1. Bioactive apolar extract of plant material containing bioactive undenatured plant genetic material for treatment of mammalian diseases and disorders.
2. Bioactive apolar extract of plant material according to claim 1, wherein the extract of plant material is derived from aerial, underwater parts of the plants from plant kingdom.
3. Bioactive apolar extract of plant material according to claim 1, wherein the plants material is from, but not limited to, high altitude plants which grow above 8,000 feet altitude.
4. Bioactive apolar extract of plant material according to claim 1, wherein the plants material is derived from, but not limited to, the underground parts.
5. Bioactive apolar extract of plant material according to claim 1, wherein the plant genetic material is non-coding small RNAs.
6. Bioactive apolar extract of plant material according to claim 1, wherein the plant genetic material is microRNAs.
7. Bioactive apolar extract of plant material according to claim 1, wherein the plant genetic material is antisense microRNAs.
8. Bioactive apolar extract of plant material according to claim 1, wherein the bioactive apolar plant extract further contains, but not limited to NadPH Oxidase inhibitors of the same or other plant material.
9. Bioactive apolar extract of plant material according to claim 1, wherein mammalian diseases and disorders are neurological, neurodegenerative, neuromuscular, oxidative stress, HIV, AIDS, Cancer, tumour, hyperlipidemia, hepatic diseases, hypothyroidism, autoimmune disorder, metabolic disorder, skin disorders.
10. Bioactive apolar extract of plant material according to claim 1, wherein bioactive apolar extract contains less than 20 percent of dipolar constituents and less than 2 percent of sugar moieties.
11. Bioactive apolar extract of plant material according to claim 1, wherein extract of plant material is highly flammable with very low flash point.
12. Bioactive apolar extract of plant material according to claim 1, wherein the extract of plant material is in solid or semi-solid form at 20 deg C..
13. Bioactive apolar extract of plant material according to claim 1, wherein the extract of plant material is formulated into tablet, caplet, capsule, gel cap, injection, syrup, patch for administration to mammalians.
14. Bioactive apolar extract of plant material according to claim 13, wherein method of administration is oral, transdermal, subcutaneous, IV, IM in medically accepted dosage.
15. Bioactive apolar extract of plant material according to claim 13, wherein administration dosage is from 10 mg to 1,000 mg per day in dry form.
16. Bioactive apolar extract of plant material according to claim 13, wherein formulation is further added with adjuvants to enhance the taste, flavour, appearance, colour, stability, efficacy.
17. Bioactive apolar extract of plant material according to claim 13, wherein formulation is administered to mammalians as food supplement or prophylactic agent or medicine.
18. Bioactive apolar extract of plant material from aerial andor underground andor underwater parts of plants containing undenatured genetic and other bioactive material has been obtained by:
Cleaning, Washing, Drying of parts of plants at below 10 deg C. temperature
Pulverizing the plant material to coarse powder at below 20 deg C. temperature, under inert gas atmosphere.
Extraction with activated apolar solvent at below 20 deg C. temperature.
Collecting liquid extract and evaporating the solvent below 20 deg C. temperature under inert gas atmosphere.
Drying apolar plant extract below 30 deg C. temperature, under inert gas atmosphere.
Packing and formulating the dried apolar plant extract below 20 deg C. temperature, under inert gas atmosphere.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A pipe support clamp, comprising:
a first housing adapted to surround a portion of a pipe;
a second housing adapted to surround a portion of the pipe, wherein the second housing is coupled to the first housing; and
a plurality of high temperature inserts, wherein at least one high temperature insert is coupled to an inner surface of the first housing, at least one high temperature insert is coupled to an inner surface of the second housing, and the high temperature inserts are evenly spaced around the inner surfaces of the first housing and the second housing,
wherein each of the plurality of high temperature inserts is adapted to engage a shear lug.
2. The pipe support clamp of claim 1, further comprising a plurality of fastening devices to couple the first housing to the second housing.
3. The pipe support clamp of claim 1, further comprising at least one spacer, wherein the spacer is positioned between the first housing and the second housing to separate the first housing from the second housing at a predetermined distance.
4. A pipe support clamp, comprising:
a first housing adapted to surround a portion of a pipe;
a second housing adapted to surround a portion of the pipe, wherein the second housing is coupled to the first housing; and
a plurality of high temperature inserts, wherein at least one high temperature insert is coupled to an inner surface of the first housing, at least one high temperature insert is coupled to an inner surface of the second housing, the high temperature inserts are evenly spaced around the inner surfaces of the first housing and the second housing,
wherein each of the plurality of high temperature inserts is adapted to engage a stanchion.
5. The pipe support clamp of claim 4, further comprising a plurality of fastening devices to couple the first housing to the second housing.
6. The pipe support clamp of claim 4, further comprising at least one spacer, wherein the spacer is positioned between the first housing and the second housing to separate the first housing from the second housing at a predetermined distance.
7. A pipe support clamp, comprising:
a first housing adapted to surround a portion of a pipe;
a second housing adapted to surround a portion of the pipe, wherein the second housing is coupled to the first housing; and
a plurality of high temperature inserts, wherein at least one high temperature insert is coupled to an inner surface of the first housing, at least one high temperature insert is coupled to an inner surface of the second housing, the high temperature inserts are evenly spaced around the inner surfaces of the first housing and the second housing,
wherein the first housing and the second housing are of a standard grade alloy and the plurality of high temperature inserts are of a higher grade alloy.
