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Last Updated: March 29, 2024

Claims for Patent: 9,297,814


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Summary for Patent: 9,297,814
Title:Methods of detecting ovarian cancer
Abstract: Methods of screening human female subject for a risk of ovarian cancer are described. High levels of calcium in serum are shown to be significantly positively associated with the risk of ovarian cancer and can advantageously be used to triage women into risk categories for more intensive testing. Also included are preoperative methods of determining if an adnexal mass is likely to be malignant or benign.
Inventor(s): Skinner; Halcyon Gerald (Middleton, WI), Schwartz; Gary G. (Winston-Salem, NC)
Assignee: WISCONSIN ALUMNI RESEARCH FOUDATION (Madison, WI) WAKE FOREST UNIVERSITY HEALTH SCIENCES (Winston-Salem, NC)
Application Number:14/147,941
Patent Claims:1. A preoperative method of determining a greater likelihood that an adnexal mass in a female subject is malignant or benign, comprising providing a blood sample collected from the subject; isolating serum or plasma from the blood sample to obtain a serum or plasma sample; determining a total calcium level and an albumin level in the serum or plasma sample; comparing the total calcium level and the albumin level of the serum or plasma sample to a multivariable generalized additive predictive model that includes total serum or plasma calcium and albumin for a population including patients with malignant ovarian masses and patients with benign ovarian masses, and the age and body mass of the population as covariates, wherein a model output is scaled as a range; and providing a predictive score for the female subject based upon the comparison; and determining that the adnexal mass in the female subject is likely to be malignant or likely to be benign based on the predictive score for the female subject.

2. The method of claim 1, wherein it is determined that the adnexal mass is likely to be malignant and further comprising referring the subject to a gynecological surgeon for removal of the malignant adnexal mass.

3. A preoperative method of determining if an adnexal mass in a female subject is likely to be malignant or likely to be benign, comprising providing a blood sample collected from the subject; isolating serum or plasma from the blood sample to obtain a serum or plasma sample; determining a total calcium level and an albumin level in the serum or plasma sample, and calculating an albumin corrected calcium level of the serum or plasma sample from the subject; comparing the albumin-corrected calcium level of the serum or plasma sample from the subject to a predictive model that includes albumin-corrected calcium levels for a normal distribution of a population not characterized as at risk for ovarian cancer; and determining that the adnexal mass is malignant when the albumin-corrected calcium level in the serum or plasma sample is high normocalcemic to hypercalcemic or deviates upward from normal based on the predictive model, determining that the adnexal mass is benign when the albumin-corrected calcium level in the serum or plasma sample is normocalcemic or lower, is normal based on the predictive model or deviates downward from normal based on the predictive model, wherein the albumin-corrected calcium level in the serum or plasma sample is calculated as (0.8 times the difference between 4.0 g/dL and the albumin level in the serum or plasma sample)+(the total calcium level in the serum or plasma sample in mg/dL).

4. The method of claim 3, wherein it is determined that the adnexal mass is likely to be malignant and further comprising referring the subject to a specialist for removal of the malignant adnexal mass.

5. The method of claim 3, wherein the predictive model further comprises a covariate and the covariate is age, body mass index, menopausal status, parity, or a combination thereof.

6. The method of claim 3, wherein the albumin-corrected calcium level that deviates upward from normal is greater than or equal to 9.8 mg/dl.

7. A method of screening for an increased risk of ovarian cancer in a human female subject, comprising providing a blood sample collected from the subject; isolating serum or plasma from the blood sample to obtain a serum or plasma sample; determining a level of total or ionized calcium in the serum or plasma sample; comparing the level of total or ionized calcium in the serum or plasma sample to a normal distribution from a population not characterized as at risk of ovarian cancer, wherein the normal distribution is adjusted using age as a covariate, and determining that the subject has an increased risk of ovarian cancer when the level of total or ionized calcium in the serum or plasma sample is in an upper tertile compared to the age-adjusted normal distribution, wherein the subject is experiencing one or more symptoms of ovarian cancer and/or wherein the subject has a family history of breast or ovarian cancer.

8. The method of claim 7, wherein an increase in total or ionized serum calcium is not accompanied by an increase in serum parathyroid hormone, or is accompanied by a detectable level of parathyroid-hormone-related peptide.

9. The method of claim 7, wherein the level of total or ionized calcium in the serum or plasma sample in an upper tertile compared to the normal distribution is increased 0.25 mg/dl or more compared to a midpoint of the normal distribution.

10. The method of claim 7, wherein when said serum or plasma sample is in the upper tertile compared to the normal distribution further detecting CA-125 in a blood sample from the subject, screening with ultrasound, or both.

11. The method of claim 7, wherein when said serum or plasma sample is in the upper tertile compared to the normal distribution further detecting beta-2 microglobulin, CA 125-II, apolipoprotein Al, prealbumin, and transferrin in a blood sample from the subject.

12. The method of claim 7, wherein the subject is experiencing one or more symptoms of ovarian cancer and/or has a family history of breast or ovarian cancer and has been tested for beta-2 microglobulin, CA 125-II, apolipoprotein Al, prealbumin, and transferrin in a blood sample from the subject.

13. The method of claim 7, wherein when the subject is found to be at risk of ovarian cancer, the method further comprises assaying a blood sample for human epididymis protein 4.

14. A method of screening for an increased risk of ovarian cancer in a human female subject, comprising providing a first blood sample collected from the subject at a first time and a second blood sample collected from the subject at a second time; isolating serum or plasma from the first blood sample and the second blood sample to obtain a first serum or plasma sample and a second serum or plasma sample; determining a level of total or ionized calcium in the first and second serum or plasma samples; and determining that the subject has an increased risk of ovarian cancer when the level of total or ionized calcium in the second serum or plasma sample is increased compared to the first serum or plasma sample, wherein increased total or ionized calcium in the second serum or plasma sample is increased by 10% or more, and the increase in total or ionized calcium is not accompanied by an increase in parathyroid hormone, and/or is accompanied by a detectable level of parathyroid-hormone related peptide, wherein the subject is experiencing one or more symptoms of ovarian cancer and/or wherein the subject has a family history of breast or ovarian cancer.

15. The method of claim 14, wherein a time interval from the first time to the second time is 6 weeks.

16. The method of claim 14, wherein the subject has been tested for beta-2 microglobulin, CA 125-II, apolipoprotein Al, prealbumin, and transferrin in a blood sample from the subject.

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