Prospective Randomized Comparison of Cyclophosphamide Versus Cyclophosphamide Plus Fludarabine In Addition to Anti-Thymocyte Globulin for the Conditioning Therapy In Allogeneic Hematopoietic Cell Transplantation for Bone Marrow Failure Syndrome

Abstract 34

We performed randomized phase III study to compare the regimen related toxicities (RRT) of two different conditioning regimens, cyclophosphamide (CyATG) vs. cyclophosphamide plus fludarabine (CyFluATG) given in addition to anti-thymocyte globulin (ATG) for allogeneic hematopoietic cell transplantation (alloHSCT) for bone marrow failure syndrome including severe aplastic anemia (AA) and hypoplastic myelodysplastic syndrome (MDS).

CyATG consisted of Cyclophosphamide (Cy) 50 mg/kg (D –5 to –2). CyFluATG arm received fludarabine (Flu) 30 mg/m2 (D –6 to –2) and Cy 50 mg/kg (D –3 to –2). Thymoglobuline 3 mg/kg, lymphoglobulin 15 mg/kg on days -4 to -2 or alemtuzumab 20mg on day -4 were infused in both arms. Patients were stratified by stem cell donor (related vs. unrelated).

Total 83 patients (40 patients to Cy-ATG and 43 patients to Cy-Flu-ATG) were enrolled from February 2003. All patients except for one patient, who had assigned to Cy-Flu-ATG arm and died during conditioning, received full planed regimen and all planned patients were included in this analysis. Median age was 34 (15-60) years and male patients were 42/83 (50.6%). AA patients were 79 and MDS were 4. Matched sibling donors were 53 (63.9%). ATG was used in form of thymoglobulin (n=75, 90.4%), and some patients had received ALG (n=5, 6.0%) or alemtuzumab (n=3, 3.6%). Median duration from diagnosis to transplantation was 4.7 (0.2-177.7) months. Age, gender, donor type were not different in both arms (Table 1). Various TRT were similar between Cy-ATG and Cy-Flu-ATG (Table 2); granulocyte graft failure rate (p=0.959), platelet graft failure rate (p=0.625), acute GvHD (p=0.388), chronic GvHD (p=0.991), CMV antigenemia (p=0.550), hematuria (p=0.480). However, pulmonary complications (p=0.005) was significantly lower in CyFluATG arm. Infection rate (p=0.130) and sinusoidal obstruction syndrome (SOS, p=0.101) seemed lower in CyFluATG arm but were not statistically significant. Any RRTs were significantly higher in CyATG arm (80.0% vs. 39.5%; p<0.001) but any treatment-related toxicities were similar in both arms (85% vs. 79.1%; p=0.483). Figure 1 shows that 4-year survival rates (77.7% vs. 87.6%) were higher in CyFluATG arm without any statistical significance (p=0.265) and this trend was similar in MRD (81.9 vs. 92.1%; p=0.354) and AD (69.3 vs. 80.2%; p=0.442).

In conclusion, overall treatment-related complications and survival were similar between CyATG CyFluATG, however, CyFluATG seemed superior over CyATG in terms of pulmonary complications and RRT.

Table 1.

Characteristics of patients between Cy-ATG and Cy-Flu-ATG

Characteristics .	Cy-ATG .	Cy-Flu-ATG .	p-value .
Gender, n (%)			0.586
Male	19 (47.5)	23 (53.5)
Female	21 (52.5)	20 (46.5)
Age, median (range)	34.5 (15±59)	34.0 (18±60)	0.365
Months from diagnosis to SCT, median (range)	4.8 (0.2–147.2)	4.6 (0.9–177.7)	0.982
Diagnosis, n (%)			0.617
AA	39 (97.5)	40 (93.0)
MDS	1 (1.9)	3 (7.0)
Infused CD34+ cell dose (?106/kg), mean±SD	5.76±4.89	5.25±5.30	0.449
ATG, n (%)			0.360
Thymoglobulin	38 (95.0)	37 (86.0)
ALG	1 (2.5)	4 (9.3)
Alemtuzumab	1 (2.5)	2 (4.7)
HLA-A, B, C and DR molecular matching, n (%)			0.699
Full matched	30 (75.0)	30 (69.8)
1 locus mismatched	3 (7.5)	3 (7.0)
2 loci mismatched	3 (7.5)	2 (4.7)
Not determined	4 (10.0)	8 (18.6)
Donor, n (%)			0.834
MSD	26 (65.0)	27 (62.8)
AD	14 (35.0)	16 (37.2)

