joyal D, Afilalo J, Rinfret S. Effectiveness of recanalization of chronic total occlusions: a systematic review and meta-analysis. American heart journal 160 (2010): 179-187.‏
  3. Fefer P, Knudtson ML, Cheema AN, Galbraith PD, Osherov AB, Yalonetsky, et al. Current perspectives on coronary chronic total occlusions: the Canadian Multicenter Chronic Total Occlusions Registry. Journal of the American College of Cardiology 59 (2012): 991-997.‏
  4. Prasad A, Rihal CS, Lennon RJ, Wiste HJ, Singh M, et al. Trends in outcomes after percutaneous coronary intervention for chronic total occlusions: a 25-year experience from the Mayo Clinic. Journal of the American College of Cardiology 49 (2007): 1611-1618.‏
  5. Morino Y, Abe M, Morimoto T, Kimura T, Hayashi Y, et al. Predicting successful guidewire crossing through chronic total occlusion of native coronary lesions within 30 minutes: the J-CTO (Multicenter CTO Registry in Japan) score as a difficulty grading and time assessment tool. JACC: Cardiovascular Interventions 4 (2011): 213-21.
  6. Nombela-Franco L, Urena M, Jerez-Valero M, Nguyen CM, Ribeiro HB, et al. Validation of the J-chronic total occlusion score for chronic total occlusion percutaneous coronary intervention in an independent contemporary cohort. Circulation: Cardiovascular Interventions 6 (2013): 635-43.
  7. Syrseloudis D, Secco GG, Barrero EA, Lindsay AC, Ghione M, et al. Increase in J-CTO lesion complexity score explains the disparity between recanalisation success and evolution of chronic total occlusion strategies: insights from a single-centre 10-year experience. Heart 99 (2013): 474-9.
  8. Ybarra LF, Cantarelli MJ, Lemke VM, Quadros AS. Percutaneous coronary intervention in chronic total occlusion. Arquivos brasileiros de cardiologia 110 (2018): 476-83.
  9. Christofferson RD, Lehmann KG, Martin GV, Every N, Caldwell JH, Kapadia SR. Effect of chronic total coronary occlusion on treatment strategy. The American journal of cardiology 95 (2005): 1088-91.
  10. Fefer P, Knudtson ML, Cheema AN, Galbraith PD, Osherov AB,et al. Current perspectives on coronary chronic total occlusions: the Canadian Multicenter Chronic Total Occlusions Registry. Journal of the American College of Cardiology 59 (2012): 991-7.
  11. Azzalini L, Jolicoeur EM, Pighi M, Millán X, Picard F,et al. Epidemiology, management strategies, and outcomes of patients with chronic total coronary occlusion. The American journal of cardiology 118 (2016): 1128-35.
  12. Abe M, Morimoto T, Morino Y, Tanaka H, Akao M, et al. Association between J-CTO score and long-term target lesion revascularization rate after successful chronic total coronary occlusion angioplasty (from the J-CTO Registry). Catheterization and Cardiovascular Interventions 93 (2019): 1025-32.
  13. Christopoulos G, Wyman RM, Alaswad K, Karmpaliotis D, et al. Clinical utility of the j-cto score in coronary chronic total occlusion interventions: results from a multicenter registry. Journal of the American College of Cardiology 65 (2015): A1807.
  14. Karacsonyi J, Karatasakis A, Karmpaliotis D, Alaswad K, Yeh RW, et al. Effect of previous failure on subsequent procedural outcomes of chronic total occlusion percutaneous coronary intervention (from a Contemporary Multicenter Registry). Am J Cardiol 117 (2016): 1267-71.
  15. Galassi AR, Sianos G, Werner GS, Escaned J, Tomasello SD, et al. Retrograde recanalization of chronic total occlusions in Europe: procedural, in-hospital, and long-term outcomes from the multicenter ERCTO registry. Journal of the American College of Cardiology 65 (2015): 2388-400.
  16. Mehta AB, Mehta N, Chhabria R, Mandurke V, Tawade N, et al. Predictors of success in percutaneous Coronary intervention for chronic total occlusion. Indian Heart Journal 70 (2018): S269-74.
  17. Fujino A, Otsuji S, Hasegawa K, Arita T, Takiuchi S, et al. Accuracy of J-CTO score derived from computed tomography versus angiography to predict successful percutaneous coronary intervention. JACC: Cardiovascular Imaging 11 (2018): 209-17.

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