UK Twins Analysis
Mao_Ding
2023-08-09
Objective
Perform real world data analysis using BifurcatoR tools to check bimodality
Table 1
| Variable | N = 3691 |
|---|---|
| Cluster | |
| Â Â Â Â cluster1 | 109 (30%) |
| Â Â Â Â cluster2 | 260 (70%) |
| HDAC_signature | 0.6 (0.6) |
| IGN1_exp | -0.3 (0.9) |
| NNAT_adipo_exp | 2.2 (0.1) |
| Insulin | 4.0 (0.6) |
| Lean_mass | 41.1 (5.7) |
| Fat_mass | 31.5 (8.7) |
| BMI | 28.4 (4.8) |
| Obesity | |
| Â Â Â Â normal | 259 (70%) |
| Â Â Â Â obese | 70 (19%) |
| Â Â Â Â severe_obese | 40 (11%) |
| AGE | 61.1 (8.0) |
| SEX | |
| Â Â Â Â F | 369 (100%) |
| Zygosity | |
| Â Â Â Â Dizygotic | 258 (70%) |
| Â Â Â Â Monozygotic | 111 (30%) |
| HEIGHT | 161.6 (5.7) |
| WEIGHT | 74.3 (13.8) |
| Lean Mass Index | 15.7 (1.8) |
| Fat Mass Index | 12.1 (3.2) |
| 1 n (%); Mean (SD) | |
NNAT (All Samples)
NNAT (Cluster_1 + Cluster_2 + Cluster_3 + Cluster_4)
NNAT (Cluster_1 + Cluster_2)
Ameijeiras-Alonso et al. Excess Mass Fit
## [1] "Bimodality P-value of NNAT using Ameijeiras-Alonso et al. Excess Mass Fit is: 0.264"Bimodality Coefficient
## nnat
## [1,] FALSE## [1] "Bimodality Coefficient of NNAT is: 0.34, which is less than 0.555, so no bimodality detected."Cheng and Hall Excess Mass
## [1] "Bimodality P-value of NNAT using Cheng and Hall Excess Mass is: 0.234"Fisher and Marron Carmer-von Mises
## [1] "Bimodality P-value of NNAT using Fisher and Marron Carmer-von Mises is: 0.744"Hall and York Bandwidth test
## [1] "Bimodality P-value of NNAT using Hall and York Bandwidth test is: 0.789"Hartigans’ dip test
## [1] "Bimodality P-value of NNAT using Hartigans' dip test is: 0.794"Sliverman Bandwidth
## [1] "Bimodality P-value of NNAT using Sliverman Bandwidth is: 0.896"HDAC (All Samples)
HDAC (Cluster_1 + Cluster_2 + Cluster_3 + Cluster_4)
HDAC (Cluster_1 + Cluster_2)
Ameijeiras-Alonso et al. Excess Mass Fit
## [1] "Bimodality P-value of HDAC using Ameijeiras-Alonso et al. Excess Mass Fit is: 0.429"Bimodality Coefficient
## sub_twins$HDAC_signature
## [1,] FALSE## [1] "Bimodality Coefficient of HDAC is: 0.42, which is less than 0.555, so no bimodality detected."Cheng and Hall Excess Mass
## [1] "Bimodality P-value of HDAC using Cheng and Hall Excess Mass is: 0.532"Fisher and Marron Carmer-von Mises
## [1] "Bimodality P-value of HDAC using Fisher and Marron Carmer-von Mises is: 0.425"Hall and York Bandwidth test
## [1] "Bimodality P-value of HDAC using Hall and York Bandwidth test is: 0.394"Hartigans’ dip test
## [1] "Bimodality P-value of HDAC using Hartigans' dip test is: 0.956"Sliverman Bandwidth
## [1] "Bimodality P-value of HDAC using Sliverman Bandwidth is: 0.586"PGA3
PGA3 (All Samples)
PGA3 (Cluster_1 + Cluster_2 + Cluster_3 + Cluster_4)
PGA3 (Cluster_1 + Cluster_2)
Ameijeiras-Alonso et al. Excess Mass Fit
## [1] "Bimodality P-value of PGA3 using Ameijeiras-Alonso et al. Excess Mass Fit is: 0"Bimodality Coefficient
## sub_m_c1_c2$value
## [1,] FALSE## [1] "Bimodality Coefficient of PGA3 is: 0.42, which is less than 0.555, so no bimodality detected."Cheng and Hall Excess Mass
## [1] "Bimodality P-value of PGA3 using Cheng and Hall Excess Mass is: 0"Fisher and Marron Carmer-von Mises
## [1] "Bimodality P-value of PGA3 using Fisher and Marron Carmer-von Mises is: 0.046"Hall and York Bandwidth test
## [1] "Bimodality P-value of PGA3 using Hall and York Bandwidth test is: 0.041"Hartigans’ dip test
## [1] "Bimodality P-value of PGA3 using Hartigans' dip test is: 0.017"Sliverman Bandwidth
## [1] "Bimodality P-value of PGA3 using Sliverman Bandwidth is: 0.266"