Background Hereditary paraganglioma-related germline SDHD (succinate dehydrogenase D) and SDHAF2 (Succinate Dehydrogenase Complex Assembly Factor 2) exhibit a striking parent-of-origin effect. The mutant gene must be passed down from the father in order for tumor to occur. This particular pattern of inheritance may be related to the deletion of maternal fragments of 11p15.5-15.4 in tumors, which has been confirmed in the past studies by methods of fluorescent in situ hybridization (FISH), loss of heterozygosity analysis (LOH analysis), microsatellite marker and single nucleotide polymorphism array (SNP array). Aim The resolution of previous studies was low. For higher resolution of gene on chromosome 11p15.5-15.4, we designed a novel approach - single nucleotides variation probe. Methods We obtained blood samples from some SDHD patients' parents, specimens of 13 paraganglioma associated to SDHD through inheritance, 23 paraganglioma tumors unrelated to SDHD, and one adrenal medullary hyperplasia linked to SDHAF2.On 12 maternally expressed genes located at 11p15.5-15.4, the sequencing analysis of 1-8 single-nucleotide variations was carried out using the single nucleotide variation probe and next generation sequencing (NGS) method. We can establish whether there is a maternal gene deletion in the tumor sample by comparing and analyzing the single nucleotide variation data of the patient's tumor and the blood from the patient's parents. Results Only one tumor showed no heterozygosity imbalance among of the 13 hereditary paraganglioma samples related to SDHD, while 12 samples had a heterozygosity imbalance ratio (H/I Ratio) more than 75%. There were four patients who could determine that more than 80% of the gene deletions in the tumor came from the mother and there was no evidence of the father's gene deletion in the SDHD family whose parents' blood or mother's blood was obtained. In SDHAF2 related adrenal medullary hyperplasia (AMH), only H19 had loss of heterozygosity. The heterozygosity imbalance ratio (H/I Ratio) was higher in paraganglioma with mutant gene related to pseudohypoxia in Non-SDHD group. Conclusions Using a single nucleotide variant probe (SNP probe) strategy, it was determined that the SDHD related hereditary paraganglioma had maternal gene loss in the 11p15.5–15.4. The tumor suppressor gene H19 might result in paternal inheritance. Positive correlations were found between maternal gene deletions in the 11p15.5– 15.4 and pseudohypoxic oncogenic patterns.