Using size and number aberrations in plasma DNA for detecting cancer

What is claimed is: 1. A method of analyzing a biological sample of an organism, the biological sample including nucleic acid molecules originating from normal cells and potentially from cells associated with cancer, wherein at least some of the nucleic acid molecules are cell-free in the biological sample, the method comprising: identifying a plurality of chromosomal regions of the organism, each chromosomal region including a plurality of loci; for each of a plurality of the nucleic acid molecules in the biological sample: measuring a size of the nucleic acid molecule; and identifying a location of the nucleic acid molecule in a reference genome of the organism; for each of the plurality of chromosomal regions: identifying a respective group of nucleic acid molecules as being from the chromosomal region based on the identified locations, the respective group including at least one nucleic acid molecule located at each of the plurality of loci of the chromosomal region; calculating, with a computer system, a respective amount of the respective group of nucleic acid molecules; and comparing the respective amount to a count reference value to determine a count classification of whether the chromosomal region exhibits an aberration, the count classification for a first chromosomal region of the plurality of chromosomal regions indicating a first aberration; identifying a first group of nucleic acid molecules as being from the first chromosomal region based on the identified locations; calculating, with a computer system, a first statistical value of a first size distribution of the first group of nucleic acid molecules; comparing the first statistical value to a size reference value to determine a size classification of whether the first chromosomal region exhibits the first aberration; determining a final classification of whether the first chromosomal region exhibits the first aberration using the count classification and the size classification of the first chromosomal region; and determining whether cancer exists in the organism using the final classification. 2. The method of claim 1 , wherein the final classification is that the first aberration exists only when the count classification and the size classification indicate a same aberration. 3. The method of claim 1 , wherein the plurality of chromosomal regions are non-overlapping. 4. The method of claim 1 , wherein the final classification is that the first aberration exists, the method further comprising: obtaining a calibration function that provides a relationship between a size of a tumor and the first statistical value; and determining the size of the tumor using the calibration function. 5. The method of claim 4 , wherein the calibration function is determined from calibration data points of reference samples from organisms with tumors of known size, wherein a calibration data point includes a measurement of the size of the tumor and a corresponding statistical measurement of sizes of nucleic acid molecules from the first chromosomal region. 6. The method of claim 1 , wherein the respective value comprises a mean of the first size distribution, a median of the first size distribution, a mode of the of the first size distribution, or a proportion of nucleic acid molecules having a size below a size threshold. 7. The method of claim 1 , wherein the size reference value corresponds to a second statistical value of a second size distribution of a second chromosomal region. 8. The method of claim 7 , wherein comparing the first statistical value to the size reference value includes: determining a separation value between the first statistical value and the size reference value; and comparing the separation value to a threshold value. 9. The method of claim 1 , further comprising: determining a set of size classifications for a set of chromosomal regions identified as aberrant based on corresponding count classifications; and confirming whether the set of chromosomal regions are aberrant based on the set of size classifications. 10. A computer product comprising a computer readable medium storing a plurality of instructions for controlling a computer system to perform a method, the method comprising: identifying a plurality of chromosomal regions of the organism, each chromosomal region including a plurality of loci; for each of a plurality of the nucleic acid molecules in the biological sample: measuring a size of the nucleic acid molecule; and identifying a location of the nucleic acid molecule in a reference genome of the organism; for each of the plurality of chromosomal regions: identifying a respective group of nucleic acid molecules as being from the chromosomal region based on the identified locations, the respective group including at least one nucleic acid molecule located at each of the plurality of loci of the chromosomal region; calculating, with a computer system, a respective amount of the respective group of nucleic acid molecules; and comparing the respective amount to a count reference value to determine a count classification of whether the chromosomal region exhibits an aberration, the count classification for a first chromosomal region of the plurality of chromosomal regions indicating a first aberration; identifying a first group of nucleic acid molecules as being from the first chromosomal region based on the identified locations; calculating, with a computer system, a first statistical value of a first size distribution of the first group of nucleic acid molecules; comparing the first statistical value to a size reference value to determine a size classification of whether the first chromosomal region exhibits the first aberration; determining a final classification of whether the first chromosomal region exhibits the first aberration using the count classification and the size classification of the first chromosomal region; and determining whether cancer exists in the organism using the final classification. 11. The method of claim 1 , further comprising: for each of the plurality of chromosomal regions: identifying a respective group of nucleic acid molecules as being from the chromosomal region based on the identified locations, calculating, with a computer system, a respective statistical value of a respective size distribution of the respective group of nucleic acid molecules, comparing the respective statistical value to the size reference value to determine a size classification of whether the chromosomal region exhibits the aberration, and determining a respective final classification of whether the chromosomal region exhibits the aberration using the respective count classification and the respective size classification of the chromosomal region. 12. The method of claim 11 , wherein the count classification for each of the plurality of chromosomal regions is that the chromosomal region exhibits an aberration. 13. The method of claim 11 , wherein determining whether cancer exists in the organism comprises: determining an amount of chromosomal regions exhibiting an aberration; and comparing the amount of chromosomal regions to a threshold.