Characteristics .	Cy-ATG .	Cy-Flu-ATG .	p-value .
Gender, n (%)			0.586
Male	19 (47.5)	23 (53.5)
Female	21 (52.5)	20 (46.5)
Age, median (range)	34.5 (15±59)	34.0 (18±60)	0.365
Months from diagnosis to SCT, median (range)	4.8 (0.2–147.2)	4.6 (0.9–177.7)	0.982
Diagnosis, n (%)			0.617
AA	39 (97.5)	40 (93.0)
MDS	1 (1.9)	3 (7.0)
Infused CD34+ cell dose (?106/kg), mean±SD	5.76±4.89	5.25±5.30	0.449
ATG, n (%)			0.360
Thymoglobulin	38 (95.0)	37 (86.0)
ALG	1 (2.5)	4 (9.3)
Alemtuzumab	1 (2.5)	2 (4.7)
HLA-A, B, C and DR molecular matching, n (%)			0.699
Full matched	30 (75.0)	30 (69.8)
1 locus mismatched	3 (7.5)	3 (7.0)
2 loci mismatched	3 (7.5)	2 (4.7)
Not determined	4 (10.0)	8 (18.6)
Donor, n (%)			0.834
MSD	26 (65.0)	27 (62.8)
AD	14 (35.0)	16 (37.2)

View Large

Table 2.

The comparison of treatment-related toxicities between Cy-ATG and Cy-Flu-ATG

Factors .	Cy-ATG .	Cy-Flu-ATG .	p-value .
Graft failure, n (%)	5 (12.5)	7 (16.3)	0.625
Granulocyte	1 (2.5)	1 (2.3)	0.959
Platelet	5 (12.6)	7 (16.3)	0.625
Acute GvHD, n (%)
Any grades	6 (15.0)	10 (23.3)	0.388
Grade 3/4	2 (5.0)	1 (2.3)	0.514
Chronic GvHD, n (%)
Any	5 (12.5)	5 (11.6)	0.991
Extensive	4 (10.0)	3 (7.0)	0.369
CMV antigenemia, n (%)	24 (60.0)	23 (53.5)	0.550
Infection, n (%)	32 (80.0)	28 (65.1)	0.130
Interstitial pneumonitis, n (%)	0 (0.0)	0 (0.0)	–
Pulmonary complications, n (%)	14 (35.0)	4 (9.3)	0.005
SOS, n (%)	5 (12.5)	1 (2.3)	0.101
Hematuria, n (%)	10 (8.7)	8 (29.6)	0.480
Any regimen-related toxicities, n (%)	32 (80.0)	17 (39.5)	<0.001
Any treatment-related toxicities, n (%)	34 (85.0)	34 (79.1)	0.483

Factors .	Cy-ATG .	Cy-Flu-ATG .	p-value .
Graft failure, n (%)	5 (12.5)	7 (16.3)	0.625
Granulocyte	1 (2.5)	1 (2.3)	0.959
Platelet	5 (12.6)	7 (16.3)	0.625
Acute GvHD, n (%)
Any grades	6 (15.0)	10 (23.3)	0.388
Grade 3/4	2 (5.0)	1 (2.3)	0.514
Chronic GvHD, n (%)
Any	5 (12.5)	5 (11.6)	0.991
Extensive	4 (10.0)	3 (7.0)	0.369
CMV antigenemia, n (%)	24 (60.0)	23 (53.5)	0.550
Infection, n (%)	32 (80.0)	28 (65.1)	0.130
Interstitial pneumonitis, n (%)	0 (0.0)	0 (0.0)	–
Pulmonary complications, n (%)	14 (35.0)	4 (9.3)	0.005
SOS, n (%)	5 (12.5)	1 (2.3)	0.101
Hematuria, n (%)	10 (8.7)	8 (29.6)	0.480
Any regimen-related toxicities, n (%)	32 (80.0)	17 (39.5)	<0.001
Any treatment-related toxicities, n (%)	34 (85.0)	34 (79.1)	0.483

View Large

Figure 1.

View largeDownload slide

Overall survival

Figure 1.

View largeDownload slide

Overall survival

Close modal