8. The pipe support clamp of claim 7, wherein the higher grade alloy is adapted to withstand temperatures in excess of 500\xb0 F. (260\xb0 C.).
9. The pipe support clamp of claim 8, wherein the higher grade alloy is chosen from the group consisting of ASTM A387 Grade 22 alloy and ASTM A387 Grade P91 alloy.
10. A system for supporting a pipe, comprising:
a pipe;
at least one pipe support clamp supporting the pipe, wherein each pipe support clamp includes:
a first housing adapted to surround a portion of the pipe;
a second housing adapted to surround a portion of the pipe, wherein the second housing is coupled to the first housing; and
a plurality of high temperature inserts, wherein at least one high temperature insert is coupled to an inner surface of the first housing, at least one high temperature insert is coupled to an inner surface of the second housing, and the high temperature inserts are evenly spaced around the inner surfaces of the first housing and the second housing; and
a plurality of shear lugs coupled to the pipe,
wherein each high temperature insert is adapted to engage a shear lug.
11. The system of claim 10, wherein each pipe support clamp further comprises a plurality of fastening devices to couple the first housing to the second housing.
12. The system of claim 10, wherein each pipe support clamp further comprises at least one spacer, wherein the spacer is positioned between the first housing and the second housing to separate the first housing from the second housing at a predetermined distance.
13. A system for supporting a pipe, comprising:
a pipe;
at least one pipe support clamp supporting the pipe, wherein each pipe support clamp includes:
a first housing adapted to surround a portion of the pipe;
a second housing adapted to surround a portion of the pipe, wherein the second housing is coupled to the first housing; and
a plurality of high temperature inserts, wherein at least one high temperature insert is coupled to an inner surface of the first housing, at least one high temperature insert is coupled to an inner surface of the second housing, and the high temperature inserts are evenly spaced around the inner surfaces of the first housing and the second housing; and
a plurality of stanchions,
wherein each high temperature insert is adapted to engage a stanchion.
14. The system of claim 13, wherein each pipe support clamp further comprises a plurality of fastening devices to couple the first housing to the second housing.
15. The system of claim 13, wherein each pipe support clamp further comprises at least one spacer, wherein the spacer is positioned between the first housing and the second housing to separate the first housing from the second housing at a predetermined distance.
16. A system for supporting a pipe, comprising:
a pipe; and
at least one pipe support clamp supporting the pipe, wherein each pipe support clamp includes:
a first housing adapted to surround a portion of the pipe;
a second housing adapted to surround a portion of the pipe, wherein the second housing is coupled to the first housing; and
a plurality of high temperature inserts, wherein at least one high temperature insert is coupled to an inner surface of the first housing, at least one high temperature insert is coupled to an inner surface of the second housing, and the high temperature inserts are evenly spaced around the inner surfaces of the first housing and the second housing;
wherein the first housing and the second housing are of a standard grade alloy and the plurality of high temperature inserts are of a higher grade alloy.
17. The system of claim 16, wherein the higher grade alloy is adapted to withstand temperatures in excess of 500\xb0 F. (260\xb0 C.).
18. The system of claim 17, wherein the higher grade alloy is chosen from the group consisting of ASTM A387 Grade P91 alloy.
19. A method of supporting a pipe, comprising:
coupling at least one high temperature insert to an inner surface of a first housing;
coupling at least one high temperature insert to an inner surface of a second housing;
positioning the pipe between the first housing and the second housing, wherein the high temperature inserts are adjacent to an outer surface of the pipe; and
coupling the first housing to the second housing so that the high temperature inserts come into contact with the outer surface of the pipe, wherein the high temperature inserts are evenly spaced around the outer surface of the pipe;
wherein there are a plurality of shear lugs coupled to the pipe and each high temperature insert is adapted to engage one shear lug.
20. The method of claim 19, further comprising coupling the first housing to the second housing with at least one fastening device.
21. The method of claim 19, further comprising positioning at least one spacer between the first housing and the second housing to separate the first housing from the second housing at a predetermined distance.
22. A method of supporting a pipe, comprising:
coupling at least one high temperature insert to an inner surface of a first housing;
coupling at least one high temperature insert to an inner surface of a second housing;
positioning the pipe between the first housing and the second housing, wherein the high temperature inserts are adjacent to an outer surface of the pipe; and
coupling the first housing to the second housing so that the high temperature inserts come into contact with the outer surface of the pipe, wherein the high temperature inserts are evenly spaced around the outer surface of the pipe;
wherein there are a plurality of stanchions and each high temperature insert is adapted to engage a stanchion.
23. The method of claim 22, further comprising coupling the first housing to the second housing with at least one fastening device.
24. The method of claim 22, further comprising coupling the first housing to the second housing with at least one fastening device.
25. A method of supporting a pipe, comprising:
coupling at least one high temperature insert to an inner surface of a first housing;
coupling at least one high temperature insert to an inner surface of a second housing;
positioning the pipe between the first housing and the second housing, wherein the high temperature inserts are adjacent to an outer surface of the pipe; and
coupling the first housing to the second housing so that the high temperature inserts come into contact with the outer surface of the pipe,
wherein the high temperature inserts are evenly spaced around the outer surface of the pipe, and
wherein the first housing and the second housing are of a standard grade alloy and the plurality of high temperature inserts are of a higher grade alloy.
26. The method of claim 25, wherein the higher grade alloy is adapted to withstand temperatures in excess of 500\xb0 F. (260\xb0 C.).
27. The method of claim 26, wherein the higher grade alloy is chosen from the group consisting of ASTM A387 Grade P91 alloy.